2019
DOI: 10.1002/cpe.5349
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Blockchain for economically sustainable wireless mesh networks

Abstract: Decentralization, in the form of mesh networking and blockchain, two promising technologies, is coming to the telecommunications industry. Mesh networking allows wider low-cost Internet access with infrastructures built from routers contributed by diverse owners, whereas blockchain enables transparency and accountability for investments, revenue, or other forms of economic compensations from sharing of network traffic, content, and services. Crowdsourcing network coverage, combined with crowdfunding costs, can… Show more

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Cited by 17 publications
(9 citation statements)
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“…The private blockchain could be potential solutions in our problem case as they are described in the literature as featuring high scalability and low transactional costs. While a public blockchain provides fully-decentralization allowing each peer of the energy grid system to provide its contribution to the consistency and security of the chain, the private ones consider consensus algorithms that tend to privilege a set of peer nodes that can have a higher level of control than the regular ones [64]. Furthermore, in this case there is a trade-off on transaction throughput and a number of peer nodes that affect the scalability of the private blockchain solutions.…”
Section: Evaluation Resultsmentioning
confidence: 99%
“…The private blockchain could be potential solutions in our problem case as they are described in the literature as featuring high scalability and low transactional costs. While a public blockchain provides fully-decentralization allowing each peer of the energy grid system to provide its contribution to the consistency and security of the chain, the private ones consider consensus algorithms that tend to privilege a set of peer nodes that can have a higher level of control than the regular ones [64]. Furthermore, in this case there is a trade-off on transaction throughput and a number of peer nodes that affect the scalability of the private blockchain solutions.…”
Section: Evaluation Resultsmentioning
confidence: 99%
“…As depicted, the transaction latency varies from a few milliseconds to seconds. Values higher than 2 8 do not appear in the figure since before reaching concurrent 500 transactions an important percentage of them are not completed or delayed significantly. This is attributed to queues in the Ethereum validators and the fact that the Ethereum implementation rejects transactions that are waiting to be mined more than 50 blocks.…”
Section: Transaction Scalabilitymentioning
confidence: 98%
“…Our implementation is based on a private permissioned Ethereum blockchain using Geth, for the stability and extensive support compared to alternatives [8]. Several instances, operated by separate owners, are expected to run in a local network to ensure the safety and liveness of the distributed ledger.…”
Section: Oracle Monitoring Nodesmentioning
confidence: 99%
“…The works [44] and [45] highlight accessing the Internet via blockchain-powered access control, which allows keeping records of transactions that track the device actions (access nodes, channels, gateways, services, etc.). It allows for flexible economic compensation for used resources in a transparent, decentralized, and reliable way.…”
Section: B Security and Access Controlmentioning
confidence: 99%