📍 Zurich, Switzerland
legged locomotionautonomous systemsfield robotics
ASL at ETH Zurich researches legged robots with advanced autonomy for demanding field applications. The lab developed ANYmal and participates in the ARGOS Challenge, focusing on autonomous motion control, perception systems, and path planning for robots in inspection and exploration tasks.
ANYmal quadruped robot platformARGOS Challenge autonomous inspection robot
📍 Harbin, China
humanoid roboticsmanipulationspace robotics
State Key Laboratory of Robot Technology and System at Harbin Institute of Technology is a national-level research lab focusing on advanced robotics technology and systems. The laboratory conducts research in humanoid robots, manipulation systems, and space robotics.
📍 Sofia, Bulgaria
roboticsautomationintelligent systems
Institute of Robotics of the Bulgarian Academy of Sciences is a leading national scientific institution conducting fundamental and engineering studies in robotics and innovative technologies. The institute also trains doctoral students and specialists in robotics research.
📍 Stanford, United States
embodied AIlearningmanipulation
REAL Lab at Stanford develops algorithms enabling intelligent systems to learn from physical world interactions. The lab focuses on embodied artificial intelligence and robot learning from experience.
Embodied AI algorithmsrobot learning from physical interaction
📍 Medford, United States
human-robot interactionAI ethicssocial robotics
The Human-Robot Interaction Lab at Tufts University is an interdisciplinary robotics lab focused on ethical human-robot interaction. The lab brings together experts in computer science, robotics, religion, linguistics, and psychology to study how robots can meet cognitive, affective, physical, and ethical demands in human societies.
Ethical robot designHuman-robot collaboration frameworks
📍 Ithaca, United States
human-robot interactionrobot collaborationhuman-robot understanding
Human Robot Interaction at Cornell University spans multiple departments including mechanical engineering, information science, communication, and human ecology. The lab focuses on designing better ways for people to interact with robots and understanding how people perceive and collaborate with robotic systems.
Robots in Groups LabGuy Hoffman's research
📍 Bloomington, United States
human-robot interactionsocial roboticsHRI design and evaluation
The R-House Lab at Indiana University Bloomington, founded in 2010 and directed by Prof. Selma Šabanović, focuses on HRI design and evaluation in both lab and field settings. The lab explores connections between HRI, human social behavior, cognition, and the social meanings of robots through prototyping, field studies, and experimental research.
In situ evaluation of interactive technologiesField studies of assistive robots
📍 Ann Arbor, United States
surgicalmedicalperception
The Image-Guided Medical Robotics Lab at University of Michigan develops autonomous robotic systems for medical imaging and surgical guidance. The lab works on robotic optical coherence tomography and imaging-guided surgical applications.
Robotic OCT systemsOptically-stabilized medical imaging
📍 Göttingen, Germany
surgicalmedicallearning
The Center for Digital Surgery at Universitätsmedizin Göttingen is a technical lab within the Department of General, Visceral and Pediatric Surgery that applies artificial intelligence and robotics to support surgical teams. The interdisciplinary team of engineers, computer scientists, and clinicians develops assistance systems, real-time guidance tools, and intelligent training platforms.
Surgical assistance systemsAI-guided surgery
📍 Cambridge, United Kingdom
bioinspired designsoft roboticsperception
Research group at University of Cambridge focused on improving robotics through bioinspired principles drawn from natural systems. Works on understanding intelligence and biological mechanisms for robotic applications.
Bioinspired design principlesSoft robotic systems
📍 Genova, Italy
soft roboticsbioinspired designbiodegradable robots
IIT research group developing self-deployable and biodegradable soft miniaturized robots inspired by biological morphology and natural dispersion mechanisms. Focuses on I-Seed project for next-generation soft robotics.
I-Seed biodegradable robotsSelf-deployable soft systems
📍 Shanghai, China
soft roboticsbioinspired designhuman-robot interaction
Part of Shanghai Jiao Tong University's Robotics Institute and School of Mechanical Engineering, the SRB Lab focuses on design, manufacturing, and control of bioinspired soft robots. Research includes smart materials actuators, additive manufacturing, and soft wearable rehabilitation robots for human assistance.
