Your search keyword '"Hari Kumar Singh"' showing total 13 results

1. Analysis of Structural, Optical, and Aquaphobic Properties of Zirconium Oxide Nanofilms by Varying Sputtering Gas

Author

Kumar Sujit, Dave Vikramaditya, K. Vetri Velmurugan, Yakkala Bhaskarrao, Rupali Singh, Bhasker Pant, Amit Kumar Sharma, Hari Kumar Singh, and Lijalem Mulugeta

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The problem of contamination in ceramic insulators was found to be frequent in power transmission lines and transformers. The key aim was to develop aquaphobic zirconium oxide (ZrO2) thin films using DC reactive magnetron sputtering over glass insulators to mitigate contamination problems. This was achieved by introducing O2 and Ar gas in the sputtering chamber, and three properties, namely, structural, optical, and aquaphobic, were inspected by changing the sputtering gas ratio (oxygen/argon). These properties were chosen based on comparison with the bulk ZrO2. These deposited ZrO2 samples were identified by X-ray diffractometer (XRD), atomic force microscopy (AFM), UV-Vis-NIR spectrophotometer, and contact angle goniometer (CAG). For all the samples, coatings were found to be limpid, clear, and aquaphobic. Coarseness (62.813 nm) and the contact angle made by water to the surface (107.45°) were found utmost as deposited at 0.25 oxygen/argon gas ratios. The transmittance and band gap were also found to be 90% and 5.33 eV, respectively, at this particular ratio.

Published

2022

2. Heuristically optimized weighted feature fusion with adaptive cascaded deep network: a novel breast cancer detection framework using mammogram images.

Author

Amarjeet Poonia, Virendra Kumar Sharma, Hari Kumar Singh, and Saurabh Maheshwari

Published

2024

3. Wireless Body Area Network Antenna

Author

Inderpreet Kaur, Hari Kumar Singh, and Tejasvini Thakral

Published

2022

4. Numerical investigation of modified fin shapes for the improved heat transfer

Author

Moti Lal Rinawa, Prashant Chauhan, Rajneesh Sharma, Amarjeet Poonia, Hari Kumar Singh, Amit Kumar Sharma, and Ram Subbiah

Published

2022

5. Water absorption studies of pineapple leaf fiber/nano rice husk powder reinforced epoxy matrix hybrid composites

Author

Moti Lal Rinawa, Prashant Chauhan, Amit Kumar Sharma, Hari Kumar Singh, null Ankit, and M.S. Karuna

Published

2022

6. Characterization of ZnO/nanofluid for improving heat transfer in thermal systems

Author

Rajneesh Sharma, Prashant Chauhan, Amit Kumar Sharma, Atul Katiyar, Hari Kumar Singh, Moti Lal Rinawa, and P. Manoj Kumar

Published

2022

7. MIMO Antennas for IoT and ISM Band Applications

Author

Inderpreet Kaur, Hari Kumar Singh, Sanjeev Sharma, Navneet Singh, and Yash Bhardwaj

Published

2023

8. Intelligent Controlled Electronic Speech-Supporting Device for Dumbed Pharmacy Sales Person

Author

Mohamed A. M. Iesa, Archana S. Nanoty, Hari Kumar Singh, Rituraj Jain, Anurag Shrivastava, and Sanjiv Kumar Jain

Subjects

Raspberry pi, Value (ethics), Multimedia, business.industry, Computer science, Key (cryptography), Pharmacy, Python (programming language), business, computer.software_genre, computer, computer.programming_language

Abstract

Many innovations are made mainly for the individual with a disability. The primary aim of the effort is to solve the issue faced by the world's dumb people. It's application-specific, where we solve a dumb medical attendant's issues. The project's main aim is to develop an instrument to answer consumer inquiries in the medical store, which works as an electronic voice device. A Raspberry PI 3 with a keyboard and speaker are suggested. In the Raspberry Pi, a text-to-speech coder is used. The stupid person needs to input the response through a keyboard, depending on the client query. The value is transformed in audio output by pressing the key equivalent. The response time is 2.6 seconds.

