Journal ArticleDOI
Making smart use of excess antennas: Massive MIMO, small cells, and TDD
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TLDR
It is suggested that time division duplexing (TDD) could be a key enabler for a new heterogeneous network architecture with the potential to provide ubiquitous coverage and unprecedented spectral area efficiencies.Abstract:
In this paper, we present a vision beyond the conventional Long Term Evolution Fourth Generation (LTE-4G) evolution path and suggest that time division duplexing (TDD) could be a key enabler for a new heterogeneous network architecture with the potential to provide ubiquitous coverage and unprecedented spectral area efficiencies. This architecture is based on a cochannel deployment of macro base stations (BSs) with very large antenna arrays and a secondary tier of small cells (SCs) with a few antennas each. Both tiers employ a TDD protocol in a synchronized fashion. The resulting channel reciprocity enables not only the estimation of large-dimensional channels at the BSs, but also an implicit coordination between both tiers without the need to exchange user data or channel state information (CSI) over the backhaul. In particular, during the uplink (UL), the BSs and SCs can locally estimate the dominant interference sub-space. This knowledge can be leveraged for downlink (DL) precoding to reduce intra- and inter-tier interference. In other words, the BSs and SCs “sacrifice” some of their degrees of freedom for interference rejection. Our simulation results demonstrate that the proposed architecture and precoding scheme can achieve a very attractive rate region compared to several baseline scenarios. For example, with 100 antennas at each BS and four antennas at each SC, we observe an aggregate area throughput of 7.63 Gb/s/km2 (DL) and 8.93 Gb/s/km2 (UL) on a 20 MHz band shared by about 100 mobile devices.read more
Citations
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Proceedings ArticleDOI
Massive MIMO-Enabled HetNets with Full Duplex Small Cells
TL;DR: A stochastic geometry based model of the proposed HCNs is provided which allows to derive the DL and UL rate coverage probabilities of such a system, and numerical results reveal that equipping large number of MIMO antennas at macro base stations (MBSs) enhances the DL rate coverage probability of a random MU in HCNs.
Journal ArticleDOI
Joint Transmitter-Receiver Optimization and Self-Interference Suppression in Full-Duplex MIMO Systems
TL;DR: This paper studies the effects of joint transmit and receive antennas’ selection on full-duplex (FD) multiple-input-multiple-output (MIMO) networks’ performance and proposes a heuristic algorithm to solve the sum rate maximization problem.
Dissertation
Low complexity multiple antenna transmission solutions for next generation wireless communication systems
TL;DR: In this doctoral research, both upper and lower bounds on the capacity of a general selection diversity system are presented, which are simple to compute and can be used in a variety of different fading environments.
Journal ArticleDOI
Evolutionary game-based cooperative strategy for effective capacity of multiple-input-multiple-output communications:
TL;DR: A hierarchical dynamic game framework is proposed for mobile two-dimensional multiple-input-multiple-output communication networks to achieve optimal relay selection and cooperative control and numerical results show that the proposed algorithm can effectively improve the quality of service.
Proceedings ArticleDOI
Downlink cell association for large-scale MIMO HetNets employing small cell wireless backhaul
TL;DR: Improved performance and fairness are achieved with the proposed algorithm under the wireless backhaul constraint, and more small cells implemented within the macro cell range achieves better load balancing.
References
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On Limits of Wireless Communications in a Fading Environment when UsingMultiple Antennas
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Journal ArticleDOI
Scaling Up MIMO: Opportunities and Challenges with Very Large Arrays
Fredrik Rusek,Daniel Persson,Buon Kiong Lau,Erik G. Larsson,Thomas L. Marzetta,Fredrik Tufvesson +5 more
TL;DR: The gains in multiuser systems are even more impressive, because such systems offer the possibility to transmit simultaneously to several users and the flexibility to select what users to schedule for reception at any given point in time.