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Indexed by:Journal Papers

Date of Publication:2016-02-01

Journal:OPTIK

Included Journals:SCIE、EI

Volume:127

Issue:4

Page Number:1980-1987

ISSN No.:0030-4026

Key Words:Pulsed laser rangefinder; Time-of-flight; Time discrimination; Singularity detection; Modulus maximum

Abstract:Semiconductor pulsed time-of-flight (TOF) laser rangefinders (LRFs) have been the main distance measurement components equipped by many radar systems of Micro Unmanned Air Vehicles (MUAVs). A novel approach is proposed to improve the measurement accuracy of pulsed TOF LRFs. This approach adopted traditional single-threshold leading edge detection firstly, then employed continuous wavelet transform (CWT)-based local modulus maxima (LMMs) to detect singularities of emitting pulses and receiving echoes of LRFs, and obtained the compensation time with detected singularities to revise the measurement model. A series of experiments were done in a proposed pulsed TOF LRF prototype, and the measurement model is built by linear fitting. With the compensation values of various wavelets, the optimum revised measurement model is obtained. It is demonstrated that the single-shot precision of the pulsed TOF LRF achieves 195 ps (similar to 29 mm) with SNR = 7, and the absolute error is reduced from 9.25 to 6.32 mm. Therefore, the proposed approach can better compensate the walk error of the existing pulsed TOF LRFs and improve the performance of TOF LRFs. (C) 2015 Elsevier GmbH. All rights reserved.