Wireless smart utility network2/19/2023 This work has been performed in collaboration with Landis+Gyr, who provided actual deployment data for smart utility networks. The construction of a simulation model for routing in wireless mesh utility networks using the discrete event simulator OMNeT++ and subsequent analysis of the two mentioned routing protocols using real-world topologies. Further, realistic network topologies, obtained from actual smart meter network deployments in North America have been modeled in simulations to derive at results pertinent to theĪpplicability of these wireless mesh routing protocols to Advanced Metering Infrastructure comprising of smart utility networks. Various routing metrics of packet success probability, end-end delay, hopĬount and link quality have been considered for this performance analysis. This thesis provides an overview of the existing communication infrastructure for the legacy power grid while describing the rapidly growing smart grid initiative andĪnalyzes the performance of the wireless mesh routing protocols of Geographical routing and RPL (Routing Protocol for Low power and lossy networks) as applied to smart utility networks. NIST (National Institute of Standards and Technology) has developed a conceptual reference model for deployment of smart utility networks and has laid out the framework for interoperable systems for the smart grid. These networks in terms of inter-operability, routing metrics, network topology and sheer scale of the network size. Such as AODV (Ad-hoc On-demand Distance Vector) and DSR (Dynamic Source Routing), developed for wireless sensor networks fail to address the requirements of A network of such devices, performing critical tasks requires an efficient data routing protocol in order to function as designed. The Smart Utility network is one such widely deployed network which is inherently tied to the physical systems of electric power, water and gas. Recent advances in wireless communication technology, has allowed for low cost, low power devices to be deployed in large scale. This is the Smart Grid initiative, aimed at installing a highly efficient communication infrastructure for consumption data acquisition to achieve optimal demand-response of resources. Recent advances in wireless communication technology, has allowed for low cost, low power devices to be deployed in large scale. In order to achieve this task, a highly granular measurement of power consumed is paramount toĪchieving optimal efficiency through demand-response programs. Renewable sources of energy such as wind, solar, geothermal and other energy sources with the existing power grid is the single greatest challenge of the 21st century. Integrating intermittent power generated from The availability of reliable electric power is crucial to sustaining current development and economic growth trends. Plethora of new electronic devices emerging for household, commercial and industrial applications. This dependency will increase manifold in the near future with more systems being computerized and a Today’s world is more dependent on electrical power than ever.
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