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ICRA 2022 Paper List

This repo lists all papers in ICRA 2022.

  • Can Your Drone Touch? Exploring the Boundaries of Consumer-Grade Multirotors for Physical Interaction
  • A Multi-VTOL Modular Aspect Ratio Reconfigurable Aerial Robot
  • Passive Wall Tracking for a Rotorcraft with Tilted and Ducted Propellers Using Proximity Effects
  • Elastic Vibration Suppression Control for Multilinked Aerial Robot Using Redundant Degrees-Of-Freedom of Thrust Force
  • Fly Out the Window: Exploiting Discrete-Time Flatness for Fast Vision-Based Multirotor Flight
  • ReSL: Rethinking Scale Learning in Correlation Filters for Real-Time UAV Tracking
  • Elastic Tracker: A Spatio-Temporal Trajectory Planner for Flexible Aerial Tracking
  • Aerial Manipulation Using Contact with the Environment by Thrust Vectorable Multilinked Aerial Robot
  • Nonlinear MPC for Quadrotor Fault-Tolerant Control
  • Globally Stable Attitude Control and Quasi-Static Disturbance Estimation in Fixed-Wing UAVs
  • A Fast and Efficient Attitude Control Algorithm of a Tiltable Actuator Aerial Platform Using Inputs Redundancies
  • Evolved Neuromorphic Radar-Based Altitude Controller for an Autonomous Open-Source Blimp
  • Prediction of Metacarpophalangeal Joint Angles and Classification of Hand Configurations Based on Ultrasound Imaging of the Forearm
  • SAGCI-System: Towards Sample-Efficient, Generalizable, Compositional, and Incremental Robot Learning
  • Sim2Air - Synthetic Aerial Dataset for UAV Monitoring
  • Radar-Based Materials Classification Using Deep Wavelet Scattering Transform: A Comparison of Centimetre vs. Millimetre Wave Units
  • A Method for Designing Autonomous Robots That Know Their Limits
  • Task Persistification for Robots with Control-Dependent Energy Dynamics
  • Charting the Trade-Off between Design Complexity and Plan Execution under Probabilistic Actions
  • Posetal Games: Efficiency, Existence, and Refinement of Equilibria in Games with Prioritized Metrics
  • Towards Dynamic Visual Servoing for Interaction Control and Moving Targets
  • An Agile Bicycle-Like Robot for Complex Steel Structure Inspection
  • CCRobot-V: A Silkworm-Like Cooperative Cable-Climbing Robotic System for Cable Inspection and Maintenance
  • Learning to Navigate by Pushing
  • Online Optimal Landing Control of the MIT Mini Cheetah
  • Passive Inverse Dynamics Control Using a Global Energy Tank for Torque-Controlled Humanoid Robots in Multi-Contact
  • Modeling, Validation, and Design Investigation of a Passive Biped Walker with Knees and Biomimetic Feet
  • A Mathematical Design for a Novel Walking Support Device That Leverages Passive Dynamics and Coupling Effects
  • Scalable Minimally Actuated Leg Extension Bipedal Walker Based on 3D Passive Dynamics
  • Task-Oriented Generation of Stable Motions for Wheeled Inverted Pendulum Robots
  • Whole-Body MPC and Dynamic Occlusion Avoidance: A Maximum Likelihood Visibility Approach
  • Whole-Body Control of Series-Parallel Hybrid Robots
  • Omni-Roach: A Legged Robot Capable of Traversing Multiple Types of Large Obstacles and Self-Righting
  • Fast Collision Checking for Dual-Arm Collaborative Robots Working in Close Proximity
  • DPMPC-Planner: A Real-Time UAV Trajectory Planning Framework for Complex Static Environments with Dynamic Obstacles
  • Simultaneous Control and Trajectory Estimation for Collision Avoidance of Autonomous Robotic Spacecraft Systems
  • Collision Avoidance for Multiple Quadrotors Using Elastic Safety Clearance Based Model Predictive Control
  • Improving the Feasibility of DS-Based Collision Avoidance Using Non-Linear Model Predictive Control
  • Learning to Socially Navigate in Pedestrian-Rich Environments with Interaction Capacity
  • Safety-Critical Control and Planning for Obstacle Avoidance between Polytopes with Control Barrier Functions
  • Nearest-Neighbor-Based Collision Avoidance for Quadrotors Via Reinforcement Learning
  • CoMet: Modeling Group Cohesion for Socially Compliant Robot Navigation in Crowded Scenes
  • Transferable Collision Detection Learning for Collaborative Manipulator Using Versatile Modularized Neural Network
  • Fully Persistent Spatial Data Structures for Efficient Queries in Path-Dependent Motion Planning Applications
  • Iterative Mesh Modification Planning: A New Method for Automatic Disassembly Planning of Complex Industrial Components
  • SPIN Road Mapper: Extracting Roads from Aerial Images Via Spatial and Interaction Space Graph Reasoning for Autonomous Driving
  • G3DOA: Generalizable 3D Descriptor with Overlap Attention for Point Cloud Registration
  • Object Insertion Based Data Augmentation for Semantic Segmentation
  • Depth Estimation Matters Most: Improving Per-Object Depth Estimation for Monocular 3D Detection and Tracking
  • Approximating the Polynomial System for Effective Relative Pose Estimation
  • PolarMesh: A Star-Convex 3D Shape Approximation for Object Pose Estimation
  • Burst Imaging for Light-Constrained Structure-From-Motion
  • A Linear Comb Filter for Event Flicker Removal
  • Towards Robust Part-Aware Instance Segmentation for Industrial Bin Picking
  • Learning Local Event-Based Descriptor for Patch-Based Stereo Matching
  • PQ-Transformer: Jointly Parsing 3D Objects and Layouts from Point Clouds
  • Stable 3D Human Pose Estimation in Low-Resolution Videos with a Few Views
  • Learning Multi-Task Transferable Rewards Via Variational Inverse Reinforcement Learning
  • Learning from Imperfect Demonstrations Via Adversarial Confidence Transfer
  • OPIRL: Sample Efficient Off-Policy Inverse Reinforcement Learning Via Distribution Matching
  • Cross Domain Robot Imitation with Invariant Representation
  • Demonstration-Efficient Guided Policy Search Via Imitation of Robust Tube-MPC
  • Weakly Supervised Correspondence Learning
  • JST: Joint Self-Training for Unsupervised Domain Adaptation on 2D&3D Object Detection
  • Learning Spatiotemporal Occupancy Grid Maps for Lifelong Navigation in Dynamic Scenes
  • Improving Pedestrian Prediction Models with Self-Supervised Continual Learning
  • A Deep Feature Aggregation Network for Accurate Indoor Camera Localization
  • Kinematic Structure Estimation of Arbitrary Articulated Rigid Objects for Event Cameras
  • Incremental Learning for Enhanced Personalization of Autocomplete Teleoperation
  • Multi-Robot Collaborative Perception with Graph Neural Networks
  • Self-Supervised Depth and Ego-Motion Estimation for Monocular Thermal Video Using Multi-Spectral Consistency Loss
  • LoopNet: Where to Focus? Detecting Loop Closures in Dynamic Scenes
  • Bayesian Deep Neural Networks for Supervised Learning Single-View Depth
  • WS-OPE: Weakly Supervised 6D Object Pose Regression Using Relative Multi-Camera Pose Constraints
  • Full Surround Monodepth from Multiple Cameras
  • Learning to Detect Slip with Barometric Tactile Sensors and a Temporal Convolutional Neural Network
  • Weakly Supervised Disentangled Representation for Goal-Conditioned Reinforcement Learning
  • Adaptive Cost Volume Fusion Network for Multi-Modal Depth Estimation in Changing Environments
  • Learning to Remove Bad Weather: Towards Robust Visual Perception for Self-Driving
  • A Robotic Grasping State Perception Framework with Multi-Phase Tactile Information and Ensemble Learning
  • SimVODIS++: Neural Semantic Visual Odometry in Dynamic Environments
  • Meta-Path Analysis on Spatio-Temporal Graphs for Pedestrian Trajectory Prediction
  • Interleaving Monte Carlo Tree Search and Self-Supervised Learning for Object Retrieval in Clutter
  • RepAr-Net: Re-Parameterized Encoders and Attentive Feature Arsenals for Fast Video Denoising
  • A User-Customized Automatic Music Composition System
  • KEMP: Keyframe-Based Hierarchical End-To-End Deep Model for Long-Term Trajectory Prediction
  • Narrowing the Coordinate-Frame Gap in Behavior Prediction Models: Distillation for Efficient and Accurate Scene-Centric Motion Forecasting
  • Learnable Online Graph Representations for 3D Multi-Object Tracking
  • SEHLNet: Separate Estimation of High and Low-Frequency Components for Depth Completion
  • Visually Grounding Language Instruction for History-Dependent Manipulation
  • PANet: A Novel Pixel-Level Attention Network for 6D Pose Estimation with Embedding Vector Features
  • Learning Visual Localization of a Quadrotor Using Its Noise As Self-Supervision
  • PF-MOT: Probability Fusion Based 3D Multi-Object Tracking for Autonomous Vehicles
  • Powerful and Dexterous Multi-Finger Hand Using Dynamical Pulley Mechanism
  • HGC-Net: Deep Anthropomorphic Hand Grasping in Clutter
  • Learn to Grasp with Less Supervision: A Data-Efficient Maximum Likelihood Grasp Sampling Loss
  • Multi-Dimensional Compliance of Soft Grippers Enables Gentle Interaction with Thin, Flexible Objects
  • Grasp Transfer for Deformable Objects by Functional Map Correspondence
  • Learning Object Relations with Graph Neural Networks for Target-Driven Grasping in Dense Clutter
  • Learning to Pick by Digging: Data-Driven Dig-Grasping for Bin Picking from Clutter
  • Automatic Acquisition of a Repertoire of Diverse Grasping Trajectories through Behavior Shaping and Novelty Search
  • FFHNet: Generating Multi-Fingered Robotic Grasps for Unknown Objects in Real-Time
  • A Force-Sensitive Grasping Controller Using Tactile Gripper Fingers and an Industrial Position-Controlled Robot
  • Multi-Object Grasping -- Types and Taxonomy
  • Dual CC-Closure Region for Checking Two-Finger Object Caging in a Plane
  • A Novel Convolutional Neural Network for Emotion Recognition Using Neurophysiological Signals
  • AMI: Adaptive Motion Imitation Algorithm Based on Deep Reinforcement Learning
  • Grouptron: Dynamic Multi-Scale Graph Convolutional Networks for Group-Aware Dense Crowd Trajectory Forecasting
  • Deep Learning-Driven Front-Following within Close Proximity: A Hands-Free Control Model on a Smart Walker
  • A2DIO: Attention-Driven Deep Inertial Odometry for Pedestrian Localization Based on 6D IMU
  • Adaptable Action-Aware Vital Models for Personalized Intelligent Patient Monitoring
  • Human-Following and -Guiding in Crowded Environments Using Semantic Deep-Reinforcement-Learning for Mobile Service Robots
  • Robust Impedance Control for Dexterous Interaction Using Fractal Impedance Controller with IK-Optimisation
  • Learning Sparse Interaction Graphs of Partially Detected Pedestrians for Trajectory Prediction
  • Posture Control of the Passenger Based on Caregiver's Wrist Motion for a Step-Climbing Stroller
  • Towards Efficient 3D Human Motion Prediction Using Deformable Transformer-Based Adversarial Network
  • Electrocardiography Measurement and Emotion Estimation of Working Dogs
  • RTGNN: A Novel Approach to Model Stochastic Traffic Dynamics
  • RMS-FlowNet: Efficient and Robust Multi-Scale Scene Flow Estimation for Large-Scale Point Clouds
  • Real-Time Full-Stack Traffic Scene Perception for Autonomous Driving with Roadside Cameras
  • SafetyNet: Safe Planning for Real-World Self-Driving Vehicles Using Machine Learned Policies
  • Camera-Tracklet-Aware Contrastive Learning for Unsupervised Vehicle Re-Identification
  • Decentralized Ride-Sharing of Shared Autonomous Vehicles Using Graph Neural Network-Based Reinforcement Learning
  • Extrinsic Calibration and Verification of Multiple Non-Overlapping Field of View Lidar Sensors
  • LB-L2L-Calib: Accurate and Robust Extrinsic Calibration for Multiple 3D LiDARs with Long Baseline and Large Viewpoint Difference
  • Fusing Event-Based and RGB Camera for Robust Object Detection in Adverse Conditions
  • Pedestrian Stop and Go Forecasting with Hybrid Feature Fusion
  • Online Prediction of Lane Change with a Hierarchical Learning-Based Approach
  • Reconstruction and Synthesis of Lidar Point Clouds of Spray
  • Gripper Positioning for Object Deformation Tasks
  • Non-Prehensile Planar Manipulation Via Trajectory Optimization with Complementarity Constraints
  • Coordinate Invariant User-Guided Constrained Path Planning with Reactive Rapidly Expanding Plane-Oriented Escaping Trees
  • PyRoboCOP: Python-Based Robotic Control & Optimization Package for Manipulation
  • Robust Pivoting: Exploiting Frictional Stability Using Bilevel Optimization
  • TOPP-MPC Based Dual-Arm Dynamic Collaborative Manipulation for Multi-Object Nonprehensile Transportation
  • Category-Association Based Similarity Matching for Novel Object Pick-And-Place Task
  • Excavation Reinforcement Learning Using Geometric Representation
  • RCIK: Real-Time Collision-Free Inverse Kinematics Using a Collision-Cost Prediction Network
  • Automated Stability Testing of Elastic Rods with Helical Centerlines Using a Robotic System
  • Coordination of Two Robotic Manipulators for Object Retrieval in Clutter
  • Planning and Control for Cable-Routing with Dual-Arm Robot
  • DRAGONFLY: A UAV Rapidly Deployed Micro-Profiler Array for Underwater Thermocline Observation
  • Design, Modeling and Implementation of a Projectile-Based Mechanism for USVs Charging Tasks
  • Overhead Image Factors for Underwater Sonar-Based SLAM
  • Using Monocular Vision and Human Body Priors for AUVs to Autonomously Approach Divers
  • Broadband Acoustic Communication Aided Underwater Inertial Navigation System
  • Learning Cross-Scale Visual Representations for Real-Time Image Geo-Localization
  • Design of an Autonomous Latching System for Surface Vessels
  • Towards Accurate Positioning of Underwater Vehicles Using Low-Cost Acoustic Modems
  • High Definition, Inexpensive, Underwater Mapping
  • A Bio-Inspired Simultaneous Surface and Underwater Risk Assessment Method Based on Stereo Vision for USVs in Nearshore Clean Waters
  • Reconfigurable Underactuated Adaptive Gripper Designed by Morphological Computation
  • A Modular Lockable Mechanism for Tendon-Driven Robots: Design, Modeling and Characterization
  • The Switchable Cable-Driven Mechanism to Control Multiple Cables Individually Using a Single Motor
  • Recurrent Neural Network with Preisach Model for Configuration-Specific Hysteresis Modeling of Tendon-Sheath Mechanism
  • Design and Optimization of a Capture System for Precise UAV Landing on Disturbed Aquatic Surface Platforms
  • Design and Modeling of a Spherical Robot Actuated by a Cylindrical Drive
  • Design and Modeling of a Compact Advancement Mechanism for a Modified COAST Guidewire Robot
  • A Novel Passive Mechanism for Flying Robots to Perch Onto Surfaces
  • A Lightweight, High-Extension, Planar 3-Degree-Of-Freedom Manipulator Using Pinched Bistable Tapes
  • Cooperative Continuum Robots: Enhancing Individual Continuum Arms by Reconfiguring into a Parallel Manipulator
  • Remote Rotary Mixing and Spraying of Plural Component Protective Coating for Underground Pipe Internal Rehabilitation Lining
  • Strict Modes Everywhere - Bringing Order into Dynamics of Mechanical Systems by a Potential Compatible with the Geodesic Flow
  • As-Rigid-As-Possible Shape Servoing
  • Visual Servoing in Autoencoder Latent Space
  • SiamX: An Efficient Long-Term Tracker Using Cross-Level Feature Correlation and Adaptive Tracking Scheme
  • Accurate Calibration of Multi-Perspective Cameras from a Generalization of the Hand-Eye Constraint
  • Few-Shot Keypoint Detection As Task Adaptation Via Latent Embeddings
  • Keypoint-Based Category-Level Object Pose Tracking from an RGB Sequence with Uncertainty Estimation
  • MotionHint: Self-Supervised Monocular Visual Odometry with Motion Constraints
  • E-VAT: An Asymmetric End-To-End Approach to Visual Active Exploration and Tracking
  • Fast Graph Refinement and Implicit Neural Representation for Tissue Tracking
  • Omnidirectional Panoramic Video System with Frame-By-Frame Ultrafast Viewpoint Control
  • PoseSDF: Simultaneous 3D Human Shape Reconstruction and Gait Pose Estimation Using Signed Distance Functions
  • Robotic Tool Tracking under Partially Visible Kinematic Chain: A Unified Approach
  • Learning Friction Model for Magnet-Actuated Tethered Capsule Robot
  • L1 Adaptive Augmentation for Geometric Tracking Control of Quadrotors
  • Shape Control of Deformable Linear Objects with Offline and Online Learning of Local Linear Deformation Models
  • KoopNet: Joint Learning of Koopman Bilinear Models and Function Dictionaries with Application to Quadrotor Trajectory Tracking
  • Tracking Fast Trajectories with a Deformable Object Using a Learned Model
  • Model Identification and Control of a Mobile Robot with Omnidirectional Wheels Using Differentiable Physics
  • KNODE-MPC: A Knowledge-Based Data-Driven Predictive Control Framework for Aerial Robots
  • Combined Fast Control of Drifting State and Trajectory Tracking for Autonomous Vehicles Based on MPC Controller
  • Composable Causality in Semantic Robot Programming
  • A Hierarchical Control Framework for Drift Maneuvering of Autonomous Vehicles
  • Multi-Terrain Velocity Control of the Spherical Robot by Online Obtaining the Uncertainties in the Dynamics
