International audienceIn this paper, we investigate different HARQ strategies with unreliable feedback channel. In classical approaches, retransmitted packets are different versions of the same user data. In order to improve HARQ performance, we propose to construct redundancy packets by jointly encoding several data packets. This strategy is referred to as HARQ Multiple Packet Incremental Redundancy (MP-IR). It can eliminate imperfect feedback effect on performance at medium to high Signal to Noise Ratio (SNR) values. On the other hand, classical HARQ Single Packet Incremental Redundancy (SP-IR) strategy is more robust at low SNR. This motivates us to introduce a hybrid SP-IR and MP-IR strategy. This strategy can benefit from SP-IR perform...
We propose an analytical framework that optimizes the performance of various Hybrid Automatic Repeat...
This paper proposes the use of hybrid automatic repeat request (HARQ) with code combining (HARQ-CC) ...
Traditional retransmission protocols require the receiver to decode the entire packet before sending...
International audienceIn this paper, we investigate different HARQ strategies with unreliable feedba...
International audienceIn classical incremental redundancy (IR) hybrid ARQ schemes, successive retran...
International audienceIn this work we consider incremental redundancy (IR) hybrid automatic repeat r...
This letter studies the throughput and the outage probability of spectrum sharing networks utilizing...
In this thesis, we first characterize the achievable rate region and outage probability for generali...
This paper studies the throughput performance of HARQ (hybrid automatic repeat request) protocols ov...
International audienceIn current wireless communication systems, the feedback required by the Hybrid...
International audienceThis letter considers hybrid automatic repeat request (HARQ) protocols on a bl...
We propose an analytical framework that optimizes the performance of various Hybrid Automatic Repeat...
In this paper, we analyze a new cross layer combining scheme of adaptive modulation and coding (AMC)...
Reliability of data transmission is a fundamental problem in wireless communications. Fading in wire...
In order to overcome the adverse effects of fading in wireless telecommunication channels, using a c...
We propose an analytical framework that optimizes the performance of various Hybrid Automatic Repeat...
This paper proposes the use of hybrid automatic repeat request (HARQ) with code combining (HARQ-CC) ...
Traditional retransmission protocols require the receiver to decode the entire packet before sending...
International audienceIn this paper, we investigate different HARQ strategies with unreliable feedba...
International audienceIn classical incremental redundancy (IR) hybrid ARQ schemes, successive retran...
International audienceIn this work we consider incremental redundancy (IR) hybrid automatic repeat r...
This letter studies the throughput and the outage probability of spectrum sharing networks utilizing...
In this thesis, we first characterize the achievable rate region and outage probability for generali...
This paper studies the throughput performance of HARQ (hybrid automatic repeat request) protocols ov...
International audienceIn current wireless communication systems, the feedback required by the Hybrid...
International audienceThis letter considers hybrid automatic repeat request (HARQ) protocols on a bl...
We propose an analytical framework that optimizes the performance of various Hybrid Automatic Repeat...
In this paper, we analyze a new cross layer combining scheme of adaptive modulation and coding (AMC)...
Reliability of data transmission is a fundamental problem in wireless communications. Fading in wire...
In order to overcome the adverse effects of fading in wireless telecommunication channels, using a c...
We propose an analytical framework that optimizes the performance of various Hybrid Automatic Repeat...
This paper proposes the use of hybrid automatic repeat request (HARQ) with code combining (HARQ-CC) ...
Traditional retransmission protocols require the receiver to decode the entire packet before sending...