Scatterer identification and analysis using combined InSAR and laser data

Ramon Hanssen; Adriaan van Natijne; Roderik Lindenbergh; Prabu Dheenathayalan; Mengshi Yang; Ling Chang; Freek van Leijen; Paco Lopez Dekker; Jippe van der Maaden; P.J.M. van Oosterom; Hanjiang Xiong; PingBo Hu; Zhang Zhan; Bisheng Yang

Scatterer identification and analysis using combined InSAR and laser data

Ramon Hanssen, Adriaan van Natijne, Roderik Lindenbergh, Prabu Dheenathayalan, Mengshi Yang, Ling Chang, Freek van Leijen, Paco Lopez Dekker, Jippe van der Maaden, P.J.M. van Oosterom, Hanjiang Xiong, PingBo Hu, Zhang Zhan, Bisheng Yang

Research output: Contribution to journal › Meeting Abstract › Scientific

Abstract

The geolocation of coherent radar scatterers, used for InSAR deformation analysis, is often not accurate enough to associate them to physical geo-objects. The imaging geometry of satellite InSAR results in (i) biases in the entire point field, and (ii) quite elongated and skewed confidence ellipsoids in the range, azimuth and cross-range direction. The metric defined by the covariance matrix of the InSAR results defines the optimal way to associate scatterers with geo-objects. Laser scanning point clouds, stemming from aerial or terrestrial laser surveys, yield very dense geometry of geo-objects and topography. Here we combine InSAR and laser point clouds, taking the covariance metrics of the InSAR data into account. This enables us to correct the positions of InSAR data, to provide a geometric match with geo-objects. We demonstrate how this allows for adding contextual information as attributes to individual scatterers, which improves the interpretation of the InSAR results.

Original language	English
Article number	EGU2018-17008
Number of pages	1
Journal	Geophysical Research Abstracts (online)
Volume	20
Publication status	Published - 2018
Event	EGU General Assembly 2018 - Vienna, Austria Duration: 8 Apr 2018 → 13 Apr 2018 https://www.egu2018.eu/

Cite this

@article{c5fa015465d04bf6aa5637a289624fe1,

title = "Scatterer identification and analysis using combined InSAR and laser data",

abstract = "The geolocation of coherent radar scatterers, used for InSAR deformation analysis, is often not accurate enough to associate them to physical geo-objects. The imaging geometry of satellite InSAR results in (i) biases in the entire point field, and (ii) quite elongated and skewed confidence ellipsoids in the range, azimuth and cross-range direction. The metric defined by the covariance matrix of the InSAR results defines the optimal way to associate scatterers with geo-objects. Laser scanning point clouds, stemming from aerial or terrestrial laser surveys, yield very dense geometry of geo-objects and topography. Here we combine InSAR and laser point clouds, taking the covariance metrics of the InSAR data into account. This enables us to correct the positions of InSAR data, to provide a geometric match with geo-objects. We demonstrate how this allows for adding contextual information as attributes to individual scatterers, which improves the interpretation of the InSAR results. ",

author = "Ramon Hanssen and {van Natijne}, Adriaan and Roderik Lindenbergh and Prabu Dheenathayalan and Mengshi Yang and Ling Chang and {van Leijen}, Freek and {Lopez Dekker}, Paco and {van der Maaden}, Jippe and {van Oosterom}, P.J.M. and Hanjiang Xiong and PingBo Hu and Zhang Zhan and Bisheng Yang",

year = "2018",

language = "English",

volume = "20",

journal = "Geophysical Research Abstracts (online)",

issn = "1607-7962",

note = "EGU General Assembly 2018, EGU 2018 ; Conference date: 08-04-2018 Through 13-04-2018",

url = "https://www.egu2018.eu/",

}

TY - JOUR

T1 - Scatterer identification and analysis using combined InSAR and laser data

AU - Hanssen, Ramon

AU - van Natijne, Adriaan

AU - Lindenbergh, Roderik

AU - Dheenathayalan, Prabu

AU - Yang, Mengshi

AU - Chang, Ling

AU - van Leijen, Freek

AU - Lopez Dekker, Paco

AU - van der Maaden, Jippe

AU - van Oosterom, P.J.M.

AU - Xiong, Hanjiang

AU - Hu, PingBo

AU - Zhan, Zhang

AU - Yang, Bisheng

PY - 2018

Y1 - 2018

N2 - The geolocation of coherent radar scatterers, used for InSAR deformation analysis, is often not accurate enough to associate them to physical geo-objects. The imaging geometry of satellite InSAR results in (i) biases in the entire point field, and (ii) quite elongated and skewed confidence ellipsoids in the range, azimuth and cross-range direction. The metric defined by the covariance matrix of the InSAR results defines the optimal way to associate scatterers with geo-objects. Laser scanning point clouds, stemming from aerial or terrestrial laser surveys, yield very dense geometry of geo-objects and topography. Here we combine InSAR and laser point clouds, taking the covariance metrics of the InSAR data into account. This enables us to correct the positions of InSAR data, to provide a geometric match with geo-objects. We demonstrate how this allows for adding contextual information as attributes to individual scatterers, which improves the interpretation of the InSAR results.

AB - The geolocation of coherent radar scatterers, used for InSAR deformation analysis, is often not accurate enough to associate them to physical geo-objects. The imaging geometry of satellite InSAR results in (i) biases in the entire point field, and (ii) quite elongated and skewed confidence ellipsoids in the range, azimuth and cross-range direction. The metric defined by the covariance matrix of the InSAR results defines the optimal way to associate scatterers with geo-objects. Laser scanning point clouds, stemming from aerial or terrestrial laser surveys, yield very dense geometry of geo-objects and topography. Here we combine InSAR and laser point clouds, taking the covariance metrics of the InSAR data into account. This enables us to correct the positions of InSAR data, to provide a geometric match with geo-objects. We demonstrate how this allows for adding contextual information as attributes to individual scatterers, which improves the interpretation of the InSAR results.

M3 - Meeting Abstract

SN - 1607-7962

VL - 20

JO - Geophysical Research Abstracts (online)

JF - Geophysical Research Abstracts (online)

M1 - EGU2018-17008

T2 - EGU General Assembly 2018

Y2 - 8 April 2018 through 13 April 2018

ER -

Scatterer identification and analysis using combined InSAR and laser data

Abstract

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