  • Experimental Closed-Loop Excitation of Nonlinear Normal Modes on an Elastic Industrial Robot
  • Value Learning from Trajectory Optimization and Sobolev Descent: A Step Toward Reinforcement Learning with Superlinear Convergence Properties
  • Object Gathering with a Tethered Robot Duo
  • Passivity and Control Barrier Functions: Optimizing the Use of Energy
  • A Hybrid Model-Based Evolutionary Optimization with Passive Boundaries for Physical Human-Robot Interaction
  • Impact Planning and Pre-Configuration Based on Hierarchical Quadratic Programming
  • Optimal-Horizon Model-Predictive Control with Differential Dynamic Programming
  • First Order Approximation of Model Predictive Control Solutions for High Frequency Feedback
  • Implicit Differential Dynamic Programming
  • Optimization-Based Trajectory Tracking Approach for Multi-Rotor Aerial Vehicles in Unknown Environments
  • Safe, Fast, and Efficient Distributed Receding Horizon Constrained Control of Aerial Robot Swarms
  • Trajectory Distribution Control for Model Predictive Path Integral Control Using Covariance Steering
  • Multirobot Control with Double-Integrator Dynamics and Control Barrier Functions for Deformable Object Transport
  • Context-Aware Grasp Generation in Cluttered Scenes
  • "The World is its Own Best Model": Robust Real-World Manipulation through Online Behavior Selection
  • The Second Generation (G2) Fingertip Sensor for Near-Distance Ranging and Material Sensing in Robotic Grasping
  • Push-To-See: Learning Non-Prehensile Manipulation to Enhance Instance Segmentation Via Deep Q-Learning
  • Non-Penetration Iterative Closest Points for Single-View Multi-Object 6D Pose Estimation
  • Learning-Based Ellipse Detection for Robotic Grasps of Cylinders and Ellipsoids
  • TransGrasp: A Multi-Scale Hierarchical Point Transformer for 7-DoF Grasp Detection
  • Online Object Model Reconstruction and Reuse for Lifelong Improvement of Robot Manipulation
  • Single-Stage Keypoint-Based Category-Level Object Pose Estimation from an RGB Image
  • Multi-View Object Pose Distribution Tracking for Pre-Grasp Planning on Mobile Robots
  • Efficient and Robust Training of Dense Object Nets for Multi-Object Robot Manipulation
  • SKP: Semantic 3D Keypoint Detection for Category-Level Robotic Manipulation
  • Deep Surrogate Q-Learning for Autonomous Driving
  • Interpretable Autonomous Flight Via Compact Visualizable Neural Circuit Policies
  • Legged Robots That Keep on Learning: Fine-Tuning Locomotion Policies in the Real World
  • Accessibility-Based Clustering for Efficient Learning of Locomotion Skills
  • Learning Free Gait Transition for Quadruped Robots Via Phase-Guided Controller
  • Concurrent Training of a Control Policy and a State Estimator for Dynamic and Robust Legged Locomotion
  • Reinforcement Learning with Evolutionary Trajectory Generator: A General Approach for Quadrupedal Locomotion
  • Dynamic Mirror Descent Based Model Predictive Control for Accelerating Robot Learning
  • Combining Learning-Based Locomotion Policy with Model-Based Manipulation for Legged Mobile Manipulators
  • Unified Data Collection for Visual-Inertial Calibration Via Deep Reinforcement Learning
  • Explanation-Aware Experience Replay in Rule-Dense Environments
  • Relative Distributed Formation and Obstacle Avoidance with Multi-Agent Reinforcement Learning
  • Estimation of Upper Limb Kinematics with a Magnetometer-Free Egocentric Visual-Inertial System
  • Joint State and Input Estimation of Agent Based on Recursive Kalman Filter Given Prior Knowledge
  • Towards Artefact Aware Human Motion Capture Using Inertial Sensors Integrated into Loose Clothing
  • Improved Kalman-Particle Kernel Filter on Lie Groups Applied to Angles-Only UAV Navigation
  • Asynchronous Collaborative Localization by Integrating Spatiotemporal Graph Learning with Model-Based Estimation
  • Symbolic State Estimation with Predicates for Contact-Rich Manipulation Tasks
  • Keypoints-Based Deep Feature Fusion for Cooperative Vehicle Detection of Autonomous Driving
  • P2SLAM: Bearing Based WiFi SLAM for Indoor Robots
  • Deep Measurement Updates for Bayes Filters
  • Stiffness Measurement of Organoids by Using Wide-Range Force Sensor Probe Fabricated Using Quartz Crystal Resonator
  • Precise Relative Positioning Via Tight-Coupling of GPS Carrier Phase and Multiple UWBs
  • Using Collocated Vision and Tactile Sensors for Visual Servoing and Localization
  • Concentric Push�Pull Robots: Planar Modeling and Design
  • Chip-Less Real-Time Wireless Sensing of Endotracheal Intubation Tubes by Printing and Mounting Conformable Antenna Tag
  • Development of a Stereo-Vision Based High-Throughput Robotic System for Mouse Tail Vein Injection
  • Dual-Scale Robotic Solution for Middle Ear Surgery
  • A Dexterous Robotic System for Autonomous Debridement of Osteolytic Bone Lesions in Confined Spaces: Human Cadaver Studies
  • An Open Simulation Environment for Learning and Practice of Robot-Assisted Surgical Suturing
  • A Variable Length, Variable Stiffness Flexible Instrument for Transoral Robotic Surgery
  • Impact of Generic Tendon Routing on Tension Loss of Tendon-Driven Continuum Manipulators with Planar Deformation
  • Kinestatic Modeling of a Spatial Screw-Driven Continuum Robot
  • Accelerating Surgical Robotics Research: A Review of 10 Years with DVRK
  • Robust Deflected Path Planning Method for Super-Elastic Nitinol Coaxial Biopsy Needle: Application to an Automated Magnetic Resonance Image-Guided Breast Biopsy Robot
  • Toward Expedited Impedance Tuning of a Robotic Prosthesis for Personalized Gait Assistance by Reinforcement Learning Control
  • Using Language to Generate State Abstractions for Long-Range Planning in Outdoor Environments
  • Reactive Locomotion Decision-Making and Robust Motion Planning for Real-Time Perturbation Recovery
  • Learning to Ground Objects for Robot Task and Motion Planning
  • Locomotion As a Risk-Mitigating Behavior in Uncertain Environments: A Rapid Planning and Few-Shot Failure Adaptation Approach
  • Persistent Homology for Effective Non-Prehensile Manipulation
  • Visually Grounded Task and Motion Planning for Mobile Manipulation
  • Multi-Agent Motion Planning from Signal Temporal Logic Specifications
  • Long-Horizon Manipulation of Unknown Objects Via Task and Motion Planning with Estimated Affordances
  • Failure Is an Option: Task and Motion Planning with Failing Executions
  • Hierarchical Policy Learning for Mechanical Search
  • Fast High-Quality Tabletop Rearrangement in Bounded Workspace
  • Efficient and High-Quality Prehensile Rearrangement in Cluttered and Confined Spaces
  • Offline Learning of Counterfactual Perception As Prediction for Real-World Robotic Reinforcement Learning
  • Dynamic Underactuated Manipulator Using a Flexible Body with a Structural Anisotropy
  • Interactive Robotic Grasping with Attribute-Guided Disambiguation
  • Translating Images into Maps
  • CT-ICP: Real-Time Elastic LiDAR Odometry with Loop Closure
  • D2A-BSP: Distilled Data Association Belief Space Planning with Performance Guarantees under Budget Constraints
  • Learning Scalable Policies Over Graphs for Multi-Robot Task Allocation Using Capsule Attention Networks
  • Decentralized Model Predictive Control for Equilibrium-Based Collaborative UAV Bar Transportation
  • A Deep Reinforcement Learning Environment for Particle Robot Navigation and Object Manipulation
  • TaTa: A Universal Jamming Gripper with High-Quality Tactile Perception and Its Application to Underwater Manipulation
  • Design of a Biomimetic Tactile Sensor for Material Classification
  • A Wearable Fingertip Cutaneous Haptic Device with Continuous Omnidirectional Motion Feedback
  • Scalable Minimally Actuated Leg Extension Bipedal Walker Based on 3D Passive Dynamics
  • Omni-Roach: A Legged Robot Capable of Traversing Multiple Types of Large Obstacles and Self-Righting
  • Trajectory Optimization Formulation with Smooth Analytical Derivatives for Track-Leg and Wheel-Leg Ground Robots
  • Event-Triggered Tracking Control Scheme for Quadrotors with External Disturbances: Theory and Validations
  • EDPLVO: Efficient Direct Point-Line Visual Odometry
  • Confidence-Based Robot Navigation under Sensor Occlusion with Deep Reinforcement Learning
  • Optimal Design and Control of an Aerial Manipulator with Elastic Suspension Using Unidirectional Thrusters
  • Large-Angle and High-Speed Trajectory TrackingControl of a Quadrotor UAV Based on Reachability
  • Cooperative Modular Single Actuator Monocopters Capable of Controlled Passive Separation
  • Optimal Thrust Vector Control of an Electric Small-Scale Rocket Prototype
  • Optimal Inverted Landing in a Small Aerial Robot with Varied Approach Velocities and Landing Gear Designs
  • SMORS: A Soft Multirotor UAV for Multimodal Locomotion and Robust Interaction
  • Centroidal Aerodynamic Modeling and Control of Flying Multibody Robots
  • Cooperative Transportation Using Multiple Single-Rotor Robots and Decentralized Control for Unknown Payloads
  • PogoDrone: Design, Model, and Control of a Jumping Quadrotor
  • Autonomous and Adaptive Navigation for Terrestrial-Aerial Bimodal Vehicles
  • Robust Localization of Occluded Targets in Aerial Manipulation Via Range-Only Mapping
  • Energy Tank-Based Policies for Robust Aerial Physical Interaction with Moving Objects
  • Generalized Omega Turn Gait Enables Agile Limbless Robot Turning in Complex Environments
  • SenSnake: A Snake Robot with Contact Force Sensing for Studying Locomotion in Complex 3-D Terrain
  • Autonomous Actuation of Flapping Wing Robots Inspired by Asynchronous Insect Muscle
  • Optimum Design of a Novel Bio-Inspired Bat Robot
  • Liftoff of a Motor-Driven Flapping Wing Rotorcraft with Mechanically Decoupled Wings
  • A Minimalistic Stochastic Dynamics Model of Cluttered Obstacle Traversal
  • A Tapered Whisker-Based Physical Reservoir Computing System for Mobile Robot Terrain Identification in Unstructured Environments
  • Design and Experimental Validation of a Shock-Absorption Mechanism Inspired from the Frog's Forelimbs
  • Maximized Hydrodynamic Stimulation Strategy for Placement of Differential Pressure and Velocity Sensors in Artificial Lateral Line Systems
  • A New Bio-Inspired Hybrid Cable-Driven Robot (HCDR) to Design More Realistic Snakebots
  • Development and Stiffness Optimization for a Flexible-Tail Robotic Fish
  • Optimization of Stress Distribution in Tendon-Driven Continuum Robots Using Fish-Tail-Inspired Method
  • Single User WiFi Structure from Motion in the Wild
  • PatchGraph: In-Hand Tactile Tracking with Learned Surface Normals
  • LTSR: Long-Term Semantic Relocalization Based on HD Map for Autonomous Vehicles
  • DEVO: Depth-Event Camera Visual Odometry in Challenging Conditions
  • Fast-MbyM: Leveraging Translational Invariance of the Fourier Transform for Efficient and Accurate Radar Odometry
  • DA-LMR: A Robust Lane Marking Representation for Data Association
  • Neural Implicit Event Generator for Motion Tracking
  • Translation Invariant Global Estimation of Heading Angle Using Sinogram of LiDAR Point Cloud
  • LoGG3D-Net: Locally Guided Global Descriptor Learning for 3D Place Recognition
  • AutoPlace: Robust Place Recognition with Single-Chip Automotive Radar
  • GCLO: Ground Constrained LiDAR Odometry with Low-Drifts for GPS-Denied Indoor Environments
  • Fusing Convolutional Neural Network and Geometric Constraint for Image-Based Indoor Localization
  • ROW-SLAM: Under-Canopy Cornfield Semantic SLAM
  • Loop Closure Detection and SLAM in Vineyards with Deep Semantic Cues
  • Precise 3D Reconstruction of Plants from UAV Imagery Combining Bundle Adjustment and Template Matching
  • Self-Supervised Representation Learning for Reliable Robotic Monitoring of Fruit Anomalies
  • Deep-CNN Based Robotic Multi-Class Under-Canopy Weed Control in Precision Farming
  • Precision Fruit Tree Pruning Using a Learned Hybrid Vision/interaction Controller
  • Joint Plant and Leaf Instance Segmentation on Field-Scale UAV Imagery
  • Strawberry Picking Point Localisation Ripeness and Weight Estimation
  • Non-Destructive Fruit Firmness Evaluation Using Vision-Based Tactile Information
  • Agbots 3.0: Adaptive Weed Growth Prediction for Mechanical Weeding Agbots
  • Deep Reinforcement Learning for Next-Best-View Planning in Agricultural Applications
  • Mapping Unknown Environments with Instrumented Honey Bees
  • Crossmodal Transformer Based Generative Framework for Pedestrian Trajectory Prediction
  • Lightweight Monocular Depth Estimation through Guided Decoding
  • Propagating State Uncertainty through Trajectory Forecasting
  • De-Snowing LiDAR Point Clouds with Intensity and Spatial-Temporal Features
  • Refactoring ISP for High-Level Vision Tasks
  • Stepwise Goal-Driven Networks for Trajectory Prediction
  • N-QGN: Navigation Map from a Monocular Camera Using Quadtree Generating Networks
  • Depth-SIMS: Semi-Parametric Image and Depth Synthesis
  • HoloSeg: An Efficient Holographic Segmentation Network for Real-Time Scene Parsing
  • Navigation-Oriented Scene Understanding for Robotic Autonomy: Learning to Segment Driveability in Egocentric Images
  • Lifting 2D Object Locations to 3D by Discounting LiDAR Outliers across Objects and Views
  • VISTA 2.0: An Open, Data-Driven Simulator for Multimodal Sensing and Policy Learning for Autonomous Vehicles
  • Memory-Based Gaze Prediction in Deep Imitation Learning for Robot Manipulation
  • Towards More Generalizable One-Shot Visual Imitation Learning
  • Symphony: Learning Realistic and Diverse Agents for Autonomous Driving Simulation
  • Adversarial Imitation Learning from Video Using a State Observer
  • Modular Adaptive Policy Selection for Multi-Task Imitation Learning through Task Division
  • Disturbance-Injected Robust Imitation Learning with Task Achievement
  • Learning Periodic Tasks from Human Demonstrations
  • Skeletal Feature Compensation for Imitation Learning with Embodiment Mismatch
  • Multi-Task Learning with Sequence-Conditioned Transporter Networks
  • VOILA: Visual-Observation-Only Imitation Learning for Autonomous Navigation
  • Generalizable Task Representation Learning from Human Demonstration Videos: A Geometric Approach
  • LanCon-Learn: Learning with Language to Enable Generalization in Multi-Task Manipulation Domains
  • Look and Listen: A Multi-Sensory Pouring Network and Dataset forGranular Media from Human Demonstrations
  • Predicting Like a Pilot: Dataset and Method to Predict Socially-Aware Aircraft Trajectories in Non-Towered Terminal Airspace
  • ORFD: A Dataset and Benchmark for Off-Road Freespace Detection
  • IPS300+: A Challenging Multi-Modal Data Sets for Intersection Perception System
  • TartanDrive: A Large-Scale Dataset for Learning Off-Road Dynamics Models
  • Google Scanned Objects: A High-Quality Dataset of 3D Scanned Household Items
  • Scalable Scene Flow from Point Clouds in the Real World
  • Cityscapes TL++: Semantic Traffic Light Annotations for the Cityscapes Dataset
  • How to Build a Curb Dataset with LiDAR Data for Autonomous Driving
  • OPV2V: An Open Benchmark Dataset and Fusion Pipeline for Perception with Vehicle-To-Vehicle Communication
  • RF-Annotate: Automatic RF-Supervised Image Annotation of Common Objects in Context
  • Panoptic nuScenes: A Large-Scale Benchmark for LiDAR Panoptic Segmentation and Tracking
  • Multi-Modal Motion Prediction with Transformer-Based Neural Network for Autonomous Driving
  • HiTPR: Hierarchical Transformer for Place Recognition in Point Cloud
  • Robust Self-Supervised LiDAR Odometry Via Representative Structure Discovery and 3D Inherent Error Modeling
  • Deep Weakly Supervised Positioning for Indoor Mobile Robots
  • Diff-Net: Image Feature Difference Based High-Definition Map Change Detection for Autonomous Driving
  • Context Is Everything: Implicit Identification for Dynamics Adaptation
  • Unsupervised Domain Adaptation in LiDAR Semantic Segmentation with Self-Supervision and Gated Adapters
  • Implicit Kinematic Policies: Unifying Joint and Cartesian Action Spaces in End-To-End Robot Learning
  • SEMI: Self-Supervised Exploration Via Multisensory Incongruity
  • Real-Robot Deep Reinforcement Learning: Improving Trajectory Tracking of Flexible-Joint Manipulator with Reference Correction
  • Sequential Joint Shape and Pose Estimation of Vehicles with Application to Automatic Amodal Segmentation Labeling
  • A Dual-Stream Architecture for Real-Time Morphological Analysis of Aneurysm in Robot-Assisted Minimally Invasive Surgery
  • Manipulation of Unknown Objects Via Contact Configuration Regulation
  • Physical Property Estimation and Knife Trajectory Optimization During Robotic Cutting
  • RMPs for Safe Impedance Control in Contact-Rich Manipulation
  • Discovering Synergies for Robot Manipulationwith Multi-Task Reinforcement Learning
  • Planning for Dexterous Ungrasping: Secure Ungrasping through Dexterous Manipulation
