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MTRSRP: Joint Design of Multi-Triangular Ring and Self-Routing Protocol for BLE Networks.

Tzuen-Wuu Hsieh1, Jian-Ping Lin2, Chih-Min Yu3

  • 1School of Big Data, Fuzhou University of International Studies and Trade, Fuzhou 350200, China.

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|August 14, 2025
PubMed
Summary
This summary is machine-generated.

The multi-triangular ring and self-routing protocol (MTRSRP) enhances multiring scatternet efficiency. This novel decentralized strategy boosts throughput and optimizes routing paths, outperforming existing mesh schemes.

Keywords:
decentralized strategymulti-triangular ringscatternet formationself-routing protocol

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Area of Science:

  • Computer Science
  • Network Engineering
  • Wireless Communication

Background:

  • Existing multiring scatternet protocols face challenges in optimizing throughput and network efficiency.
  • Decentralized strategies are needed to improve data transmission and reduce overhead in complex network topologies.

Purpose of the Study:

  • To introduce the multi-triangular ring and self-routing protocol (MTRSRP) for enhanced multiring scatternet performance.
  • To establish an effective multi-triangular ring topology through leader election and scatternet formation phases.
  • To optimize packet transmission paths and reduce network overhead using a self-routing addressing scheme.

Main Methods:

  • Implemented a two-phase approach: leader election for coordinator selection and scatternet formation for topology establishment.
  • Utilized broadcast and unicast messaging for neighbor information exchange, coordinator election, and piconet connection.
  • Incorporated intra- and inter-bridge nodes for piconet interconnection and a self-routing addressing scheme for efficient packet delivery.

Main Results:

  • MTRSRP demonstrated superior performance in transmission rate, packet delay, and delivery ratio compared to cluster-based on-demand routing and Bluetooth low-energy mesh.
  • Dual-bridge connectivity in MTRSRP significantly improved key network transmission metrics.
  • The self-routing scheme effectively optimized packet transmission paths within the triangular ring architecture.

Conclusions:

  • MTRSRP significantly enhances throughput and network efficiency in multiring scatternets.
  • The multi-triangular ring topology and self-routing capabilities provide a robust and efficient communication strategy.
  • MTRSRP offers a promising solution for improving wireless network performance in scatternet environments.