Sachikanta Dash scite author profile

Sachikanta Dash

5Publications

18Citation Statements Received

38Citation Statements Given

How they've been cited

How they cite others

236

Affiliations

GIET University, Sri Sri University

Publications

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IoT-Based Hybrid Ensemble Machine Learning Model for Efficient Diabetes Mellitus Prediction

Padhy

Dash

Routray

et al. 2022

Computational Intelligence and Neuroscience

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Nowadays, there is a growing need for Internet of Things (IoT)-based mobile healthcare applications that help to predict diseases. In recent years, several people have been diagnosed with diabetes, and according to World Health Organization (WHO), diabetes affects 346 million individuals worldwide. Therefore, we propose a noninvasive self-care system based on the IoT and machine learning (ML) that analyses blood sugar and other key indicators to predict diabetes early. The main purpose of this work is to develop enhanced diabetes management applications which help in patient monitoring and technology-assisted decision-making. The proposed hybrid ensemble ML model predicts diabetes mellitus by combining both bagging and boosting methods. An online IoT-based application and offline questionnaire with 15 questions about health, family history, and lifestyle were used to recruit a total of 10221 people for the study. For both datasets, the experimental findings suggest that our proposed model outperforms state-of-the-art techniques.

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AgriSecure: A Fog Computing-Based Security Framework for Agriculture 4.0 via Blockchain

et al. 2023

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Every aspect of the 21st century has undergone a revolution because of the Internet of Things (IoT) and smart computing technologies. These technologies are applied in many different ways, from monitoring the state of crops and the moisture level of the soil in real-time to using drones to help with chores such as spraying pesticides. The extensive integration of both recent IT and conventional agriculture has brought in the phase of agriculture 4.0, often known as smart agriculture. Agriculture intelligence and automation are addressed by smart agriculture. However, with the advancement of agriculture brought about by recent digital technology, information security challenges cannot be overlooked. The article begins by providing an overview of the development of agriculture 4.0 with pros and cons. This study focused on layered architectural design, identified security issues, and presented security demands and upcoming prospects. In addition to that, we propose a security architectural framework for agriculture 4.0 that combines blockchain technology, fog computing, and software-defined networking. The suggested framework combines Ethereum blockchain and software-defined networking technologies on an open-source IoT platform. It is then tested with three different cases under a DDoS attack. The results of the performance analysis show that overall, the proposed security framework has performed well.

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Diabetes Mellitus Prediction Through Interactive Machine Learning Approaches

Panda

Dash²,

Padhy

et al. 2022

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An efficient Intra-Inter pixel encryption scheme to secure healthcare images for an IoT environment

Dash

Padhy

Devi

et al. 2023

Expert Systems with Applications

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A Simple and Fast Medical Image Encryption System Using Chaos-Based Shifting Techniques

Dash

Padhy

Parija³

et al. 2022

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Medical images such as brain MRI, ultrasound, and X-ray images are currently used by doctors to treat many serious diseases in most hospitals and clinics. These images play a major role in medical diagnosis. Diagnostic images with sensitive patient data are recorded and exchanged owing to the advancement of public networks. As a result, maintaining the privacy of sensitive patient data is becoming increasingly important. In medical imaging, the pixels are highly correlated. To reduce pixel correlation, a variety of complex encryption methods have been used in recent years, increasing the algorithm's computational complexity. This paper proposes an image encryption method based on chaos-based shifting operations. Security, convenience, and speed are all advantages of shifting activities. This method initially executes bit-plane flipping and permutation operations, then block-based flipping and diffusion operations to obtain the cipher images. The simulation and security analysis findings show that the proposed approach performs better.

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Sachikanta Dash

IoT-Based Hybrid Ensemble Machine Learning Model for Efficient Diabetes Mellitus Prediction

AgriSecure: A Fog Computing-Based Security Framework for Agriculture 4.0 via Blockchain

Diabetes Mellitus Prediction Through Interactive Machine Learning Approaches

An efficient Intra-Inter pixel encryption scheme to secure healthcare images for an IoT environment

A Simple and Fast Medical Image Encryption System Using Chaos-Based Shifting Techniques

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