Touch sensing for space robotics

Author

Henshaw, Carl Glen

Author_Institution

Naval Center for Space Technol., U.S. Naval Res. Lab., Washington, DC, USA

fYear

2012

fDate

3-10 March 2012

Firstpage

1

Lastpage

13

Abstract

We describe the design of a spaceflight - traceable tactile skin suitable for use with robotic manipulators and the algorithms necessary to make use of it. In order to perform robustly in the presence of orbital thermal and radiation extremes, the skin is based on relatively large discrete force sensors arranged sparsely on a rigid substrate. In order to compensate for the resulting lack of spatial resolution, we have developed a signal reconstruction algorithm based on Basis Pursuit Denoising (BPDN), a sparse reconstruction technique which is shown to provide an effective resolution approximately twenty - five times greater than the Nyquist - Shannon Sampling Theorem suggests is possible for a skin of this type. The signal processing algorithm is robust to white noise and simultaneously performs environmental contact classification.

Keywords

aerospace robotics; force sensors; manipulators; sampling methods; signal classification; signal denoising; signal reconstruction; tactile sensors; Nyquist-Shannon sampling theorem; basis pursuit denoising; discrete force sensor; environmental contact classification; orbital thermal extreme; radiation extreme; rigid substrate; robotic manipulator; signal reconstruction algorithm; space robotics; spaceflight design; spatial resolution; touch sensing; traceable tactile skin; Dictionaries; Force; Robot sensing systems; Skin; Space vehicles;

fLanguage

English

Publisher

ieee

Conference_Titel

Aerospace Conference, 2012 IEEE

Conference_Location

Big Sky, MT

ISSN

1095-323X

Print_ISBN

978-1-4577-0556-4

Type

conf

DOI

10.1109/AERO.2012.6187044

Filename

6187044