International Journal of Analog Integrated Circuits
https://ecc.journalspub.info/index.php?journal=JAIC
<p align="center"><strong>International Journal of Analog Integrated Circuits</strong></p><p align="center"><strong> </strong><strong>(IJAIC)</strong></p><p align="center"><strong><strong>ISSN: 2582-3620</strong></strong></p><p> </p><p align="center">Click <strong><a href="/index.php?journal=JAIC&page=about&op=editorialTeam">here</a></strong><strong> </strong>for complete Editorial Board</p><p align="center"> </p><p align="center"> </p><p align="center"><strong>AIM AND SCOPE</strong></p><p><strong>International Journal of Analog Integrated Circuits</strong> covers all aspects of system level design, analog design, simulation and layout. The Journal publishes both original research articles and review papers falling under the scope and focus of the journal. The journal is a peer-reviewed journal that has an aim of creating a lasting effect of the research and to promote the application of the theories that are put forward by the researchers</p><p>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</p><p> </p><p><strong>Focus and Scope Cover</strong></p><p> Integrated Circuits and System Design<br /> • Analog Design and Synthesis<br /> • Simulation, Verification and Layout<br /> • Analog Integrated Circuits and Signal Processing<br /> • Amplifiers, Oscillators and Synthesizers<br /> • Actuators, Transducers and Integrated Sensors<br /> • CMOS IC Design and Technology<br /> • VLSI Design and Fabrication<br /> • Semiconductor Devices and Applications<br /> • Wireless and RF Integrated Circuits<br /> • Sensors, Detectors and Controllers<br /> • Artificial Intelligence and Neural Networks<br /> • Filters and its Applications<br /> • ADC and DAC Design<br /> • Equalizers, Stabilizers and Regulators.</p><p><strong>Readership:</strong> Graduate, Postgraduate, Research Scholar, Faculties, Engineers, Industrialists and Institutions.</p><p><strong>Journal DOI No: 10.37628/IJ</strong><strong style="text-align: -webkit-center;">AIC</strong></p><p><strong>Indexing: </strong>The Journal is index in Journal TOC, Google Scholar, Crossref.</p><p> <strong> </strong></p><p><strong>Submission of Paper: </strong></p><p><strong> </strong></p><p>All contributions to the journal are rigorously refereed and are selected on the basis of quality and originality of the work. The journal publishes the most significant new research papers or any other original contribution in the form of reviews and reports on new concepts in all areas pertaining to its scope and research being done in the world, thus ensuring its scientific priority and significance.</p><p> </p><p>Manuscripts are invited from academicians, students, research scholars and faculties for publication consideration.</p><p> </p><p>Papers are accepted for editorial consideration through email <a href="mailto:cete@celnet.in">cete@celnet.in</a> || <a href="mailto:electrical.excellence@conwiz.in">electrical.excellence@conwiz.in</a></p><p> </p><p><strong>Subject</strong>: VLSI Design & Fabrication, Semiconductor Devices & Applications, Amplifiers, Oscillators & Synthesizers, Actuators, Transducers and Integrated Sensors.</p><p> </p><p><strong>Plagiarism: </strong>All the articles will be check through <strong>Plagiarism Software</strong> before publication. </p><p><br /> <strong>Abbreviation: </strong><strong>IJAIC</strong><strong><em></em></strong></p><p><em><br /> </em><strong>Frequency</strong>: Two issues per year</p><p> </p><p><strong><a href="/index.php?journal=JAIC&page=about&op=editorialPolicies#peerReviewProcess">Peer Reviewed Policy</a></strong><strong></strong></p><p><strong><span style="text-decoration: underline;"><a href="/index.php?journal=JAIC&page=about&op=editorialTeam">Editorial Board</a></span></strong></p><p><strong><a href="http://journalspub.com/pdf/Guidelines%20for%20authors.pdf">Instructions to Authors</a></strong></p><p><strong>Publisher:</strong> JournalsPub, an imprint of Dhruv Info Systems Private Limited</p><p><strong>Address:</strong> A-118, 2<sup>nd</sup> Floor, Sector-63, Noida, Uttar Pradesh-201301, India</p><p><strong>Phone no.:</strong> (+91)120-4781-215 / Email: <a href="mailto:tanvi.singh@stmjournals.com">tanvi.singh@stmjournals.com</a></p>en-USInternational Journal of Analog Integrated CircuitsNext-generation BRT Automation: Exploring the Potential of Conventional Opening Lane Barricades for Seamless Transit Operations
