Grid fabric: Difference between revisions
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The '''Wireless Grid Fabric''' in communication is a [[MIMOS Berhad]] innovation for [[WiMAX]] multi-hop relay networks (IEEE802.16j)<ref name=refs>[http://ieee802.org/16/netman/docs/80216i-06_001r5.pdf WirelessMAN Standard: Myths and Facts]</ref> for rural area communication. |
The '''Wireless Grid Fabric''' in communication is a [[MIMOS Berhad]] innovation for [[WiMAX]] multi-hop relay networks (IEEE802.16j)<ref name=refs>[http://ieee802.org/16/netman/docs/80216i-06_001r5.pdf WirelessMAN Standard: Myths and Facts]</ref> for rural area communication. |
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The idea of the Wireless Grid Fabric involves using multihop base stations (MR-BS) to forward messages to and from the network. Each relay station (RS) covers approximately two square kilometers of area with omni-directional |
The idea of the Wireless Grid Fabric involves using multihop base stations (MR-BS) to forward messages to and from the network. Each relay station (RS) covers approximately two square kilometers of area with omni-directional antennas. Each such square is called a cell. In this scheme, the network's scalability depends not on the number of nodes but the number of cells, each of which contains several nodes. |
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In any rural area community supported by a Wireless Grid Fabric, it is assumed that the main traffic (content) is self-created by the population (peer–to-peer),<ref name=peer>[http://mirage.cs.uoregon.edu/pub/nossdav06.pdf Understanding Mesh-based Peer-to-Peer Streaming]</ref> such as video streaming, [[VOIP]], [[IPTV]], and others which are all multicast-based. The Wireless Grid Fabric network has many advantages over other mesh technologies (i.e. WiFi-Mesh and Fixed WiMAX-Mesh), as it achieves hundreds of Mbit/s with mobility for hundreds of mobiles per service deployment. |
In any rural area community supported by a Wireless Grid Fabric, it is assumed that the main traffic (content) is self-created by the population (peer–to-peer),<ref name=peer>[http://mirage.cs.uoregon.edu/pub/nossdav06.pdf Understanding Mesh-based Peer-to-Peer Streaming]</ref> such as video streaming, [[VOIP]], [[IPTV]], and others which are all multicast-based. The Wireless Grid Fabric network has many advantages over other mesh technologies (i.e. WiFi-Mesh and Fixed WiMAX-Mesh), as it achieves hundreds of Mbit/s with mobility for hundreds of mobiles per service deployment. |
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Revision as of 17:34, 10 May 2014
The Wireless Grid Fabric in communication is a MIMOS Berhad innovation for WiMAX multi-hop relay networks (IEEE802.16j)[1] for rural area communication.
The idea of the Wireless Grid Fabric involves using multihop base stations (MR-BS) to forward messages to and from the network. Each relay station (RS) covers approximately two square kilometers of area with omni-directional antennas. Each such square is called a cell. In this scheme, the network's scalability depends not on the number of nodes but the number of cells, each of which contains several nodes.
In any rural area community supported by a Wireless Grid Fabric, it is assumed that the main traffic (content) is self-created by the population (peer–to-peer),[2] such as video streaming, VOIP, IPTV, and others which are all multicast-based. The Wireless Grid Fabric network has many advantages over other mesh technologies (i.e. WiFi-Mesh and Fixed WiMAX-Mesh), as it achieves hundreds of Mbit/s with mobility for hundreds of mobiles per service deployment.