Bjørn Olav Hogstad

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2012

10 Gulzaib Rafiq, Bjørn Olav Hogstad, Matthias Pätzold: On the first- and second-order statistics of the capacity of N*Nakagami-m channels for applications in cooperative networks. EURASIP J. Wireless Comm. and Networking 2012: 24 (2012)

2009

9 Matthias Pätzold, Cheng-Xiang Wang, Bjørn Olav Hogstad: Two new sum-of-sinusoids-based methods for the efficient generation of multiple uncorrelated rayleigh fading waveforms. IEEE Transactions on Wireless Communications 8(6): 3122-3131 (2009)

2008

8 Bjørn Olav Hogstad, Matthias Pätzold: On the Stationarity of Sum-of-Cisoids-Based Mobile Fading Channel Simulators. VTC Spring 2008: 400-404

7 Matthias Pätzold, Bjørn Olav Hogstad, N. Youssef: Modeling, analysis, and simulation of MIMO mobile-to-mobile fading channels. IEEE Transactions on Wireless Communications 7(2): 510-520 (2008)

6 Matthias Pätzold, Bjørn Olav Hogstad: A wideband MIMO channel model derived from the geometric elliptical scattering model. Wireless Communications and Mobile Computing 8(5): 597-605 (2008)

2007

5 Bjørn Olav Hogstad, Matthias Pätzold: Exact Closed-Form Expressions for the Distribution, Level-Crossing Rate, and Average Duration of Fades of the Capacity of MIMO Channels. VTC Spring 2007: 455-460

2006

4 Matthias Pätzold, Bjørn Olav Hogstad: A Wideband Space-Time MIMO Channel Simulator Based on the Geometrical One-Ring Model. VTC Fall 2006: 1-6

3 Corneliu Eugen D. Sterian, Harvinder Singh, Matthias Pätzold, Bjørn Olav Hogstad: Super-orthogonal space-time codes with rectangular constellations and two transmit antennas for high data rate wireless communications. IEEE Transactions on Wireless Communications 5(7): 1857-1865 (2006)

2004

2 Bjørn Olav Hogstad, Matthias Pätzold: Capacity studies of MIMO channel models based on the geometrical one-ring scattering model. PIMRC 2004: 1613-1617

1 Matthias Pätzold, Bjørn Olav Hogstad: A space-time channel simulator for MIMO channels based on the geometrical one-ring scattering model. Wireless Communications and Mobile Computing 4(7): 727-737 (2004)

	2012
10		Gulzaib Rafiq, Bjørn Olav Hogstad, Matthias Pätzold: On the first- and second-order statistics of the capacity of N*Nakagami-m channels for applications in cooperative networks. EURASIP J. Wireless Comm. and Networking 2012: 24 (2012)
	2009
9		Matthias Pätzold, Cheng-Xiang Wang, Bjørn Olav Hogstad: Two new sum-of-sinusoids-based methods for the efficient generation of multiple uncorrelated rayleigh fading waveforms. IEEE Transactions on Wireless Communications 8(6): 3122-3131 (2009)
	2008
8		Bjørn Olav Hogstad, Matthias Pätzold: On the Stationarity of Sum-of-Cisoids-Based Mobile Fading Channel Simulators. VTC Spring 2008: 400-404
7		Matthias Pätzold, Bjørn Olav Hogstad, N. Youssef: Modeling, analysis, and simulation of MIMO mobile-to-mobile fading channels. IEEE Transactions on Wireless Communications 7(2): 510-520 (2008)
6		Matthias Pätzold, Bjørn Olav Hogstad: A wideband MIMO channel model derived from the geometric elliptical scattering model. Wireless Communications and Mobile Computing 8(5): 597-605 (2008)
	2007
5		Bjørn Olav Hogstad, Matthias Pätzold: Exact Closed-Form Expressions for the Distribution, Level-Crossing Rate, and Average Duration of Fades of the Capacity of MIMO Channels. VTC Spring 2007: 455-460
	2006
4		Matthias Pätzold, Bjørn Olav Hogstad: A Wideband Space-Time MIMO Channel Simulator Based on the Geometrical One-Ring Model. VTC Fall 2006: 1-6
3		Corneliu Eugen D. Sterian, Harvinder Singh, Matthias Pätzold, Bjørn Olav Hogstad: Super-orthogonal space-time codes with rectangular constellations and two transmit antennas for high data rate wireless communications. IEEE Transactions on Wireless Communications 5(7): 1857-1865 (2006)
	2004
2		Bjørn Olav Hogstad, Matthias Pätzold: Capacity studies of MIMO channel models based on the geometrical one-ring scattering model. PIMRC 2004: 1613-1617
1		Matthias Pätzold, Bjørn Olav Hogstad: A space-time channel simulator for MIMO channels based on the geometrical one-ring scattering model. Wireless Communications and Mobile Computing 4(7): 727-737 (2004)

Coauthor Index

1 Matthias Pätzold [1] [2] [3] [4] [5] [6] [7] [8] [9] [10]

2 Gulzaib Rafiq [10]

3 Harvinder Singh [3]

4 Corneliu Eugen D. Sterian [3]

5 Cheng-Xiang Wang (Chengxiang Wang) [9]

6 N. Youssef [7]

Last update Sat Jun 2 20:57:36 2012 CET by the DBLP Team —

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1	Matthias Pätzold	[1] [2] [3] [4] [5] [6] [7] [8] [9] [10]
2	Gulzaib Rafiq	[10]
3	Harvinder Singh	[3]
4	Corneliu Eugen D. Sterian	[3]
5	Cheng-Xiang Wang (Chengxiang Wang)	[9]
6	N. Youssef	[7]