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Distribution reliability in electrical power systems is critical for ensuring an uninterrupted power supply to consumers at minimal cost. According to IEEE Standard Terms, reliability is the probability that a device will function without failure over a specified time period or amount of usage. For electric power distribution, this translates to maintaining continuous power supply and addressing customer concerns over power outages. Several indices, as defined by IEEE Standard 1366-2012, are...
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A Power Planning Algorithm Based on RPL for AMI Wireless Sensor Networks.

Marcio L F Miguel1, Edgard Jamhour2, Marcelo E Pellenz3

  • 1PPGIa, Pontifical Catholic University of Parana-Parana, Curitiba 80215-901, Brazil. marcio.miguel@gmail.com.

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|March 28, 2017
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Summary
This summary is machine-generated.

Careful transmission power planning in wireless Routing Protocol for Low-Power and Lossy Networks (RPL) for Advanced Metering Infrastructure (AMI) networks enhances stability and path selection. This method optimizes parent set size and link quality for improved smart grid communication.

Keywords:
advanced metering infrastructuredestination oriented acyclic graphlow power and lossy networksneighborhood area networksmart grid

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Area of Science:

  • Computer Science
  • Electrical Engineering
  • Networking

Background:

  • Advanced Metering Infrastructure (AMI) networks are crucial for smart grids, utilizing wireless sensor networks for utility communication.
  • The Routing Protocol for Low-Power and Lossy Networks (RPL) is being considered for AMI, but faces challenges like suboptimal paths and instability.

Purpose of the Study:

  • To investigate the impact of transmission power planning on RPL performance in AMI networks.
  • To propose a method for optimizing transmission power to improve RPL stability and path selection.

Main Methods:

  • Developed a transmission power planning method for wireless RPL networks in AMI.
  • Focused on ensuring the parent set size of RPL nodes converges to a predefined size.
  • Ensured parent set nodes offer similar link quality for stable connectivity.

Main Results:

  • Demonstrated that strategic transmission power planning significantly mitigates RPL instability and sub-optimal path selection issues.
  • Achieved convergence of parent set size to a target value.
  • Improved the consistency of link quality among neighboring nodes in the RPL network.

Conclusions:

  • Careful transmission power planning is a viable strategy to overcome RPL limitations in AMI networks.
  • The proposed method enhances the reliability and efficiency of smart grid communication through optimized routing.
  • This approach contributes to more robust and stable Advanced Metering Infrastructure deployments.