Mayur Palankar scite author profile

Taking inspiration from local leg feedback control loops present in animal legs, a force threshold-based position (FTP) controller is presented to aid with legged locomotion over irregular terrain. The algorithm uses pre-planned position trajectories and force feedback to either elevate or depress the foot. The FTP controller isolates the control of each leg to use only localized feedback, which can result in greater responsiveness to the terrain when compared to a centralized controller arbitrating all of the joint positions in a high degree of freedom system. The controller is robust to terrain elevations without using visual sensors, a priori terrain information, inertial sensing or inter-leg communication.Results of the FTP controller applied to a hexapod system in simulation and on an experimental system are shown in this paper. The algorithm also has the potential for expansion to bipeds, quadrupeds and other biologically-inspired forms.

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Toward innate leg stability on unmodeled and natural terrain: hexapod walking

Palankar

Palmer

2012

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Using biological approaches for the control of a 9-DoF wheelchair-mounted robotic arm system: Initial experiments

Palankar

Laurentis

Dubey

2009

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Merging traces of hardware-assisted data breakpoints

Palankar

Cook

2005

SIGSOFT Softw. Eng. Notes

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Future improvements in hardware and O/S support for monitoring programs will depend on providing feedback for current support (even if it is quite limited). We look at using hardware breakpoint registers and performance counters in order to trace data accesses in a program. We first present a small experiment to understand how these features can be used to monitor a program, and then detail an algorithm for using these limited resources to trace any amount of data accesses in a program and achieve a complete and correct trace by merging partial traces.

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Merging traces of hardware-assisted data breakpoints

Palankar¹,

Cook²

2005

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Mayur Palankar

Amazon S3 for science grids

Control of a 9-DoF Wheelchair-mounted robotic arm system using a P300 Brain Computer Interface: Initial experiments

Sea Robot-Assisted Inspection

A force threshold-based position controller for legged locomotion

Toward innate leg stability on unmodeled and natural terrain: hexapod walking

Using biological approaches for the control of a 9-DoF wheelchair-mounted robotic arm system: Initial experiments

Merging traces of hardware-assisted data breakpoints

Merging traces of hardware-assisted data breakpoints

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