Soft Wearable Rehabilitation RobotsBioinspired Motion ControlSmart Materials Actuators
📍 Shanghai, China
embodied AIhumanoid roboticsperception
The Embodied AI Center at Shanghai AI Laboratory, headed by Jiangmiao Pang, develops Embodied AGI systems and builds community infrastructure. Focus areas include humanoid robots, perception, interaction, and manipulation with goals of solving real-world challenges through cutting-edge research.
Embodied AGI SystemsHumanoid RoboticsPerception and Interaction Research
📍 Tokyo, Japan
medical roboticsindustrial roboticsautomation
The Robotics Innovation Center at the Institute of Science Tokyo operates a fully automated medical research laboratory featuring humanoid and multi-arm robots. The facility conducts experiments autonomously with the goal of scaling to thousands of robots for large-scale automated research.
Maholo LabDroidFully automated medical laboratoryAI-integrated automation systems
📍 Tokyo, Japan
social roboticshuman-robot interactionembodied AI
Corporate research institute focused on advanced robotics research and development. Develops social robots designed for human interaction and emotional engagement, bringing prototypes from research to real-world pilot studies.
Haru social robot
📍 Pittsburgh, United States
field roboticsautonomous systemsrover technology
The Field Robotics Center at Carnegie Mellon University focuses on developing robots for work in challenging and hazardous environments on Earth and in space. The center is known for advancing field robotics technology, creating the next generation of robotics leaders, and developing practical robotic systems for real-world applications.
Lunar rover developmentField robotics for hazardous environmentsSpace robotics systems
📍 Zürich, Switzerland
perceptioncomputer visionautonomous systems
The Robotics and Perception Group at University of Zürich conducts research on fundamental challenges in robotics and computer vision. Their mission focuses on innovations that benefit humanity through advanced perception and autonomous systems.
📍 Verona, Italy
surgical roboticsteleoperationautonomous robotics
ALTAIR is an Italian center of excellence in advanced and unconventional robotics, founded in 2001 by Paolo Fiorini within the Computer Science Department of University of Verona. The laboratory has extensive expertise in robotic surgery and has received numerous Italian and European research grants.
Robotic surgery systemsTeleoperated robotics
📍 Edinburgh, United Kingdom
humanoidmanipulationautonomous vehicles
The National Robotarium is the UK's centre for Robotics and Artificial Intelligence, based at Heriot-Watt University in Edinburgh. It serves as a global research institute creating innovative solutions to global challenges through robotic, AI, and automated technologies. The institute works directly with industry to test and develop next-generation robotic systems.
UK Robotics ExpoRobotics Readiness Workshops
📍 Adelaide, Australia
roboticsautonomous systemsdefense systems
The Centre for Advanced Defence Research in Robotics and Autonomous Systems at the University of Adelaide conducts research on intelligent robotic and autonomous systems for defense applications. The center develops machines capable of performing complex tasks autonomously without constant human supervision.
Autonomous systems for defenseIntelligent machine development
📍 Monterey, United States
roboticsunmanned systemsautonomous vehicles
CRUSER at the Naval Postgraduate School conducts research on unmanned systems, robotics, and autonomous vehicles with emphasis on naval and maritime applications. The center develops technologies ranging from intelligent drones to persistent ocean data collection systems.
Ocean acoustic data collection systemsUnmanned aircraft systemsDrone collaboration research
📍 Palaiseau, France
defense roboticsautonomous systemsintelligent systems
LARIAD is a laboratory of the future for defense robotics established at ENSTA Paris. The lab focuses on developing advanced autonomous and intelligent robotic systems for defense and security applications in France.
Defense robotics research programs
📍 Pasadena, United States
spaceplanetary explorationmanipulation
JPL's Robotics division comprises approximately 130 engineers developing robotic systems for space exploration and related terrestrial applications. They work on all aspects of robotics including design, control, perception, and autonomous operation for planetary rovers and spacecraft systems.
Curiosity roverPerseverance roverIngenuity Mars helicopter
📍 College Station, United States
space roboticsastrodynamicsspacecraft proximity operations
LASR Lab at Texas A&M addresses challenging problems in astrodynamics, spacecraft proximity operations, rendezvous maneuvers, and robotic autonomy for space applications. The lab specializes in enabling autonomous operations and precise maneuvering for orbital robotics.
Spacecraft rendezvous systemsAutonomous proximity operations