  • Contact Mode Guided Motion Planning for Quasidynamic Dexterous Manipulation in 3D
  • Robust Ungrasping of High Aspect Ratio Objects through Dexterous Manipulation
  • Learning Purely Tactile In-Hand Manipulation with a Torque-Controlled Hand
  • On the Feasibility of Learning Finger-Gaiting In-Hand Manipulation with Intrinsic Sensing
  • Negative Stiffness Analysis and Regulation of In-Hand Manipulation with Underactuated Compliant Hands
  • Complex In-Hand Manipulation Via Compliance-Enabled Finger Gaiting and Multi-Modal Planning
  • Controlling Palm-Object Interactions Via Friction for Enhanced In-Hand Manipulation
  • Robust and Accurate Multi-Agent SLAM with Efficient Communication for Smart Mobiles
  • Synergistic Scheduling of Learning and Allocation of Tasks in Human-Robot Teams
  • Mixed Reality As Communication Medium for Human-Robot Collaboration
  • Adaptive Vision-Based Control of Redundant Robots with Null-Space Interaction for Human-Robot Collaboration
  • Uncertainty-Assisted Image-Processing for Human-Robot Close Collaboration
  • HATP/EHDA: A Robot Task Planner Anticipating and Eliciting Human Decisions and Actions
  • Dynamic Human-Robot Role Allocation Based on Human Ergonomics Risk Prediction and Robot Actions Adaptation
  • Assisting Operators of Articulated Machinery with Optimal Planning and Goal Inference
  • On-Line Feasible Wrench Polytope Evaluation Based on Human Musculoskeletal Models: An Iterative Convex Hull Method
  • R2poweR: The Proof-Of-Concept of a Backdrivable, High-Ratio Gearbox for Human-Robot Collaboration
  • Expectable Motion Unit: Avoiding Hazards from Human Involuntary Motions in Human-Robot Interaction
  • All-In-One: A DRL-Based Control Switch Combining State-Of-The-Art Navigation Planners
  • Trajectory Prediction with Linguistic Representations
  • Game-Theoretic Planning for Autonomous Driving among Risk-Aware Human Drivers
  • Deploying Traffic Smoothing Cruise ControllersLearned from Trajectory Data
  • Personalized Car Following for Autonomous Driving with Inverse Reinforcement Learning
  • GamePlan: Game-Theoretic Multi-Agent Planning with Human Drivers at Intersections, Roundabouts, and Merging
  • HYPER: Learned Hybrid Trajectory Prediction Via Factored Inference and Adaptive Sampling
  • Important Object Identification with Semi-Supervised Learning for Autonomous Driving
  • BAANet: Learning Bi-Directional Adaptive Attention Gates for Multispectral Pedestrian Detection
  • Ensuring Safety of Learning-Based Motion Planners Using Control Barrier Functions
  • Globally Optimal Relative Pose Estimation for Multi-Camera Systems with Known Gravity Direction
  • Model Predictive Path-Planning Controller with Potential Function for Emergency Collision Avoidance on Highway Driving
  • Dynamic Evaluation of Deformable Object Grasping
  • Robotic Manipulators Performing Smart Sanding Operation: A Vibration Approach
  • Trajectory Planning and Optimization for Robotic Machining Based on Measured Point Cloud
  • Learning to Fill the Seam by Vision: Sub-Millimeter Peg-In-Hole on Unseen Shapes in Real World
  • An Experimental Study of Wind Resistance and Power Consumption in MAVs with a Low-Speed Multi-Fan Wind System
  • On the Design, Modeling and Experimental Verification of a Floating Satellite Platform
  • Mechanical Variable Magnetic Gear Transmission: Concept and Preliminary Research
  • dSEDA: A Differential Series Elastic Damped Actuator
  • Permanent-Magnetically Amplified Brake Mechanism Compensated and Stroke-Shortened by a Multistage Nonlinear Spring
  • Pneumatic Quasi-Passive Variable Stiffness Mechanism for Energy Storage Applications
  • Amplitude Control for Parallel Lattices of Docked Modboats
  • Sliding Mode Controller for Positioning of an Underwater Vehicle Subject to Disturbances and Time Delays
  • HoloOcean: An Underwater Robotics Simulator
  • Flow-Based Control of Marine Robots in Gyre-Like Environments
  • Spatial Acoustic Projection for 3D Imaging Sonar Reconstruction
  • Cross-View and Cross-Domain Underwater Localization Based on Optical Aerial and Acoustic Underwater Images
  • Adaptive Cubature Split Covariance Intersection Filter for Multi-Vehicle Cooperative Localization
  • Hypotheses Disambiguation in Retrospective
  • Mobile Robot Localization Considering Uncertainty of Depth Regression from Camera Images
  • Direct LiDAR Odometry: Fast Localization with Dense Point Clouds
  • Obstacle-Overcoming and Stabilization Mechanism of a Rope-Riding Mobile Robot on a Facade
  • A Compact and Agile Angled-Spoke Wheel-Based Mobile Robot for Uneven and Granular Terrains
  • Construction and Excavation by Collaborative Double-Tailed SAW Robots
  • Design and Stiffness Analysis of a Novel 7-DOF Cable-Driven Manipulator
  • Prismatic Gravity Compensator for Variable Payloads
  • An Integrated Design Pipeline for Tactile Sensing Robotic Manipulators
  • Graph Grammar-Based Automatic Design for Heterogeneous Fleets of Underwater Robots
  • The Design of Stretch: A Compact, Lightweight Mobile Manipulator for Indoor Human Environments
  • A Novel Passive Shoulder Exoskeleton Designed with Variable Stiffness Mechanism
  • SIMJig - Smart Independent Minimalist Jig
  • Shake and Take: Fast Transformation of an Origami Gripper
  • An Agile Samara-Inspired Single-Actuator Aerial Robot Capable of Autorotation and Diving
  • Orientation to Pose: Continuum Robots Shape Reconstruction Based on the Multi-Attitude Solving Approach
  • A Novel Full State Feedback Decoupling Controller for Elastic Robot Arm
  • 3D Printing of Concrete with a Continuum Robot Hose Using Variable Curvature Kinematics
  • Modeling the Dynamics of Soft Robots by Discs and Threads
  • A Recurrent Differentiable Engine for Modeling Tensegrity Robots Trainable with Low-Frequency Data
  • Forward Kinematics and Control of a Segmented Tunable-Stiffness 3-D Continuum Manipulator
  • Online Assistance Control of a Pneumatic Gait Assistive Suit Using Physical Reservoir Computing Exploiting Air Dynamics
  • Modeling of Viscoelastic Dielectric Elastomer Actuators Based on the Sparse Identification Method
  • Adaptive Dynamic Sliding Mode Control of Soft Continuum Manipulators
  • Closed-Loop Dynamic Control of a Soft Manipulator Using Deep Reinforcement Learning
  • Soft Pneumatic Actuator Model Based on a Pressure-Dependent Spatial Nonlinear Rod Theory
  • Real-Time Dynamics of Concentric Tube Robots with Reduced-Order Kinematics Based on Shape Interpolation
  • Regulations Aware Motion Planning for Autonomous Surface Vessels in Urban Canals
  • MPLP: Massively Parallelized Lazy Planning
  • Autonomous Teamed Exploration of Subterranean Environments Using Legged and Aerial Robots
  • ST-RRT*: Asymptotically-Optimal Bidirectional Motion Planning through Space-Time
  • Speed Planning in Dynamic Environments Over a Fixed Path for Autonomous Vehicles
  • Coverage Path Planning in Large-Scale Multi-Floor Urban Environments with Applications to Autonomous Road Sweeping
  • Convex Strategies for Trajectory Optimisation: Application to the Polytope Traversal Problem
  • UFOExplorer: Fast and Scalable Sampling-Based Exploration with a Graph-Based Planning Structure
  • Uniform Coverage Tool Path Generation for Robotic Surface Finishing of Curved Surfaces
  • Oriented Surface Reachability Maps for Robot Placement
  • COP: Control & Observability-Aware Planning
  • AMRA*: Anytime Multi-Resolution Multi-Heuristic A*
  • An MPC Formulation on SO(3) for a Quadrotor with Bidirectional Thrust and Nonlinear Thrust Constraints
  • Riemannian Optimization for Distance-Geometric Inverse Kinematics
  • Position and Orientation Tunnel-Following NMPC of Robot Manipulators Based on Symbolic Linearization in Sequential Convex Quadratic Programming
  • Real-Time Multi-Contact Model Predictive Control Via ADMM
  • Maximum Entropy Differential Dynamic Programming
  • Optimal Control Via Combined Inference and Numerical Optimization
  • Multi-Modal Model Predictive Control through Batch Non-Holonomic Trajectory Optimization: Application to Highway Driving
  • Autonomous Racing with Multiple Vehicles Using a Parallelized Optimization with Safety Guarantee Using Control Barrier Functions
  • Trajectory Optimization with Optimization-Based Dynamics
  • Pose Estimation Based on a Dual Quaternion Feedback Particle Filter
  • Robust Control under Uncertainty Via Bounded Rationality and Differential Privacy
  • Tube-Certified Trajectory Tracking for Nonlinear Systems with Robust Control Contraction Metrics
  • Uncertainty-Based Exploring Strategy in Densely Cluttered Scenes for Vacuum Cup Grasping
  • REGRAD: A Large-Scale Relational Grasp Dataset for Safe and Object-SpeciԨ�c Robotic Grasping in Clutter
  • Grounding Predicates through Actions
  • Probabilistic Spatio-Temporal Fusion of Affordances for Grasping and Manipulation
  • Soft Tracking Using Contacts for Cluttered Objects to Perform Blind Object Retrieval
  • A Sim-To-Real Object Recognition and Localization Framework for Industrial Robotic Bin Picking
  • Active Visuo-Haptic Object Shape Completion
  • Detection of Slip from Vision and Touch
  • Force-Based Simultaneous Mapping and Object Reconstruction for Robotic Manipulation
  • VisuoTactile 6D Pose Estimation of an In-Hand Object Using Vision and Tactile Sensor Data
  • Fast Object Inertial Parameter Identification for Collaborative Robots
  • Pose Estimation for Robot Manipulators Via Keypoint Optimization and Sim-To-Real Transfer
  • Learning to Navigate Intersections with Unsupervised Driver Trait Inference
  • VIRDO: Visio-Tactile Implicit Representations of Deformable Objects
  • Seeking Visual Discomfort: Curiosity-Driven Representations for Reinforcement Learning
  • Topologically-Informed Atlas Learning
  • Intrinsically Motivated Self-Supervised Learning in Reinforcement Learning
  • Offline Learning of Counterfactual Perception As Prediction for Real-World Robotic Reinforcement Learning
  • Generalizing to New Domains by Mapping Natural Language to Lifted LTL
  • Exploiting Abstract Symmetries in Reinforcement Learning for Complex Environments
  • Probabilistic Inference of Simulation Parameters Via Parallel Differentiable Simulation
  • Sampling Over Riemannian Manifolds Using Kernel Herding
  • Reaching through Latent Space: From Joint Statistics to Path Planning in Manipulation
  • Collaborative Robot Mapping Using Spectral Graph Analysis
  • DiSCo-SLAM: Distributed Scan Context-Enabled Multi-Robot LiDAR SLAM with Two-Stage Global-Local Graph Optimization
  • Ensemble Kalman Filter Based LiDAR Odometry for Skewed Point Clouds Using Scan Slicing
  • Next-Best-View Prediction for Active Stereo Cameras and Highly Reflective Objects
  • Optimal Target Shape for LiDAR Pose Estimation
  • Learning to Listen and Move: An Implementation of Audio-Aware Mobile Robot Navigation in Complex Indoor Environment
  • Ada-Detector: Adaptive Frontier Detector for Rapid Exploration
  • H2GNN: Hierarchical-Hops Graph Neural Networks for Multi-Robot Exploration in Unknown Environments
  • SCVP: Learning One-Shot View Planning Via Set Covering for Unknown Object Reconstruction
  • Sparse Pose Graph Optimization in Cycle Space
  • MR-GMMapping: Communication Efficient Multi-Robot Mapping System Via Gaussian Mixture Model
  • GVINS: Tightly Coupled GNSS-Visual-Inertial Fusion for Smooth and Consistent State Estimation
  • CATs: Task Planning for Shared Control of Assistive Robots with Variable Autonomy
  • Robotically-Aligned Optical Coherence Tomography with Gaze Tracking for Image Montaging of the Retina
  • Generalized 3D Rigid Point Set Registration with Anisotropic Positional Error Based on Bayesian Coherent Point Drift
  • 3D Image-Guided Robotic System for Bone Fracture Reduction
  • A Surgeon Preference-Guided Autonomous Instrument Tracking Method with a Robotic Flexible Endoscope Based on dVRK Platform
  • Task Autonomous Medical Robot for Both Incision Stapling and Staples Removal
  • Acoustic Shadowing Aware Robotic Ultrasound: Lighting up the Dark
  • RSV: Robotic Sonography for Thyroid Volumetry
  • 3-D Electromagnetic Position Estimation System Using High-Magnetic-Permeability Metal for Continuum Medical Robots
  • Six-Degree-Of-Freedom Localization with a 3-Axis Accelerometer and a 2-Axis Magnetometer for Magnetic Capsule Endoscopy
  • Runtime Detection of Executional Errors in Robot-Assisted Surgery
  • Automated Heart and Lung Auscultation in Robotic Physical Examinations
  • Large-Scale Network Traffic Prediction with LSTM and Temporal Convolutional Networks
  • Domain Concretization from Examples: Addressing Missing Domain Knowledge Via Robust Planning
  • PlaTe: Visually-Grounded Planning with Transformers in Procedural Tasks
  • High-Level Planning for Object Manipulation with Multi Heterogeneous Robots in Shared Environments
  • Dynamics-Aware Metric Embedding: Metric Learning in a Latent Space for Visual Planning
  • Geometric Task Networks: Learning Efficient and Explainable Skill Coordination for Object Manipulation
  • A Two-Stage Optimization-Based Motion Planner for Safe Urban Driving
  • Online Next-Best-View Planner for 3D-Exploration and Inspection with a Mobile Manipulator Robot
  • Configuration Space Decomposition for Scalable Proxy Collision Checking in Robot Planning and Control
  • Time-Optimization of Trajectories Using Zero-Clamped Cubic Splines and Their Analytical Gradients
  • Online State-Time Trajectory Planning Using Timed-ESDF in Highly Dynamic Environments
  • Contact-Implicit Direct Collocation with a Discontinuous Velocity State
  • Multi-Agent Active Search: A Reinforcement Learning Approach
  • Forceful Valve Manipulation with Arbitrary Direction by Articulated Aerial Robot Equipped with Thrust Vectoring Apparatus
  • Perception-Aware Perching on Powerlines with Multirotors
  • Tracker Meets Night: A Transformer Enhancer for UAV Tracking
  • GPA-Teleoperation: Gaze Enhanced Perception-Aware Safe Assistive Aerial Teleoperation
  • A Bimodal Rolling-Flying Robot for Micro Level Inspection of Flat and Inclined Surfaces
  • Clustering and Informative Path Planning for 3D Gas Distribution Mapping: Algorithms and Performance Evaluation
  • From Demonstration to Flight: Realization of Autonomous Aerobatic Maneuvers for Fast, Miniature Fixed-Wing UAVs
  • Autonomous Single-Image Drone Exploration with Deep Reinforcement Learning and Mixed Reality
  • Neither Fast nor Slow: How to Fly through Narrow Tunnels
  • Towards Time-Optimal Tunnel-Following for Quadrotors
  • Bang-Bang Control with Constant Thrust of a Spherical Blimp Propelled by Ultrasound Beam
  • CineMPC: Controlling Camera Intrinsics and Extrinsics for Autonomous Cinematography
  • GTGraffiti: Spray Painting Graffiti Art from Human Painting Motions with a Cable Driven Parallel Robot
  • Neural Style Transfer with Twin-Delayed DDPG for Shared Control of Robotic Manipulators
  • A Detumbling Strategy for an Orbital Manipulator in the Post-Grasp Phase
  • Autonomy and Perception for Space Mining
  • Cat-Like Jumping and Landing of Legged Robots in Low Gravity Using Deep Reinforcement Learning
  • AstroLoc: An Efficient and Robust Localizer for a Free-Flying Robot
  • Collision-Free Trajectory Planning for a 6-DoF Free-Floating Space Robot Via Hierarchical Decoupling Optimization
  • Robust Semantic Mapping and Localization on a Free-Flying Robot in Microgravity
  • DC-Loc: Accurate Automotive Radar Based Metric Localization with Explicit Doppler Compensation
  • SemLoc: Accurate and Robust Visual Localization with Semantic and Structural Constraints from Prior Maps
  • FP-Loc: Lightweight and Drift-Free Floor Plan-Assisted LiDAR Localization
  • LLOL: Low-Latency Odometry for Spinning Lidars
  • PixSelect: Less but Reliable Pixels for Accurate and Efficient Localization
  • Robust Monocular Localization in Sparse HD Maps Leveraging Multi-Task Uncertainty Estimation
  • Flexible and Resource-Efficient Multi-Robot Collaborative Visual-Inertial-Range Localization
  • MinkLoc3D-SI: 3D LiDAR Place Recognition with Sparse Convolutions, Spherical Coordinates, and Intensity
  • Fast and Robust Registration of Partially Overlapping Point Clouds
  • Keeping an Eye on Things: Deep Learned Features for Long-Term Visual Localization
  • Clock and Power-Induced Bias Correction for UWB Time-Of-Flight Measurements
  • OpenStreetMap-Based LiDAR Global Localization in Urban Environment without a Prior LiDAR Map
  • TrussBot: Modeling, Design and Control of a Compliant, Helical Truss of Tetrahedral Modules
  • Self-Reconfiguring Robotic Gantries Powered by Modular Magnetic Lead Screws
  • Energy Sharing Mechanism for a Freeform Robotic System - FreeBOT
  • FreeSN: A Freeform Strut-Node Structured Modular Self-Reconfigurable Robot - Design and Implementation
  • Adaptive Flow Planning of Modular Spherical Robot Considering Static Gravity Stability
  • ElectroVoxel: Electromagnetically Actuated Pivoting for Scalable Modular Self-Reconfigurable Robots
