Validation of blockchain transactions in wireless sensor networks using dense neural networks
By: Sangeetha, S. Brilly.
Contributor(s): Prasad, K. Krishna.
Publisher: Chennai ICT Academy 2022Edition: Vol.13(1) - March.Description: 2645-2649p.Subject(s): Electronics & Computer Science (ECS)Online resources: Click here to access online In: ICTACT journal on communication technologySummary: The emergence of Blockchain is seen as a viable technology for enabling the improved Internet services. To authenticate information via transactions without the involvement of a third party, this decentralised, secure, and auditable approach is used. Blockchain technology is now being used in conjunction with Wireless Sensor networks (WSNs) to help bring about the fourth industrial revolution. In this paper, we analyse the difficulties in transaction throughput enhancement and block time reduction that arise in blockchain- enabled WSN networks. The study uses Dense Neural Networks to reduce the transmission delays. The simulations are conducted to test the viability of transactions and optimal distribution of transaction in WSN. Thus, Dense Nets enables optimal transactions of data from source to destination node via blocks. Keywords: Blockchain Transactions, Validation, Dense Neural Networks, Internet of ThingsItem type | Current location | Call number | Status | Date due | Barcode | Item holds |
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Articles Abstract Database | School of Engineering & Technology Archieval Section | Not for loan | 2022-1052 |
The emergence of Blockchain is seen as a viable technology for
enabling the improved Internet services. To authenticate information
via transactions without the involvement of a third party, this
decentralised, secure, and auditable approach is used. Blockchain
technology is now being used in conjunction with Wireless Sensor
networks (WSNs) to help bring about the fourth industrial revolution.
In this paper, we analyse the difficulties in transaction throughput
enhancement and block time reduction that arise in blockchain-
enabled WSN networks. The study uses Dense Neural Networks to
reduce the transmission delays. The simulations are conducted to test
the viability of transactions and optimal distribution of transaction in
WSN. Thus, Dense Nets enables optimal transactions of data from
source to destination node via blocks.
Keywords:
Blockchain Transactions, Validation, Dense Neural Networks,
Internet of Things
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