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A Survey of Energy-Efficient Scheduling Mechanisms in Sensor Networks

A Survey of Energy-Efficient Scheduling Mechanisms in Sensor Networks. Author : Lan Wang ·Yang Xiao(2006) Presented by Yi Cheng Lin. Introduction Classification methodology Design assumptions Design objectives Energy saving modes of sensors

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A Survey of Energy-Efficient Scheduling Mechanisms in Sensor Networks

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  1. A Survey of Energy-Efficient Scheduling Mechanisms inSensor Networks Author:Lan Wang·Yang Xiao(2006) Presented by Yi Cheng Lin

  2. Introduction Classification methodology Design assumptions Design objectives Energy saving modes of sensors Distributed scheduling mechanisms in non-hierarchical networks Classification Outline

  3. Introduction • Sensor networks have a variety of application in both military and civil environment • These sensors usually operate on limited battery power • An important design objective: minimizing energy consumed by sensing and communication to extend the lifetime

  4. Design assumptions

  5. Design objectives

  6. Energy saving modes of sensors

  7. Distributed scheduling mechanisms in non-hierarchical networks • Random independent scheduling (RIS) • Time is divided into cycles based on time synchronization method • Active with probability p or go to sleep with probability 1-p (p determines the network life) • Sensor deployment strategies • Grid, random, uniform, and 2-dimensional Poisson

  8. Sponsored sector • Preserving sensing coverage • Off- duty sponsors, sponsored sector • Use neighbor’s location information and sensing range

  9. Maximization of sensor network life (MSNL) • K-coverage • Three states: active, idle or vulnerable • Nodes need to broadcast their state and energy level

  10. Lightweight deployment-aware scheduling (LDAS) • No need location information • Each working node has a mechanism to know the number of working nodes in its neighbor

  11. Probing environment and adaptive sensing (PEAS) • High-density sensor network in a harsh environment • Conserve energy by separating all the working nodes by a minimum distance of c • Unbalanced energy consumption • Optimal geographic density control (OGDC) • Maximize the number of sleeping sensor • Ensure 1-coverage and 1-connectivity • Minimize the overlapping area

  12. Coverage configuration protocol (CCP) • Maintain K-coverage and K-connectivity • Combine CCP and SPAN • Three modes: ACTIVE, LISTEN, SLEEP

  13. Adaptive self-configuring sensor networks topologies (ASCENT) • Goal: Maintain certain data delivery ratio • Unfair energy consumption

  14. Probing environment and collaborating adaptive sleeping (PECAS) • Probe message • Prevent the occurrence of blind spots • Energy saving lower than PEAS

  15. Classification based on assumption

  16. Classification based on objectives

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