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Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
by Yan, Jize , Yu, Wangke
in Approximation / Centroids / Continuous radiation / Cultural heritage / deflection angle detection / Electromagnetism / Electron beams / Fourier transforms / Frequency dependence / Interfaces / Investigations / Lasers / Lidar / Light / light beams reflection processes computational model / light detection and ranging (LiDAR) / Light reflection / Modelling / Orientation / Sensors / Signal reflection / vector beams (VB) / vector vortex beam (VVB) / Vortices
2024
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Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
by Yan, Jize , Yu, Wangke
in Approximation / Centroids / Continuous radiation / Cultural heritage / deflection angle detection / Electromagnetism / Electron beams / Fourier transforms / Frequency dependence / Interfaces / Investigations / Lasers / Lidar / Light / light beams reflection processes computational model / light detection and ranging (LiDAR) / Light reflection / Modelling / Orientation / Sensors / Signal reflection / vector beams (VB) / vector vortex beam (VVB) / Vortices
2024
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Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
by Yan, Jize , Yu, Wangke
in Approximation / Centroids / Continuous radiation / Cultural heritage / deflection angle detection / Electromagnetism / Electron beams / Fourier transforms / Frequency dependence / Interfaces / Investigations / Lasers / Lidar / Light / light beams reflection processes computational model / light detection and ranging (LiDAR) / Light reflection / Modelling / Orientation / Sensors / Signal reflection / vector beams (VB) / vector vortex beam (VVB) / Vortices
2024

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Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing
Journal Article

Modelling and Analysis of Vector and Vector Vortex Beams Reflection for Optical Sensing

Yan, Jize,
Yu, Wangke
2024
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Overview
Light Detection and Ranging (LiDAR) sensors can precisely determine object distances using the pulsed time of flight (TOF) or amplitude-modulated continuous wave (AMCW) TOF methods and velocity using the frequency-modulated continuous wave (FMCW) approach. In this paper, we focus on modelling and analysing the reflection of vector beams (VBs) and vector vortex beams (VVBs) for optical sensing in LiDAR applications. Unlike traditional TOF and FMCW methods, this novel approach uses VBs and VVBs as detection signals to measure the orientation of reflecting surfaces. A key component of this sensing scheme is understanding the relationship between the characteristics of the reflected optical fields and the orientation of the reflecting surface. To this end, we develop a computational model for the reflection of VBs and VVBs. This model allows us to investigate critical aspects of the reflected field, such as intensity distribution, intensity centroid offset, reflectance, and the variation of the intensity range measured along the azimuthal direction. By thoroughly analysing these characteristics, we aim to enhance the functionality of LiDAR sensors in detecting the orientation of reflecting surfaces.
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Publisher
MDPI AG
Subject

Approximation

/ Centroids

/ Continuous radiation

/ Cultural heritage

/ deflection angle detection

/ Electromagnetism

/ Electron beams

/ Fourier transforms

/ Frequency dependence

/ Interfaces

/ Investigations

/ Lasers

/ Lidar

/ Light

/ light beams reflection processes computational model

/ light detection and ranging (LiDAR)

/ Light reflection

/ Modelling

/ Orientation

/ Sensors

/ Signal reflection

/ vector beams (VB)

/ vector vortex beam (VVB)

/ Vortices

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