In this work, we show how to learn a visual walking policy that only uses a monocular RGB camera and proprioception. Since simulating RGB is hard, we necessarily have to learn vision in the real world. We start with a blind walking policy trained in simulation. This policy can traverse some terrains in the real world but often struggles since it lacks knowledge of the upcoming geometry. This can be resolved with the use of vision. We train a visual module in the real world to predict the upcoming terrain with our proposed algorithm Cross-Modal Supervision (CMS). CMS uses time-shifted proprioception to supervise vision and allows the policy to continually improve with more real-world experience. We evaluate our vision-based walking policy ov...
Walking over structured terrain requires perception awareness of the environment. The robot needs to...
We present Visual Navigation and Locomotion over obstacles (ViNL), which enables a quadrupedal robot...
In 1958, JJ Gibson put forward proposals on the visual control of locomotion. Research in the last 5...
Reinforcement learning (RL) for bipedal locomotion has recently demonstrated robust gaits over moder...
The aim of this study was to investigate the role of visual information in the control of walking ov...
We exploit the complementary strengths of vision and proprioception to develop a point-goal navigati...
Knowledge of terrain's physical properties inferred from color images can aid in making efficient ro...
Learning to navigate in a realistic setting where an agent must rely solely on visual inputs is a ch...
Legged robots that can operate autonomously in remote and hazardous environments will greatly increa...
Vision is an active process where an organism must seek out and acquire the information necessary to...
The exponential growth of technology opened the door for a new generation of locomotion assistive de...
© 2017 IEEE. This paper presents an analysis of the low-level features and key spatial points used b...
Developing robust vision-guided controllers for quadrupedal robots in complex environments, with var...
Autonomous path-following systems allow robots to traverse large-scale networks of paths using on-bo...
In locomotion tasks like walking or stair ascending, leg joints produce mechanical energy with task-...
Walking over structured terrain requires perception awareness of the environment. The robot needs to...
We present Visual Navigation and Locomotion over obstacles (ViNL), which enables a quadrupedal robot...
In 1958, JJ Gibson put forward proposals on the visual control of locomotion. Research in the last 5...
Reinforcement learning (RL) for bipedal locomotion has recently demonstrated robust gaits over moder...
The aim of this study was to investigate the role of visual information in the control of walking ov...
We exploit the complementary strengths of vision and proprioception to develop a point-goal navigati...
Knowledge of terrain's physical properties inferred from color images can aid in making efficient ro...
Learning to navigate in a realistic setting where an agent must rely solely on visual inputs is a ch...
Legged robots that can operate autonomously in remote and hazardous environments will greatly increa...
Vision is an active process where an organism must seek out and acquire the information necessary to...
The exponential growth of technology opened the door for a new generation of locomotion assistive de...
© 2017 IEEE. This paper presents an analysis of the low-level features and key spatial points used b...
Developing robust vision-guided controllers for quadrupedal robots in complex environments, with var...
Autonomous path-following systems allow robots to traverse large-scale networks of paths using on-bo...
In locomotion tasks like walking or stair ascending, leg joints produce mechanical energy with task-...
Walking over structured terrain requires perception awareness of the environment. The robot needs to...
We present Visual Navigation and Locomotion over obstacles (ViNL), which enables a quadrupedal robot...
In 1958, JJ Gibson put forward proposals on the visual control of locomotion. Research in the last 5...