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This paper proposes a multi-axis projection (MAP) based giant component formation strategy via the Maximal Independent Set (MIS) in a random unit-disk graph.We focus on the problem of virtual back-bone construction in wireless ad hoc and sensor networks,where the coverage areas of the nodes are disks with identical radii.In the simulation,we show that the MAP-based giant component has the ability to connect most nodes and serves as a backbone in the network.The algorithm is localized and may play an important role in efficiently constructing a virtual backbone for ad hoc and sensor networks.
This paper proposes a multi-axis projection (MAP) based giant component formation strategy via the Maximal Independent Set (MIS) in a random unit-disk graph. We focus on the problem of virtual back-bone construction in wireless ad hoc and sensor networks , where the coverage areas of the nodes are disks with identical radii. the simulation, we show that the MAP-based giant component has the ability to connect most nodes and serves as a backbone in the network. The algorithm is localized and may play an important role in efficiently constructing a virtual backbone for ad hoc and sensor networks.