TU Darmstadt / ULB / TUbiblio

Blättern nach Person

Ebene hoch
Gruppiere nach: Keine Gruppierung | Typ des Eintrags | Publikationsjahr | Sprache
Anzahl der Einträge: 8.

Sharif, W. ; Muma, M. ; Zoubir, A. M. :
Robustness Analysis of Spatial Time-Frequency Distributions Based on the Influence Function.
In: IEEE Trans. on Signal Processing, 61 (8) S. 1958-1971.
[Artikel] , (2013)

Sharif, W. :
Robust Sensor Array Processing for Non-stationary Signals.
[Online-Edition: http://tuprints.ulb.tu-darmstadt.de/3410]
TU Darmstadt , Darmstadt
[Dissertation], (2012)

Sharif, W. :
Robust Sensor Array Processing for Non-stationary Signals.
Technische Unitersität Darmstadt
[Dissertation]

Sharif, W. ; Chakhchoukh, Y. ; Zoubir, A. M. :
Direction-of-arrival estimation of FM sources based on robust spatial time-frequency distribution matrices.
In: Proc. IEEE Workshop on Statistical Signal Processing (SSP). Nice, France
[ Konferenzveröffentlichung] , (2011)

Sharif, W. ; Chakhchoukh, Y. ; Zoubir, A. M. :
Direction-of-arrival estimation of FM sources based on robust spatial time-frequency distribution matrices.
In: IEEE Workshop on Statistical Signal Processing (SSP), June, Nice, France.
[ Konferenzveröffentlichung] , (2011)

Sharif, W. ; Chakhchoukh, Y. ; Zoubir, A. M. :
Robust Spatial Time-Frequency Distribution Matrix Estimation with Application to Direction-of-Arrival Estimation.
In: Signal Processing, 91 (11) S. 2630-2638.
[Artikel] , (2011)

Sharif, W. ; Heidenreich, P. ; Zoubir, A. M. :
Robust Direction-of-Arrival Estimation for FM Sources in the Presence of Impulsive Noise.
In: Proc. 35th IEEE Int. Conf. on Acoustics, Speech and Signal Processing (ICASSP). Dallas, TX, USA
[ Konferenzveröffentlichung] , (2010)

Rebhan, S. ; Sharif, W. ; Eggert, J. :
Incremental Learning in the Non-negative Matrix Factorization.
In: proc. 15th Int. Conf. on Neural Information Processing (ICONIP) of the Asia-Pacific Neural Network Assembl. Auckland, New Zealand
[ Konferenzveröffentlichung] , (2008)

Diese Liste wurde am Sat Feb 16 04:02:28 2019 CET generiert.