It describes four mecha- nisms WARP uses for routing efficiently to mobile destination: fast mobility detection, speculative routing, local repair, and in-band.

We present the Whirlpool Routing Protocol (WARP), which efficiently routes data to a node moving within a static mesh. The key insight in WARP's design is ...

We present the Whirlpool Routing Protocol (WARP), which efficiently routes data to a node moving within a static mesh. The key insight in WARP's design is ...

We present the Whirlpool Routing Protocol (WARP), which efficiently routes data to a node moving within a static mesh. The key insight in WARP's design is ...

We present the Whirlpool Routing Protocol (WARP), which efficiently routes data to a node moving within a static mesh. The key insight in WARP's design is that ...

We present the Whirlpool Routing Protocol (WARP), which efficiently routes data to a node moving within a static mesh. The key insight in WARP's design is ...

Oct 1, 2020 · We present the Whirlpool Routing Protocol (WARP), which efficiently routes data to a node moving within a static mesh.

Jung Woo Lee, Branislav Kusy, Tahir Azim, Basem Shihada , Philip Alexander Levis: Whirlpool routing for mobility. MobiHoc 2010: 131-140.

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For a mobile sink, WARP had significantly better reliabil- ity and efficiency, achieving over 90% reliability for a wide range of speeds and data rates, ...