  • SnailBot: A Continuously Dockable Modular Self-Reconfigurable Robot Using Rocker-Bogie Suspension
  • Configuration Control for Physical Coupling of Heterogeneous Robot Swarms
  • A Linking Invariant for Truss Robot Motion Planning
  • Modular Robot Design Optimization with Generative Adversarial Networks
  • A Force-Controlled Parallel Robot for Large-Range Stiffness Rendering in Three Dimensions
  • Workspace Computation of Planar Continuum Parallel Robots
  • Temporal Logic Guided Motion Primitives for Complex Manipulation Tasks with User Preferences
  • SaRA: A Tool for Safe Human-Robot Coexistence and Collaboration through Reachability Analysis
  • Computing Funnels Using Numerical Optimization Based Falsifiers
  • Fast Decomposition of Temporal Logic Specifications for Heterogeneous Teams
  • Equivariant Filter Design for Inertial Navigation Systems with Input Measurement Biases
  • Let's Collaborate: Regret-Based Reactive Synthesis for Robotic Manipulation
  • Planning Via Model Checking with Decision-Tree Controllers
  • STL2vec: Signal Temporal Logic Embeddings for Control Synthesis with Recurrent Neural Networks
  • Automated Task Updates of Temporal Logic Specifications for Heterogeneous Robots
  • Probabilistic Coordination of Heterogeneous Teams from Capability Temporal Logic Specifications
  • On Nondeterminism in Combinatorial Filters
  • An Abstraction-Free Method for Multirobot Temporal Logic Optimal Control Synthesis
  • Learning an Explainable Trajectory Generator Using the Automaton Generative Network (AGN)
  • Stronger Generalization Guarantees for Robot Learning by Combining Generative Models and Real-World Data
  • Speeding up Deep Neural Network-Based Planning of Local Car Maneuvers Via Efficient B-Spline Path Construction
  • Learning-Guided Exploration for Efficient Sampling-Based Motion Planning in High Dimensions
  • Control-Aware Prediction Objectives for Autonomous Driving
  • MLNav: Learning to Safely Navigate on Martian Terrains
  • Hybrid Imitative Planning with Geometric and Predictive Costs in Offroad Environments
  • ReDUCE: Reformulation of Mixed Integer Programs Using Data from Unsupervised Clusters for Learning Efficient Strategies
  • Where to Look Next: Learning Viewpoint Recommendations for Informative Trajectory Planning
  • Adaptive Informative Path Planning Using Deep Reinforcement Learning for UAV-Based Active Sensing
  • Robotic Autonomous Trolley Collection with Progressive Perception and Nonlinear Model Predictive Control
  • Learning to Rock-And-Walk: Dynamic, Non-Prehensile, and Underactuated Object Locomotion through Reinforcement Learning
  • Where Should I Look? Optimised Gaze Control for Whole-Body Collision Avoidance in Dynamic Environments
  • A Holistic Approach to Reactive Mobile Manipulation
  • Modular End-Effector System for Autonomous Robotic Maintenance & Repair
  • ReachBot: A Small Robot with Exceptional Reach for Rough Terrain
  • Predictive End-Effector Control of Manipulators on Moving Platforms under Disturbance
  • Kineverse: A Symbolic Articulation Model Framework for Model-Agnostic Mobile Manipulation
  • Multi-Trajectory Approach for a Generic Coordination Paradigm of Wheeled Mobile Manipulators
  • Traffic Context Aware Data Augmentation for Rare Object Detection in Autonomous Driving
  • Self-Supervised Transparent Liquid Segmentation for Robotic Pouring
  • Semi-Supervised Learning with Mutual Distillation for Monocular Depth Estimation
  • DCL: Differential Contrastive Learning for Geometry-Aware Depth Synthesis
  • OpenSceneVLAD: Appearance Invariant, Open Set Scene Classification
  • Multi-Agent Variational Occlusion Inference Using People As Sensors
  • Semantic-Aware Texture-Structure Feature Collaboration for Underwater Image Enhancement
  • Conditioned Human Trajectory Prediction Using Iterative Attention Blocks
  • VMV-GCN: Volumetric Multi-View Based Graph CNN for Event Stream Classification
  • Bridging the Gap between Events and Frames through Unsupervised Domain Adaptation
  • Underwater Dock Detection through Convolutional Neural Networks Trained with Artificial Image Generation
  • HDMapNet: An Online HD Map Construction and Evaluation Framework
  • Mini Cheetah, the Falling Cat: A Case Study in Machine Learning and Trajectory Optimization for Robot Acrobatics
  • Unsupervised Learning of Terrain Representations for Haptic Monte Carlo Localization
  • Learning Efficient and Robust Multi-Modal Quadruped Locomotion: A Hierarchical Approach
  • A Linearization of Centroidal Dynamics for the Model-Predictive Control of Quadruped Robots
  • Systematic Development of a Novel, Dynamic, Reduced Complexity Quadruped Robot Platform for Robotic Tail Research
  • An Adaptable Approach to Learn Realistic Legged Locomotion without Examples
  • Foothold Evaluation Criterion for Dynamic Transition Feasibility for Quadruped Robots
  • A Collision-Free MPC for Whole-Body Dynamic Locomotion and Manipulation
  • QuadRunner: A Transformable Quasi-Wheel Quadruped
  • Monte Carlo Tree Search Gait Planner for Non-Gaited Legged System Control
  • Vision-Aided Dynamic Quadrupedal Locomotion on Discrete Terrain Using Motion Libraries
  • Adaptive CLF-MPC with Application to Quadrupedal Robots
  • Proactive and Smooth Maneuvering for Navigation Around Pedestrians
  • Learning Crowd-Aware Robot Navigation from Challenging Environments via Distributed Deep Reinforcement Learning
  • An MPC Framework for Planning Safe & Trustworthy Robot Motions
  • Preemptive Motion Planning for Human-To-Robot Indirect Placement Handovers
  • Enhanced Spatial Attention Graph for Motion Planning in Crowded, Partially Observable Environments
  • Balancing Efficiency and Comfort in Robot-Assisted Bite Transfer
  • KHAOS: A Kinematic Human Aware Optimization-Based System for Reactive Planning of Flying-Coworker
  • Joint Communication and Motion Planning for Cobots
  • An Interpretable Monitoring Framework for Virtual Physics-Based Non-Interfering Robot Social Planning
  • SHARP: Shielding-Aware Robust Planning for Safe and Efficient Human-Robot Interaction
  • Show Me What You Can Do: Capability Calibration on Reachable Workspace for Human-Robot Collaboration
  • Reactive, Proactive, and Inducible Proximal Crowd Robot Navigation Method Based on Inducible Social Force Model
  • A Physics-Informed, Vision-Based Method to Reconstruct All Deformation Modes in Slender Bodies
  • Swing-Up of Underactuated Compliant Arms Via Iterative Learning Control
  • Leveraging Distributed Contact Force Measurements for Slip Detection: A Physics-Based Approach Enabled by a Data-Driven Tactile Sensor
  • Learning to Synthesize Volumetric Meshes from Vision-Based Tactile Imprints
  • Distributed Adaptive and Resilient Control of Multi-Robot Systems with Limited Field of View Interactions
  • Computation of Dynamic Joint Reaction Forces of PKM and Its Use for Load-Minimizing Trajectory Planning
  • Toward Physical Human-Robot Interaction Control with Aerial Manipulators: Compliance, Redundancy Resolution, and Input Limits
  • Dynamic Modeling and Digital Twin of a Harmonic Drive Based Collaborative Robot Joint
  • Efficient Analytical Derivatives of Rigid-Body Dynamics Using Spatial Vector Algebra
  • Geometric Fabrics: Generalizing Classical Mechanics to Capture the Physics of Behavior
  • Incorporating Compositions in Qualitative Approaches
  • A Rapid Water Sliding Robot Optimized by Bionic Motion Trajectory
  • Non-Contact Cooperative Manipulation of Magnetic Microparticles Using Two Robotic Electromagnetic Needles
  • Formation-Containment Tracking and Scaling for Multiple Quadcopters with an Application to Choke-Point Navigation
  • Decentralized Model Predictive Control for Equilibrium-Based Collaborative UAV Bar Transportation
  • Stackelberg Strategic Guidance for Heterogeneous Robots Collaboration
  • Providing Local Resilience to Vulnerable Areas in Robotic Networks
  • Coverage Control of Mobile Robots with Different Maximum Speeds for Time-Sensitive Applications
  • Learning Connectivity-Maximizing Network Configurations
  • Secure Multi-Robot Information Sampling with Periodic and Opportunistic Connectivity
  • Driving Swarm: A Swarm Robotics Framework for Intelligent Navigation in a Self-Organized World
  • Dynamic Robot Chain Networks for Swarm Foraging
  • On the Convergence of Multi-Robot Constrained Navigation: A Parametric Control Lyapunov Function Approach
  • Distributed Swarm Trajectory Optimization for Formation Flight in Dense Environments
  • Learning and Leveraging Features in Flow-Like Environments to Improve Situational Awareness
  • Probabilistic Methane Leak Rate Estimation Using Submodular Function Maximization with Routing Constraints
  • Optimizing Camera Placements for Overlapped Coverage with 3D Camera Projections
  • Predicting Energy Consumption of Ground Robots on Uneven Terrains
  • Star-Convolution for Image-Based 3D Object Detection
  • Efficient Industrial Solution for Robotic Task Sequencing Problem with Mutual Collision Avoidance & Cycle Time Optimization
  • Vacuum Suction Cup Modeling for Evaluation of Sealing and Real-Time Simulation
  • Digital Twin with Integrated Robot-Human/Environment Interaction Dynamics for an Industrial Mobile Manipulator
  • Autonomous Environment Disinfection Based on Dynamic UV-C Irradiation Map
  • Combined Grid and Feature-Based Mapping of Metal Structures with Ultrasonic Guided Waves
  • Striking the Right Balance: Recall Loss for Semantic Segmentation
  • Exploiting Playbacks in Unsupervised Domain Adaptation for 3D Object Detection in Self-Driving Cars
  • Dilated Continuous Random Field for Semantic Segmentation
  • Unseen Object Amodal Instance Segmentation Via Hierarchical Occlusion Modeling
  • Rethinking LiDAR Object Detection in Adverse Weather Conditions
  • OSSID: Online Self-Supervised Instance Detection by (and For) Pose Estimation
  • WeakLabel3D-Net: A Complete Framework for Real-Scene LiDAR Point Clouds Weakly Supervised Multi-Tasks Understanding
  • Realtime Global Attention Network for Semantic Segmentation
  • Multi-Class 3D Object Detection with Single-Class Supervision
  • Volumetric Instance-Level Semantic Mapping Via Multi-View 2D-To-3D Label Diffusion
  • Abstract Flow for Temporal Semantic Segmentation on the Permutohedral Lattice
  • Deformable One-Dimensional Object Detection for Routing and Manipulation
  • A Modular Approach to Design Multi-Channel Bistable Valves for Integrated Pneumatically-Driven Soft Robots Via 3D-Printing
  • A Switchable Rigid-Continuum Robot Arm: Design and Testing
  • Sen-Glove: A Lightweight Wearable Glove for Hand Assistance with Soft Joint Sensing
  • Dynamic Control of Soft Robotic Arm: A Simulation Study
  • Compensating for Material Deformation in Foldable Robots Via Deep Learning -- a Case Study
  • SoMoGym: A Toolkit for Developing and Evaluating Controllers and Reinforcement Learning Algorithms for Soft Robots
  • Scalable Simulation and Demonstration of Jumping Piezoelectric 2-D Soft Robots
  • Simulation and Fabrication of Soft Robots with Embedded Skeletons
  • Reproduction of Human Demonstrations with a Soft-Robotic Arm Based on a Library of Learned Probabilistic Movement Primitives
  • Control-Oriented Modeling and Analysis of Tubular Dielectric Elastomer Actuators Dedicated to Cardiac Assist Devices
  • Tendon-Driven Soft Robotic Gripper for Blackberry Harvesting
  • Variable Stiffness Robotic Hand Driven by Twisted-Coiled Polymer Actuators
  • Trajectory Scaling for Reactive Motion Planning
  • Optimizing Trajectories with Closed-Loop Dynamic SQP
  • GOMP-FIT: Grasp-Optimized Motion Planning for Fast Inertial Transport
  • A Simple Formulation for Fast Prioritized Optimal Control of Robots Using Weighted Exact Penalty Functions
  • Safety Embedded Differential Dynamic Programming Using Discrete Barrier States
  • DIRECT: A Differential Dynamic Programming Based Framework for Trajectory Generation
  • Model Predictive Control and Transfer Learning of Hybrid Systems Using Lifting Linearization Applied to Cable Suspension Systems
  • Optimal Task-Space Tracking with Minimum Manipulator Reconfiguration
  • A Reconfigurable Leg for Walking Robots
  • Informative Planning in the Presence of Outliers
  • Exploiting Redundancy to Facilitate Physical Interaction
  • PokeRRT: Poking As a Skill and Failure Recovery Tactic for Planar Non-Prehensile Manipulation
  • The Biasing of Action Selection Produces Emergent Human-Robot Interactions in Autonomous Driving
  • A Lightweight Beak-Like Sensing System for Grasping Tasks of Flapping Aerial Robots
  • Dynamics-Aware Quality-Diversity for Efficient Learning of Skill Repertoires
  • Few-Shot Quality-Diversity Optimization
  • Contact-Rich Manipulation of a Flexible Object Based on Deep Predictive Learning Using Vision and Tactility
  • Model-Based State Estimation of Two-Wheelers
  • Free Energy Principle for State and Input Estimation of a Quadcopter Flying in Wind
  • Spiking Neural Networks for Visual Place Recognition Via Weighted Neuronal Assignments
  • Integrated Learning of Robot Motion and Sentences: Real-Time Prediction of Grasping Motion and Attention Based on Language Instructions
  • Utilization of Image/Force/Tactile Sensor Data for Object-Shape-Oriented Manipulation: Wiping Objects with Turning Back Motions and Occlusion
  • Development and Evaluation of a Gait Assistance System Based on Haptic Cane and Active Knee Orthosis
  • Repeated Robot-Assisted Unilateral Stiffness Perturbations Result in Significant Aftereffects Relevant to Post-Stroke Gait Rehabilitation
  • Patient-Tailored Adaptive Control for Robot-Aided Orthopaedic Rehabilitation
  • Trajectory Optimization and Model Predictive Control for Functional Electrical Stimulation-Controlled Reaching
  • Toward Gait Symmetry Enhancement Via a Cable-Driven Exoskeleton Powered by Series Elastic Actuators
  • Human-in-the-Loop Weight Compensation in Upper Limb Wearable Robots towards Total Muscles' Effort Minimization
  • A Low-Profile Hip Exoskeleton for Pathological Gait Assistance: Design and Pilot Testing
  • An Over-Actuated Bionic Knee Prosthesis: Modeling, Design and Preliminary Experimental Characterization
  • Preliminary Investigation of Powered Knee Prosthesis with Small-Scale, Light-Weight, and Affordable Series-Elastic Actuator for Walking Rehabilitation of a Patient with Four-Limb Deficiency
  • A Novel Limbs-Free Variable Structure Wheelchair Based on Face-Computer Interface (FCI) with Shared Control
  • CRANE: A 10 Degree-Of-Freedom, Tele-Surgical System for Dexterous Manipulation within Imaging Bores
  • Distributionally Robust Policy Learning Via Adversarial Environment Generation
  • ROMAX: Certifiably Robust Deep Multiagent Reinforcement Learning Via Convex Relaxation
  • Learning Emergent Discrete Message Communication for Cooperative Reinforcement Learning
  • Learning Observation-Based Certifiable Safe Policy for Decentralized Multi-Robot Navigation
  • Enhancing Deep Reinforcement Learning Approaches for Multi-Robot Navigation Via Single-Robot Evolutionary Policy Search
  • Barrier Function-Based Safe Reinforcement Learning for Formation Control of Mobile Robots
  • Bayesian Optimisation for Robust Model Predictive Control under Model Parameter Uncertainty
  • Asynchronous Reinforcement Learning for Real-Time Control of Physical Robots
  • From Scratch to Sketch: Deep Decoupled Hierarchical Reinforcement Learning for Robotic Sketching Agent
  • Robust Reinforcement Learning Via Genetic Curriculum
  • Improving Safety in Deep Reinforcement Learning Using Unsupervised Action Planning
  • TRC: Trust Region Conditional Value at Risk for Safe Reinforcement Learning
  • CT-ICP: Real-Time Elastic LiDAR Odometry with Loop Closure
  • SAGE: SLAM with Appearance and Geometry Prior for Endoscopy
  • 360VO: Visual Odometry Using a Single 360 Camera
  • Towards Scale Consistent Monocular Visual Odometry by Learning from the Virtual World
  • Performance Guarantees for Spectral Initialization in Rotation Averaging and Pose-Graph SLAM
  • VIP-SLAM: An Efficient Tightly-Coupled RGB-D Visual Inertial Planar SLAM
  • Globally Consistent and Tightly Coupled 3D LiDAR Inertial Mapping
  • Deep Networks for Point Cloud Map Validation
  • Unified Representation of Geometric Primitives for Graph-SLAM Optimization Using Decomposed Quadrics
  • DKNAS: A Practical Deep Keypoint Extraction Framework Based on Neural Architecture Search
  • Continuous-Time vs. Discrete-Time Vision-Based SLAM: A Comparative Study
  • ART-SLAM: Accurate Real-Time 6DoF LiDAR SLAM
  • Instinctive Real-Time sEMG-Based Control of Prosthetic Hand with Reduced Data Acquisition and Embedded Deep Learning Training
  • Stair Ascent Phase-Variable Control of a Powered Knee-Ankle Prosthesis
  • Tenodesis Grasp Emulator: Kinematic Assessment of Wrist-Driven Orthotic Control
  • Comprehensive Swing Leg Motion Predictor for Steady and Transient Walking Conditions
