Considering an ultra-reliable low latency communication scenario, we assess the trade-off in terms of energy consumption between achieving time diversity through retransmissions and having to communicate at a higher rate due to latency constraints. Our analysis considers Nakagami-m blockfading channels with Chase combining hybrid automatic repeat request. We derive a fixed-point equation to determine the best number of allowed transmission attempts considering the maximum possible energy spent, which yields insights into the system behavior. Furthermore, we compare the energy consumption of the proposed approach against direct transmission with frequency diversity. Results show substantial energy savings using retransmissions when selecting...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
Hybrid Automatic Repeat reQuest (HARQ) techniques are largely used in the context of wireless commun...
Theoretical thesis.Bibliography: pages 47-49.1. Introduction -- 2. Background and related work -- 3....
Abstract Considering an ultra-reliable low latency communication scenario, we assess the trade-off ...
International audienceWe consider an ultra-reliable low-latency communication (URLLC) system with sh...
Ultra-reliable Low-latency Communications (URLLC) is potentially one of the most disruptive communic...
A novel Multiplexed Hybrid Automatic Repeat reQuest (M-HARQ) scheme is proposed and compared to the ...
We evaluate the use of HARQ schemes in the context of vehicle to infrastructure communications consi...
Traditional retransmission protocols require the receiver to decode the entire packet before sending...
Hybrid Automatic Repeat reQuest (HARQ) techniques are widely employed in the most important wireless...
International audienceEmerging 5G networks will need to efficiently support ultra-reliable, low-late...
International audienceThis paper studies the energy efficiency (bits/joule) in relay assisted networ...
Hybrid automatic repeat request (HARQ) \cite{costello1983error} plays an important role in providing...
This paper addresses the problem of optimal power allocation for hybrid automatic repeat request (HA...
Recently, efficient use of energy has become an essential research topic for green communication. Th...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
Hybrid Automatic Repeat reQuest (HARQ) techniques are largely used in the context of wireless commun...
Theoretical thesis.Bibliography: pages 47-49.1. Introduction -- 2. Background and related work -- 3....
Abstract Considering an ultra-reliable low latency communication scenario, we assess the trade-off ...
International audienceWe consider an ultra-reliable low-latency communication (URLLC) system with sh...
Ultra-reliable Low-latency Communications (URLLC) is potentially one of the most disruptive communic...
A novel Multiplexed Hybrid Automatic Repeat reQuest (M-HARQ) scheme is proposed and compared to the ...
We evaluate the use of HARQ schemes in the context of vehicle to infrastructure communications consi...
Traditional retransmission protocols require the receiver to decode the entire packet before sending...
Hybrid Automatic Repeat reQuest (HARQ) techniques are widely employed in the most important wireless...
International audienceEmerging 5G networks will need to efficiently support ultra-reliable, low-late...
International audienceThis paper studies the energy efficiency (bits/joule) in relay assisted networ...
Hybrid automatic repeat request (HARQ) \cite{costello1983error} plays an important role in providing...
This paper addresses the problem of optimal power allocation for hybrid automatic repeat request (HA...
Recently, efficient use of energy has become an essential research topic for green communication. Th...
Effective Capacity defines the maximum communication rate subject to a specific delay constraint, wh...
Hybrid Automatic Repeat reQuest (HARQ) techniques are largely used in the context of wireless commun...
Theoretical thesis.Bibliography: pages 47-49.1. Introduction -- 2. Background and related work -- 3....