ARPANA MISHRA

Scopus Publications

Performance Evaluation of Regression-Based MPPT Algorithms Using Inverse SEPIC Converter under Partial Shading
Journal of Renewable Energy and Environment, 2026
Low power efficient task allocation in wireless sensor network
Khushi Srivastava, Antriksha Nautiyal, Aditya Kumar Gupta, Anshika Jain, Harshit Gupta, Arpana Mishra
Aip Conference Proceedings, 2025
Functional task decomposition in wireless sensor network
Arpana Mishra, Nandini Tomar, Shilpa Choudhary, Rashmi Priyadarshini, Murari Lal Azad
Applications of Artificial Intelligence in 5g and Internet of Things Proceedings of the 1st International Conference on Applications of AI in 5g and Iot Icaai5gi 2024, 2025
Wireless sensor network is highly focused field of researchers belonging to industries and academics. Several applications of wireless sensor network exist from several past years. In wireless sensor network a complex task subdivision are key methodologies to upgrade the performance and life extension. It is very difficult to select Clusterisation and routing techniques while network overloaded with complex tasks. Decomposition or subdivisions of huge tasks into easy work are the key procedures to optimize the sensor network lifetime. However, such subdivision of tasks are greatly intensive, various field projects, making the decomposition selections are more complicated in WSN than other ordinary systems. We consider the load feasibility and functional structure of network for subdivision of complex task. Task decomposition basis on the systems engineering where need to apply. Superiority and ledgering properties of clustered nodes deciding the scheme for decomposition by considering the several attributes like feasibility, probable risk and task integration complexity. Development of military surveillance systems can be used to verify this research contribution routing and computing algorithms. To format your abstract, use the Microsoft Word template style:
Task Decomposing Optimization in Wireless Sensor Network
Arpana Mishra, Rashmi Priyadarshini, R. M. Mehra
Lecture Notes in Electrical Engineering, 2024
Examining the Performance and Reliability of Wireless Sensors for Agriculture
Manish Dakhore, Ram Bajaj, Mohamed Dawood Shamout, Reddy Ganesh, Arpana Mishra, Shilpa Choudhary
2024 15th International Conference on Computing Communication and Networking Technologies Icccnt 2024, 2024
This paper will study modern-day Wi-Fi sensors’ overall performance and reliability in agricultural programs. An outline of the modern country’s modern wireless era in agriculture will be supplied, consisting of the use instances for Wi-Fi sensor networks (WSNs) and how they offer improved productivity and fee savings. Wi-Fi sensor networks are getting more popular for use in agricultural and environmental sensing, especially in precision farming and agricultural robotics, and this paper will explore the benefits and disadvantages of ultra-modern using WSNs as well as the significant challenges and possibilities for improvement. Moreover, performance standards and reliability criteria for comparing wireless sensors for agricultural applications will be compared to conventional stressed-out technologies. In the end, recent advances in Wi-Fi technologies and strategies for enhancing the reliability of modern-day agricultural WSNs can be mentioned. The statistics presented in this paper assist researchers, farmers, and industrialists in making a knowledgeable decision on adopting brand-new Wi-Fi sensor networks in agricultural settings. Wireless Sensor Networks (WSNs) have been contemporarily used to screen soil and crop conditions for precision agriculture. The performance and reliability of those systems are essential for the accuracy of today’s accrued statistics. This abstract critiques the studies on WSNs for precision agriculture and evaluates modern-day the overall performance and reliability of contemporary current sensors. Mainly, this abstract specializes in the strength necessities, transmission variety, sensing accuracy, and information quality of cutting-edge present systems. The reliability of present-day WSNs in agricultural settings is discussed in phrases of state-of-the-art electricity and sign integrity, statistics storage and control, and facts safety. Sooner or later, present challenges and destiny guidelines for deploying cutting-edge WSNs in precision agriculture are discussed. The latest results in this analysis exhibit that existing WSN technologies have evolved notably over the past few years and feature the potential to emerge as a reliable source of trendy records for precision agriculture applications.