  • A Hybrid, Soft Robotic Exoskeleton Glove with Inflatable, Telescopic Structures and a Shared Control Operation Scheme
  • The MSC Prosthetic Hand: Rapid, Powerful, and Intuitive
  • Selective Assist Strategy by Using Lightweight Carbon Frame Exoskeleton Robot
  • Powered Prosthesis Locomotion on Varying Terrains: Model-Dependent Control with Real-Time Force Sensing
  • Designing a Highly Backdrivable and Kinematic Compatible Magneto-Rheological Knee Exoskeleton
  • Virtual Reality Pre-Prosthetic Hand Training with Physics Simulation and Robotic Force Interaction
  • A Data Driven Approach for Predicting Preferred Ankle Stiffness of a Quasi-Passive Prosthesis
  • MOVIE: A Velocity-Aided IMU Attitude Estimator for Observing and Controlling Multiple Deformations on Legged Robots
  • A Novel Assistive Controller Based on Differential Geometry for Users of the Differential-Drive Wheeled Mobile Robots
  • Trajectory Optimization Formulation with Smooth Analytical Derivatives for Track-Leg and Wheel-Leg Ground Robots
  • Development of a Collaborative Wheeled Mobile Robot: Design Considerations, Drive Unit Torque Control and Preliminary Result
  • Optimization-Based Maneuver Planning for a Tractor-Trailer Vehicle in a Curvy Tunnel: A Weak Reliance on Sampling and Search
  • T*"epsilon"-Bounded Sub-Optimal Efficient Motion-Planning for Minimum-Time Curvature-Constrained Systems
  • Improved Soft Duplicate Detection in Search-Based Motion Planning
  • Enhancing Maneuverability Via Gait Design
  • Analyzing Multiagent Interactions in Traffic Scenes via Topological Braids
  • Jerk Constrained Velocity Planning for an Autonomous Vehicle: Linear Programming Approach
  • Improving Haptic Exploration of Object Shape by Discovering Symmetries
  • Barrier Forming: Separating Polygonal Sets with Minimum Number of Lines
  • Anti-Collision Static Rotation Local Planner for Four Independent Steering Drive Self-Reconfigurable Robots
  • Autonomous Teamed Exploration of Subterranean Environments Using Legged and Aerial Robots
  • Learning Model Predictive Control for Quadrotors
  • Optimizing Terrain Mapping and Landing Site Detection for Autonomous UAVs
  • SPIN Road Mapper: Extracting Roads from Aerial Images Via Spatial and Interaction Space Graph Reasoning for Autonomous Driving
  • ARChemist: Autonomous Robotic Chemistry System Architecture
  • Precise 3D Reconstruction of Plants from UAV Imagery Combining Bundle Adjustment and Template Matching
  • Effects of Interfaces on Human-Robot Trust: Specifying and Visualizing Physical Zones
  • Synergistic Scheduling of Learning and Allocation of Tasks in Human-Robot Teams
  • Human-Robot Shared Control for Surgical Robot Based on Context-Aware Sim-To-Real Adaptation
  • Symphony: Learning Realistic and Diverse Agents for Autonomous Driving Simulation
  • TartanDrive: A Large-Scale Dataset for Learning Off-Road Dynamics Models
  • Augmenting Reinforcement Learning with Behavior Primitives for Diverse Manipulation Tasks
  • Cooperative Modular Single Actuator Monocopters Capable of Controlled Passive Separation
  • Online Optimal Landing Control of the MIT Mini Cheetah
  • Real-Time Multi-Contact Model Predictive Control Via ADMM
  • Online Object Model Reconstruction and Reuse for Lifelong Improvement of Robot Manipulation
  • Multi-View Object Pose Distribution Tracking for Pre-Grasp Planning on Mobile Robots
  • Manipulation of Unknown Objects Via Contact Configuration Regulation
  • Optimizing Trajectories with Closed-Loop Dynamic SQP
  • Trajectory Distribution Control for Model Predictive Path Integral Control Using Covariance Steering
  • Non-Gaussian Risk Bounded Trajectory Optimization for Stochastic Nonlinear Systems in Uncertain Environments
  • Hovering Locomotion for UAVs with Thrust-Vectoring Control Surfaces
  • Performance, Precision, and Payloads: Adaptive Nonlinear MPC for Quadrotors
  • 1D-LRF Aided Visual-Inertial Odometry for High-Altitude MAV Flight
  • Insulator Aiming Using Multi-Feature Fusion-Based Visual Servo Control for Washing Drone
  • Learning Model Predictive Control for Quadrotors
  • Nonlinear Model Identification and Observer Design for Thrust Estimation of Small-Scale Turbojet Engines
  • LADC: Learning-Based Anti-Disturbance Control for Washing Drone
  • Ad2Attack: Adaptive Adversarial Attack on Real-Time UAV Tracking
  • Aerobatic Tic-Toc Control of Planar Quadcopters Via Reinforcement Learning
  • Active Autorotation of Micro Aerial Vehicle with Foldable Winged Shell for Impact Mitigation under Free Fall
  • Range, Endurance, and Optimal Speed Estimates for Multicopters
  • Spatiotemporal Multisensor Calibration Via Gaussian Processes Moving Target Tracking
  • Infrastructure-Enabled Autonomy: An Attention Mechanism for Occlusion Handling
  • Gaussian Process Self-Triggered Policy Search in Weakly Observable Environments
  • Online Payload Identification for Tactile Robots Using the Momentum Observer
  • Real-Time Inertial Parameter Identification of Floating-Base Robots through Iterative Primitive Shape Division
  • ACD-EDMD: Analytical Construction for Dictionaries of Lifting Functions in Koopman Operator-Based Nonlinear Robotic Systems
  • Smooth Parameterization of Rigid-Body Inertia
  • Extrinsic Calibration of Multiple Inertial Sensors from In-Flight Data
  • UnDAF: A General Unsupervised Domain Adaptation Framework for Disparity or Optical Flow Estimation
  • Localization of a Smart Infrastructure Fisheye Camera in a Prior Map for Autonomous Vehicles
  • Camera-IMU Extrinsic Calibration Quality Monitoring for Autonomous Ground Vehicles
  • ARChemist: Autonomous Robotic Chemistry System Architecture
  • MSC-VO: Exploiting Manhattan and Structural Constraints for Visual Odometry
  • MultiRes-NetVLAD: Augmenting Place Recognition Training with Low-Resolution Imagery
  • LaneMatch: A Practical Real-Time Localization Method Via Lane-Matching
  • Binary Graph Descriptor for Robust Relocalization on Heterogeneous Data
  • A Model for Multi-View Residual Covariances Based on Perspective Deformation
  • Tightly-Coupled Magneto-Visual-Inertial Fusion for Long Term Localization in Indoor Environment
  • Koopman Linearization for Data-Driven Batch State Estimation of Control-Affine Systems
  • Electric Sense Based Pose Estimation and Localization for Small Underwater Robots
  • Improved State Propagation through AI-Based Pre-Processing and Down-Sampling of High-Speed Inertial Data
  • Joint Localization Based on Split Covariance Intersection on the Lie Group
  • Adaptive Aerial Localization Using Lissajous Search Patterns
  • RINet: Efficient 3D Lidar-Based Place Recognition Using Rotation Invariant Neural Network
  • Bundled Gradients through Contact Via Randomized Smoothing
  • Hydraulically Actuated Soft Tubular Gripper
  • TaTa: A Universal Jamming Gripper with High-Quality Tactile Perception and Its Application to Underwater Manipulation
  • Mechanical Search on Shelves Using a Novel ``Bluction'' Tool
  • Double-Nozzle Capillary Force Gripper for Cubical, Triangular Prismatic, and Helical 1mm-Sized-Objects
  • The WaveJoints: A Novel Methodology to Design Soft-Rigid Grippers Made by Monolithic 3D Printed Fingers with Adjustable Joint Stiffness
  • IPC-GraspSim: Reducing the Sim2Real Gap for Parallel-Jaw Grasping with the Incremental Potential Contact Model
  • DenseTact: Optical Tactile Sensor for Dense Shape Reconstruction
  • Contact Transfer: A Direct, User-Driven Method for Human to Robot Transfer of Grasps and Manipulations
  • On Inverse Inertia Matrix and Contact-Force Model for Robotic Manipulators at Normal Impacts
  • Parameterized Particle Filtering for Tactile-Based Simultaneous Pose and Shape Estimation
  • Microgripper Using Flexible Wire Hinge for Robotic Intraocular Snake
  • Explore-Bench: Data Sets, Metrics and Evaluations for Frontier-Based and Deep-Reinforcement-Learning-Based Autonomous Exploration
  • A Deep Reinforcement Learning Environment for Particle Robot Navigation and Object Manipulation
  • Generalized Affordance Templates for Mobile Manipulation
  • Understanding XACRO Misunderstandings
  • GRiD: GPU-Accelerated Rigid Body Dynamics with Analytical Gradients
  • Brick Yourself within 3 Minutes
  • FishGym: A High-Performance Physics-Based Simulation Framework for Underwater Robot Learning
  • Put the Bear on the Chair! Intelligent Robot Interaction with Previously Unseen Chairs Via Robot Imagination
  • TraEDITS: Diversity and Irregularity-Aware Traffic Trajectory Editing
  • Performance Models in Robotics with a Use Case on SLAM
  • The Franka Emika Robot: A Reference Platform for Robotics Research and Education
  • A Benchmarking Platform and a Control Allocation Method for Improving the Efficiency of Coaxial Rotor Systems
  • StructFormer: Learning Spatial Structure for Language-Guided Semantic Rearrangement of Novel Objects
  • InsertionNet 2.0 : Minimal Contact Multi-Step Insertion Using Multimodal Multiview Sensory Input
  • Data-Efficient Learning of Object-Centric Grasp Preferences
  • Provably Safe Deep Reinforcement Learning for Robotic Manipulation in Human Environments
  • Search-Based Task Planning with Learned Skill Effect Models for Lifelong Robotic Manipulation
  • Reinforcement Learning for Picking Cluttered General Objects with Dense Object Descriptors
  • A Hybrid Approach for Learning to Shift and Grasp with ElaborateMotion Primitives
  • Affordance Learning from Play for Sample-Efficient Policy Learning
  • Stable Object Reorientation Using Contact Plane Registration
  • Offline Meta-Reinforcement Learning for Industrial Insertion
  • Neural Descriptor Fields: SE(3)-Equivariant Object Representations for Manipulation
  • CaTGrasp: Learning Category-Level Task-Relevant Grasping in Clutter from Simulation
  • HMD-Former: A Transformer-Based Human Mesh Deformer with Inter-Layer Semantic Consistency
  • Augmented Pointing Gesture Estimation for Human-Robot Interaction
  • Dual Regression for Efficient Hand Pose Estimation
  • Path-Aware Graph Attention for HD Maps in Motion Prediction
  • Exact-Likelihood User Intention Estimation for Scene-Compliant Shared-Control Navigation
  • Using Arm Swing Movements to Maintain the Walking State in a Self-Balanced Lower-Limb Exoskeleton
  • Cost-Effective Sensing for Goal Inference: A Model Predictive Approach
  • A Data-Driven Multiple Model Framework for Intention Estimation
  • Monitoring the Mental State of Cooperativeness for Guiding an Elderly Person in Sit-To-Stand Assistance
  • Can Cars Gesture? a Case for Expressive Behavior within Autonomous Vehicle and Pedestrian Interactions
  • Learn to Predict How Humans Manipulate Large-Sized Objects from Interactive Motions
  • Language-Driven Robot Manipulation with Perspective Disambiguation and Placement Optimization
  • NeRF-Supervision: Learning Dense Object Descriptors from Neural Radiance Fields
  • Fusion-FlowNet: Energy-Efficient Optical Flow Estimation Using Sensor Fusion and Deep Fused Spiking-Analog Network Architectures
  • SelfTune: Metrically Scaled Monocular Depth Estimation throughSelf-Supervised Learning
  • Deep Bayesian ICP Covariance Estimation
  • UFODepth: Unsupervised Learning with Flow-Based Odometry Optimization for Metric Depth Estimation
  • F-Cal: Aleatoric Uncertainty Quantification for Robot Perception Via Calibrated Neural Regression
  • CertainNet: Sampling-Free Uncertainty Estimation for Object Detection
  • Monocular Depth Distribution Alignment with Low Computation
  • Improving Depth Estimation Using Map-Based Depth Priors
  • Vision-Based Ascending Staircase Detection with Interpretable Classification Model for Stair Climbing Robots
  • Temporally-Aggregating Multiple-Discontinuous-Image Saliency Prediction with Transformer-Based Attention
  • A Planted Clique Perspective on Hypothesis Pruning
  • Convex Model Predictive Control of Single Rigid Body Model on SO(3) for Versatile Dynamic Legged Motions
  • Planning Natural Locomotion for Articulated Soft Quadrupeds
  • Hybrid Event Shaping to Stabilize Periodic Hybrid Orbits
  • Humanoid Arm Motion Planning for Improved Disturbance Recovery Using Model Hierarchy Predictive Control
  • Design of KAIST HOUND, a Quadruped Robot Platform for Fast and Efficient Locomotion with Mixed-Integer Nonlinear Optimization of a Gear Train
  • Rapid and Reliable Quadruped Motion Planning with Omnidirectional Jumping
  • Nonprehensile Object Transportation with a Legged Manipulator
  • A Novel Model of Interaction Dynamics between Legged Robots and Deformable Terrain
  • STEP: State Estimator for Legged Robots Using a Preintegrated Foot Velocity Factor
  • Computation of Regions of Attraction for Hybrid Limit Cycles Using Reachability: An Application to Walking Robots
  • Linear Policies Are Sufficient to Realize Robust Bipedal Walking on Challenging Terrains
  • GRAB: GRAdient-Based Shape-Adaptive Compliant Locomotion Control
  • DURableVS: Data-Efficient Unsupervised Recalibrating Visual Servoing Via Online Learning in a Structured Generative Model
  • Learning Safe, Generalizable Perception-Based Hybrid Control with Certificates
  • Manipulation Planning from Demonstration Via Goal-Conditioned Prior Action Primitive Decomposition and Alignment
  • Inferring Human-Robot Performance Objectives During Locomotion Using Inverse Reinforcement Learning and Inverse Optimal Control
  • Unified and Fast Human Trajectory Prediction Via Conditionally Parameterized Normalizing Flow
  • Learning Contraction Policies from Offline Data
  • Achieving Radar-To-Lidar Translation While Preserving Long-Range Sensing and Penetrating Capabilities
  • Recognizing User Proficiency in Piloting Small Unmanned Aerial Vehicles (sUAV)
  • Visual Perception of Robot Appearance Attributes in the Peripheral Field of View Depends on Human Observer Eye-Movement Behaviors
  • Admittance Control Based Human-In-The-Loop Optimization for Hip Exoskeleton: A New Approach
  • Metrics for 3D Object Pointing and Manipulation in Virtual Reality
  • Go with the Flow: Energy Minimising Periodic Trajectories for UVMS
  • A Reinforcement Learning Approach in Assignment of Task Priorities in Kinematic Control of Redundant Robots
  • A Generalized Index for Fault-Tolerant Control in Operational Space under Free-Swinging Actuation Failure
  • ROZZ: Property-Based Fuzzing for Robotic Programs in ROS
  • Enhancing Data-Driven Reachability Analysis Using Temporal Logic Side Information
  • Formal Verification of Stochastic Systems with ReLU Neural Network Controllers
  • Recursive Feasibility Guided Optimal Parameter Adaptation of Differential Convex Optimization Policies for Safety-Critical Systems
  • Automated Testing with Temporal Logic Specifications for Robotic Controllers Using Adaptive Experiment Design
  • Model-Free Safety-Critical Control for Robotic Systems
  • Back to the Future: Efficient, Time-Consistent Solutions in Reach-Avoid Games
  • Onboard Safety Guarantees for Racing Drones: High-Speed Geofencing with Control Barrier Functions
  • SABLAS: Learning Safe Control for Black-Box Dynamical Systems
  • Multi-Robot Persistent Environmental Monitoring Based on Constraint-Driven Execution of Learned Robot Tasks
  • Free-Space Ellipsoid Graphs for Multi-Agent Target Monitoring
  • A Distributed Service-Matching Coverage Via Heterogeneous Agents
  • ROS2swarm - a ROS 2 Package for Swarm Robot Behaviors
  • MOSAIX: A Swarm of Robot Tiles for Social Human-Swarm Interaction
  • Multi-Operator Control of Connectivity-Preserving Robot Swarms Using Supervisory Control Theory
  • Viscoelastic Fluid-Inspired Swarm Behavior to Reduce Susceptibility to Local Minima: The Chain Siphon Algorithm
  • Distributed Three Dimensional Flocking of Autonomous Drones
  • Learning to Swarm with Knowledge-Based Neural Ordinary Differential Equations
  • DORA: Distributed Online Risk-Aware Explorer
  • Adaptive Strategies for Team Formation in Minimalist Robot Swarms
  • A Test Platform for UWB-Based Localization of Dynamic Multi-Agent Systems
  • HandoverSim: A Simulation Framework and Benchmark for Human-To-Robot Object Handovers
  • Model Predictive Control with Gaussian Processes for Flexible Multi-Modal Physical Human Robot Interaction
  • Model Predictive Control for Fluid Human-To-Robot Handovers
  • Control Scheme for Sideways Walking on a User-Driven Treadmill
  • Power-Shaping Model-Based Control with Feedback Deactivation for Flexible-Joint Robot Interaction
  • EMG-Based Variable Impedance Control with Passivity Guarantees for Collaborative Robotics
  • Human-State-Aware Controller for a Tethered Aerial Robot Guiding a Human by Physical Interaction
  • Dynamic Primitives Limit Human Force Regulation During Motion
  • A Quantitative Analysis of Activities of Daily Living: Insights into Improving Functional Independence with Assistive Robotics
  • Opto-Electrotactile Feedback Enabled Text-Line Tracking Control for a Finger-Wearable Reading Aid for the Blind
