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Blind combining for weighted energy detection of UWB signals

X Cheng, Frederik Vanhaverbeke UGent, YL Guan and Marc Moeneclaey UGent (2011) ELECTRONICS LETTERS. 47(1). p.55-56
abstract
Two blind schemes for weighted energy detection of ultra-wideband signals are proposed. The first yields the estimates of transmitted symbols by using the generalised likelihood ratio test (GLRT) paradigm, which is referred to as GLRT-WED. The second scheme first estimates the weighting vector of the WED detector by means of singular value decomposition (SVD), and then uses the obtained vector for data detection, which is referred to as SVD-WED. Both GLRT-WED and SVD-WED can achieve a performance very near to that of the ideal WED, while SVD-WED is significantly less complex than GLRT-WED.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
journal title
ELECTRONICS LETTERS
Electron. Lett.
volume
47
issue
1
pages
55 - 56
Web of Science type
Article
Web of Science id
000285920700035
JCR category
ENGINEERING, ELECTRICAL & ELECTRONIC
JCR impact factor
0.965 (2011)
JCR rank
131/244 (2011)
JCR quartile
3 (2011)
ISSN
0013-5194
DOI
10.1049/el.2010.2744
language
English
UGent publication?
yes
classification
A1
copyright statement
I have transferred the copyright for this publication to the publisher
id
1976800
handle
http://hdl.handle.net/1854/LU-1976800
date created
2012-01-03 12:40:47
date last changed
2016-12-19 15:42:22
@article{1976800,
  abstract     = {Two blind schemes for weighted energy detection of ultra-wideband signals are proposed. The first yields the estimates of transmitted symbols by using the generalised likelihood ratio test (GLRT) paradigm, which is referred to as GLRT-WED. The second scheme first estimates the weighting vector of the WED detector by means of singular value decomposition (SVD), and then uses the obtained vector for data detection, which is referred to as SVD-WED. Both GLRT-WED and SVD-WED can achieve a performance very near to that of the ideal WED, while SVD-WED is significantly less complex than GLRT-WED.},
  author       = {Cheng, X and Vanhaverbeke, Frederik and Guan, YL and Moeneclaey, Marc},
  issn         = {0013-5194},
  journal      = {ELECTRONICS LETTERS},
  language     = {eng},
  number       = {1},
  pages        = {55--56},
  title        = {Blind combining for weighted energy detection of UWB signals},
  url          = {http://dx.doi.org/10.1049/el.2010.2744},
  volume       = {47},
  year         = {2011},
}

Chicago
Cheng, X, Frederik Vanhaverbeke, YL Guan, and Marc Moeneclaey. 2011. “Blind Combining for Weighted Energy Detection of UWB Signals.” Electronics Letters 47 (1): 55–56.
APA
Cheng, X, Vanhaverbeke, F., Guan, Y., & Moeneclaey, M. (2011). Blind combining for weighted energy detection of UWB signals. ELECTRONICS LETTERS, 47(1), 55–56.
Vancouver
1.
Cheng X, Vanhaverbeke F, Guan Y, Moeneclaey M. Blind combining for weighted energy detection of UWB signals. ELECTRONICS LETTERS. 2011;47(1):55–6.
MLA
Cheng, X, Frederik Vanhaverbeke, YL Guan, et al. “Blind Combining for Weighted Energy Detection of UWB Signals.” ELECTRONICS LETTERS 47.1 (2011): 55–56. Print.