https://ecc.journalspub.info/index.php?journal=JAIC&page=article&op=view&path%5B%5D=1856
<p><em>The problem of BRT lane violations is addressed in this text. Emerging communities can develop a cost-effective, high-quality mass transit system thanks to bus rapid transit (BRT). The BRT concept is outlined in this </em><em>article of the Sustainable Transport Sourcebook, along with a brief explanation of the BRT development process. Effective public transport is necessary for development. For most residents of developing cities, public transport is the sole practical option for getting to places of employment, places of learning, and public services, especially when those locations are too far distant to be reached by walking or cycling.</em> <em>Unfortunately, the actual needs of the population for mobility are frequently not met by the current level of public transit ser</em><em>vices in developing cities. </em><em><del cite="mailto:Archana%20Garg" datetime="2023-09-12T12:51"> </del></em><em>On the other hand, inadequate public transport does not necessarily equate to high municipal debt. Identification of unauthorised vehicle access cannot be done using the traditional way. We cannot rely on the conventional way b</em><em>ecause it is so ineffective. We are therefore aiming to propose an automated approach in order to address the aforementioned issue as effectively as possible and help the BRT system return to its original objectives.</em><em></em></p>Ishika MunshiMehul SahuManasi ThakareMinakshi L Jadhav
Copyright (c) 2023 International Journal of Analog Integrated Circuits
2023-10-062023-10-0691110DressCode Monitoring System
https://ecc.journalspub.info/index.php?journal=JAIC&page=article&op=view&path%5B%5D=1883
<p>This project aims to develop a dress code monitoring system using YOLO v5 object detection technology. The<br />system utilizes a camera to capture images or video footage of individuals entering a specific area and then uses YOLO v5 to<br />detect their clothing and ensure that it complies with the predefined dress code standards. The system utilizes a deep learning<br />algorithm to accurately recognize various clothing items and differentiate between compliant and non-compliant attire. By<br />leveraging YOLO v5&#39;s advanced capabilities, the system can detect multiple objects in real-time, providing efficient and<br />accurate dress code monitoring. The proposed system has potential applications in various settings, such as schools,<br />businesses, and public areas, to ensure compliance with dress code policies and maintain a professional environment.</p>Amal S. PanikarTanuja PatilBhausaheb E. Shinde
Copyright (c) 2023 International Journal of Analog Integrated Circuits
2023-11-012023-11-0191111910.37628/ijaic.v9i1.1883Comparison of Different Full Adders and its Applications
https://ecc.journalspub.info/index.php?journal=JAIC&page=article&op=view&path%5B%5D=1906
<p><em>Full Adder is a fundamental block in Arithmetic and Logical unit (ALU) which is a core of any processor. It is extensively used in General Purpose Processors (GPP) along with various Application Specific Processors (ASP) like Digital Signal Processor (DSP) for addition, subtraction, multiplication and counting operations. Reducing the power of most repetitively used block in a circuit reduces the overall power of the circuit. Adopting Low Power techniques ensures Power Efficient Full Adder. The prominent approaches include reducing the transistor count which is strategically reducing the size and power of the chip. Furthermore, reducing the activity factor, Dual VDD method, circuit parallelization, Clock gating are practices that reduces the power of any VLSI circuit. Comparisons are made by verifying 28 transistor Complementary Metal Oxide Semiconductor (CMOS) technology, 14 transistors and 10 transistors 1-bit full adders using Cadence virtuoso generic process design kit</em><em> <del cite="mailto:Archana%20Garg" datetime="2023-09-11T18:53">45 </del><ins cite="mailto:Archana%20Garg" datetime="2023-09-11T18:53">45 </ins>nm<ins cite="mailto:Archana%20Garg" datetime="2023-09-11T18:53"> </ins>(gpdk045) technology. This power efficient full adder is utilized for designing power efficient N-bit adders<ins cite="mailto:Archana%20Garg" datetime="2023-09-11T18:58">,</ins> subsequently the trends in power are analysed with N-bit CMOS full adder.</em></p>Cilveri Praneeth KumarChoragudi Krishna ChaitanyaMalyala Sai SiddeshwarG. R. Padmini
