Title :
Fast TSP algorithm based on binary neuron output and analog neuron input using the zero-diagonal interconnect matrix and necessary and sufficient constraints of the permutation matrix
Author_Institution :
US Naval Res. Lab., Washington, DC, USA
Abstract :
Alleged difficulties of the original Hopfield and Tank (H-T) neural network model reported by G.V. Wilson and G.S. Pawley (1988) in attempting a scaled-up VLSI implementation of the traveling salesman problem (TSP) are clarified and repudiated. A simple refinement is presented that has sped up and eliminated the decaying dynamics compounded by the feeble and indecisive analog neurons having a self-decaying interconnect. In summary, the modified TSP version is based on binary neuronic output, analog neuronic input, a zero diagonal interconnect matrix, the necessary and sufficient constraint of a permutation matrix, Lagrangian multipliers a=b=c=1, and Euler´s first-order integration with the step constant about 10/sup -4/. Programs, one written in True Basic running on a microcomputer (Macintosh Plus or Mac II) and the other written in C on a mainframe computer, are briefly mentioned.<>
Keywords :
VLSI; integrated circuit technology; matrix algebra; neural nets; operations research; optimisation; C; Euler´s first-order integration; Lagrangian multipliers; Mac II; Macintosh Plus; True Basic; analog neuron input; binary neuron output; decaying dynamics; fast algorithm; indecisive analog neurons; mainframe computer; microcomputer; operations research; optimisation; permutation matrix; scaled-up VLSI implementation; self-decaying interconnect; traveling salesman problem; zero-diagonal interconnect matrix; Integrated circuit fabrication; Matrices; Neural networks; Operations research; Optimization methods; Very-large-scale integration;
Conference_Titel :
Neural Networks, 1988., IEEE International Conference on
Conference_Location :
San Diego, CA, USA
DOI :
10.1109/ICNN.1988.23937
