12 October 2017 Pulse position modulation for compact all-fiber vehicle laser rangefinder development
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We propose a method for developing small all-fiber vehicle laser rangefinders that is based on pulse position modulation (PPM) and data integration and present a theoretical study on its performance. Compared with spatial coupling, which is employed by most of the current commercial vehicle laser rangefinders, fiber coupling has the advantage that it can guide laser echoes into the interior of a car, so the electronic components following the photodiode can operate in a moderate-temperature environment. However, optical fibers have numerical apertures (NAs), which means that a laser beam from a receiving lens cannot be coupled into an optical fiber if its incident angle exceeds the critical value. Therefore, the effective size of the receiving lens is typically small since it is limited by its focal length and the NA of the fiber, causing the power of the laser echoes gathered by the receiving lens to be insufficient for performing target identification. Instead of increasing the peak transmitting laser power unrestrictedly, PPM and data integration effectively compensate for the low signal-to-noise ratio that results from the effective receiving lens size reduction. We validated the proposed method by conducting numerical simulations and performance analysis. Finally, we compared the proposed method with pseudorandom noise (PN) code modulation and found that, although the two methods perform equally well in single-target measurement scenarios, PPM is more effective than PN code modulation for multitarget measurement. In addition, PPM enables the transmission of laser beams with higher peak powers and requires less computation than PN code modulation does.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE)
Xuesong Mao, Xuesong Mao, Yongzhi Cheng, Yongzhi Cheng, Ying Xiong, Ying Xiong, Daisuke Inoue, Daisuke Inoue, Manabu Kagami, Manabu Kagami, } "Pulse position modulation for compact all-fiber vehicle laser rangefinder development," Optical Engineering 56(10), 107102 (12 October 2017). https://doi.org/10.1117/1.OE.56.10.107102 . Submission: Received: 19 August 2017; Accepted: 21 September 2017
Received: 19 August 2017; Accepted: 21 September 2017; Published: 12 October 2017


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