Subjective Survey on Probabilistic and Non-probabilistic Clusterization in Wireless Sensor Network
Arpana Mishra, Hussain Muhammad Hassan, Usha Tiwari, Rashmi Priyasdarshini
Wireless Personal Communications, 2023
A Qualitative Analysis on Application Routing Algorithms in Wireless Sensor Networks (WSN)
Arpana Mishra, Rashmi Priyadarshini, R.M. Mehra
7th International Conference on Trends in Electronics and Informatics Icoei 2023 Proceedings, 2023
Wireless Sensor Network (WSN) routing techniques are extremely essential on a global scale. All routing and clustering protocols play an important role in communication and networking applications. In particular, Environment-based and traffic-based routing protocols play a predominant role in wireless sensor networks. This study investigates the routing challenges, power and energy requirements in various WSN applications. The performance metrics like reliability, network lifetime, and throughput are majorly considered in diverse WSN applications. This study focuses on investigating various routing and clustering protocols that influ-ence WSN applications.
Electronics Epidermal Tattoo - An overview
Kashish Srivastava, Shilpa Choudhary, Abhishek Sharma, Arpana Mishra
2023 International Conference on Artificial Intelligence and Smart Communication Aisc 2023, 2023
The use of pliable and stretchable biomedical wearable devices has made long-term monitoring of skin sensations during natural body movements possible, leading to early diagnosis and treatment of various diseases. In this proposal, a brief introduction to skin-integrated biomedical electronics will be presented. These devices, also referred to as "skin-like electronics," "epidermal electronics," or "electronic tattoos," are discussed with regard to their material properties, integration methods, and potential applications. The proposal aims to provide a comprehensive overview of the topic to better understand the technology's potential.By using wearable biomedical devices that are pliable and stretchable, it is possible to monitor skin sensations during natural body movements over a prolonged period, enabling the early detection and treatment of various diseases. The technology behind these devices, known as skin-integrated biomedical electronics, has been dubbed with several names such as "skin-like electronics," "epidermal electronics," or "electronic tattoos." These devices are discussed in terms of their material properties, integration methods, and potential applications in this proposal. The proposal's primary objective is to provide an overview of this technology to better comprehend its potential impact.Epidermal sensors, which are becoming increasingly popular due to their slimness and delicacy, are a type of electronic device that conforms to the skin's epidermis to perform various functions. To ensure both conformal contact and user comfort, these devices should have mechanical properties similar to those of the skin's epidermis layer. Our research introduces a new type of sensor made from graphene that can work in multiple modes. It is created using a cost and time-effective "wet transfer, dry processing" method that maintains a relationship between the graphene electronic tattoo (GET) and skin interface impedance similar to that of medically-used Ag/AgCl gel electrodes. GET can be placed directly on human skin like a temporary tattoo, and its open loop configuration allows it to remain attached to the skin layer for several minutes without breaking or delaminating. An electronic epidermal tattoo made from graphene can be used to examine ECG, EMG, EEG, and skin hydration modes.
Optimization for Read Range of Low Frequency RFID System
Shilpa Choudhary, Hemant Purohit, Manoj Joshi, Arpana Mishra, Laxya
Proceedings of International Conference on Computational Intelligence and Sustainable Engineering Solution Cises 2023, 2023
In this research, all situations where a low-frequency Radio Frequency Identification system would be presented during field utilization were simulated, and observations were taken for the variation in the read range of the Radio Frequency Identification system under such conditions. The optimization ofits read range was carried out in the presence of three different soils: sandy soil.clay, and silt. The Response Surface Methodology method was used during test execution to determine the best possible settings for the input parameters, i.e.,environmental temperature (15°C to 50°C), relative humidity (35% to 70<sup>%</sup>), soil layer thickness (Omm to 90mm), and soil grain size (0.45-2 mm) between the radio frequency identification tag and reader to obtain the best possible value of the radio frequency identification system read range in the presence of all three soils. Optimum conditions were achieved at a temperature of 25.13°C, relative humidity of 36.22%, soil grain size of 1.90 mm, and soil layer thickness of zero mm, and the read range of the Radio Frequency Identification System in the presence of clay.silt, and sandy soil were found to be 118.91mm, 118.15mm, and 118.08mm respectively. ANOVA R2 values were found to be 99.52%, 98.03%, and 98.49%. The desirability of the model was seen to be unity, which means the model prediction is accurate.
