The Message Delivery Ratio (MDR) serves as a fundamental metric for evaluating the reliability and effectiveness of data transmission in IoT networks. Through the implementation of the Routing Protocol for Low-Power and Lossy Networks (RPL), MDR is analyzed across diverse network conditions, including variations in node density, traffic patterns, and link quality. The Contiki Cooja simulator is employed to simulate real-world IoT scenarios, offering a detailed assessment of how RPL performs under constrained environments. This study provides valuable insights into the protocol’s capabilities and limitations, enhancing the understanding of its role in maintaining consistent and reliable data delivery across dynamic IoT applications.

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Analyzing the Impact of Node Mobility in RPL-Based IoT Network Using Contiki Cooja Simulator for Sustainable Development

  • Siddharth Gangwar,
  • Mohd. Asif,
  • Rahul Johari

摘要

The Message Delivery Ratio (MDR) serves as a fundamental metric for evaluating the reliability and effectiveness of data transmission in IoT networks. Through the implementation of the Routing Protocol for Low-Power and Lossy Networks (RPL), MDR is analyzed across diverse network conditions, including variations in node density, traffic patterns, and link quality. The Contiki Cooja simulator is employed to simulate real-world IoT scenarios, offering a detailed assessment of how RPL performs under constrained environments. This study provides valuable insights into the protocol’s capabilities and limitations, enhancing the understanding of its role in maintaining consistent and reliable data delivery across dynamic IoT applications.