Design of time synchronization device for mobile LiDAR measurement system based on BeiDou navigation timing

Guo Ming; Zhou Yuquan; Chen Cai; Zhou Zhijie; Guo Kecai

doi:10.3788/irla20200362

Journals >Infrared and Laser Engineering >Volume 49 >Issue S2 >Page 20200362 > Article

Infrared and Laser Engineering
Vol. 49, Issue S2, 20200362 (2020)

Design of time synchronization device for mobile LiDAR measurement system based on BeiDou navigation timing

Guo Ming^1、2、3, Zhou Yuquan¹, Chen Cai^4、*, Zhou Zhijie⁴, and Guo Kecai⁵

Author Affiliations

¹[in Chinese]

²[in Chinese]

³[in Chinese]

⁴[in Chinese]

⁵[in Chinese]

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DOI: 10.3788/irla20200362 Cite this Article

Guo Ming, Zhou Yuquan, Chen Cai, Zhou Zhijie, Guo Kecai. Design of time synchronization device for mobile LiDAR measurement system based on BeiDou navigation timing[J]. Infrared and Laser Engineering, 2020, 49(S2): 20200362 Copy Citation Text

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References

[1] Li Q, Yuan P, Liu X, et al. Street tree segmentation from mobile laser scanning data[J]. International Journal of Remote Sensing, 2020, 41(18): 7145-7162.

[9] Sheng Chuanzhen, Fan Guangwei, Yu Baoguo, et al. Optimized algorithm for BDS/GPS RTK suitable for urban canyon with low-cost receiver[J]. Measurement Science and Technology, 2020, 31(11): 115007.

[10] Sheridan I. Drones and global navigation satellite systems: current evidence from polar scientists[J]. Royal Society Open Science, 2020, 7(3): 191494.

[11] Jia X, Zeng T, Ruan R, et al. Atomic clock performance assessment of Bei-Dou-3 basic system with the noise analysis of orbit determination and time synchronization[J]. Remote Sensing, 2019, 11(24): 2895.

[12] Guo W, Wang G, Bao Y, et al. Detection and monitoring of tunneling-induced riverbed deformation using GPS and BeiDou: A case study[J]. Applied Sciences, 2019, 9(13):2759.

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