Optimization of Power System Wiring Process Based on Photoelectric Stabilized Technology

Abstract

Power equipment is a mechanical precision instrument that requires flexible wiring. In order to solve the problem of narrow cable wiring structure of the medium-voltage distribution network, a photoelectric stabilized device was adopted in the study. The device consists of multiple photoelectric sensors, electronic components, and structural components. Because the system supports different signal frequency bands, the interconnection technology in optoelectronic stabilization can resist electromagnetic interference so that it can further improve the accuracy of the wiring structure. The photoelectric stabilized technology was used in the power supply automatic wiring planning process of power systems. The tracking of contact lines, main radiating lines, and branch lines was performed through a photoelectric stability device. In addition, the radiating line used the ant colony algorithm to construct the radiating line according to the data provided by the device. The contact line was constructed by the Floyd algorithm according to the data provided by the device. Furthermore, the genetic annealing algorithm was introduced to optimize the line wiring calculation process for the convergence problem in the calculation of the line. During the test, by comparing the traditional power grid wiring and power grid wiring based on the photoelectric stability device, it is proved that the wiring method proposed in the study can realize the most optimization with the significantly reduced cost.