Standard

300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects. / Keil, Andreas; Peuser, Jörn; Loeffler, Torsten; Krozer, Viktor; Dall, Jørgen; Kusk, Anders; Zhurbenko, Vitaliy; Jensen, Thomas; de Maagt, Peter.

33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. 2011. p. 1-5.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2011

Harvard

Keil, A, Peuser, J, Loeffler, T, Krozer, V, Dall, J, Kusk, A, Zhurbenko, V, Jensen, T & de Maagt, P 2011, '300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects'. in 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. pp. 1-5.

APA

Keil, A., Peuser, J., Loeffler, T., Krozer, V., Dall, J., Kusk, A., ... de Maagt, P. (2011). 300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects. In 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. (pp. 1-5)

CBE

Keil A, Peuser J, Loeffler T, Krozer V, Dall J, Kusk A, Zhurbenko V, Jensen T, de Maagt P. 2011. 300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects. In 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. pp. 1-5.

MLA

Keil, Andreas et al. "300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects". 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. 2011. 1-5.

Vancouver

Keil A, Peuser J, Loeffler T, Krozer V, Dall J, Kusk A et al. 300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects. In 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. 2011. p. 1-5.

Author

Keil, Andreas; Peuser, Jörn; Loeffler, Torsten; Krozer, Viktor; Dall, Jørgen; Kusk, Anders; Zhurbenko, Vitaliy; Jensen, Thomas; de Maagt, Peter / 300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects.

33rd ESA Antenna Workshop on Challenges for Space Antenna Systems: Proceedings. 2011. p. 1-5.

Publication: Research - peer-reviewArticle in proceedings – Annual report year: 2011

Bibtex

@inbook{dabf4cd775d348ada3a44f8f897c9307,
title = "300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects",
author = "Andreas Keil and Jörn Peuser and Torsten Loeffler and Viktor Krozer and Jørgen Dall and Anders Kusk and Vitaliy Zhurbenko and Thomas Jensen and {de Maagt}, Peter",
year = "2011",
pages = "1-5",
booktitle = "33rd ESA Antenna Workshop on Challenges for Space Antenna Systems",

}

RIS

TY - GEN

T1 - 300 GHz Imaging System with 8 Meter Stand-off Distance and One-Dimensional Synthetic Image Reconstruction for Remote Detection of Material Defects

A1 - Keil,Andreas

A1 - Peuser,Jörn

A1 - Loeffler,Torsten

A1 - Krozer,Viktor

A1 - Dall,Jørgen

A1 - Kusk,Anders

A1 - Zhurbenko,Vitaliy

A1 - Jensen,Thomas

A1 - de Maagt,Peter

AU - Keil,Andreas

AU - Peuser,Jörn

AU - Loeffler,Torsten

AU - Krozer,Viktor

AU - Dall,Jørgen

AU - Kusk,Anders

AU - Zhurbenko,Vitaliy

AU - Jensen,Thomas

AU - de Maagt,Peter

PY - 2011

Y1 - 2011

N2 - An active stand-off imaging system operating at 230–320 GHz is presented. Imaging is achieved by combining a line array consisting of 8 sources and 16 detectors with a scanning cylindrical mirror system. The stand-off distance is 8 meters and the effective aperture of the system is 0.5 meters by 0.5 meters. Range and intensity information of the object are obtained using an active FMCW (frequency modulated continuous wave) radar principle. Data acquisition time for one line is as short as 1 ms. Synthetic image reconstruction is achieved in real-time by an embedded GPU (Graphical Processing Unit). The data indicates a spatial resolution of about 2 cm and the range resolution of about 2 mm. To analyze the performance of the system, high-precision measurements employing a vector network analyzer are presented. An outlook on further developments is given.

AB - An active stand-off imaging system operating at 230–320 GHz is presented. Imaging is achieved by combining a line array consisting of 8 sources and 16 detectors with a scanning cylindrical mirror system. The stand-off distance is 8 meters and the effective aperture of the system is 0.5 meters by 0.5 meters. Range and intensity information of the object are obtained using an active FMCW (frequency modulated continuous wave) radar principle. Data acquisition time for one line is as short as 1 ms. Synthetic image reconstruction is achieved in real-time by an embedded GPU (Graphical Processing Unit). The data indicates a spatial resolution of about 2 cm and the range resolution of about 2 mm. To analyze the performance of the system, high-precision measurements employing a vector network analyzer are presented. An outlook on further developments is given.

BT - 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems

T2 - 33rd ESA Antenna Workshop on Challenges for Space Antenna Systems

SP - 1

EP - 5

ER -