In the current DVB generation, satellite terminals are expected to be interactive and capable of transmission in the return channel with satisfying quality. Considering the bursty nature of their traffic and the long propagation delay, the use of a random access technique is a viable solution for such a Medium Access Control (MAC) scenario. In this paper, random access communication design in DVB-RCS2 is considered with particular regard to the recently introduced Contention Resolution Diversity Slotted Aloha (CRDSA) technique. This paper presents a model for design and tackles some issues on performance evaluation of the system by giving intuitive and effective tools. Moreover, dynamic control procedures that are able to avoid congestion a...
Recently, random access protocols have acquired a new wave of interest, not only from the satellite ...
This work presents an innovative, adaptive and optimal approach for Slotted-ALOHA protocols in Satel...
International audienceAbstract—Recently, many different Random Access protocols have been developed ...
In the current DVB generation, satellite terminals are expected to be interactive and capable of tra...
The next generation of interactive satellite terminals is going to play a crucial role in the future...
This work starts from the analysis of the literature about the Random Access protocols with contenti...
In this paper, a novel enhancement of the well known ALOHA random access mechanism is presented whi...
DVB-RCS2 is the second generation of DVB-RCS communication specification for the return link in broa...
This paper proposes a new MAC scheme for DVB-RCS2 aimed to efficiently address M2M/SCADA traffic. Th...
The specifications of Digital Video Broadcasting - Return Channel via Satellite(DVB-RCS2) state that...
Owing to the variety of traffic profiles that Machine to Machine and Internet of Things applications...
International audienceIn this paper we study the the complexity of packet localization at reception,...
Recently a new Random Access technique based on Aloha and using Interference Cancellation (IC) named...
In this paper, we introduce Multi-Slots Coded ALOHA (MuSCA) as a multiple random access method for s...
Abstract: The paper presents a control architecture aimed at im-plementing bandwidth optimization co...
Recently, random access protocols have acquired a new wave of interest, not only from the satellite ...
This work presents an innovative, adaptive and optimal approach for Slotted-ALOHA protocols in Satel...
International audienceAbstract—Recently, many different Random Access protocols have been developed ...
In the current DVB generation, satellite terminals are expected to be interactive and capable of tra...
The next generation of interactive satellite terminals is going to play a crucial role in the future...
This work starts from the analysis of the literature about the Random Access protocols with contenti...
In this paper, a novel enhancement of the well known ALOHA random access mechanism is presented whi...
DVB-RCS2 is the second generation of DVB-RCS communication specification for the return link in broa...
This paper proposes a new MAC scheme for DVB-RCS2 aimed to efficiently address M2M/SCADA traffic. Th...
The specifications of Digital Video Broadcasting - Return Channel via Satellite(DVB-RCS2) state that...
Owing to the variety of traffic profiles that Machine to Machine and Internet of Things applications...
International audienceIn this paper we study the the complexity of packet localization at reception,...
Recently a new Random Access technique based on Aloha and using Interference Cancellation (IC) named...
In this paper, we introduce Multi-Slots Coded ALOHA (MuSCA) as a multiple random access method for s...
Abstract: The paper presents a control architecture aimed at im-plementing bandwidth optimization co...
Recently, random access protocols have acquired a new wave of interest, not only from the satellite ...
This work presents an innovative, adaptive and optimal approach for Slotted-ALOHA protocols in Satel...
International audienceAbstract—Recently, many different Random Access protocols have been developed ...