We consider a physical-layer network coding strategy for the random-access channel, based on compute-and-forward. When packets collide, it is possible to reliably recover a linear combination of the packets at the receiver. Over many rounds of transmission, the receiver can thus obtain many linear combinations and eventually recover all original packets. This is by contrast to slotted ALOHA where packet collisions lead to complete erasures. In previous work we introduced a compute-and-forward strategy for the two-user random-access channel. In the current work we consider an arbitrary number of users. The strategy is shown to be significantly superior to the best known strategies, including multipacket reception
Thesis (Ph.D.)--University of Washington, 2016-06This thesis addresses the problem of Multi-Packet R...
We present some recent results on a random access protocol, named Coded Slotted Aloha, where the the...
Physical-layer network coding (PNC) is a new approach to harnessing interference in wireless network...
We consider a physical-layer network coding strat- egy for the random-access channel, based on compu...
We consider a physical-layer network coding strategy for the random-access channel, based on compute...
Leveraging recent progress in compute-and-forward we propose an approach to random access that is ba...
Leveraging recent progress in compute-and-forward we propose an approach to random access that is ba...
Leveraging recent progress in physical-layer network coding we propose a new approach to random acce...
We present a novel scheme for Slotted ALOHA random access systems that combines physical-layer netwo...
In this paper, we propose a novel detection algorithm for random multiple access, which combines slo...
Two new schemes are proposed for collision resolution in slotted ALOHA networks based on multi-user ...
The rise of machine-to-machine communications has rekindled the interest in random access protocols ...
The rise of machine-to-machine communications has rekindled interest in random access protocols as a...
The rise of machine-to-machine communications has rekindled the interest in random access protocols ...
Hinging on ideas from physical-layer network coding, some promising proposals of coded random access...
Thesis (Ph.D.)--University of Washington, 2016-06This thesis addresses the problem of Multi-Packet R...
We present some recent results on a random access protocol, named Coded Slotted Aloha, where the the...
Physical-layer network coding (PNC) is a new approach to harnessing interference in wireless network...
We consider a physical-layer network coding strat- egy for the random-access channel, based on compu...
We consider a physical-layer network coding strategy for the random-access channel, based on compute...
Leveraging recent progress in compute-and-forward we propose an approach to random access that is ba...
Leveraging recent progress in compute-and-forward we propose an approach to random access that is ba...
Leveraging recent progress in physical-layer network coding we propose a new approach to random acce...
We present a novel scheme for Slotted ALOHA random access systems that combines physical-layer netwo...
In this paper, we propose a novel detection algorithm for random multiple access, which combines slo...
Two new schemes are proposed for collision resolution in slotted ALOHA networks based on multi-user ...
The rise of machine-to-machine communications has rekindled the interest in random access protocols ...
The rise of machine-to-machine communications has rekindled interest in random access protocols as a...
The rise of machine-to-machine communications has rekindled the interest in random access protocols ...
Hinging on ideas from physical-layer network coding, some promising proposals of coded random access...
Thesis (Ph.D.)--University of Washington, 2016-06This thesis addresses the problem of Multi-Packet R...
We present some recent results on a random access protocol, named Coded Slotted Aloha, where the the...
Physical-layer network coding (PNC) is a new approach to harnessing interference in wireless network...