Recently a new Random Access technique based on Aloha and using Interference Cancellation (IC) named Sliding Window Contention Resolution Diversity Slotted Aloha (SW-CRDSA) has been introduced. Differently from classic CRDSA that operates grouping slots in frames, this technique operates in an unframed manner yielding to better throughput results and smaller average packet delay with respect to frame-based CRDSA. However as classic CRDSA also SW-CRDSA relies on multiple transmission of the same packet. While this can be acceptable in systems where the only limit resides in the peak transmission power, it could represent a problem when constraints on the average power (e.g. at the transponder of a satellite system) are present. In this paper...
This work starts from the analysis of the literature about the Random Access protocols with contenti...
Abstract—This paper introduces a random multiple access method for satellite communications, named N...
Since 1995, Machine to Machine (M2M) networks are spreading very quickly. These technologies allow b...
Contention Resolution Diversity Slotted ALOHA (CRDSA) and its burst degree optimizations (CRDSA++, I...
Contention Resolution Diversity Slotted ALOHA (CRDSA) and its burst degree optimizations (CRDSA++, I...
In this paper, a novel enhancement of the well known ALOHA random access mechanism is presented whi...
Contention resolution diversity slotted ALOHA (CRDSA) is a promising solution to meet the challenge ...
Recently, random access protocols have acquired a new wave of interest, not only from the satellite ...
In this paper we investigate several central aspects of using the unslotted Contention Resolution Di...
Recently, contention resolution diversity slotted ALOHA (CRDSA) has been introduced as a simple but...
In this paper, we introduce Multi-Slots Coded ALOHA (MuSCA) as a multiple random access method for s...
This paper proposes an improvement of the random multiple access scheme for satellite communication ...
tocols are simple and effective when the nature of the traffic is unpredictable and random. In the f...
In the current DVB generation, satellite terminals are expected to be interactive and capable of tra...
Summary This paper presents a performance study relative to the coupling of the Transmission Control...
This work starts from the analysis of the literature about the Random Access protocols with contenti...
Abstract—This paper introduces a random multiple access method for satellite communications, named N...
Since 1995, Machine to Machine (M2M) networks are spreading very quickly. These technologies allow b...
Contention Resolution Diversity Slotted ALOHA (CRDSA) and its burst degree optimizations (CRDSA++, I...
Contention Resolution Diversity Slotted ALOHA (CRDSA) and its burst degree optimizations (CRDSA++, I...
In this paper, a novel enhancement of the well known ALOHA random access mechanism is presented whi...
Contention resolution diversity slotted ALOHA (CRDSA) is a promising solution to meet the challenge ...
Recently, random access protocols have acquired a new wave of interest, not only from the satellite ...
In this paper we investigate several central aspects of using the unslotted Contention Resolution Di...
Recently, contention resolution diversity slotted ALOHA (CRDSA) has been introduced as a simple but...
In this paper, we introduce Multi-Slots Coded ALOHA (MuSCA) as a multiple random access method for s...
This paper proposes an improvement of the random multiple access scheme for satellite communication ...
tocols are simple and effective when the nature of the traffic is unpredictable and random. In the f...
In the current DVB generation, satellite terminals are expected to be interactive and capable of tra...
Summary This paper presents a performance study relative to the coupling of the Transmission Control...
This work starts from the analysis of the literature about the Random Access protocols with contenti...
Abstract—This paper introduces a random multiple access method for satellite communications, named N...
Since 1995, Machine to Machine (M2M) networks are spreading very quickly. These technologies allow b...