Guido Dietl scite author profile

Guido Dietl

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5Publications

99Citation Statements Received

30Citation Statements Given

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Affiliations

University of Applied Sciences Landshut, DoCoMo Communications Laboratories Europe GmbH, Munich University of Applied Sciences

Publications

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Doppler spectrum from moving scatterers in a random environment

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et al. 2009

IEEE Trans. Wireless Commun.

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A random non-line-of-sight environment with stationary transmitter and receiver is considered. In such an environment movement of a scatterer will lead to perturbations of the otherwise static channel with a resulting Doppler spectrum. This is quite a general situation in outdoor environments with moving traffic or indoor situations with moving people. Here we study the latter situation in detail with experimental results from a large office environment. A general theory of Doppler spectra is developed. The impact of a scatterer depends on the angular distribution of scattered energy, and uniform as well as sharply peaked distributions are considered in the theory. The Doppler spectra are in all cases sharply peaked at zero frequency due to forward scattering, but the actually measured distribution depends on the degree and type of activity in the environment, as well as the spectrum estimation accuracy.Index Terms-Indoor propagation, small terminal antennas, radio channel, user influence.

Interference alignment via minimizing projector distances of interfering subspaces

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2012

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Low-Complexity Linear Zero-Forcing for the MIMO Broadcast Channel

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2009

IEEE J. Sel. Top. Signal Process.

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Spatial resource allocation for the multiuser multicarrier MIMO broadcast channel - a QoS optimization perspective

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2010

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Performance of Interleave Division Multiple Access Based on Minimum Mean Square Error Detection

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et al. 2007

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Abstract-Interleave division multiple access (IDMA) recently attracted many research activities because of its excellent performance despite its reasonable low complexity. The low complexity is usually realized by the multiuser detector that applies an approximation similar to the rake receiver for CDMA systems. So far, this type of detector has been most frequently considered in IDMA literature. In this paper we investigate the performance of IDMA based on linear minimum mean square error (MMSE) detection. The MMSE detector is more complex than the rakelike approximation. At the price of the complexity, however, it is shown that the MMSE detector brings several advantages over the rake-like approach such as the superior performance on channels with spectrally poor characteristics, effective iterative processing for lower SNR values, faster convergence and therefore shorter decoding delays, and better performance for short block length. We also confirm that the complexity can be drastically reduced by the low rank approximation of the MMSE filter by its multistage representation without compromising on the performance.

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