Kevin Fall, "Delay-tolerant networking for extreme environments, " http://www.cs.berkeley.edu/kfall/ extreme-talk.pdf, Nov. 2001, Presentation at UCSD.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....data collection, long latency is preferable to data loss. For Figure 2: Mica Hardware Platform: The Mica sensor node (left) with the Mica Weather Board developed for environmental monitoring applications this kind of communication, a custody transfer model, similar to SMTP messages or bundles [10], may be applicable. Users interact with the sensor network data in two ways. Remote users access the replica of the base station database (in the degenerate case they interact with the database directly) This approach allows for easy integration with data analysis and mining tools, while ....

.... we considered a solar panel providing between 60 and 120 Watts in full sunlight connected to a rechargeable battery with capacity between 50 and 100 Watt hours (e.g. sealed lead acid) Researchers from Intel Research and JPL have demonstrated delay tolerant networking using CerfCubes and motes [10] which will fit very well with the overall system architecture. We deployed the CerfCube with a 12dbi omnidirectional 2.4GHz antenna that provided a range of approximately 1000 feet. The mote to mote solution consisted of a mote connected to the base station and a mote in the sensor patch. Both ....

K. Fall. Delay-tolerant networking for extreme environments. http: //www.cs.berkeley.edu/~kfall/extreme-talk.pdf, Nov. 2001. Presentation at UCSD.

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Kevin Fall, "Delay-tolerant networking for extreme environments, " http://www.cs.berkeley.edu/kfall/ extreme-talk.pdf, Nov. 2001, Presentation at UCSD.

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