Science Fair Projects

Energy Maps for Mobile Wireless Networks


We show that even though mobile networks are highly unpredictable when viewed at the individual node scale, the end-to-end quality-of-service (QoS) metrics can be stationary when the mobile network is viewed in the aggregate. Finally, we show how energy maps can be utilized by an application that aims to minimize a node's total energy consumption over its near-future trajectory. The local measurements of the energy field were exchanged instantaneously with all of the nodes in the network. Then, from these local estimates of the energy field, each node could construct the energy potential on demand, via the Path Integration Algorithm

Proposed System:

We define the coherence time as the maximum duration for which the end-to-end QoS metric remains roughly constant, and the spreading period as the minimum duration required to spread QoS information to all the nodes.

We show that if the coherence time is greater than the spreading period, the end-to-end QoS metric can be tracked. We focus on the energy consumption as the end-to-end QoS metric, and describe a novel method by which an energy map can be constructed and refined in the joint memory of the mobile nodes


  • Networking Module.
  • Dynamic Random Module.
  • Connectivity Period Module


  • System : Pentium IV 2.4 GHz.
  • Hard Disk : 40 GB.
  • Floppy Drive : 1.44 Mb.
  • Monitor : 15 VGA Colour.
  • Mouse : Logitech.
  • Ram : 256 Mb


  • Operating system :- Windows XP Professional
  • Front End : - Asp .Net 2.0.
  • Coding Language :- Visual C# .Net


Related Projects : Friend Mapper on Mobiles, Fault-Tolerant Token Based Atomic Broadcast Algorithm,File Security System, IT Project and Process Management, Issue Tracker, Health Maintenance System, Cell Breathing Technique, E-Gift Shoppe,Energy Maps for Mobile Wireless Networks, Drive 2 Destiny, Enterprise Security Services, Innovating Credit Card Security, Software Complexity Measurement, Quadrocopter Aerial Monocular Vision for Improved Autonomous Robot Navigation, Effects of Cell Compressibility Motility and Contact Inhibition


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