Copyright (c) 2023 International Journal of Analog Integrated Circuits
2023-11-182023-11-18912035Iot Based Smart Farming with Plant Disease Detection Using CNN
https://ecc.journalspub.info/index.php?journal=JAIC&page=article&op=view&path%5B%5D=1882
<p>In this project, we have discussed the utilization of the power of contemporary technology like sensors and cloud<br />computing. IoT-based smart farming is revolutionizing traditional agricultural practices. Additionally, this project enables farmers<br />to manage their farms remotely. This project&#39;s primary goal is to support an existing farmer and a new farmer who wants to start<br />farming as their side income source through remote farming. Farmers can monitor numerous environmental elements including<br />temperature, humidity, soil moisture levels, and tank water levels in real time with the use of IoT devices. They can also control<br />the fertilization process and pests’ control remotely. They can monitor their crops using a robot, they can get live video footage on<br />their device. Users can take photographs from the video footage provided by the robot and can upload those photos on the web<br />page to get information about the crop’s diseases. It will help the farmer maximize agricultural yield, lower waste, and boost<br />profitability. Additionally, smart farming systems give farmers useful knowledge about crop development and disease prevention,<br />empowering them to make data-driven decisions and take preventative action to avoid crop losses. IoT-based smart farming<br />systems may also be remotely accessed and managed via smartphones and other connected devices, giving farmers the flexibility<br />to manage their operations whenever and wherever they choose.</p>Pritam MondalSatya RajputSamrudhi ShrotriShreyasi Phadtare
Copyright (c) 2023 International Journal of Analog Integrated Circuits
2023-11-012023-11-0191364710.37628/ijaic.v9i1.1882Robotic Spray Systems for Efficient Crop Protection in Modern Agriculture: A Review
https://ecc.journalspub.info/index.php?journal=JAIC&page=article&op=view&path%5B%5D=1909
<p><em>The agriculture sector is one that requires a lot of manpower and resources. As a result, farmers are increasingly relying on automation and technology to solve this problem. However, robots for agriculture are far too expensive, slow, and intricate to be made available to the general population. </em><em><del cite="mailto:Archana%20Garg" datetime="2023-09-11T15:29"> </del></em><em>To eradicate insects and weeds, increase crop yield, and enhance crop quality, pesticides and herbicides are frequently used in floriculture, agriculture, and horticulture. Traditional spraying techniques, on the </em><em>other hand, may be labour- and time-intensive, may waste chemicals, and may endanger farmers' health. For floriculture and agriculture, the creation of an automatic Robot spray system offers a solution that can lower labour expenses, farmer effort, and chemical prices. This project's goal is to create an autonomous robot spray system for agriculture and floriculture that will maximise the use of pesticides and herbicides while enhancing crop quality.</em><em> </em><em>The suggested system comprises of a mobile robot outfitted with sensors, a control system, and a spraying mechanism. Based on the crop type and growth stage, the spraying mechanism is made to apply the exact amount of pesticide or herbicide to the crop. The spraying parameters are changed </em><em>because of</em><em> the sensors detecting the crop. The control system </em><em>oversees</em><em> the robot's entire performance, including communication, navigation, and obstacle avoidance.</em><em></em></p>S. B. PatilN. S. VatkarSiddhi PatilJuhi DharwadeMrunal ThoratAarya JadhavRumana Bagwan
Copyright (c) 2023 International Journal of Analog Integrated Circuits
2023-11-182023-11-18914852