Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit
Remote sensing of ocean surface pressure from space is very important, and differential absorption LIDAR and differential absorption radar are only two kinds of remote sensing instruments with this potential. The differential absorption LIDAR works with the integral path mode from the spacecraft in...
Main Authors: | , , |
---|---|
Format: | Article |
Language: | English |
Published: |
MDPI AG
2023-02-01
|
Series: | Atmosphere |
Subjects: | |
Online Access: | https://www.mdpi.com/2073-4433/14/2/413 |
_version_ | 1797622402335637504 |
---|---|
author | Guanglie Hong Yu Dong Huige Di |
author_facet | Guanglie Hong Yu Dong Huige Di |
author_sort | Guanglie Hong |
collection | DOAJ |
description | Remote sensing of ocean surface pressure from space is very important, and differential absorption LIDAR and differential absorption radar are only two kinds of remote sensing instruments with this potential. The differential absorption LIDAR works with the integral path mode from the spacecraft in the 400 km low-Earth orbit. The differential optical depth of the oxygen A-band is measured, and then the ocean surface pressure is obtained using a circle-iterative calculation. Performance evaluation of the differential absorption LIDAR model was based on feasibility to the advanced system parameters of the space instrument, whilst weak echo pulse energy at ocean surface yielded random errors in the surface pressure measurement. On the other hand, uncertain atmospheric temperature profiles and water vapor mixture profiles resulted in a primary systematic error in the surface pressure. The error of the surface pressure is sensitive to the jitter of the central frequency of laser emission. Under a strict implementation of the error budget, the time resolution is 6.25 s and the along-orbit distance resolution is 44 km, 625 echoes from ocean surface was cumulatively averaged. Consequently, if the jitter of the central frequency of laser emission exceeded 10 MHz, controlling the error of the surface pressure below 0.1% proved almost hopeless; further, the error could be expected to within 0.1–0.2%; however, the error limited within 0.2–0.3% is an achievable indicator. |
first_indexed | 2024-03-11T09:09:45Z |
format | Article |
id | doaj.art-3456f44b85a4476faccc17dc7c213224 |
institution | Directory Open Access Journal |
issn | 2073-4433 |
language | English |
last_indexed | 2024-03-11T09:09:45Z |
publishDate | 2023-02-01 |
publisher | MDPI AG |
record_format | Article |
series | Atmosphere |
spelling | doaj.art-3456f44b85a4476faccc17dc7c2132242023-11-16T19:04:31ZengMDPI AGAtmosphere2073-44332023-02-0114241310.3390/atmos14020413Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth OrbitGuanglie Hong0Yu Dong1Huige Di2Shanghai Institute of Technical Physics, Chinese Academy of Sciences, Shanghai 200083, ChinaSchool of Machinery and Precision Instrument Engineering, Xi’an University of Technology, Xi’an 710048, ChinaSchool of Machinery and Precision Instrument Engineering, Xi’an University of Technology, Xi’an 710048, ChinaRemote sensing of ocean surface pressure from space is very important, and differential absorption LIDAR and differential absorption radar are only two kinds of remote sensing instruments with this potential. The differential absorption LIDAR works with the integral path mode from the spacecraft in the 400 km low-Earth orbit. The differential optical depth of the oxygen A-band is measured, and then the ocean surface pressure is obtained using a circle-iterative calculation. Performance evaluation of the differential absorption LIDAR model was based on feasibility to the advanced system parameters of the space instrument, whilst weak echo pulse energy at ocean surface yielded random errors in the surface pressure measurement. On the other hand, uncertain atmospheric temperature profiles and water vapor mixture profiles resulted in a primary systematic error in the surface pressure. The error of the surface pressure is sensitive to the jitter of the central frequency of laser emission. Under a strict implementation of the error budget, the time resolution is 6.25 s and the along-orbit distance resolution is 44 km, 625 echoes from ocean surface was cumulatively averaged. Consequently, if the jitter of the central frequency of laser emission exceeded 10 MHz, controlling the error of the surface pressure below 0.1% proved almost hopeless; further, the error could be expected to within 0.1–0.2%; however, the error limited within 0.2–0.3% is an achievable indicator.https://www.mdpi.com/2073-4433/14/2/413differential absorption LIDARoptical depthocean surface pressure |
spellingShingle | Guanglie Hong Yu Dong Huige Di Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit Atmosphere differential absorption LIDAR optical depth ocean surface pressure |
title | Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit |
title_full | Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit |
title_fullStr | Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit |
title_full_unstemmed | Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit |
title_short | Performance Evaluation of an A Band Differential Absorption LIDAR Model and Inversion for the Ocean Surface Pressure from Low-Earth Orbit |
title_sort | performance evaluation of an a band differential absorption lidar model and inversion for the ocean surface pressure from low earth orbit |
topic | differential absorption LIDAR optical depth ocean surface pressure |
url | https://www.mdpi.com/2073-4433/14/2/413 |
work_keys_str_mv | AT guangliehong performanceevaluationofanabanddifferentialabsorptionlidarmodelandinversionfortheoceansurfacepressurefromlowearthorbit AT yudong performanceevaluationofanabanddifferentialabsorptionlidarmodelandinversionfortheoceansurfacepressurefromlowearthorbit AT huigedi performanceevaluationofanabanddifferentialabsorptionlidarmodelandinversionfortheoceansurfacepressurefromlowearthorbit |