Published

2021

9. WSN-IoT Clustering for Secure Data Transmission in E-Health Sector using Green Computing Strategy

Author

M. Rajkumar, Anurag Srivastava, Susheel George Joseph, Yogini Dilip Borole, Abhishek Singh, and Hari Kumar Singh

Subjects

Green computing, business.industry, Network packet, Computer science, Node (networking), Reliability (computer networking), business, Cluster analysis, Wireless sensor network, Information exchange, Computer network, Data transmission

Abstract

Energy was one of the 21st century's most critical components. Electronics and computer technologies have been widely used nowadays to simplify work every day. The crisis and the constant lack of power have popularized and integrated Green Computing algorithms for multidimensional applications on a broad scale. The author attempts to defuse times of crisis related to medical crises using the Green Computing method. Wireless Sensor Networks (WSN) are made up of numerous sensor nodes (SN) that are linked to and play a key part in many applications and the Internet of Things (IoT). To establish a dynamic information exchange network, IoT links physical items like sensors. In a number of areas, the Internet of Things was used. Wearable medical sensors are used to monitor health indicators in patients in this crisis situation. This battery-powered medical sensor has a limited quantity of energy. This is an important hurdle for increased network lifetime. In order to address the current issue effectively, a new technique dubbed Jarvis Patrick regressive resource-efficient gaussian process clustering was suggested to prolong the lifetime of the network. This method is based on the green technology concept that requires the hour. IoT devices are first used in SN to detect and collect patient information. SN is categorized in several clusters using the Jarvis Patrick clustering method after the data collection process. Clustering by Jarvis Patrick is a graphical clustering technique used for dividing SN using the Gaussian process regression function. The regression function reviews the SN and performs the process of grouping based on anticipated bandwidth and energy. The Cluster Head (CH) is selected to enhance data transmission and decrease latency after the clustering process. The information is transmitted to the CH from the source node. Then CH locates the nearest CH using the flight-time method. After then, data are sent through a cluster head from the source node to the sink node. WSN carries out resource-efficient data transmission in this way. Number studies indicate that the REGPRJPC technique successfully enhances the potential and reliability of patient data packets and reduces the incidence of loss and delay.

Published

2021

10. Improving the yield of a solar still with the aid of an evacuated tube

Author

CH. Mohammad Akram, G. Saritha, Arvind Sharma, Hari Kumar Singh, Moti Lal Rinawa, and S. Ashwin Kannan

Subjects

History, Computer Science Applications, Education

Abstract

Solar distilling process is a viable way to supplying clean freshwater to remote populations with low water condition and sufficient sunshine. Because, water purified in a simple solar still yields less, and hence, it would not be widely utilized or traded. The effectiveness of a traditional solar still is highly dependent on the quantity of energy received by the solar still's bottom surface. Thus, expanding either the absorption capacity of the basin surface or the rate of energy transfer to the saline water would then result in an enhancement in potable water yield levels. Through the coupling of an evacuated glass tube (EGT), an effort has been made to increase the evaporative heat transfer and solar still heat transfer effectiveness in this study. Further, the current research analysis compares the performance of the ordinary (Plain-Still) and evacuated tube linked solar stills (EGT-Still) at a fixed water level of 2.0 cm. The findings demonstrated that integrating an evacuated tube with the traditional solar still increased the solar still's productivity by 13.73%.

Published

2022

11. Field Localization and Density Cavitation in Low-Beta Plasmas

Author

Sintu Kumar, R. P. Sharma, Amit Sharma, Moti Lal Rinawa, Prashant Chauhan, Hari Kumar Singh, and Manoj Kumar Singh

Subjects

Physics, Field (physics), Article Subject, Turbulence, Magnetosonic wave, Plasma, Dissipation, Ponderomotive force, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Computational physics, Alfvén wave, Physics::Plasma Physics, Physics::Space Physics, Astrophysical plasma, Electrical and Electronic Engineering

