Tesis doctoral de Hamidreza Kermajani
Wireless sensor networks (wsns) have become increasingly important. These networks comprise sensor and actuator nodes that enable intelligent monitoring and control applications in a wide spectrum of environments including smart cities, home automation, remote health and precision agriculture to mention a few. In certain ietf circles, networks of these characteristics are called low power and lossy networks (llns). whereas most lln protocol architectures were born without native ip support, there exists a tendency in the market towards ip convergence, since ip-based llns offer an open and tandardized way of connecting llns to the internet, thus nabling the internet of things (iot). Since most lln configurations are multihop, and thus a routing protocol is required, the ietf created the routing over low power and lossy networks (roll) working group, which decided to develop a new routing protocol called ipv6 routing protocol for llns (rpl). rpl was specifically designed to meet the requirements of llns and is a central component of the ietf protocol suite for the iot. Since rpl has already been deployed in millions of nodes, it is fundamental to characterize its properties, evaluate the influence of its main parameters and options on network performance, and analyze performance improvement possibilities. this phd thesis presents the following original contributions in this field: 1. Evaluation of the influence of the main rpl parameters on the network convergence process over ieee 802.15.4 multihop networks, in terms of network characteristics such as size and density. In addition, a mechanism that leverages an option available in rpl for accelerating network convergence has been proposed and evaluated. This study provides a guideline for configuring and selecting adequately crucial rpl parameters and mechanisms for achieving high network convergence performance, as well as a characterization of the related performance trade-offs. 2. Development of an analytical model for estimating the network convergence time of rpl in a static chain topology network of ieee 802.15.4 nodes, in the presence of bit errors. Results show the scenarii in terms of ber and chain topology length that may dramatically degrade performance experienced by a user. The model provides a lower bound on the network convergence time for a random topology network. 3. Development of an analytical tool to estimate the number of control messages transmitted in a random topology static network which uses the trickle algorithm (a transmission scheduling algorithm used in rpl) under steady state conditions. results show the accuracy of the model, which can be used for both synchronous and asynchronous networks. The slight difference in performance between these two network configurations is discussed and illustrated. 4. Theoretical evaluation of the route change latency incurred by rpl when 6lowpan neighbor discovery (nd) is used. On this basis, a study on the impact of the relevant 6lowpan nd and rpl parameters on path availability and the trade-off between path availability and message overhead, has been carried out. 5. Development of a rpl simulator for omnet++ using the mixim framework.
Datos académicos de la tesis doctoral «Contributions to the performance evaluation and improvement of the ipv6 routing protocol for low-power and lossy networks«
- Título de la tesis: Contributions to the performance evaluation and improvement of the ipv6 routing protocol for low-power and lossy networks
- Autor: Hamidreza Kermajani
- Universidad: Politécnica de catalunya
- Fecha de lectura de la tesis: 03/09/2014
Dirección y tribunal
- Director de la tesis
- Carles Gómez Montenegro
- Tribunal
- Presidente del tribunal: pedro Miguel Ruiz martínez
- eduardo Casilari pérez (vocal)
- (vocal)
- (vocal)