Design and realization of on-line testing device of portable photoelectric tracking system
Keywords:
CAN-bus, Detecting device, WinCE, PhotoelectricAbstract
The on-line detection of a certain photoelectric tracking system was realized through the computer simulation platform, however, the simulation platform is large in volume, inconvenient in carrying and complex in installation. In order to solve the problem of using in field, a portable photoelectric tracking system on-line detection device was designed and implemented. The device adopts the ARM embedded platform based on WinCE operating system and divides the working state detection into one system-level module and multiple component-level modules, which can conduct testing through module according to actual needs, thereby the CPU load and detecting device consumption can be reduces. Actual verification show that, the device can realize real-time on-line detection of the detailed state of photoelectric tracking system and accurately locate the fault site to achieve the purpose of quickly repairing the fault. © 2018, Editorial Board, Journal of Applied Optics. All right reserved.
References
Gao Y., Gao Y., Zhang K., Military Photoelectric System, (1996)
Lei Y., Wang Q., He J., Et al., Photoelectric Detection Technology, (1996)
Liu A., Wang Z., EDA Technology and CPLD/FPGA Applied Brachylogy Tutorial, (2007)
Peter H., Egon J., SJA1000 stand-alone CAN controller application not EAN97076
Jiagn T., Chen F., Li G., Et al., Qualitative and quantitative analysis of detective period for navy photoelectricity cautionary detector, Journal of Applied Optics, 28, pp. 20-23, (2007)
Li R., Chen L., Design and realization of CAN-bus communication in monitoring system, Textile Machinery, 2, pp. 21-24, (2013)
Rao Y., Zou J., Wang J., The design of field network for intelligent buildings based on CAN, East China Institute of Technology, 12, 30, pp. 363-365, (2007)
Cheng Z., Zhang R., Huang L., Et al., Design of self-propelled gun fire control system virtual training and testing system based on ARM and WinCE, Computer Measurement & Control, 24, 5, pp. 135-138, (2016)
Zheng X., Zhan H., Peng D., EVC image processing interface development on ARM-WINCE system, Computer Applications and Software, 28, 9, pp. 264-266, (2011)
Wang B., EMC design of high speed clock circuit, Journal of Power Technology, 12, pp. 29-34, (2006)
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