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ijtrseditor@gmail.com   ISSN No.:-2454-2024(Online)

Volume 9 Issue VI

IJTRS-V9-I06-001 :- DESIGN OF A NOVEL OPTIMAL CONTROL ENERGY MANAGEMENT STRATEGY FOR STAND ALONE HYBRID SOLAR-WIND SYSTEM
Author: Abhishek Singh Chauhan, Deepak Kumar Joshi, Nirma Kumari Sharma
Organisation: Department of Electrical Engineering, Mewar University, Chittorgarh, Rajasthan, India
Email: abhisheksinghchauhan2112@gmail.com
DOI Number: https://doi.org/10.30780/IJTRS.V09.I06.001
Abstract:

Energy is pivotal for the economic progress and societal advancement of any nation. To minimize reliance on imported fuels and address the increasing gap between energy demand and supply, it is imperative to optimize indigenous energy resources, while considering economic, environmental, and social constraints. The surge in population has exacerbated the energy crisis, widening the disparity between demand and supply. Depletion of conventional energy sources has led to an energy supply shortfall. While renewable energy sources (RES) offer promise in the energy sector, their standalone operation is hindered by their intermittent nature, resulting in interruptions in power supply to loads. To ensure stable and reliable power supply, hybrid combinations of renewable energy sources have been adopted. The design of a hybrid wind-solar Photovoltaic (SPV) system for power generation, targeting domestic households in remote areas disconnected from the grid, has been proposed. Such hybrid systems operate either in isolated mode or in grid-connected mode via power electronics interfaces, augmenting reliability and ensuring continuous power supply. Introducing a Hybrid Renewable Energy System (HRES) aims to enhance the productivity and operability of individual renewable energy systems. Extensive technological investigations have explored various approaches, including linear programming and a novel optimum control strategy incorporating PID controllers, fuzzy logic controllers, AI, and optimal torque with Maximum Power Point Tracking (MPPT) techniques. The developed novel optimum control strategy facilitates the coordinated operation of diverse devices and power interface circuitries, with the primary objective of ensuring continuous power supply. Simulation studies have evaluated system performance under different scenarios, including varying solar radiation, temperature, air conditions, and battery charge/discharge conditions. Results indicate variable power generation and affirm the efficacy of the integrated system and control strategies in real-time installations. The investigation reveals that the developed novel optimum control strategy significantly enhances the performance of standalone hybrid wind-SPV systems. The hybrid system, when integrated with controllers, exhibits improved output power and ensures continuous power delivery, thereby enhancing overall system efficiency and reliability. Such systems are indispensable in isolated regions where grid connectivity is unavailable, ensuring secure power generation by intelligently harnessing diverse energy sources.

Keywords: PV, WECS, ESS, ANN, FLC, EMS, HRES.
IJTRS-V9-I06-002 :- ARCHITECTURE OF BIOMETRIC SYSTEMS FINGERPRINTS FOR HOME SECURITY SYSTEM
Author: Vikash Kumar, Lokesh Kumar, Bhupender Sharma, Naman Chauhan, Ritik Kumar Singh, Bhanu Pratap Singh
Organisation: COER University, Roorkee, Uttarakhand, India, Kalinga University, Raipur, Chhattisgarh, India
Email: vikashpaper1991@gmail.com
DOI Number: https://doi.org/10.30780/IJTRS.V09.I06.002
Abstract:

Home Security System has become the prime concern in the recent years or time. If we talk about the technology so now a days technology comes out every second, ample home-based security systems have been expanding and implementing with many of the latest features. So, that we can keep our home safe [15]. This paper represents the design and model or prototype implementation of a home security system that makes the home security more convenient, flexible, and less expensive.

Keywords: Biometric techniques, fingerprint verification, smart home, home security, home network.
IJTRS-V9-I06-003 :- DIGITAL ENTREPRENEURSHIP
Author: Lakshman Rohit Pamarthi, ?Akshaya Gudemla, Nikhil Mummaneni
Organisation: School of Business, Woxsen University, Hyderabad, Telangana, India
Email: lakshmanrohit@gmail.com
DOI Number: https://doi.org/10.30780/IJTRS.V09.I06.003
Abstract:

The study's primary objective is to analyze the relevance of digital entrepreneurship in the modern business environment and to suggest ways in which entrepreneurs can maximize its benefits. The authors have identified the factors of digital platforms and determined how they improve business operations. The identified enablers are transformation of supply chain business processes, changing people’s mindset, choosing the right system for your entrepreneurship, and understanding When to Scale Up. The identified barriers are No Proof of Business Value, Security Concerns, Afraid of Transforming Existing Norms, Lack of appropriate Infrastructure, and Choosing Staff. This article will help the practitioners and policymakers in understanding the factors affecting digital entrepreneurship more effectively.

Keywords: digital entrepreneurship, digital platform, scale up, business value.
IJTRS-V9-I06-004 :- EXPERIMENTAL INVESTIGATION ON STABILITY OF CLOSED LOOP VECTOR CONTROLLED MATRIX CONVERTER FED INDUCTION MOTOR DRIVE
Author: Monika Verdia, Vinod Kumar, R.R. Joshi
Organisation: Department of Electrical Engineering, College of Technology & Engineering, MPUAT, Udaipur, Rajasthan, India
Email: vinodcte@yahoo.co.in
DOI Number: https://doi.org/10.30780/IJTRS.V09.I06.004
Abstract:

In this paper, a state average model of the whole system, assuming a constant power load, is employed. The stability of the system is evaluated by analyzing the migration of eigenvalues of the system, which is linearized around the operating point. The approach allows the determination of relationships showing the maximum output power of the matrix converter as function of the parameters of power supply and input filter. The stability is evaluated by analyzing the migration of eigenvalues of the linearised state matrix. The approach allows the determination of the maximum voltage transfer ratio of the matrix converter, and then of the maximum output power, as function of the time constant of the digital lowpass input voltage filter. The transition from stable to unstable operation of the matrix converter has been verified by changing the operating conditions. 

Keywords: closed loop control, matrix converter, stability.