Abstract

In the present paper, filamentous structure formation, associated turbulent spectrum, and density cavity formation phenomena have been investigated for low- β plasma β ≪ m e / m i applicable to the auroral region. A set of dimensionless equations governing the dynamics of three dimensionally propagating inertial Alfvén wave (3D-IAW) and perpendicularly propagating magnetosonic wave (PMSW) has been developed. Ponderomotive force due to 3D-IAW has been included in the dynamics of the PMSW. Numerical simulation has been performed to study the nonlinear coupling of these two waves. From the obtained results, we found that the field intensity localization takes place which may further lead to the additional dissipation/turbulence process for particle heating and acceleration in space plasma. The associated turbulent spectrum is obtained with scaling nearly k − 4.28 at smaller scales (in the dissipation range). Relevance of the obtained results with the observations reported by various spacecrafts such as Hawkeye and Heos 2 has been discussed. Also, density fluctuations (depletion) of ∼ 0.10 n 0 are calculated, which are consistent with the FAST spacecraft observation reported.

Published

2021

12. Predictions of Indoor Thermal Comfort Level using Fuzzy Logic

Author

Hari Kumar Singh, Priya Yadav, Sandeep Kumar Manocha, and B.M. Suman

Subjects

Constraint (information theory), Thermal transmittance, Engineering, business.industry, Black box, Thermal, Feature (machine learning), Thermal comfort, Control engineering, State (computer science), business, Fuzzy logic, Simulation

Abstract

Prediction of Thermal Comfort Level (TCL) is one of the intricate observable facts to understand. This is due the fact that thermal comfort level is quite complicated to demonstrate precisely in view of the fact that the factual procedure has involvement of the human beings. For analytical principles, it can be believed that the individual is a "black box" which obtains inputs as atmospheric provisions and personage variables, while the output is the subjective acuity of thermal comfort level. Interior comfort state of a building relies on the peripheral ambiance and thermo- physical properties of the materials employed in the building. The outer climatologically constraints can be collective as a sole constraint known as Sol Air Temperature (SAT). Similarly, internal and open air surface heat transfer coefficients and thermal properties of the materials employed in the buildings are united in a single feature, termed as Overall Thermal Transmittance (OTT). In the present study, a fuzzy logic move towards achieving the suitable thermal comfort level is being employed assuming the SAT and OTT as input constraints. The complication of the human intellectual and the imprecision of linguistic expressions are taken into the deliberation. A comprehensive clarification of the relevance uniting linguistic approach to the optimization under numerous thermal provision principles is presented in this study.

Published

2014

13. Analysis of Multispectral Image Using Discrete Wavelet Transform

Author

Pooja Singh, S. K. Tomar, and Hari Kumar Singh

Subjects

Discrete wavelet transform, Lifting scheme, Non-uniform discrete Fourier transform, Computer science, Stationary wavelet transform, Multiresolution analysis, Multispectral image, MathematicsofComputing_NUMERICALANALYSIS, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, Cascade algorithm, Data_CODINGANDINFORMATIONTHEORY, Discrete Fourier transform, Wavelet packet decomposition, symbols.namesake, Digital image, Wavelet, Curvelet, Computer vision, Time domain, S transform, Image resolution, Continuous wavelet transform, Constant Q transform, business.industry, Second-generation wavelet transform, Gabor wavelet, Short-time Fourier transform, Wavelet transform, Fractional Fourier transform, Time–frequency analysis, Fourier transform, Computer Science::Computer Vision and Pattern Recognition, Temporal resolution, symbols, Artificial intelligence, Fast wavelet transform, business, Harmonic wavelet transform

Abstract

In this paper we have analyzed the discrete wavelet transform of multispectral image of Bareilly region using MatLab tool. The wavelet transform is one of the most useful computational tools for a variety of signal and image processing applications. The wavelet transform is used for the compression of digital image because smaller data are important for storing images using less memory and for transmitting images faster and more reliably. Wavelet transforms are useful for images to reduce unwanted noise and blurring. A discrete wavelet transform (DWT) is any wavelet transform for which the wavelets are discretely sampled. A key advantage it has over Fourier transforms is temporal resolution: it captures both frequency and time domain information.

Published

2013