Radar Interferometric Survey of the Surface of an Unprepared Landing Area from on Board a Helicopter

被引：1

作者：

Baskakov, A. I. ^{[1
]}

Chernoyarov, O. V. ^{[1
,2
,3
]}

Komarov, A. A. ^{[1
]}

Mikhailov, M. S. ^{[1
]}

机构：

[1] Natl Res Univ MEI, Moscow 111250, Russia

[2] Tomsk State Univ, Int Lab Random Proc Stat & Quantitat Financial An, Tomsk 634050, Russia

[3] Maikop State Technol Univ, Maikop 385000, Russia

来源：

JOURNAL OF COMMUNICATIONS TECHNOLOGY AND ELECTRONICS | 2019年 / 64卷 / 06期

基金：

俄罗斯基础研究基金会; 俄罗斯科学基金会;

关键词：

Foreign object - High quality - High-accuracy - Interferometric surveys - Landing area - Landing site - Phase difference - Three dimensional images;

D O I：

10.1134/S1064226919060019

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

The paper considers the possibilities of radar interferometric survey of the surface of a landing site from on board a helicopter. It is shown that if the phase-difference dependence obtained in this way is superimposed on the radio-brightness pattern of the reflection according to resolution elements after irradiation of the studied surface under study, then it is possible to reconstruct a high-quality three-dimensional image ofthe landing area and to determine with high accuracy its possible slope, the characteristics of its relief, and the contours of foreign objects on it.

引用

页码：581 / 589

页数：9

共 23 条

[1] Radar Interferometric Survey of the Surface of an Unprepared Landing Area from on Board a Helicopter
A. I. Baskakov
O. V. Chernoyarov
A. A. Komarov
M. S. Mikhailov
[J]. Journal of Communications Technology and Electronics, 2019, 64 : 581 - 589
[2] Safe Helicopter Landing on Unprepared Terrain Using Onboard Interferometric Radar
Shimkin, Pavel E.
Baskakov, Alexander I.
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[3] Surgical Experiences From a French Forward Surgical Team on Board of the Landing Helicopter Deck MISTRAL
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[J]. MILITARY MEDICINE, 2023, 188 (9-10) : E2891 - E2895
[4] Sea Surface Height Wavenumber Spectrum from Airborne Interferometric Radar Altimeter
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[J]. REMOTE SENSING, 2024, 16 (08)
[5] Parameters and structure of lunar regolith in Chang′E-3 landing area from lunar penetrating radar (LPR) data
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[6] Three-dimensional surface motion maps estimated from combined interferometric synthetic aperture radar and GPS data
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[J]. JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH, 2002, 107 (B10)
[7] Preliminary Evaluation and Correction of Sea Surface Height from Chinese Tiangong-2 Interferometric Imaging Radar Altimeter
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[J]. REMOTE SENSING, 2020, 12 (15)
[8] Monitoring surface subsidence in the Binchang mining area using small baseline subset differential interferometric synthetic aperture radar with Sentinel-1A data
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[J]. JOURNAL OF APPLIED REMOTE SENSING, 2020, 14 (04)
[9] Lake Chad Total Surface Water Area as Derived from Land Surface Temperature and Radar Remote Sensing Data
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[J]. REMOTE SENSING, 2018, 10 (02):
[10] Surface Deformation Monitoring and Prediction in the Baihetan Hydropower Station Area Based on Small Baseline Subset Interferometric Synthetic Aperture Radar and Grid Search Support Vector Machine
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[J]. 2024 5TH INTERNATIONAL CONFERENCE ON GEOLOGY, MAPPING AND REMOTE SENSING, ICGMRS 2024, 2024, : 230 - 234

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