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Book Title: DTIC ADA475455: Exploiting Inherent Robustness and Natural -
Book Category: ALGORITHMS -
Language: english -
Post Date: 2025-04-06 21:40:25 -
PDF Size: 4.34 MB -
Book Pages: 159 -
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DTIC ADA475455: Exploiting Inherent Robustness and Natural
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Description of the Book:
Walking is an easy task for most humans and animals. Two characteristics which make it easy are the inherent robustness (tolerance to variation) of the walking problem and the natural dynamics of the walking mechanism. In this thesis we show how understanding and exploiting these two characteristics can aid in the control of bipedal robots. Inherent robustness allows for the use of simple, low impedance controllers. Natural dynamics reduces the requirements of the controller. We present a series of simple physical models of bipedal walking. The insight gained from these models is used in the development of three planar (motion only in the sagittal plane) control algorithms. The first uses simple strategies to control the robot to walk. The second exploits the natural dynamics of a kneecap, compliant ankle, and passive swing-leg. The third achieves fast swing of the swing-leg in order to enable the robot to walk quickly (1:25m s).
These algorithms are implemented on Spring Flamingo, a planar bipedal walking robot, which was designed and built for this thesis. Using these algorithms, the robot can stand and balance, start and stop walking, walk at a range of speeds, and traverse slopes and rolling terrain. Three-dimensional walking on flat ground is implemented and tested in simulation. The dynamics of the sagittal plane are sufficiently decoupled from the dynamics of the frontal and transverse planes such that control of each can be treated separately. We achieve three-dimensional walking by adding lateral balance to the planar algorithms. Tests of this approach on a real three-dimensional robot will lead to a more complete understanding of the control of bipedal walking in robots and humans
- Creator/s: Defense Technical Information Center
- Date: 6/1/2000
- Year: 2000
- Book Topics/Themes: DTIC Archive, Pratt, Jerry E, MASSACHUSETTS INST OF TECH CAMBRIDGE DEPT OF ELECTRICAL ENGINEERING AND COMPUTER SCIENCE, *ADAPTIVE CONTROL SYSTEMS, *ROBOTS, *WALKING, MATHEMATICAL MODELS, ALGORITHMS, THESES, BIOMECHANICS
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