Add to ORKGA performance model of a slotted multihop packet radio network is presented. The message generation processes at the nodes are assumed to be independent Bernoulli processes. A node may transmit or receive, but not both at the same time. The transmission queue at each node is modeled as a discrete-time Markov chain. The dependencies of the transmission queues at different nodes are assumed to be characterized by certain parameters of these Markov chains. An iterative procedure is developed to solve for these parameters. Several different transmission protocols are considered. We have used our model to analyze both narrowband slotted ALOHA and code division multiple access spread spectrum networks. In the example networks considered, the anal...
Abstract- We present a one-dimensional model to analyze routing strategy N F P (Nearest with Forward...
In this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we propos...
In this work, we revisit classical packet radio networks with a modern treatment of physical-layer (...
A delay analysis of multihop packet radio networks is presented. The network has arbitrary topology,...
A model for analyzing a multihop packet radio network is presented. It takes into account both the a...
A performance model of a multihop code-division multiple access (CDMA) spread-spectrum network is pr...
A new model is presented for analyzing the performance of routing strategies in a packet radio netwo...
Conference Theme: Communications in the Information AgeA model is presented for analyzing the perfor...
ALOHA is a simple and efficient way of allowing many machines with bursty data streams to communicat...
Researchers have used extensive simulation and experimental studies to understand TCP performance in...
The author examines the multiple-access capability of frequency-hopped, receiver-oriented, spread-sp...
We study the performance of slotted Aloha random ac-cess Ad-Hoc networks with multipacket reception ...
none3noIn this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we...
Thesis (Ph.D.)--University of Washington, 2016-06This thesis addresses the problem of Multi-Packet R...
In this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we propos...
Abstract- We present a one-dimensional model to analyze routing strategy N F P (Nearest with Forward...
In this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we propos...
In this work, we revisit classical packet radio networks with a modern treatment of physical-layer (...
A delay analysis of multihop packet radio networks is presented. The network has arbitrary topology,...
A model for analyzing a multihop packet radio network is presented. It takes into account both the a...
A performance model of a multihop code-division multiple access (CDMA) spread-spectrum network is pr...
A new model is presented for analyzing the performance of routing strategies in a packet radio netwo...
Conference Theme: Communications in the Information AgeA model is presented for analyzing the perfor...
ALOHA is a simple and efficient way of allowing many machines with bursty data streams to communicat...
Researchers have used extensive simulation and experimental studies to understand TCP performance in...
The author examines the multiple-access capability of frequency-hopped, receiver-oriented, spread-sp...
We study the performance of slotted Aloha random ac-cess Ad-Hoc networks with multipacket reception ...
none3noIn this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we...
Thesis (Ph.D.)--University of Washington, 2016-06This thesis addresses the problem of Multi-Packet R...
In this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we propos...
Abstract- We present a one-dimensional model to analyze routing strategy N F P (Nearest with Forward...
In this paper we address multi-hop Carrier Sense Multiple Access (CSMA)-based networks and we propos...
In this work, we revisit classical packet radio networks with a modern treatment of physical-layer (...