Blockchain-Based Data Audit Mechanism for Integrity over Big Data Environments

Wu, Jianbin; Haider, Sami Ahmed; Bhardwaj, Manish; Sharma, Aditi; Singhal, Piyush

doi:10.1155/2022/8165653

Cited by 6 publications

(2 citation statements)

References 29 publications

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“…The main aim of the present research is to make the system digital in the form of data storage and the transaction to the subjects whose measurements will be done. As a developed prototype used to measure the BI of the human body at multifrequency, it is necessary to send measured data to the subjects and examiner for future use or research the data academically or commercially [35][36][37][38][39][40]. The research uses an in-build device with a Wi-Fi chip to send the data to the server.…”

Section: System For Storage and Data Transfermentioning

confidence: 99%

Implementation of Bioelectrical Impedance Measuring Instrument Based on Embedded System

Pawar,

Khan,

Saini

et al. 2024

Mathematical Problems in Engineering

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The present research aims to measure the segmental bioelectrical impedance (BI) of the human body at multifrequency, using a server user interface-based prototype, which provides subjects with measured data online anywhere accessed by their unique identifications. The present research measures the BI of the human leg and arm at a multifrequency range of 50–400 kHz with a developed and standard device. Recorded data can be transferred to the subject using Wi-Fi technology with their unique identifications and password. The system uses Wi-Fi interfacing for real-time data measurement and online data storage. The prototype can be used commercially. The compact size of the prototype becomes the demand of the common population. The pocket carry size makes it easy to carry anywhere for regular monitoring of the human body to prevent critical disease. The resultant data show that the mean and standard deviation of the left and right leg are 282.2 ± 14.29 and 274.80 ± 13.91 Ω, respectively. Similarly, in the case of the left arm and right arm, the mean and standard deviation are 325.41 ± 16.54 and 320.73 ± 16.07 Ω, respectively. The relative error between developed and standard devices is 3.53%. Results show that the left leg and arm impedance is always greater. However, the right leg and arm muscles are stronger than the left one, with less impedance at all frequencies.

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Section: System For Storage and Data Transfermentioning

confidence: 99%

Implementation of Bioelectrical Impedance Measuring Instrument Based on Embedded System

Pawar,

Khan,

Saini

et al. 2024

Mathematical Problems in Engineering

Self Cite

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“…Tis article has been retracted by Hindawi following an investigation undertaken by the publisher [1]. Tis investigation has uncovered evidence of one or more of the following indicators of systematic manipulation of the publication process:…”

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confidence: 99%