RF electromagnetic penetration of the NASA space shuttle Endeavour performed with an ultra-wideband system

被引：0

作者：

Johnk, Robert T. ^{[1
]}

Novotny, David R. ^{[1
]}

Grosvenor, Chriss A. ^{[1
]}

Canales, Nino ^{[1
]}

Camell, Dennis G. ^{[1
]}

Koepke, Galen H. ^{[1
]}

Scully, Robert C. ^{[2
]}

机构：

[1] Natl Inst Stand & Technol, Electromagnet Div, Time Domain Fields Project, Boulder, CO 80303 USA

[2] NASA Johnson Space Ctr, Avion Syst Div, Houston, TX USA

来源：

2007 IEEE INTERNATIONAL SYMPOSIUM ON ELECTROMAGNETIC COMPATIBILITY: WORKSHOP AND TUTORIAL NOTES, VOLS 1-3 | 2007年

关键词：

Fourier Transform; hangar; Kennedy Space Center; orbiter; penetration measurement reverberation chamber; shuttle; time-domain; time-gating ultra-wideband;

D O I：

暂无

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：

This paper summarizes a joint NIST-NASA measurement effort to thoroughly evaluate the electromagnetic penetration of the shuttle Endeavour. NASA is concerned about the effects that microwave imaging radar systems might have on critical avionics systems on its fleet of space shuttles. As part of a multifaceted effort, a portable, NIST-developed ultra-wideband measurement system was deployed at the Kennedy Space Center to evaluate electromagnetic penetration over the frequency range of 30 MHZ - 6 GHz at selected locations inside Endeavour. The measurements were performed inside a large metal hangar, which exhibited robust reverberant behavior. A combination of reverb chamber techniques and time/frequency signal processing permitted the evaluation of electromagnetic penetration at six different locations inside the orbiter.

引用

页码：605 / +

页数：2

共 50 条

[1] Ultra-wideband RF helmet antenna
Lebaric, J
Tan, AT
MILCOM 2000: 21ST CENTURY MILITARY COMMUNICATIONS CONFERENCE PROCEEDINGS, VOLS 1 AND 2: ARCHITECTURES & TECHNOLOGIES FOR INFORMATION SUPERIORITY, 2000, : 591 - 594
[2] Shielding measurements of the Space Shuttle (part II - testing the NASA Endeavour)
Kempf, Diane
Brezinski, Buzz
Scully, Robert
2006 IEEE INTERNATIONAL SYMPOSIUM ON ELECTROMAGNETIC COMPATIBILITY, VOLS 1-3, PROCEEDINGS, 2006, : 436 - 441
[3] RF Safety Analysis of a Novel Ultra-wideband Fetal Monitoring System
Bushberg, Jerrold T.
Tupin, J. Paul, Jr.
HEALTH PHYSICS, 2017, 112 (05): : 478 - 485
[4] Ultra-wideband "Rainbow" RF spectral analyzer
Berger, Perrine
Schwarz, Muriel
Molin, Stephanie
Dolfi, Daniel
Morvan, Loic
Louchet-Chauvet, Anne
Chaneliere, Thierry
Le Gouet, Jean-Louis
2015 PHOTONICS CONFERENCE (IPC), 2015,
[5] Ultra-wideband Electromagnetic Detection of Biological Cells
Gholizadeh, N.
Ma, X.
Li, H.
Du, X.
Ning, Y.
Gholizadeh, V.
Cheng, X.
Hwang, J. C. M.
2017 89TH ARFTG MICROWAVE MEASUREMENT CONFERENCE (ARFTG): ADVANCED TECHNOLOGIES FOR COMMUNICATIONS, 2017,
[6] P-3 ultra-wideband SAR: System applications to foliage penetration
VandenBerg, N
Sheen, D
Shackman, S
Wiseman, D
ALGORITHMS FOR SYNTHETIC APERTURE RADAR IMAGERY III, 1996, 2757 : 130 - 135
[7] Detection algorithms for ultra-wideband foliage penetration radar
Nguyen, L
Kapoor, R
Sichina, J
RADAR SENSOR TECHNOLOGY II, 1997, 3066 : 165 - 176
[8] Design of ultra-wideband RF stripline directional couplers
Sledkov, V. A.
Obrezanova, L. A.
Manuilov, M. B.
KPBIMUKO 2007CRIMICO: 17TH INTERNATIONAL CRIMEAN CONFERENCE ON MICROWAVE & TELECOMMUNICATION TECHNOLOGY, VOLS 1 AND 2, CONFERENCE PROCEEDINGS, 2007, : 441 - +
[9] An Ultra-wideband Battery-less Positioning System for Space Applications
Dardari, Davide
Decarli, Nicolo
Fabbri, Davide
Guerra, Anna
Fantuzzi, Marco
Masotti, Diego
Costanzo, Alessandra
Romani, Aldo
Drouguet, Maxime
Feuillen, Thomas
Raucy, Christopher
Vandendorpe, Luc
Craeye, Christophe
2019 IEEE INTERNATIONAL CONFERENCE ON RFID TECHNOLOGY AND APPLICATIONS (IEEE RFID-TA 2019), 2019,
[10] Development of a Multi-Channel Ultra-Wideband Electromagnetic Transient Measurement System
He, Shaoyin
Chen, Xiangyu
Zhang, Bohao
Song, Liang
SENSORS, 2025, 25 (04)

← 1 2 3 4 5 →