E
Erik G. Larsson
Researcher at Linköping University
Publications - 987
Citations - 77172
Erik G. Larsson is an academic researcher from Linköping University. The author has contributed to research in topics: MIMO & Telecommunications link. The author has an hindex of 96, co-authored 943 publications receiving 63373 citations. Previous affiliations of Erik G. Larsson include Aalborg University & Katholieke Universiteit Leuven.
Papers
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Proceedings ArticleDOI
Transmit beamforming for inter-operator spectrum sharing: From theory to practice
Jian Luo,Johannes Lindblom,Jianhui Li,Rami Mochaoura,Andreas Kortke,Eleftherios Karipidis,Martin Haardt,Eduard A. Jorswieck,Erik G. Larsson +8 more
TL;DR: Four transmit beamforming techniques are selected and compared to realize inter-operator spectrum sharing, which is a promising solution for the spectrum shortage problem and their computational complexity is analyzed.
Posted Content
Sum Throughput Maximization in Multi-Tag Backscattering to Multiantenna Reader
Deepak Mishra,Erik G. Larsson +1 more
TL;DR: An iterative low-complexity algorithm is proposed to yield an efficient jointly suboptimal design and selected numerical results demonstrate that the proposed designs can yield significant enhancement in the sum-backscattered throughput over existing benchmarks.
Journal ArticleDOI
Guest Editorial: Large-Scale Multiple Antenna Wireless Systems
TL;DR: In this article, the authors focus on large-scale multiple antenna wireless systems and services and propose a special issue focusing on large scale MIMO wireless systems with multiple antenna networks.
Proceedings ArticleDOI
Monostatic Backscattering Detection by Multiantenna Reader
Deepak Mishra,Erik G. Larsson +1 more
TL;DR: This paper proposes a novel maximum eigenvalue based BSC detection protocol for a monostatic MIMO reader to minimize the underlying bit error rate (BER) in order to overcome the limitations of backscatter communication at the reader.
Journal ArticleDOI
Finite-SNR Analysis and Optimization of Decode-and-Forward Relaying Over Slow-Fading Channels
TL;DR: Analysis of the finite signal-to-noise ratio (SNR) outage performance of packet-based decode-and-forward relaying over a quasi-static fading channel, with different types of transmitter channel state information (CSI), shows that for high SNRs, SC and CC provide the same outage probabilities when the source has perfect CSI.