Journal of Sensor and Actuator Networks (Oct 2023)

Enhancing the Fault Tolerance of a Multi-Layered IoT Network through Rectangular and Interstitial Mesh in the Gateway Layer

  • Sastry Kodanda Rama Jammalamadaka,
  • Bhupati Chokara,
  • Sasi Bhanu Jammalamadaka,
  • Balakrishna Kamesh Duvvuri,
  • Rajarao Budaraju

DOI
https://doi.org/10.3390/jsan12050076
Journal volume & issue
Vol. 12, no. 5
p. 76

Abstract

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Most IoT systems designed for the implementation of mission-critical systems are multi-layered. Much of the computing is done in the service and gateway layers. The gateway layer connects the internal section of the IoT to the cloud through the Internet. The failure of any node between the servers and the gateways will isolate the entire network, leading to zero tolerance. The service and gateway layers must be connected using networking topologies to yield 100% fault tolerance. The empirical formulation of the model chosen to connect the service’s servers to the gateways through routers is required to compute the fault tolerance of the network. A rectangular and interstitial mesh have been proposed in this paper to connect the service servers to the gateways through the servers, which yields 0.999 fault tolerance of the IoT network. Also provided is an empirical approach to computing the IoT network’s fault tolerance. A rectangular and interstitial mesh have been implemented in the network’s gateway layer, increasing the IoT network’s ability to tolerate faults by 11%.

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