Title :
Fiber-optic network for controlling a multidegree-of-freedom truss manipulator arms
Author :
Andrawis, Alfred S. ; Tamasi, Gabor
Author_Institution :
Dept. of Electr. Eng., South Dakota State Univ., Brookings, SD, USA
Abstract :
The problem addressed by this paper is the large size and heavy weight of the typical cable bundle, used for controlling a multidegree-of-freedom truss manipulator arms, which imposes limitations on the manipulator arm maneuverability. This paper proposes a fiber network, which significantly reduces the bundle size and weight, to replace the existing copper wire network of the two most common truss manipulator architectures, centralized processing/control and distributed processing/control. The fiber-optic link developed for the serpentine truss manipulator arm, located at the Kennedy Space Center, is used as a design example. The design philosophy, accuracy, error detection, hardware details, and some schematic diagrams are presented for both architectures
Keywords :
aerospace control; centralised control; distributed control; manipulators; optical fibre networks; optical links; optical receivers; optical transmitters; FOXI transmitter; Kennedy Space Center; centralized control; design philosophy; distributed control; error detection; fiber-optic link; maneuverability; multidegree-of-freedom truss manipulator arms; receivers; serpentine truss manipulator arm; Arm; Centralized control; Copper; Distributed control; Distributed processing; Optical fiber cables; Optical fiber networks; Process control; Size control; Wire;
Conference_Titel :
Industrial Automation and Control: Emerging Technologies, 1995., International IEEE/IAS Conference on
Conference_Location :
Taipei
Print_ISBN :
0-7803-2645-8
DOI :
10.1109/IACET.1995.527646
