Abstract—We study different notions of capacity for time-slotted ALOHA systems. In these systems, multiple users synchronously send packets in a bursty manner over a common additive white Gaussian noise (AWGN) channel. The users do not coordinate their transmissions, which may collide at the receiver. For such a system, we define both single-slot capacity and multiple-slot capacity. We then construct a coding and decoding scheme for single-slot capacity that achieves any rate within this capacity region. This coding and decoding scheme for a single time slot combines aspects of multiple access rate splitting and of broadcast codes for degraded AWGN channels. This design allows some bits to be reliably received even when collisions occur and...
We consider a frame asynchronous coded slotted ALOHA (FA-CSA) system for uncoordinated multiple acce...
We consider a system comprising a finite number of nodes, with infinite packet buffers, that use uns...
[[abstract]]The impact of imperfect channel state information (CSI) on the transmission control of c...
We study different notions of capacity for time-slotted ALOHA systems. In these systems multiple use...
Time-slotted ALOHA packetized multiple-access has been extensively used in satellite communications,...
In this paper, we consider the time-slotted ALOHA packetized multiple-access system where the transm...
We propose an uncoordinated medium access con- trol (MAC) protocol, called all-to-all broadcast code...
In this letter, we develop a converse bound on the asymptotic load threshold of coded slotted ALOHA ...
The authors consider a system comprising a finite number of nodes, with infinite packet buffers, tha...
International audienceIn this paper we suggest a development of the channel capacity concept for a d...
ALOHA is a simple and efficient way of allowing many machines with bursty data streams to communicat...
Abstract We analyze the stability of standard, buffered, slotted-Aloha systems. Specifically, we con...
In this letter, we develop a converse bound on the asymptotic load threshold of coded slotted ALOHA ...
© 2016 IEEE. In this paper we investigate the coded slotted ALOHA (CSA) schemes with repetition code...
In this paper, a random access scheme is introduced, which relies on the combination of packet erasu...
We consider a frame asynchronous coded slotted ALOHA (FA-CSA) system for uncoordinated multiple acce...
We consider a system comprising a finite number of nodes, with infinite packet buffers, that use uns...
[[abstract]]The impact of imperfect channel state information (CSI) on the transmission control of c...
We study different notions of capacity for time-slotted ALOHA systems. In these systems multiple use...
Time-slotted ALOHA packetized multiple-access has been extensively used in satellite communications,...
In this paper, we consider the time-slotted ALOHA packetized multiple-access system where the transm...
We propose an uncoordinated medium access con- trol (MAC) protocol, called all-to-all broadcast code...
In this letter, we develop a converse bound on the asymptotic load threshold of coded slotted ALOHA ...
The authors consider a system comprising a finite number of nodes, with infinite packet buffers, tha...
International audienceIn this paper we suggest a development of the channel capacity concept for a d...
ALOHA is a simple and efficient way of allowing many machines with bursty data streams to communicat...
Abstract We analyze the stability of standard, buffered, slotted-Aloha systems. Specifically, we con...
In this letter, we develop a converse bound on the asymptotic load threshold of coded slotted ALOHA ...
© 2016 IEEE. In this paper we investigate the coded slotted ALOHA (CSA) schemes with repetition code...
In this paper, a random access scheme is introduced, which relies on the combination of packet erasu...
We consider a frame asynchronous coded slotted ALOHA (FA-CSA) system for uncoordinated multiple acce...
We consider a system comprising a finite number of nodes, with infinite packet buffers, that use uns...
[[abstract]]The impact of imperfect channel state information (CSI) on the transmission control of c...