1,022 research outputs found
Developing an embodied gait on a compliant quadrupedal robot
Incorporating the body dynamics of compliant robots into their controller architectures can drastically reduce the complexity of locomotion control. An extreme version of this embodied control principle was demonstrated in highly compliant tensegrity robots, for which stable gait generation was achieved by using only optimized linear feedback from the robot's sensors to its actuators. The morphology of quadrupedal robots has previously been used for sensing and for control of a compliant spine, but never for gait generation. In this paper, we successfully apply embodied control to the compliant, quadrupedal Oncilla robot. As initial experiments indicated that mere linear feedback does not suffice, we explore the minimal requirements for robust gait generation in terms of memory and nonlinear complexity. Our results show that a memory-less feedback controller can generate a stable trot by learning the desired nonlinear relation between the input and the output signals. We believe this method can provide a very useful tool for transferring knowledge from open loop to closed loop control on compliant robots
Resolving multi-proxy transitive vote delegation
Solving a delegation graph for transitive votes is already a non-trivial task
for many programmers. When extending the current main paradigm, where each
voter can only appoint a single transitive delegation, to a system where each
vote can be separated over multiple delegations, solving the delegation graph
becomes even harder. This article presents a solution of an example graph, and
a non-formal proof of why this algorithm works
- …