Journal of Applied Optics, Volume. 45, Issue 5, 1064(2024)
Parameter optimization of laser displacement sensor based on gravitational search algorithm
[1] A DONGES, R. NOLL. Laser measurement technology: fundamentals and applications, 247-252(2015).
[2] Youchun SUN, Yajun PANG, Zhenxu BAI et al. Application technology of laser triangulation. Laser Journal, 42, 1-8(2021).
[3] W X CHEN, Z B NI, X H HU et al. Research on pavement roughness based on the laser triangulation. Photonic Sensors, 6, 177-180(2016).
[4] M F M COSTA. Optical triangulation-based microtopographic inspection of surfaces. Sensors, 12, 4399-4420(2012).
[5] V MORENO-OLIVA, O FLORES-DIAZ, E ROMÁN-HERNÁNDEZ et al. Vibration measurement using laser triangulation for applications in wind turbine blades. Symmetry, 13, 1017-1031(2021).
[6] Zhuojiang NAN, Wei TAO, Hui ZHAO. Application and prospect of laser triangulation technology. Process Automation Instrumentation, 40, 1-5(2019).
[7] Yangyang QIN, Lixia WANG, Zhengyu ZHU. Study on the performance of laser triangulation measurement of BLT based on CCD. Automation Application, 54-56(2020).
[8] Kaimei LIU, Wei TAO, Xiao CHEN et al. Laser triangulation method of glass thickness with adaptive displacement change. Chinese Journal of Lasers, 47, 147-154(2020).
[9] W Q PAN, D W ZHANG, C LIANG et al. A high-precision laser displacement measurement system, 120652F(2021).
[10] A A ADAMOV, M S BARANOV, V N KHRAMOV. Optimization of parameters in a modified laser triangulation method, 1106607(2019).
[11] Yi CAI, Changjie LIU. Parameter optimization of laser triangulation ranging sensor. Chinese Journal of Sensors and Actuators, 30, 1472-1477(2017).
[12] Xinting ZHANG, Qianqian WU, Lei KANG. Design of optical system of compact laser displacement sensor based on autocollimation principle. Journal of Applied Optics, 44, 720-725(2023).
[13] Xinting ZHANG, Lei KANG, Zhiyong AN et al. Design of improved laser triangulation probe. Infrared and Laser Engineering, 47, 298-302(2018).
[14] Z J NAN, W TAO, H ZHAO. Development of a small-size laser triangulation displacement sensor and temperature drift compensation method. Measurement Science & Technology, 32, 095107-1-095107-9(2021).
[15] Fuzhong BAI, Xiaoyan ZHANG, Zhen LIU et al. The influence of operating angle on system sensitivity in laser triangulation. Journal of Applied Optics, 38, 826-830(2017).
[16] Kejun XU. Overview of linearity index of sensors. Journal of Electrical & Electronic Education, 38, 70-71(2016).
[17] E RASHEDI, H NEZAMABADI-POUR, S SARYAZDI. GSA: a gravitational search algorithm. Information Sciences, 179, 2232-2248(2009).
[18] Wenjun XU, Xihuai WANG, Jianmei XIAO et al. Gravitational search algorithm based on improved adaptive black hole mechanism. Application Research of Computers, 39, 3046-3054(2022).
[19] M ALIREZANEJAD, R ENAYATIFAR, H MOTAMENI et al. GSA-LA: gravitational search algorithm based on learning automata. Journal of Experimental and Theoretical Artificial Intelligence, 33, 109-125(2021).
[20] H HU, X X CUI, Y P BAI. Two kinds of classifications based on improved gravitational search algorithm and particle swarm optimization algorithm. Advances in Mathematical Physics, 2131862-1-2131862-7.(2017).
Get Citation
Copy Citation Text
Wei ZHANG, Wenjian CHEN, Wusen LI. Parameter optimization of laser displacement sensor based on gravitational search algorithm[J]. Journal of Applied Optics, 2024, 45(5): 1064
Category:
Received: Oct. 7, 2023
Accepted: --
Published Online: Dec. 20, 2024
The Author Email: CHEN Wenjian (陈文建)