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Control of Bio-Inspired Sprawling Posture Quadruped Robots with an Actuated Spine

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Control of Bio-Inspired Sprawling Posture Quadruped Robots with an Actuated Spine

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From bio-inspired locomotion models To controllers for lower-limb exoskeletons

Bio-inspired design and validation of the Efficient Lockable Spring Ankle (ELSA) prosthesis

Bio-inspired standing balance controller for a full-mobilization exoskeleton

Towards Agility: Definition, Benchmark and Design Considerations for Small, Quadrupedal Robots

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An Overview on Principles for Energy Efficient Robot Locomotion

A multi-modal hovering and terrestrial robot with adaptive morphology

Flexible Automation Driven by Demonstration: Leveraging Strategies that Simplify Robotics

Flexible Automation Driven by Demonstration: Leveraging Strategies that Simplify Robotics

Optimization-based motion planning for legged robots

Towards Agility: Definition, Benchmark and Design Considerations for Small, Quadrupedal Robots

Towards Robust Bipedal Locomotion

An Overview on Principles for Energy Efficient Robot Locomotion

A multi-modal hovering and terrestrial robot with adaptive morphology

Optimization-based motion planning for legged robots

From bio-inspired locomotion models To controllers for lower-limb exoskeletons

Bio-inspired design and validation of the Efficient Lockable Spring Ankle (ELSA) prosthesis

Bio-inspired standing balance controller for a full-mobilization exoskeleton

Flexible Automation Driven by Demonstration: Leveraging Strategies that Simplify Robotics

Flexible Automation Driven by Demonstration: Leveraging Strategies that Simplify Robotics