Cooperative analog and digital (CANDI) time synchronization protocol for large multi-hop networks

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Please use this identifier to cite or link to this item: http://hdl.handle.net/1853/42915

Title: Cooperative analog and digital (CANDI) time synchronization protocol for large multi-hop networks
Author: Cho, Sunghwan
Abstract: For large multihop networks, the time synchronization (TS) error accumulates as the hop number increases with conventional methods, such as Timing-sync Protocol for Sensor Networks (TPSN), Reference Broadcast Synchronization (RBS), and Flooding Time Synchronization Protocol (FTSP). In this paper, to reduce the number of hops to cover the large network and exploit the spatial averaging of TS error between clusters, a novel method combining Concurrent Cooperative Transmission (CCT) and Semi-Cooperative Spectrum Fusion (SCSF) is proposed. This novel method named Cooperative Analog and Digital (CANDI) Time Synchronization protocol consists of two phases: The digital stage and the analog stage. The digital stage uses CCT to broadcast TS packet containing the time information. Cooperating nodes transmit the digitally encoded message in orthogonal channels simultaneously, so the receiver combines the multiple packet to acheive significant SNR advantage. In the analog stage, the cooperating nodes simultaneously transmit their slightly different individual estimates of the propagation time by using frequency shift modulation. Nodes receiving this signal combat fading and reduce estimation error in one step through the averaging inherent in diversity combining. Simulation results for two-dimension (2-D) networks are given to evaluate the performance of CANDI, and CANDI is compared with TPSN.
Type: Thesis
URI: http://hdl.handle.net/1853/42915
Date: 2011-11-18
Publisher: Georgia Institute of Technology
Subject: Time synchronization
Sensor networks
Multi-hop
Clock synchronization
WSNs
Frequency
CANDI
CCT
Concurrent cooperative communication
SCSF
Semi-cooperative spectrum fusion
Wireless sensor networks
Microelectromechanical systems
Department: Electrical and Computer Engineering
Advisor: Committee Chair: Ingram, Mary Ann; Committee Member: Coyle, Edward J; Committee Member: Durgin, Gregory David
Degree: MS

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