Peter Blattnig
armasuisse
4 Papers
55 Citations
Peter Blattnig is an academic researcher from armasuisse. The author has contributed to research in topics: Particle filter & Radio propagation. The author has an hindex of 2, co-authored 4 publications.
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Papers
Tracking of Time-Variant Radio Propagation Paths Using Particle Filtering
Xuefeng Yin,Gerhard Steinbock,Gunvor Elisabeth Kirkelund,Troels Pedersen,Peter Blattnig,Alain Jaquier,Bernard Henri Fleury +6 more
- 19 May 2008
TL;DR: A low-complexity particle filtering algorithm is proposed to track the parameters of time-variant propagation paths in multiple-input multiple-output (MIMO) radio channels and has an additional resampling step specifically designed for wideband MIMO channel sounding.
A Single-Stage Target Tracking Algorithm for Multistatic DVB-T Passive Radar Systems
Xuefeng Yin,Troels Pedersen,Peter Blattnig,Alain Jaquier,Bernard Henri Fleury +4 more
- 20 Feb 2009
TL;DR: The proposed algorithm augmented with successive interference cancellation can be used to track individual targets in a multiple-target scenario and exhibits lower complexity and better performance than two conventional algorithms using multiple stages.
Tracking of the multi-dimensional parameters of a target signal using particle filtering
Xuefeng Yin,Troels Pedersen,Gerhard Steinbock,Gunvor Elisabeth Kirkelund,Peter Blattnig,Alain Jaquier,Bernard Henri Fleury +6 more
- 26 May 2008
TL;DR: In this contribution, a low-complexity particle filter is proposed to track the parameters of the signal reflected by a target illuminated with a digital-video-broadcast terrestrial (DVB-T) signal.
Tracking of the time-variant parameters of radio propagation paths using a particle filter
Xuefeng Yin,Gerhard Steinbock,Gunvor Elisabeth Kirkelund,Troels Pedersen,Peter Blattnig,Alain Jaquier,Bernard Henri Fleury +6 more
- 01 Jan 2007
TL;DR: A particle filtering approach to track the time-evolution of the parameters of propagation paths in radio channel using a dynamic state space model, designed specifically for the MIMO channel sounding scenario.