Parisa Nouri
University of Oulu
10 Papers
31 Citations
Parisa Nouri is an academic researcher from University of Oulu. The author has contributed to research in topics: Rayleigh fading & Nakagami distribution. The author has an hindex of 5, co-authored 10 publications.
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Papers
Machine-type wireless communications enablers for beyond 5G: Enabling URLLC via diversity under hard deadlines
TL;DR: The approximated upper bound of the probability of time underflow under time and frequency diversities is provided and the maximum achievable reliability as a function of the time threshold for a given probability oftime underflow is indicated.
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Finite Blocklength Communications in Smart Grids for Dynamic Spectrum Access and Locally Licensed Scenarios
Iran Ramezanipour,Parisa Nouri,Hirley Alves,Pedro H. J. Nardelli,Richard Demo Souza,Ari Pouttu +5 more
TL;DR: This paper uses stochastic geometry to compute in closed form the success probability of a typical message transmission as a function of its size, the number of information bits, and the density of interferers, and shows how reliability and delay are related in either scenarios.
On the performance of ultra-reliable decode and forward relaying under the finite blocklength
Parisa Nouri,Hirley Alves,Matti Latva-aho +2 more
- 12 Jun 2017
TL;DR: This paper provides the overall outage probability of three distinct DF relaying protocols, where the channels are assumed to be quasi static Rayleigh fading, and derives the closed form expressions of the outage probability in the three relaying scenarios.
Ultra-reliable short message cooperative relaying protocols under Nakagami-m fading
Parisa Nouri,Hirley Alves,Richard Demo Souza,Matti Latva-aho +3 more
- 01 Aug 2017
TL;DR: It is shown that cooperative communication outperforms direct transmission under the FB regime and the impact of fading severity and power allocation factor on the outage probability and the minimum delay required to meet the ultra-reliable communication requirements is examined.
Performance Analysis of Ultra-Reliable Short Message Decode and Forward Relaying Protocols
TL;DR: In this paper, the authors compare the performance of three cooperative protocols under two distinct power constraints with respect to latency and energy efficiency, and illustrate the impact of coding rate on the probability of successful transmission in ultra-reliable region in addition to the effect of power allocation on the outage probability.