Digital Umbrella
Rohit Kumar, Pooja Prajapati, Mehul Anand, Basanta Mahato, Arpana Mishra
2023 3rd International Conference on Advancement in Electronics and Communication Engineering Aece 2023, 2023
The idea of a digital umbrella helps in reducing the financial pressure on street vendors, especially vegetable sellers. Most of the vegetable market commences at 4 p.m. and continues until 11 p.m. every day, and to sell vegetables at night, sellers require light. In this paper, we propose the concept of the Digital Umbrella, which will reduce the money spent on renting the battery and bulb at night. A digital umbrella is a solar-powered umbrella through which the solar energy of the sun will be converted into electrical energy. It is portable and easy to use by vegetable sellers and outdoor workers.
Internet Traffic Dynamics in Wireless Sensor Networks Based on Energy Efficiency with Routing Protocols
International Journal of Intelligent Systems and Applications in Engineering, 2022
Environmental monitoring in wireless sensor networks using AI
Artificial Intelligence Applications and Innovations, 2022
Simulation of Firefly Algorithm-Based Routing Technique for Wireless Sensor Networks
Shilpa Choudhary, Purneshwari Varshney, Arpana Mishra, Vidit Shukla, Shradha Gupta
Studies in Computational Intelligence, 2022
Role of Wireless Communications in Digital Economy in the Present Context
S. Revathi, Arpan Shrivastava, Ardak Yussupova, A. Nururrochman Hidayatulloh, Daurbekova Saltanat, Arpana Mishra
2022 6th International Conference on Trends in Electronics and Informatics Icoei 2022 Proceedings, 2022
Qualitative analysis of intra-class and inter-class clustering routing and clusterization in wireless sensor network
Arpana Mishra, Rashmi Priyadarshini, Shilpa Choudhary, R M Mehra
Evergreen, 2021
Experimental investigation and statistical analysis of low frequency RFID system
, Shilpa Choudhary, Abhishek Sharma, , Arpana Mishra, and
Journal of Engineering Research Kuwait, 2021
DTSS and clustering for energy conservation in wireless sensor network
Arpana Mishra, Shubham Shukla, Akhilesh Kumar Singh, Anika Gupta
Advances in Intelligent Systems and Computing, 2020
LEACH with pheromone energy efficient routing in wireless sensor network
Arpana Mishra, Shilpa Choudhary, Mudita Vats, Smriti Sachan
Advances in Intelligent Systems and Computing, 2020
Comparative analysis of clustering algorithm for wireless sensor networks
Smriti Sachan, Mudita Vats, Arpana Mishra, Shilpa Choudhary
Advances in Intelligent Systems and Computing, 2020
Qualitative analysis for sensors and wireless communications modules for development of weather station monitoring system
Wudu Worku, Arpana Mishra, Rashmi Priyadarshini
Proceedings 2019 International Conference on Computing Communication and Intelligent Systems Icccis 2019, 2019
Novel approach to reduce the replication of information and to increase the reliability of end to end data transmission in WSN
Shilpa Choudhary, Lokesh Sharma, Awanish Kumar Kaushik, Arpana Mishra
2019 2nd International Conference on Intelligent Communication and Computational Techniques ICCT 2019, 2019

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