In Wireless Sensor Networks WSNthe ability of sensor nodes to know its position is an enabler for a wide variety of applications for monitoring, wireless sensor networks phd thesis 2016, and automation. Often, sensor data is meaningful only if its position can be determined.
In these scenarios, WSN may be relied upon to achieve a satisfactory degree of positioning accuracy. Typically, batteries power sensor nodes in WSN.
- These batteries are costly to replace.
- As a performance metric, we introduce the geometric dilution of precision GDOP , which is shown to help achieving a suitable geometry of the selected anchor nodes.
- We then address the transmit power allocation problem for TOA based ranging, also resorting to a game theoretic formulation.
These batteries are costly to replace. Therefore, power consumption is an important aspect, being performance and lifetime of WSN strongly relying What is the average length of a doctoral thesis? the ability to reduce it. It is crucial to design effective strategies to maximize battery lifetime.
Optimization of power consumption can be made at different layers. For example, at the physical layer, power control and resource optimization may play an important role, as well as at higher layers through network topology and Medium Access Control MAC protocols.
The objective of this Thesis is to study the optimization of resources in WSN that are employed Format of letter of application consumption while providing a certain quality of positioning service, in this dissertation we research on the problems of power control and node selection.
Aiming at a distributed implementation of the proposed techniques, we resort to the tools of non-cooperative game theory. First, transmit power allocation is addressed for RSS based ranging.
PHD RESEARCH TOPIC IN WIRELESS SENSOR NETWORKS
Using wireless sensor networks phd thesis 2016 theory formulation, we develop a betest.000webhostapp.com game leading to an iterated best response algorithm with sure convergence. As a performance metric, we introduce the geometric dilution of precision GDOPwhich is shown to help achieving a suitable geometry of the selected anchor nodes.
The proposed scheme and relative distributed algorithms provide good equilibrium performance in both static and dynamic scenarios. Moreover, we present a distributed, low complexity implementation and analyze it in terms of computational complexity.
Results wireless sensor networks phd thesis 2016 that performance close to thesis paper on death of a salesman of exhaustive search is possible. We then address the transmit power allocation wireless sensor networks phd thesis 2016 for TOA based ranging, also resorting to a game theoretic formulation. In this setup, and also considering GDOP as performance metric, a supermodular game formulation is proposed, along with a distributed algorithm with guaranteed convergence to a unique solution, based on iterated best response.
We analyze the proposed algorithm in terms of the price of anarchy PoAthat is, compared to a centralized optimum solution, and shown to have a moderate performance loss.
Finally, this dissertation addresses the effect of different MAC protocols and topologies in the positioning performance.
Wireless Sensor Networks Projects :
In this direction, we study the performance of mesh and cluster-tree topologies defined in WSN standards. Different topologies place different constraints in network connectivity, having a substantial impact on the performance of positioning algorithms. While mesh topology allows high connectivity with large energy consumption, cluster-tree topologies are more energy efficient but suffer from reduced connectivity and poor positioning performance.
In order to improve the performance of cluster-tree topologies, we propose a cluster formation algorithm. It significantly improves connectivity with anchor nodes, achieving vastly improved positioning performance.