  • Admittance Model Optimization for Gait Balance Assistance of a Robotic Walker: Passive Model-Based Mechanical Assessment
  • Bodies Uncovered: Learning to Manipulate Real Blankets Around People Via Physics Simulations
  • A Divide-And-Merge Point Cloud Clustering Algorithm for LiDAR Panoptic Segmentation
  • Comparing Single Touch to Dynamic Exploratory Procedures for Robotic Tactile Object Recognition
  • Segmentation and Shape Estimation of Multiple Deformed Cloths Using a CNN-Based Landmark Detector and Clustering
  • Anytime 3D Object Reconstruction Using Multi-Modal Variational Autoencoder
  • Enhanced Prototypical Learning for Unsupervised Domain Adaptation in LiDAR Semantic Segmentation
  • Multi-Class Road User Detection with 3+1D Radar in the View-Of-Delft Dataset
  • ShapeMap 3-D: Efficient Shape Mapping through Dense Touch and Vision
  • Learning Open-World Object Proposals without Learning to Classify
  • Automatic Biopsy Tool Presence and Episode Recognition in Robotic Bronchoscopy Using a Multi-Task Vision Transformer Network
  • Design and Evaluation of Object Classifiers for Probabilistic Decision-Making in Autonomous Systems
  • EfficientLPS: Efficient LiDAR Panoptic Segmentation
  • Dynamic Underactuated Manipulator Using a Flexible Body with a Structural Anisotropy
  • A Novel Hydrogel-Based Connection Mechanism for Soft Modular Robots
  • Printable Origami Bistable Structures for Foldable Jumpers
  • Towards a Microfluidic Microcontroller Circuit Library for Soft Robots
  • Task-Specific Design Optimization and Fabrication for Inflated-Beam Soft Robots with Growable Discrete Joints
  • Modulation of Magnetorheological Fluid Flow in Soft Robots Using Electropermanent Magnets
  • Giraffe Neck Robot: First Step Toward a Powerful and Flexible Robot Prototyping Based on Giraffe Anatomy
  • Liquid-Metal Magnetic Soft Robot with Reprogrammable Magnetization and Stiffness
  • Programmable Digital Weaves
  • Vertebraic Soft Robotic Joint Design with Twisting and Antagonism
  • Repeated Jumping with the REBOund: Self-Righting Jumping Robot Leveraging Bistable Origami-Inspired Design
  • Enhancing the Universality of a Pneumatic Gripper Via Continuously Adjustable Initial Grasp Postures
  • Kinematic Transfer Learning of Sampling Distributions for Manipulator Motion Planning
  • Adversarial Sampling-Based Motion Planning
  • Human-Guided Motion Planning in Partially Observable Environments
  • Learning to Retrieve Relevant Experiences for Motion Planning
  • Fast Footstep Planning on Uneven Terrain Using Deep Sequential Models
  • Realtime Trajectory Smoothing with Neural Nets
  • MotionBenchMaker: A Tool to Generate and Benchmark Motion Planning Datasets
  • HR-Planner: A Hierarchical Highway Tactical Planner Based on Residual Reinforcement Learning
  • Safe Multi-Agent Motion Planning Via Filtered Reinforcement Learning
  • Efficient Object Manipulation to an Arbitrary Goal Pose: Learning-Based Anytime Prioritized Planning
  • Learning Cooperative Multi-Agent Policies with Partial Reward Decoupling
  • Interactive Human-In-The-Loop Coordination of Manipulation Skills Learned from Demonstration
  • APF-RL: Safe Mapless Navigation in Unknown Environments
  • A Double Branch Next-Best-View Network and Novel Robot System for Active Object Reconstruction
  • Towards Optimal Correlational Object Search
  • Reactive Informative Planning for Mobile Manipulation Tasks under Sensing and Environmental Uncertainty
  • Receding Horizon Tracking of an Unknown Number of Mobile Targets Using a Bearings-Only Sensor
  • On the Role of Hyperdimensional Computing for Behavioral Prioritization in Reactive Robot Navigation Tasks
  • A Hierarchical Deliberative-Reactive System Architecture for Task and Motion Planning in Partially Known Environments
  • Information-Aware Lyapunov-Based MPC in a Feedback-Feedforward Control Strategy for Autonomous Robots
  • A Robust Reference Path Selection Method for Path Planning Algorithm
  • NeuroErgo: A Deep Neural Network Method to Improve Postural Optimization for Ergonomic Human-Robot Collaboration
  • A Dynamic Task Allocation Strategy to Mitigate the Human Physical Fatigue in Collaborative Robotics
  • Learning Submodular Objectives for Team Environmental Monitoring
  • Incorporating Rich Social Interactions into MDPs
  • Developing the Bottom-Up Attentional System of a Social Robot
  • Hybrid Hierarchical Learning for Adaptive Persuasion in Human-Robot Interaction
  • Let Them Have Bubbles! Filling Gaps in Toy-Like Behaviors for Child-Robot Interaction
  • Communicating Robot Conventions through Shared Autonomy
  • Bidirectional Communication Control for Human-Robot Collaboration
  • Learning Latent Actions without Human Demonstrations
  • Design by Robot: A Human-Robot Collaborative Framework for Improving Productivity of a Floor Cleaning Robot
  • Quori: A Community-Informed Design of a Socially Interactive Humanoid Robot
  • Learning Design and Construction with Varying-Sized Materials Via Prioritized Memory Resets
  • Augmenting Reinforcement Learning with Behavior Primitives for Diverse Manipulation Tasks
  • Off Environment Evaluation Using Convex Risk Minimization
  • RAPID-RL: A Reconfigurable Architecture with Preemptive-Exits for Efficient Deep-Reinforcement Learning
  • Concurrent Policy Blending and System Identification for Generalized Assistive Control
  • ASHA: Assistive Teleoperation Via Human-In-The-Loop Reinforcement Learning
  • Latent Imagination Facilitates Zero-Shot Transfer in Autonomous Racing
  • Graph-Based Cluttered Scene Generation and Interactive Exploration Using Deep Reinforcement Learning
  • Validate on Sim, Detect on Real - Model Selection for Domain Randomization
  • Look Closer: Bridging Egocentric and Third-Person Views with Transformers for Robotic Manipulation
  • Promoting Quality and Diversity in Population-Based Reinforcement Learning Via Hierarchical Trajectory Space Exploration
  • End-to-End Optimization of LiDAR Beam Configuration for 3D Object Detection and Localization
  • EDPLVO: Efficient Direct Point-Line Visual Odometry
  • Incremental Abstraction in Distributed Probabilistic SLAM Graphs
  • Information-Theoretic Online Multi-Camera Extrinsic Calibration
  • UV-SLAM: Unconstrained Line-Based SLAM Using Vanishing Points for Structural Mapping
  • Interval-Based Visual-Inertial LiDAR SLAM with Anchoring Poses
  • Towards Accurate Loop Closure Detection in Semantic SLAM with 3D Semantic Covisibility Graphs
  • Self-Supervised Ego-Motion Estimation Based on Multi-Layer Fusion of RGB and Inferred Depth
  • HiPE: Hierarchical Initialization for Pose Graphs
  • A Right Invariant Extended Kalman Filter for Object Based SLAM
  • HD Ground - a Database for Ground Texture Based Localization
  • The Visual-Inertial-Dynamical Multirotor Dataset
  • M2DGR: A Multi-Sensor and Multi-Scenario SLAM Dataset for Ground Robots
  • Design and Analysis of a Long-Range Magnetic Actuated and Guided Endoscope for Uniport VATS
  • On a New 10-Millimeter Surgical Robot Wrist
  • 3D Perception Based Imitation Learning under Limited Demonstration for Laparoscope Control in Robotic Surgery
  • Safe Endoscope Holding in Minimally Invasive Surgery: Zero Stiffness and Adaptive Weight Compensation
  • Utilising Incipient Slip for Grasping Automation in Robot Assisted Surgery
  • SUPR-GAN: SUrgical PRediction GAN for Event Anticipation in Laparoscopic and Robotic Surgery
  • Human-Robot Shared Control for Surgical Robot Based on Context-Aware Sim-To-Real Adaptation
  • 3D Vision Based Robot Assisted Electrical Impedance Scanning for Soft Tissue Conductivity Sensing
  • Global-Reasoned Multi-Task Learning Model for Surgical Scene Understanding
  • ColibriDoc: An Eye-In-Hand Autonomous Trocar Docking System
  • Deep Curiosity Driven Multicamera 3D Viewpoint Adjustment for Robot-Assisted Minimally Invasive Surgery
  • Automated Linear and Non-Linear Path Planning for Neurosurgical Interventions
  • ComOpT: Combination and Optimization for Testing Autonomous Driving Systems
  • Learning Interactive Driving Policies Via Data-Driven Simulation
  • Deep Drifting: Autonomous Drifting of Arbitrary Trajectories Using Deep Reinforcement Learning
  • Perception-Friendly Video Enhancement for Autonomous Driving under Adverse Weather Conditions
  • Efficient Patching of DNNs for Autonomous Vehicles
  • Fast Point Clouds Upsampling with Uncertainty Quantification for Autonomous Vehicles
  • Deep Reinforcement Learning Based Game-Theoretic Decision-Making for Autonomous Vehicles
  • Visual Localization and Mapping Leveraging the Constraints of Local Ground Manifolds
  • CRAT-Pred: Vehicle Trajectory Prediction with Crystal Graph Convolutional Neural Networks and Multi-Head Self-Attention
  • Causal-Based Time Series Domain Generalization for Vehicle Intention Prediction
  • MultiPath++: Efficient Information Fusion and Trajectory Aggregation for Behavior Prediction
  • GAMMA: A General Agent Motion Model for Autonomous Driving
  • Minimum-Time Quadrotor Waypoint Flight in Cluttered Environments
  • Adaptive Center-Of-Mass Relocation for Aerial Manipulator Fault Tolerance
  • An Adaptive PID Autotuner for Multicopters with Experimental Results
  • When Being Soft Makes You Tough: A Collision-Resilient Quadcopter Inspired by Arthropods' Exoskeletons
  • Star-Convex Constrained Optimization for Visibility Planning with Application to Aerial Inspection
  • Robot Grasping through a Joint-Initiative Supervised Autonomy Framework
  • Improved Task Planning through Failure Anticipation in Human-Robot Collaboration
  • Adaptive Impedance Controller for Human-Robot Arbitration Based on Cooperative Differential Game Theory
  • User-Adaptive Variable Damping Control Using Bayesian Optimization to Enhance Physical Human-Robot Interaction
  • Control and Transport of Passive Particles Using Self-Organized Spinning Micro-Disks
  • Design and Implementation of an Automatic Batch Microinjection System for Zebrafish Larvae
  • AcousNet: A Deep Learning Based Approach to Dynamic 3D Holographic Acoustic Field Generation from Phased Transducer Array
  • On-Chip Continuous Pairing, Separation and Electrofusion of Cells Using a Microdroplet
  • Robotic Cell Manipulation for Blastocyst Biopsy
  • Automated Microhand System for Measuring Cell Stiffness by Using Two Plate End-Effectors
  • Acoustic and Magnetic Hybrid Actuated Immune Cell Robot for Target and Kill Cancer Cells
  • Optimizing Multi-Robot Placements for Wire Arc Additive Manufacturing
  • 3D Navigation Control of Untethered Magnetic Microrobot in Centimeter-Scale Workspace Based on Field-Of-View Tracking Scheme
  • High-Throughput Data Acquisition Platform for Multi-Larvae Touch-Response Behavior Screening of Zebrafish
  • Map-Based Visual-Inertial Localization: A Numerical Study
  • Crossview Mapping with Graph-Based Geolocalization on City-Scale Street Maps
  • DynamicFilter: An Online Dynamic Objects Removal Framework for Highly Dynamic Environments
  • LT-Mapper: A Modular Framework for LiDAR-Based Lifelong Mapping
  • Memory-Efficient Gaussian Fitting for Depth Images in Real Time
  • A Single Correspondence Is Enough: Robust Global Registration to Avoid Degeneracy in Urban Environments
  • Panoptic Multi-TSDFs: A Flexible Representation for Online Multi-Resolution Volumetric Mapping and Long-Term Dynamic Scene Consistency
  • Reconstructing Occluded Elevation Information in Terrain Maps with Self-Supervised Learning
  • K-Closest Points and Maximum Clique Pruning for Efficient and Effective 3-D Laser Scan Matching
  • FD-SLAM: 3-D Reconstruction Using Features and Dense Matching
  • AirDOS: Dynamic SLAM Benefits from Articulated Objects
  • DRG: A Dynamic Relation Graph for Unified Prior-Online Environment Modeling in Urban Autonomous Driving
  • Enhancing Flexibility and Adaptability in Conjoined Human-Robot Industrial Tasks with a Minimalist Physical Interface
  • Is Bilateral or Paretic-Limb-Only Ankle Exoskeleton Assistance Better for Improving Walking in Hemiparetic Gait? a Case Series
  • A Novel Multimodal Human-Exoskeleton Interface Based on EEG and sEMG Activity for Rehabilitation Training
  • Predicting the Effects of Oscillator-Based Assistance on Stride-To-Stride Variability of Parkinsonian Walkers
  • On Wearable, Lightweight, Low-Cost Human Machine Interfaces for the Intuitive Collection of Robot Grasping and Manipulation Data
  • Adaptive Semi-Supervised Intent Inferral to Control a Powered Hand Orthosis for Stroke
  • MyoSim: Fast and Physiologically Realistic MuJoCo Models for Musculoskeletal and Exoskeletal Studies
  • Multimodal Hydrostatic Actuators for Wearable Robots: A Preliminary Assessment of Mass-Saving and Energy-Efficiency Opportunities
  • Deep Learning Enables Exoboot Control to Augment Variable-Speed Walking
  • Underactuated Soft Hip Exosuit Based on Adaptive Oscillators to Assist Human Locomotion
  • Rigid, Soft, Passive, and Active: A Hybrid Occupational Exoskeleton for Bimanual Multijoint Assistance
  • Characterization of Open-Loop Impedance Control and Efficiency in Wearable Robots
  • Depth Distribution Split Labeling for Rubble Recognition of Crushing Machine
  • Inside LineRanger: Mechanism Design to Optimize Operation and Performances of Powerline Inspection Robot
  • Crawling Locomotion Enabled by a Novel Actuated Rover Chassis
  • Trajectory Planning for Sensors and Payloads Moving through Mixed and Uncertain Media
  • GPS-Denied Global Visual-Inertial Ground Vehicle State Estimation Via Image Registration
  • Experiments in Adaptive Replanning for Fast Autonomous Flight in Forests
  • Drone Detection Using Sparse Lidar Measurements
  • Proactive Anomaly Detection for Robot Navigation with Multi-Sensor Fusion
  • CsBoundary: City-Scale Road-Boundary Detection in Aerial Images for High-Definition Maps
  • Active Learning for Testing and Evaluation in Field Robotics: A Case Study in Autonomous, Off-Road Navigation
  • Modelling and Control of a Variable-Length Flexible Beam on Inspection Ground Robot
  • Confidence-Based Robot Navigation under Sensor Occlusion with Deep Reinforcement Learning
  • Hybrid Physical Metric for 6-DoF Grasp Pose Detection
  • Learning Multi-Step Robotic Manipulation Policies from Visual Observation of Scene and Q-Value Predictions of Previous Action
  • ReorientBot: Learning Object Reorientation for Specific-Posed Placement
  • LEGS: Learning Efficient Grasp Sets for Exploratory Grasping
  • Learning Latent Graph Dynamics for Visual Manipulation of Deformable Objects
  • Learning Visual Shape Control of Novel 3D Deformable Objects from Partial-View Point Clouds
  • Real2Sim2Real: Self-Supervised Learning of Physical Single-Step Dynamic Actions for Planar Robot Casting
  • Cluttered Food Grasping with Adaptive Fingers and Synthetic-Data Trained Object Detection
  • Visuotactile-RL: Learning Multimodal Manipulation Policies with Deep Reinforcement Learning
  • Reducing Tactile Sim2Real Domain Gap Via Deep Texture Generation Networks
  • Grasp Pose Selection under Region Constraints for Dirty Dish Grasps Based on Inference of Grasp Success Probability through Self-Supervised Learning
  • Constrained Variable Impedance Control Using Quadratic Programming
  • Variable Stiffness Control Via External Torque Estimation Using LSTM
  • Mixed Control for Whole-Body Compliance of a Humanoid Robot
  • A Memory-Based SO(3) Parameterization: Theory and Application to 6D Impedance Control with Radially Unbounded Potential Function
  • RRT* and Goal-Driven Variable Admittance Control for Obstacle Avoidance in Manual Guidance Applications
  • Passivity-Based Adaptive Force-Impedance Control for Modular Multi-Manual Object Manipulation
  • A Model Free Robot Control Method for Dragging an Object on a Planar Surface by Applying Top Contact Forces
  • Unfreezing Social Navigation: Dynamical Systems Based Compliance for Contact Control in Robot Navigation
  • Easing Reliance on Collision-Free Planning with Contact-Aware Control
  • Unified Method for Task-Space Motion/Force/Impedance Control of Manipulator with Unknown Contact Reaction Strategy
  • Design, Modeling and Validation of a Tendon-Driven Soft Continuum Robot for Planar Motion Based on Variable Stiffness Structures
  • Autonomous Ultrasound Scanning Using Bayesian Optimization and Hybrid Force Control
  • Trajectory Prediction for Autonomous Driving with Topometric Map
  • See Yourself in Others: Attending Multiple Tasks for Own Failure Detection
  • I Know What You Draw: Learning Grasp Detection Conditioned on a Few Freehand Sketches
  • Implicit LiDAR Network: LiDAR Super-Resolution Via Interpolation Weight Prediction
  • AirCode: A Robust Object Encoding Method
  • Learning Optical Flow, Depth, and Scene Flow without Real-World Labels
  • Incremental Few-Shot Object Detection for Robotics
  • CLA-NeRF: Category-Level Articulated Neural Radiance Field
  • Learning to Infer Kinematic Hierarchies for Novel Object Instances
  • Self-Supervised Camera Self-Calibration from Video
