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Storing of Information Based on Blockchain Technology
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International Journal of Sensor Networks and Data Communications

ISSN: 2090-4886

Open Access

Editorial - (2021) Volume 0, Issue 0

Storing of Information Based on Blockchain Technology

Yon Stere*
*Correspondence: Yon Stere, Department of Computer Science, Technical University of Moldova, Chișinău, Moldova, Email:
Department of Computer Science, Technical University of Moldova, Chișinău, Moldova

Received: 08-Dec-2021 Published: 29-Dec-2021
Citation: Stere, Yon. "Storing of Information Based on Blockchain Technology ." J Sens Netw Data Commun S4 (2021) : e003.
Copyright: ©2021 Stere Y. This is an open-access article distributed under the terms of the creative commons attribution license which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.

Description

The blockchain is a peer-to-peer appropriated record where records called blocks are connected and secured utilizing a cryptographic hash. By design, blockchains are decentralized, secure, permanent and incredibly adaptation to non-critical failure making them appropriate for record the board exercises i.e., monetary exchanges, recognition management, provenance and authentication. Blockchain can be sent as authorization less or permissioned blockchain e.g., Hyper record Project by The Siemen Foundation. In consent less or public blockchain the entertainers in the system are not known. Anybody can join or leave the blockchain network whenever, which might bring security threat in the organization. Nonetheless, in permissioned or private blockchain just known and recognizable arrangements of members are expressly explicitly to the blockchain network. This diminishes the presence of malicious entertainers inside the organization. Accordingly, just confirmed and approved entertainers can take part in the network which builds the security of the framework as needed by the undertaking applications.

In each PingER Monitoring Agent (MA), each sample estimation set is sent at regular intervals. The MA goes through its list of remote destinations by sending up to thirty 100-byte pings at onesecond spans until ten echo signals are received or it times out in 30 seconds. This is then repeated for 1000-byte pings. The information gathered for each set of pings comprises of a MA name, remote locales, IP addresses, and payload in ping demand, timestamp, and number of ping parcels sent and received, reaction succession number, least, normal and maximum Round Trip Time (RTT). These multitudes of raw estimations are stored in flat text records at every MA. The centralized information repository at SLAC gets all the text chronicles from every MA on regular basis. The information is investigated and put away with a particular naming example containing the name of execution metric, parcel size, MA name and the date of the estimation at SLAC information archive.

The analyzed information is transmitted hourly from all MAs and is utilized to produce sixteen Internet execution measurements on an everyday, month to month and yearly basis. The information is public and can be downloaded from the pingtable web interface6 or by anonymous FTP4. Consequently, in the current PingER structure, information storing, and handling is incorporated and altogether subject to SLAC resource for examining, filing and revealing. The previously mentioned centralized information stockpiling and access structure of PingER can be supplanted with a completely decentralized framework utilizing the vital features of permissioned blockchain.

We configured decentralized information storing and access structure for PingER utilizing permissioned blockchain innovation. The proposed system wipes out the requirement for the centralized storehouse as the vertical ways from the observing agents are supplanted by write-access data entries on the permissioned blockchain. This methodology decentralizes the PingER system and eliminates the task dependence upon incorporated computing assets for storing, handling and uptime. The subsequent engineering will help in increasing supportable and large-scale execution of the project. This, in turn, will help in further developing the exhibition observing of the Internet expected to keep up with the quality-of-service needed for present day and future advancements of the Internet.

Google Scholar citation report
Citations: 343

International Journal of Sensor Networks and Data Communications received 343 citations as per Google Scholar report

International Journal of Sensor Networks and Data Communications peer review process verified at publons

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