On the Throughput of Large-but-Finite MIMO Networks Using Schedulers

Makki, Behrooz; Svensson, Tommy; Alouini, Mohamed‐Slim

doi:10.1109/twc.2018.2878252

Cited by 7 publications

(6 citation statements)

References 43 publications

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“…3-4, the results are obtained by optimizing the rate and power allocation. Here, both exhaustive search and the genetic-algorithm based scheme of [15] have been used which have ended up in the same results, indicating the accuracy of the optimization process. In Fig.…”

Section: Simulation Resultsmentioning

confidence: 75%

“…which can be effectively solved by, e.g., exhaustive search or the machine-learning based scheme of [15].…”

Section: Analytical Resultsmentioning

confidence: 99%

“…with η i , i = 1, 2, given in (7), and ( 12) is adapted correspondingly. In (15), γ11 is the probability that C 1 decodes X 1 during the LT period. Also, γ12 gives the probability that, after decoding and removing X1 , the cache node C 1 correctly decodes X 2 in the HT period.…”

Section: Separate Decoding Using Sicmentioning

confidence: 99%

“…( e R1 −1 ) (1−α 2 )P −α 2 P ( e R1 −1 ) otherwise (16) with γ11 and γ22 given in (15). Also, in (16) we use Rayleigh channel PDFs and some manipulations to derive the probabilities.…”

Section: Separate Decoding Without Sicmentioning

confidence: 99%

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Coded-Caching Using Adaptive Transmission

Makki

Alouini

2021

IEEE Wireless Commun. Lett.

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Coded-caching is a promising technique to reduce the peak rate requirement of backhaul links during high traffic periods. In this letter, we study the effect of adaptive transmission on the performance of coded-caching based networks.Particularly, concentrating on the reduction of backhaul peak load during the high traffic periods, we develop adaptive rate and power allocation schemes maximizing the network successful transmission probability, which is defined as the probability of the event with all cache nodes decoding their intended signals correctly. Moreover, we study the effect of different message decoding and buffering schemes on the system performance. As we show, the performance of codedcaching networks is considerably affected by rate/power allocation as well as the message decoding/buffering schemes.

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Section: Simulation Resultsmentioning

confidence: 75%

“…which can be effectively solved by, e.g., exhaustive search or the machine-learning based scheme of [15].…”

Section: Analytical Resultsmentioning

confidence: 99%

Section: Separate Decoding Using Sicmentioning

confidence: 99%

Section: Separate Decoding Without Sicmentioning

confidence: 99%

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Coded-Caching Using Adaptive Transmission

Makki

Alouini

2021

IEEE Wireless Commun. Lett.

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“…2)] 1 F 1 (a; 2; x) ≥ 1 + ax/2, which is quite tight (as illustrated in the next section) when R is relatively low (e.g., R ≤ 0.1), as in the ultra-reliable region. 3 Most importantly, the sum-series term within (14) can be conveniently expanded after some straightforward calculus as…”

Section: Effective Number Of Transmitted Streams Mmentioning

confidence: 99%

Zero Forcing Detection for Short Packet Transmission Under Channel Estimation Errors

Miridakis

Tsiftsis

Wang

2019

IEEE Trans. Veh. Technol.

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A multiuser multiple-input multiple-output wireless communication system is analytically studied under the shortpacket transmission regime. The practical scenario of channel estimation errors is adopted when the signals undergo Rayleigh channel fading conditions. Unlike most previous works, the channel estimation error term is treated as a signal rather than interference or noise, which may further enhance the overall system performance. The spatial multiplexing mode of transmit operation is considered, while the zero-forcing detection is applied at the receiver. New and exact closed-form expressions for the outage probability and total system goodput are derived. Capitalizing on the analytical results, some new engineering insights are also presented; such as the impact of channel estimation errors with respect to the number of antennas, transmit power, and/or coding rate.

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Computationally Efficient Scheduling Schemes for Multiple Antenna Systems Using Evolutionary Algorithms and Swarm Optimization

Pattanayak

Kumar

2020

Evolutionary Computation in Scheduling

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On the Throughput of Large-but-Finite MIMO Networks Using Schedulers

Cited by 7 publications

References 43 publications

Coded-Caching Using Adaptive Transmission

Coded-Caching Using Adaptive Transmission

Zero Forcing Detection for Short Packet Transmission Under Channel Estimation Errors

Computationally Efficient Scheduling Schemes for Multiple Antenna Systems Using Evolutionary Algorithms and Swarm Optimization

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