  • Learning 6-DoF Object Poses to Grasp Category-Level Objects by Language Instructions
  • Multiple Consistency Supervision Based Semi-Supervised OCT Segmentation Using Very Limited Annotations
  • Decoupling of Inertia Effect in Angular Momentum of a Humanoid and Its Application to Resolved Viscoelasticity Control
  • Using Eye Gaze to Forecast Human Pose in Everyday Pick and Place Actions
  • On the Reliability of Inverse Optimal Control
  • DanceHAT: Generate Stable Dances for Humanoid Robots with Adversarial Training
  • Dynamic Locomotion Teleoperation of a Reduced Model of a Wheeled Humanoid Robot Using a Whole-Body Human-Machine Interface
  • Design and Development for Humanoid-Vehicle Transformer Platform with Plastic Resin Structure and Distributed Redundant Sensors
  • A Robotic Lower Limb with Eight DoFs and Whole-Foot Tactile Perception for Anthropomorphic Behavior Performance
  • Introducing RH5 Manus: A Powerful Humanoid Upper Body Design for Dynamic Movements
  • Design and Control of a Miniature Bipedal Robot with Proprioceptive Actuation for Dynamic Behaviors
  • Jet-HR2: A Flying Bipedal Robot Based on Thrust Vector Control
  • Human Navigational Intent Inference with Probabilistic and Optimal Approaches
  • Adaptive Body Schema Learning System Considering Additional Muscles for Musculoskeletal Humanoids
  • Watch and Learn: Learning to Control Feedback Linearizable Systems from Expert Demonstrations
  • Attentive One-Shot Meta-Imitation Learning from Visual Demonstration
  • Learning Sensorimotor Primitives of Sequential Manipulation Tasks from Visual Demonstrations
  • Maximum Likelihood Constraint Inference on Continuous State Spaces
  • Learning from Humans and Robots with Dual Demonstration Domains: Random Domain-Adaptive Meta-Learning
  • Q-attention: Enabling Efficient Learning for Vision-Based Robotic Manipulation
  • Kinematic Motion Retargeting Via Neural Latent Optimization for Learning Sign Language
  • From Key Positions to Optimal Basis Functions for Probabilistic Adaptive Control
  • Learning Stable Dynamical Systems for Visual Servoing
  • Gaussian Process Constraint Learning for Scalable Chance-Constrained Motion Planning from Demonstrations
  • Robot Skill Adaptation Via Soft Actor-Critic Gaussian Mixture Models
  • Efficient and Interpretable Robot Manipulation with Graph Neural Networks
  • Abnormal Occupancy Grid Map Recognition Using Attention Network
  • Uncertainty from Motion for DNN Monocular Depth Estimation
  • Depth Completion Using Geometry-Aware Embedding
  • Competence-Aware Path Planning Via Introspective Perception
  • Self-Supervised Depth Completion for Active Stereo
  • A Real-Time Online Learning Framework for Joint 3D Reconstruction and Semantic Segmentation of Indoor Scenes
  • Prediction of Depth Camera Missing Measurements Using Deep Learning for Next Best View Planning
  • ICaps: Iterative Category-Level Object Pose and Shape Estimation
  • Message Passing Framework for Vision Prediction Stability in Human Robot Interaction
  • Unsupervised Depth Completion and Denoising for RGB-D Sensors
  • PA-AWCNN: Two-Stream Parallel Attention Adaptive Weight Network for RGB-D Action Recognition
  • Variable Rate Compression for Raw 3D Point Clouds
  • ForMIC: Foraging Via Multiagent RL with Implicit Communication
  • Stable and Efficient Shapley Value-Based Reward Reallocation for Multi-Agent Reinforcement Learning of Autonomous Vehicles
  • A Framework for Real-World Multi-Robot Systems Running Decentralized GNN-Based Policies
  • DiNNO: Distributed Neural Network Optimization for Multi-Robot Collaborative Learning
  • Coverage Control in Multi-Robot Systems Via Graph Neural Networks
  • Multi-Target Encirclement with Collision Avoidance Via Deep Reinforcement Learning Using Relational Graphs
  • Decentralized Global Connectivity Maintenance for Multi-Robot Navigation: A Reinforcement Learning Approach
  • Multi-Robot Cooperative Pursuit Via Potential Field-Enhanced Reinforcement Learning
  • Learning Scalable Policies Over Graphs for Multi-Robot Task Allocation Using Capsule Attention Networks
  • Task Allocation with Load Management in Multi-Agent Teams
  • Learning Selective Communication for Multi-Agent Path Finding
  • Hierarchical Planning for Heterogeneous Multi-Robot Routing Problems Via Learned Subteam Performance
  • The ThreeDWorld Transport Challenge: A Visually Guided Task-And-Motion Planning Benchmark towards Physically Realistic Embodied AI
  • Online Adaptive Identification and Switching of Soft Contact Model Based on ART-�ְ Method
  • A Proprioceptive Haptic Device Design for Teaching Bimanual Manipulation
  • A Wearable Fingertip Cutaneous Haptic Device with Continuous Omnidirectional Motion Feedback
  • Rendering Virtual Inertia in Haptic Interfaces: Analysis and Limitations
  • Perceived Intensities of Normal and Shear Skin Stimuli Using a Wearable Haptic Bracelet
  • Virtual Inertia As an Energy Dissipation Element for Haptic Interfaces
  • Evoked Tactile Feedback and Control Scheme on Functional Utility of Prosthetic Hand
  • Deep Heterogeneous Dilation of LSTM for Transient-Phase Gesture Prediction through High-Density Electromyography: Towards Application in Neurorobotics
  • Interactive Robotic Grasping with Attribute-Guided Disambiguation
  • Autonomous Exploration Development Environment and the Planning Algorithms
  • Event-Triggered Tracking Control Scheme for Quadrotors with External Disturbances: Theory and Validations
  • PredictionNet: Real-Time Joint Probabilistic Traffic Prediction for Planning, Control, and Simulation
  • Graph Neural Network Based Relation Learning for Abnormal Perception Information Detection in Self-Driving Scenarios
  • Domain Generalization for Vision-Based Driving Trajectory Generation
  • StopNet: Scalable Trajectory and Occupancy Prediction for Urban Autonomous Driving
  • FusionNet: Coarse-To-Fine Extrinsic Calibration Network of LiDAR and Camera with Hierarchical Point-Pixel Fusion
  • Cyclops: Open Platform for Scale Truck Platooning
  • Runtime Safety Assurance for Learning-Enabled Control of Autonomous Driving Vehicles
  • Looking for Trouble: Informative Planning for Safe Trajectories with Occlusions
  • A Deep Concept Graph Network for Interaction-Aware Trajectory Prediction
  • Real-Time Trajectory Planning for Autonomous Driving with Gaussian Process and Incremental Refinement
  • The Role of Stiffness in Versatile Robotic Grasping
  • Turning a Functional Cloth into an Actuator by Combining Thread-Like Thin Artificial Muscles and Embroidery Techniques
  • Singularity Conditions for Continuum Parallel Robots
  • A Contact-Triggered Adaptive Soft Suction Cup
  • Feedback Regulation of Elastically Decoupled Underactuated Soft Robots
  • Probabilistic Modeling and Bayesian Filtering for Improved State Estimation for Soft Robots
  • Sim-To-Real for Soft Robots Using Differentiable FEM: Recipes for Meshing, Damping, and Actuation
  • A 3D Printed Soft Robotic Gripper with a Variable Stiffness Enabled by a Novel Positive Pressure Layer Jamming Technology
  • Scalable Gradient Ascent for Controllers in Constrained POMDPs
  • A Model Predictive-Based Motion Planning Method for Safe and Agile Traversal of Unknown and Occluding Environments
  • Learning Risk-Aware Costmaps for Traversability in Challenging Environments
  • GOHOME: Graph-Oriented Heatmap Output for Future Motion Estimation
  • Trajectory Planning in Unknown 2D Workspaces: A Smooth, Reactive, Harmonics-Based Approach
  • AUV Motion Planning in Uncertain Flow Fields Using Bayes Adaptive MDPs
  • Mobile Robot Navigation Functions Tuned by Sensor Readings in Partially Known Environments
  • Stochastic Dynamic Games in Belief Space
  • A Hierarchical Coordination Framework for Joint Perception-Action Tasks in Composite Robot Teams
  • Trajectory Optimization Using Learned Robot-Terrain Interaction Model in Exploration of Large Subterranean Environments
  • Nonmyopic Informative Path Planning Based on Global Kriging Variance Minimization
  • Reasoning with Scene Graphs for Robot Planning under Partial Observability
  • Translating Images into Maps
  • SMAC-Seg: LiDAR Panoptic Segmentation Via Sparse Multi-Directional Attention Clustering
  • Superpoint-Guided Semi-Supervised Semantic Segmentation of 3D Point Clouds
  • Efficient and Robust Semantic Mapping for Indoor Environments
  • Towards Broad Learning Networks on Unmanned Mobile Robot for Semantic Segmentation
  • Vision-Based Large-Scale 3D Semantic Mapping for Autonomous Driving Applications
  • Prototype-Voxel Contrastive Learning for LiDAR Point Cloud Panoptic Segmentation
  • Perception Engine Using a Multi-Sensor Head to Enable High-Level Humanoid Robot Behaviors
  • Audio-Visual Grounding Referring Expression for Robotic Manipulation
  • TridentNetV2: Lightweight Graphical Global Plan Representations for Dynamic Trajectory Generation
  • Hierarchical Representations and Explicit Memory: Learning Effective Navigation Policies on 3D Scene Graphs Using Graph Neural Networks
  • Contrastive Instance Association for 4D Panoptic Segmentation for Sequences of 3D LiDAR Scans
  • Tactile Classification of Object Materials for Virtual Reality Based Robot Teleoperation
  • Semi-Autonomous Teleoperation Via Learning Non-Prehensile Manipulation Skills
  • Towards 6DoF Bilateral Teleoperation of an Omnidirectional Aerial Vehicle for Aerial Physical Interaction
  • Comparison of Haptic and Augmented Reality Visual Cues for Assisting Tele-Manipulation
  • Deflection-Domain Passivity Control of Variable Stiffnesses Based on Potential Energy Reference
  • Immersive Virtual Walking System Using an Avatar Robot
  • Blending Primitive Policies in Shared Control for Assisted Teleoperation
  • Maximal Manipulation Framework Using Quadratic Programmingfor a Teleoperated Robotic System with Articulated Bodies
  • TelePhysicalOperation: Remote Robot Control Based on a Virtual "Marionette" Type Interaction Interface
  • Structured Action Prediction for Teleoperation in Open Worlds
  • A Shared-Control Teleoperation Architecture for Nonprehensile Object Transportation
  • Robotic Embodiment of Human-Like Motor Skills Via Reinforcement Learning
  • Augmenting Imitation Experience Via Equivariant Representations
  • Depth-Aware Vision-And-Language Navigation Using Scene Query Attention Network
  • Visual Navigation Using Sparse Optical Flow and Time-To-Transit
  • Indoor Localization for Quadrotors Using Invisible Projected Tags
  • Complex Terrain Navigation Via Model Error Prediction
  • An Observer Cascade for Velocity and Multiple Line Estimation
  • An In-Depth Experimental Study of Sensor Usage and Visual Reasoning of Robots Navigating in Real Environments
  • Asynchronous Optimisation for Event-Based Visual Odometry
  • Deep Visual Navigation under Partial Observability
  • TERP: Reliable Planning in Uneven Outdoor Environments Using Deep Reinforcement Learning
  • EchoVPR: Echo State Networks for Visual Place Recognition
  • REVE-CE: Remote Embodied Visual Referring Expression in Continuous Environment
  • Integrating Point and Line Features for Visual-Inertial Initialization
  • Periodic SLAM: Using Cyclic Constraints to Improve the Performance of Visual-Inertial SLAM on Legged Robots
  • Tightly-Coupled GNSS-Aided Visual-Inertial Localization
  • Continuous-Time Spline Visual-Inertial Odometry
  • Object-Based Visual-Inertial Navigation System on Matrix Lie Group
  • FEJ2: A Consistent Visual-Inertial State Estimator Design
  • Constrained Visual-Inertial Localization with Application and Benchmark in Laparoscopic Surgery
  • DM-VIO: Delayed Marginalization Visual-Inertial Odometry
  • Balancing the Budget: Feature Selection and Tracking for Multi-Camera Visual-Inertial Odometry
  • Leveraging Structural Information to Improve Point Line Visual-Inertial Odometry
  • Decoupled Right Invariant Error States for Consistent Visual-Inertial Navigation
  • Multirobot Collaborative Monocular SLAM Utilizing Rendezvous
  • Design and Kinematic Modeling of In-Situ Torsionally-Steerable Flexible Surgical Robots
  • Bidirectional Soft Robotic Catheter for Arrhythmia Treatment
  • Magnetically Steerable Asymmetric Magnetized Soft Continuum Robot (AMSCR) for Minimally Invasive Surgery
  • Fixed and Sliding FBG Sensors-Based Triaxial Tip Force Sensing for Cable-Driven Continuum Robots
  • Telerobotically Controlled Magnetic Soft Continuum Robots for Neurovascular Interventions
  • Design and Quasistatic Modelling of Hybrid Continuum Multi-Arm Robots
  • Capacitive Proximity Sensor for Non-Contact Endoscope Localization
  • Shape Sensing for Continuum Robots by Capturing Passive Tendon Displacements with Image Sensors
  • Flexural Anisotropy Stabilizes Concentric Tube Robots
  • Learning to Localize, Grasp, and Hand Over Unmodified Surgical Needles
  • Data-Driven Modelling and Control for Robot Needle Insertion in Deep Anterior Lamellar Keratoplasty
  • Resolution-Optimal Motion Planning for Steerable Needles
  • Motion Primitives-Based Navigation Planning Using Deep Collision Prediction
  • Optimizing Terrain Mapping and Landing Site Detection for Autonomous UAVs
  • Towards Sensor Autonomy in Sub-Gram Flying Insect Robots: A Lightweight and Power-Efficient Avionics System
  • Exploration with Global Consistency Using Real-Time Re-Integration and Active Loop Closure
  • Self-Supervised Monocular Multi-Robot Relative Localization with Efficient Deep Neural Networks
  • Post-Stall Navigation with Fixed-Wing UAVs Using Onboard Vision
  • Evaluation of Runtime Monitoring for UAV Emergency Landing
  • Large-Scale Autonomous Flight with Real-Time Semantic SLAM under Dense Forest Canopy
  • AirPose: Multi-View Fusion Network for Aerial 3D Human Pose and Shape Estimation
  • Free As a Bird: Event-Based Dynamic Sense-And-Avoid for Ornithopter Robot Flight
  • Motor-Level N-MPC for Cooperative Active Perception with Multiple Heterogeneous UAVs
  • A Shadowcasting-Based Next-Best-View Planner for Autonomous 3D Exploration
  • Collision Resilient Insect-Scale Soft-Actuated Aerial Robots with High Agility
  • Fully Automatic and Real-Time Microrobot Detection and Tracking Based on Ultrasound Imaging Using Deep Learning
  • The Feedback Trajectory Control of a SMA-Driven Miniature Jumping Robot
  • An Indeterministic Vision-Based State Observer for Growing Magnetic Microrobot Motion Status Estimation
  • A Beetle-Claw Inspired Miniature Mesh Climbing Robot
  • Fabrication of PEDOT: PSS Based Soft Sensor for Feedback Control of Modular Bio-Actuator
  • Multi-Mode Motion Control of Reconfigurable Vortex-Shaped Microrobot Swarms for Targeted Tumor Therapy
  • Magnetically Controlled Modular Cubes with Reconfigurable Self-Assembly and Disassembly
  • Steering Rotating Magnetic Swimmers in 2.5 Dimensions Using Only 2D Ultrasonography for Position Sensing
  • Data-Driven Control for a Milli-Scale Spiral-Type Magnetic Swimmer Using MPC
  • Crabbot: A Pole-Climbing Robot Driven by Piezoelectric Stack
  • Characterizing Error in Noncommutative Geometric Gait Analysis
  • Convex Iteration for Distance-Geometric Inverse Kinematics
  • Adaptive Tracking Control for Industrial Robot Manipulators with Unknown Inner Loop Architecture
  • Model-Driven Reinforcement Learning and Action Dimension Extension Method for Efficient Assembly
  • Automatic Classification and Disassembly of Fasteners in Industrial 3D CAD-Scenarios
  • Learning Insertion Primitives with Discrete-Continuous Hybrid Action Space for Robotic Assembly Tasks
  • Contact State Estimation for Peg-In-Hole Assembly Using Gaussian Mixture Model
  • An Assembly Sequence Planning Framework for Complex Data Using General Voronoi Diagram
  • Harnessing Cascading Dominoes for Peristaltic Wave Motion
  • Offline Reference Trajectory Shaping for a Cable-Driven Earthquake Simulator Based on a Viscoelastic Cable Model
  • Control Strategy for Shoulder-sideWINDER with Kinematics, Load Estimation, and Friction Compensation: Preliminary Validation
  • EMG-Driven Machine Learning Control of a Soft Glove for Grasping Assistance and Rehabilitation
  • Human-In-The-Loop Optimisation of Exoskeleton Assistance Via Online Simulation of Metabolic Cost
  • Design and Validation of a Cable-Driven Asymmetric Back Exosuit
  • Adaptive Control Method for Dynamic Synchronization of Wearable Robotic Assistance to Discrete Movements: Validation for Use Case of Lifting Tasks
  • A Novel Wavelet-Based Gait Segmentation Method for a Portable Hip Exoskeleton
  • Enhancing Voluntary Motion with Modular, Backdrivable, Powered Hip and Knee Orthoses
  • Toward Sustainable and Accessible Mobility: A Robotic FES Bike with a Fatigue Compensation Algorithm and Mechanism for Cybathlon 2020
  • Improving Standing Balance Performance through the Assistance of a Mobile Collaborative Robot
  • Vision-Based Self-Adaptive Gripping in a Trimodal Robotic Sorting End-Effector
