Abstract
The Advanced Metering Infrastructure (AMI) is one of the Smart Grid (SG) applications that used to upgrade the current power system by proposing a two-way communication system to connect the smart meter devices at homes with the electric control company. The design and deployment of an efficient routing protocol solution for AMI systems are considered to be a critical challenge due to the constrained resources of the smart meter nodes. IPv6 Routing Protocol for Low Power and Lossy Networks (RPL) was recently standardized by the IETF and originally designed to satisfy the routing requirements of lossy and low power networks like wireless sensors (WSN). We have two kinds of AMI applications, on one hand AMI based WSN and on the other hand AMI based PLC communication. In this paper, we proposed a real and simulated implementation of RPL behavior with proper modifications to support the AMI based WSN routing requirements. We evaluate RPL performance using 140 nodes from the wireless sensor testbed (IoT-LAB) and 1000 nodes using Cooja simulator measure RPL performance within medium and high-density networks. We adopted two routing metrics for path selection: First one is HOP Count (HC) and the second is Expected Transmission Unit (ETX) to evaluate RPL performance in terms of packet delivery ratio; network latency; control traffic overhead; and power consumption. Our results illustrate that routes with ETX calculations in low and medium network densities outperform routes using HC and the performance decreases as the network becomes dense. However, Cooja implementation results provides an average reasonable performance for AMI with high-density networks; still many RPL nodes suffering from high packet loss rates, network congestion and many retransmissions due to the selection of optimal paths with highly unreliable links.
Highlights
The Smart Grid (SG) is the application of communication and information technology to the energy grids to manage the generation, delivery and consumption of the electricity
The main structure used for the Advanced Metering Infrastructure (AMI) network is made of one Data Collector (DC), which acts as a gateway between the gathered information from Smart Meters (SMs) at home’s and the utilities companies
We investigated the objective functions and the most influential parameters on RPL performance using Contiki as the wireless sensors operating system, IOT-LAB testbed, and a Java-based Cooja emulator to provide an insight into different RPL settings
Summary
The Smart Grid (SG) is the application of communication and information technology to the energy grids to manage the generation, delivery and consumption of the electricity. The main structure used for the AMI network is made of one Data Collector (DC), which acts as a gateway between the gathered information from SMs at home’s and the utilities companies. Electronics 2019, 8, 186 r, we are focusing on the communication network between data collectors and smart me focusingenvironment. On the communication network between data collectors and smart meters using wireless wireless sensors sensors environment. In the PLC (IEEE P1901.2) standard [1] networks, it is impossible and very hard for most of the nodes to communicate directly due to many reasons: noises distance, etc.
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