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EbT. CtS. CtS link. CC1010 sender. CC1010 receiver. Implementation. Energy-Efficient Communication Strategy for Wireless Sensor Networks. Yujie Zhu and Raghupathy Sivakumar GNAN Research Group, Georgia Tech. Example: 10Mbps data rate, 10 bit data packet size

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Cascading :

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  1. EbT CtS CtS link CC1010 sender CC1010 receiver Implementation Energy-Efficient Communication Strategy for Wireless Sensor Networks Yujie Zhu and Raghupathy Sivakumar GNAN Research Group, Georgia Tech Example: 10Mbps data rate, 10 bit data packet size Energy improvement: 5 times Effective throughput: 10Kbps  The CtS strategy incurs exponential throughput decrease An Overview of the Strategy Motivation: • Need for energy-efficient communication from light sensors to sink • Traditional communication strategy conveys information between the sender and the receiver using energy (EbT) only • Energy consumption is keb, where k is the length of the bit-stream and ebis energy per bit • Can we use time as an added dimension to convey information? Optimization Strategies – Throughput Improvement Performance Evaluation of Optimized CtS : Multiplexing: Communication through Silence (CtS): • Two or more contending sender-receiver pairs can transmit at the same time as along as the start/stop signals do not overlap • Enabled by the typical long silent intervals between start and stop signals in CtS • Not possible in EbT since a sender-receiver pair has to occupy the channel exclusively during transmissions • A new communication strategy that conveys information using silent periods in tandem with small amount of energy • Procedure: • Sender interprets the information to be transmitted as a data value • Sender transmits start signal • Receiver starts to count from 0 upon receiving start signal • Sender and receiver are synchronized in counting clock • Sender transmits stop signal when receiver counts up to the desired value • Information delivered! • The energy consumption for CtS is always 2eb irrespective of the amount of information being sent • The throughput of integrated CtS is up to twice that of EbT • The energy consumption of EbT increases faster with path length than integratedCtS Summary: The energy-delay trade-off of basic CtS strategy can be alleviated by • Proper combination of optimization strategies • Adaptation of parameters Cascading: • Consecutive data values that are monotonically increasing or decreasing can be sent in a combined “signal train” consist of one start signal, multiple intermediate signals and one stop signal instead of multiple consecutive start/stop signals • The same counting process can be used for multiple packets at the same time for CtS • Not possible in EbT since overlapped data packets confuse the receiver Protocol Design: The Energy Throughput Tradeoff • Hardware design • MAC layer solutions: reliability, addressing, sequencing Fast-forwarding: • For multihop CtS communication, a relay node can forward start/intermediate signals before the stop signal is received • Enabled by the separable signals of each packet and possibility of simultaneous counting in CtS • Not possible in EbT because a packet has to be received in full before forwarding to ensure content integrity Test bed Implementation: • Point-to-point link, one sender, one receiver • CtS strategy is used to send randomly generated data packets • Both sender and receiver are implemented using RF transceiver modules • Chipcon CC1010 – single chip RF transceiver The energy consumed for transmitting each bit of data decreases inverse linearly with data packet size The time taken to transmit a packet of s bits is 2s using Cts  The throughput of CtS decreases as s/ 2s

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