  • Autonomous Source Term Estimation in Unknown Environments: From a Dual Control Concept to UAV Deployment
  • Aerial-Ground Robots Collaborative 3D Mapping in GNSS-Denied Environments
  • Graph-Based Multi-Sensor Fusion for Consistent Localization of Autonomous Construction Robots
  • R-PCC: A Baseline for Range Image-Based Point Cloud Compression
  • Online Coverage Planning for an Autonomous Weed Mowing Robot with Curvature Constraints
  • Crowd Vetting: Rejecting Adversaries Via Collaboration with Application to Multirobot Flocking
  • Resilient Supervisory Multiagent Systems
  • Search for Smart Evaders with Swarms of Sweeping Agents
  • MADER: Trajectory Planner in Multiagent and Dynamic Environments
  • Adaptive and Risk-Aware Target Tracking for Robot Teams with Heterogeneous Sensors
  • Consensus in Operational Space for Robotic Manipulators with Task and Input Constraints
  • Target-Mass Grasping of Entangled Food Using Pre-Grasping & Post-Grasping
  • Learning with Few Examples the Semantic Description of Novel Human-Inspired Grasp Strategies from RGB Data
  • Deformation-Aware Data-Driven Grasp Synthesis
  • Improving Object Pose Estimation by Fusion with a Multimodal Prior -- Utilizing Uncertainty-Based CNN Pipelines for Robotics
  • Multi-Fingered In-Hand Manipulation with Various Object Properties Using Graph Convolutional Networks and Distributed Tactile Sensors
  • Real-Time Collision-Free Grasp Pose Detection with Geometry-Aware Refinement Using High-Resolution Volume
  • SafePicking: Learning Safe Object Extraction Via Object-Level Mapping
  • DVGG: Deep Variational Grasp Generation for Dextrous Manipulation
  • Bottom-Up Skill Discovery from Unsegmented Demonstrations for Long-Horizon Robot Manipulation
  • UMPNet: Universal Manipulation Policy Network for Articulated Objects
  • Hierarchical Policies for Cluttered-Scene Grasping with Latent Plans
  • Active Extrinsic Contact Sensing: Application to General Peg-In-Hole Insertion
  • Pouring by Feel: An Analysis of Tactile and Proprioceptive Sensing for Accurate Pouring
  • Development of a Three-Axis Monolithic Flexure-Based Ground Reaction Force Sensor for Various Gait Analysis
  • A Gradiometric Magnetic Force Sensor Immune to Stray Magnetic Fields for Robotic Hands and Grippers
  • High Dynamic Range Force Sensing of a Robot Hand Combining Signals on Tip and Wrist
  • Stabilization of Robot-Environment Interaction through Generalized Scattering Techniques
  • Force Control of Grinding Process Based on Frequency Analysis
  • Semi-Supervised Learning: Structure, Reflectance and Lighting Estimation from a Night Image Pair
  • Reinforcement Learning Based, Staircase Negotiation Learning: Simulation and Transfer to Reality for Articulated Tracked Robots
  • Learning for Attitude Holding of a Robotic Fish: An End-To-End Approach with Sim-To-Real Transfer
  • On the Online Tuning of Control Parameters for Off-Road Mobile Robots: Novel Deterministic & Neural Network Based Approaches
  • Image-To-Image Translation-Based Data Augmentation for Robust EV Charging Inlet Detection
  • Temporal Point Cloud Completion with Pose Disturbance
  • Learning Task-Parameterized Skills from Few Demonstrations
  • Residual Learning from Demonstration: Adapting DMPs for Contact-Rich Manipulation
  • Robot Learning Physical Object Properties from Human Visual Cues: A Novel Approach to Infer the Fullness Level in Containers
  • Ex-DoF: Expansion of Action Degree-Of-Freedom with Virtual Camera Rotation for Omnidirectional Image
  • A Self-Supervised Sampler for Efficient Action Recognition: Real-World Applications in Surveillance Systems
  • Development and Analysis of a Biped Robot with Prismatic Compliance
  • Learning Controller Gains on Bipedal Walking Robots Via User Preferences
  • Online Non-Linear Centroidal MPC for Humanoid Robot Locomotion with Step Adjustment
  • A Universal Footstep Planning Methodology for Continuous Walking in Challenging Terrain Applicable to Different Types of Legged Robots
  • Sim-To-Real Learning of Footstep-Constrained Bipedal Dynamic Walking
  • Bipedal Walking on Constrained Footholds: Momentum Regulation Via Vertical COM Control
  • Online Learning of Centroidal Angular Momentum towards Enhancing DCM-Based Locomotion
  • Sim-To-Real Learning for Bipedal Locomotion under Unsensed Dynamic Loads
  • Bayesian Optimization Meets Hybrid Zero Dynamics: Safe Parameter Learning for Bipedal Locomotion Control
  • Natural Multicontact Walking for Robotic Assistive Devices Via Musculoskeletal Models and Hybrid Zero Dynamics
  • From Adaptive Locomotion to Predictive Action Selection ��� Cognitive Control for a Six-Legged Walker
  • Legged Robot Running Using a Physics-Data Hybrid Motion Template
  • A Benchmark Comparison of Learned Control Policies for Agile Quadrotor Flight
  • AutoTune: Controller Tuning for High-Speed Flight
  • OSCAR: Data-Driven Operational Space Control for Adaptive and Robust Robot Manipulation
  • Bridging the Model-Reality Gap with Lipschitz Network Adaptation
  • Kinematics Learning of Massive Heterogeneous Serial Robots
  • Integrating Deep Reinforcement and Supervised Learning to Expedite Indoor Mapping
  • Learning to Optimize in Model Predictive Control
  • GPU-Accelerated Policy Optimization Via Batch Automatic Differentiation of Gaussian Processes for Real-World Control
  • Next Steps: Learning a Disentangled Gait Representation for Versatile Quadruped Locomotion
  • Targeted Attack on Deep RL-Based Autonomous Driving with Learned Visual Patterns
  • Forward Models That Integrate High-Dimensional and Localized Sensing of Peripheral Muscle Behavior Enable Task-Independent Prediction of Lower-Limb Joint Torque and Position Future States
  • ADHERENT: Learning Human-Like Trajectory Generators for Whole-Body Control of Humanoid Robots
  • A Learned Stereo Depth System for Robotic Manipulation in Homes
  • Hierarchical Point Cloud Encoding and Decoding with Lightweight Self-Attention Based Model
  • Multi-Dimensional Cooperative Network for Stereo Matching
  • TP-AE: Temporally Primed 6D Object Pose Tracking with Auto-Encoders
  • Meta-Confidence Estimation for Stereo Matching
  • CenterSnap: Single-Shot Multi-Object 3D Shape Reconstruction and Categorical 6D Pose and Size Estimation
  • Flow Supervised Neural Radiance Fields for Static-Dynamic Decomposition
  • SAFIT: Segmentation-Aware Scene Flow with Improved Transformer
  • From Scene Flow to Visual Odometry through Local and Global Regularisation in Markov Random Fields
  • AirLoop: Lifelong Loop Closure Detection
  • R3LIVE: A Robust, Real-Time, RGB-Colored, LiDAR-Inertial-Visual Tightly-Coupled State Estimation and Mapping Package
  • Area Coverage with Multiple Capacity-Constrained Robots
  • Online Distributed Trajectory Planning for Quadrotor Swarm with Feasibility Guarantee Using Linear Safe Corridor
  • Multi-Agent Path Finding with Prioritized Communication Learning
  • Distributed Timed Elastic Band (DTEB) Planner: Trajectory Sharing and Collision Prediction for Multi-Robot Systems
  • Optimizing Space Utilization for More Effective Multi-Robot Path Planning
  • Robust-By-Design Plans for Multi-Robot Pursuit-Evasion
  • Leveraging Smooth Attention Prior for Multi-Agent Trajectory Prediction
  • Optimal and Bounded-Suboptimal Multi-Goal Task Assignment and Path Finding
  • Robust Planning for Persistent Surveillance with Energy-Constrained UAVs and Mobile Charging Stations
  • Fast and Optimal Trajectory Planning for Multiple Vehicles in a Nonconvex and Cluttered Environment: Benchmarks, Methodology, and Experiments
  • Prioritized Planning for Cooperative Range-Only Localization in Multi-Robot Networks
  • Multi-UAV Disaster Environment Coverage Planning with Limited-Endurance
  • Load-Sensitive Data Acquisition System of Tactile Sensor for Multi-Fingered Robotic Hands
  • Design of a Biomimetic Tactile Sensor for Material Classification
  • GelSlim 3.0: High-Resolution Measurement of Shape, Force and Slip in a Compact Tactile-Sensing Finger
  • Capacitive Tactile Sensor Using Mutual Capacitance Sensing Method forIncreased Resolution
  • Polymer-Based Optical Waveguide Triaxial Tactile Sensing for 3-Dimensional Curved Shell
  • Taxim: An Example-Based Simulation Model for GelSight Tactile Sensors
  • TACTO: A Fast, Flexible, and Open-Source Simulator for High-Resolution Vision-Based Tactile Sensors
  • Enabling Low-Cost Full Surface Tactile Skin for Human Robot Interaction
  • Active Visuo-Tactile Interactive Robotic Perception for Accurate Object Pose Estimation in Dense Clutter
  • Tactile Super-Resolution Model for Soft Magnetic Skin
  • SpecTac: A Visual-Tactile Dual-Modality Sensor Using UV Illumination
  • Safety-Critical Control with Nonaffine Control Inputs Via a Relaxed Control Barrier Function for an Autonomous Vehicle
  • Occupancy Flow Fields for Motion Forecasting in Autonomous Driving
  • SO-SLAM: Semantic Object SLAM with Scale Proportional and Symmetrical Texture Constraints
  • Spatiotemporal Costmap Inference for MPC Via Deep Inverse Reinforcement Learning
  • Parametric Path Optimization for Wheeled Robots Navigation
  • Autonomous Vehicle Parking in Dynamic Environments: An Integrated System with Prediction and Motion Planning
  • Smoothing Away from the Edge for Mesh Estimation in Urban Outdoor Environments
  • FuzzyPSReg: Strategies of Fuzzy Cluster-Based Point Set Registration
  • Retriever: Point Cloud Retrieval in Compressed 3D Maps
  • Design and Tests of a Novel Adjustable-Stiffness Force Sensor
  • A Low-Cost, Easy-To-Manufacture, Flexible, Multi-Taxel Tactile Sensor and Its Application to In-Hand Object Recognition
  • Soft-Jig: A Flexible Sensing Jig for Simultaneously Fixing and Estimating Orientation of Assembly Parts
  • Expanding the Design Space for Electrically-Driven Soft Robots through Handed Shearing Auxetics
  • Design and Characterisation of a Muscle-Mimetic Dielectrophoretic Ratcheting Actuator
  • Hybrid Antagonistic System with Coiled Shape Memory Alloy and Twisted and Coiled Polymer Actuator for Lightweight Robotic Arm
  • Multi-Dimensional Proprioception and Stiffness Tuning for Soft Robotic Joints
  • Design and Modeling of a Compound Twisted and Coiled Actuator Based on Spandex Fibers and an SMA Skeleton
  • MRI-Compatible Soft Robotic Sensing Pad for Head Motion Detection
  • Design of a 3D-Printed Soft Robotic Hand with Integrated Distributed Tactile Sensing
  • The Chain-Link Actuator: Exploiting the Bending Stiffness of McKibben Artificial Muscles to Achieve Larger Contraction Ratios
  • Physics-Based Modeling of Twisted-And-Coiled Actuators Using Cosserat Rod Theory
  • Gaussian Belief Trees for Chance Constrained Asymptotically Optimal Motion Planning
  • KinoJGM: A Framework for Efficient and Accurate Quadrotor Trajectory Generation and Tracking in Dynamic Environments
  • Non-Gaussian Risk Bounded Trajectory Optimization for Stochastic Nonlinear Systems in Uncertain Environments
  • Belief Space Planning: A Covariance Steering Approach
  • D2A-BSP: Distilled Data Association Belief Space Planning with Performance Guarantees under Budget Constraints
  • Informative Planning for Worst-Case Error Minimisation in Sparse Gaussian Process Regression
  • Metareasoning for Safe Decision Making in Autonomous Systems
  • Deliberation in Autonomous Robotic Surgery: A Framework for Handling Anatomical Uncertainty
  • CCO-VOXEL: Chance Constrained Optimization Over Uncertain Voxel-Grid Representation for Safe Trajectory Planning
  • Stein Variational Probabilistic Roadmaps
  • Is It Worth to Reason about Uncertainty in Occupancy Grid Maps During Path Planning?
  • Multi-Objective Path-Based D* Lite
  • CPGNet: Cascade Point-Grid Fusion Network for Real-Time LiDAR Semantic Segmentation
  • Fast Road Segmentation Via Uncertainty-Aware Symmetric Network
  • RangeBird: Multi View Panoptic Segmentation of 3D Point Clouds with Neighborhood Attention
  • Semantically Grounded Object Matching for Robust Robotic Scene Rearrangement
  • Improving Road Segmentation in Challenging Domains Using Similar Place Priors
  • Understanding Bird���s-Eye View of Road Semantics Using an Onboard Camera
  • Unsupervised Domain Adaptation for LiDAR Panoptic Segmentation
  • SIRNet: Fine-Grained Surgical Interaction Recognition
  • Bird's-Eye-View Panoptic Segmentation Using Monocular Frontal View Images
  • TraSeTR: Track-To-Segment Transformer with Contrastive Query for Instance-Level Instrument Segmentation in Robotic Surgery
  • SegContrast: 3D Point Cloud Feature Representation Learning through Self-Supervised Segment Discrimination
  • I Know You Cannot See Me: Dynamic Occlusion-Aware Safety Validation of Strategic Planners for Autonomous Vehicles Using Hypergames
  • Mean Reflected Mass: A Physically Interpretable Metric for Safety Assessment and Posture Optimization in Human-Robot Interaction
  • Intrusion Distance and Reaction Time Estimation for Safe and Efficient Industrial Robots
  • A Continuous Learning Approach for Probabilistic Human Motion Prediction
  • Safety Assurances for Human-Robot Interaction Via Confidence-Aware Game-Theoretic Human Models
  • Human-Feedback Shield Synthesis for Perceived Safety in Deep Reinforcement Learning
  • Roboethics As a Design Challenge: Lessons Learned from theRoboethics to Design and Development Competition
  • Multi-Arm Payload Manipulation Via Mixed Reality
  • Effectiveness of Augmented Reality for Human Swarm Interactions
  • Effects of Interfaces on Human-Robot Trust: Specifying and Visualizing Physical Zones
  • Predicting Hand-Object Interaction for Improved Haptic Feedback in Mixed Reality
  • Towards Safe, Realistic Testbed for Robotic Systems with Human Interaction
  • Object Memory Transformer for Object Goal Navigation
  • Uncertainty-Driven Planner for Exploration and Navigation
  • Visual Representation Learning for Preference-Aware Path Planning
  • An Efficient and Scalable Collection of Fly-Inspired Voting Units for Visual Place Recognition in Changing Environments
  • An Efficient Locally Reactive Controller for Safe Navigation in Visual Teach and Repeat Missions
  • Learning to Navigate Sidewalks in Outdoor Environments
  • Focus on Impact: Indoor Exploration with Intrinsic Motivation
  • Multi-Agent Embodied Visual Semantic Navigation with Scene Prior Knowledge
  • Quasi-Globally Optimal and Real-Time Visual Compass in Manhattan Structured Environments
  • Vision-Only Robot Navigation in a Neural Radiance World
  • Accurate and Robust Object-Oriented SLAM with 3D Quadric Landmarks in Outdoors
  • A Novel Neural Multi-Store Memory Network for Autonomous Visual Navigation in Unknown Environment
  • Design and Experimental Investigation of a Vibro-Impact Self-Propelled Capsule Robot with Orientation Control
  • A Novel Triad Twisted String Actuator for Controlling a Two Degrees of Freedom Joint: Design and Experimental Validation
  • Experimental Validation of the Usage of Kinematic Singularities to Produce Periodic High-Powered Motion
  • Q & A
  • A Passively Adaptable Toroidal Continuously Variable Transmission Combined with Twisted String Actuator
  • Design Exploration and Experimental Characterization of a 6 Degrees-Of-Freedom Robotic Manipulator Powered by Cable-Driven Semi-Delocalized Magnetorheological Actuators
  • Macro-Mini Linear Actuator Using Electrorheological-Fluid Brake for Impedance Modulation in Physical Human-Robot Interaction
  • A Continuum Robot Surface of Woven, McKibben Muscles Embedded in and Giving Shape to Rooms
  • Hydraulic Servo Booster for Serially Configured Modular Robots
  • A Magnetorheological Fluid-Based Damper towards Increased Biomimetism in Soft Robotic Actuators
  • Active-Type Continuously Variable Transmission System Based on a Twisted String Actuator
  • ABENICS: Active Ball Joint Mechanism with Three-DoF Based on Spherical Gear Meshings
  • Multi-Agent Dynamic Ergodic Search with Low-Information Sensors
  • Self-Supervised Online Learning for Safety-Critical Control Using Stereo Vision
  • A Graph-Based Approach to Boundary Estimation with Mobile Sensors
  • Real-Time Non-Visual Shape Estimation and Robotic Dual-Arm Manipulation Control of an Elastic Wire
  • Combining Planning and Learning of Behavior Trees for Robotic Assembly
  • RE: BT-Espresso: Improving Interpretability and Expressivity of Behavior Trees Learned from Robot Demonstrations
  • Safe Learning-Based Feedback Linearization Tracking Control for Nonlinear System with Event-Triggered Model Update
  • Reinforcement Learning As a Method for Tuning CPG Controllers for Underwater Multi-Fin Propulsion
  • Goal-Driven Autonomous Exploration through Deep Reinforcement Learning
  • A Colored Petri Net Model for Control Problem of Border Crossing under Constraints
  • Precision Motion Control of Robotized Industrial Hydraulic Excavators Via Data-Driven Model Inversion
  • Characterizing Trust and Resilience in Distributed Consensus for Cyberphysical Systems

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