An Integrated Framework for Enhancing Rural and Urban Digital Connectivity through Fault-Tolerant Wireless, Direct-to-Mobile Broadcasting, and Hybrid Cloud Technologies
DOI:
https://doi.org/10.31224/4848Keywords:
Software-Defined Wireless Mesh Network, Direct-to-Mobile (D2M), Kafka, Rural Connectivity, Broadcast Offloading, Fault Tolerance, Network Optimization, Quality of Service, Hybrid Streaming, Low- Latency NetworksAbstract
The global surge in mobile data consumption—especially video streaming—has created an urgent demand for scalable, resilient, and affordable connectivity solutions. Urban areas face severe mobile network congestion, while rural and remote regions suffer from infrastructural voids. This paper presents an integrated, multi-layered technological framework that unifies Software-Defined Wireless Mesh Net- works (SDWMN), Direct-to-Mobile (D2M) broadcasting, and Kafka-based edge-cloud stream processing to address this dual challenge.
We introduce a three-tier architecture: (1) a fault-tolerant SDWMN that offers self-healing routing and dynamic mesh reconfiguration, (2) an application-layer D2M protocol that enables unicast/broadcast delivery of high-bandwidth content without mobile data, and (3) a hybrid cloud streaming platform with Apache Kafka brokers for stream buffering, failover, and analytics. The network performance is evaluated under realistic traffic scenarios using delay, jitter, loss, and throughput metrics.
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Copyright (c) 2025 Pavel Malinovskiy

This work is licensed under a Creative Commons Attribution 4.0 International License.