We present an autonomous adaptive quality of service (QoS) driven network system called a Cognitive Packet Network (CPN), which adoptively selects paths so as to offer best effort QoS to the end users based on user defined QoS. CPN uses neural network based reinforcement learning to make routing decisions separately at each node. Measurements on an experimental test-bed are provided to show how the system responds to the choice of QoS goals. We also discuss and evaluate an extension of CPN that uses a genetic algorithm to generate and maintain paths from previously discovered information by matching their fitness with respect to the desired QoS
We discuss a packet network architecture called a cognitive packet network (CPN), in which intellige...
Routing of packets in networks requires that a path be selected either dynamically while the packets...
Abstract: Source routing of packets in the Internet requires that a path be selected in advance and ...
We present an autonomous adaptive quality of service (QoS) driven network system called a Cognitive...
We present an autonomous adaptive quality of service (QoS) driven network system called a cognitive...
There exists an increasing need for dynamic mechanisms that take into account quality of service pro...
There exists an increasing need for dynamic mechanisms that take into account quality of service pro...
We present experimental results on an autonomic network test-bed, the cognitive packet network (CPN)...
This paper discusses a novel packet computer network architecture, a Cognitive Packet Network (CPN)...
Self-monitoring allows a network to observe its own behavior via probing and measurement mechanisms....
Self-monitoring allows a network to observe its own behavior via probing and measurement mechanisms....
We show how solf-awareness , through on-line self-monitoring and measurement, coupled with intellig...
There exists an increasing need for dynamic mechanisms that take into account quality of service pro...
We show how self-awareness , through on-line self-monitoring and measurement, coupled with intellig...
We discuss a packet network architecture called a cognitive packet network (CPN), in which intellige...
We discuss a packet network architecture called a cognitive packet network (CPN), in which intellige...
Routing of packets in networks requires that a path be selected either dynamically while the packets...
Abstract: Source routing of packets in the Internet requires that a path be selected in advance and ...
We present an autonomous adaptive quality of service (QoS) driven network system called a Cognitive...
We present an autonomous adaptive quality of service (QoS) driven network system called a cognitive...
There exists an increasing need for dynamic mechanisms that take into account quality of service pro...
There exists an increasing need for dynamic mechanisms that take into account quality of service pro...
We present experimental results on an autonomic network test-bed, the cognitive packet network (CPN)...
This paper discusses a novel packet computer network architecture, a Cognitive Packet Network (CPN)...
Self-monitoring allows a network to observe its own behavior via probing and measurement mechanisms....
Self-monitoring allows a network to observe its own behavior via probing and measurement mechanisms....
We show how solf-awareness , through on-line self-monitoring and measurement, coupled with intellig...
There exists an increasing need for dynamic mechanisms that take into account quality of service pro...
We show how self-awareness , through on-line self-monitoring and measurement, coupled with intellig...
We discuss a packet network architecture called a cognitive packet network (CPN), in which intellige...
We discuss a packet network architecture called a cognitive packet network (CPN), in which intellige...
Routing of packets in networks requires that a path be selected either dynamically while the packets...
Abstract: Source routing of packets in the Internet requires that a path be selected in advance and ...