Abstract
Machines that are sensitive to environmental fluctuations, such as autonomous and pet robots, are currently in demand, rendering the ability to control huge and complex systems crucial. However, controlling such a system in its entirety using only one control device is difficult; for this purpose, a system must be both diverse and flexible. Herein, we derive and analyze the feature values of robot sensor and actuator data, thereby investigating the role that each feature value plays in robot locomotion. We conduct experiments using a developed quadruped robot from which we acquire multi-point motion information as the movement data; we extract the features of these movement data using an autoencoder. Next, we decompose the movement data into three features and extract various gait patterns. Despite learning only the “walking” movement, the movement patterns of trotting and bounding are also extracted herein, which suggests that movement data obtained via hardware contain various gait patterns. Although the present robot cannot locomote with these movements, this research suggests the possibility of generating unlearned movements.
Highlights
In nature, animals adapt their behavior to changes in the surrounding environment
Experiment to acquire trot movement data In addition to the experiment regarding gait patterns when moving on a treadmill, we investigated gait patterns when trotting on a treadmill under the same conditions as those in the former experiment
In this study, we derived and analyzed the feature values of robot sensor and actuator data and investigated the role played by each feature value in locomotion
Summary
Animals adapt their behavior to changes in the surrounding environment. This ability is not limited to animals: it is required for robots. Machines that are sensitive to environmental fluctuations, such as autonomous robots and pet robots, are in demand, thereby making it increasingly important to be able to control systems that are both huge and complex. It is difficult to control all of such a system with one control device, and it is important that the system is both diverse and flexible. Studies have been conducted into system configurations and control methods to address those issues, and many of those studies were focused on robot locomotion. Gait-pattern transitions corresponding to the surrounding environment of quadruped (four-legged) animals, the gaits of which have
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