https://engineeringjournals.stmjournals.in/index.php/CTSP/issue/feedCurrent Trends in Signal Processing2024-02-26T11:48:23+00:00Saritaelectronics.editor@conwiz.inOpen Journal Systems<p><strong>Current Trends in Signal Processing (CTSP)</strong></p><p><strong>eISSN: <strong>2277–6176</strong></strong></p><p><strong>ISSN: 2321- 4252</strong></p><p><strong>Click <a href="/index.php/CTSP/about/editorialTeam">here </a>for complete Editorial Board</strong></p><p><strong><strong></strong></strong><strong><strong>Scientific Journal Impact Factor (SJIF):</strong> 6.103</strong></p><p><strong>Current Trends in Signal Processing ( CTSP)</strong> is a print and e-journal focused towards the rapid publication of fundamental research papers on areas of Signal Processing. <strong>It's a triannual journal, started in 2011.</strong></p><p><strong><span><strong>Journal DOI no.: 10.37591/CTSP</strong></span></strong></p><p><strong>Indexed in: </strong>Google Scholar, Citefactor, SJIF, Index Copernicus, Advanced Science Index, Journal TOC, Indian Science Abstracts ,Publons, <a href="https://journals.indexcopernicus.com/search/form?search=Current%20Trends%20in%20Signal%20Processing">Index Copernicus (ICV)</a> : 57.27</p><p><strong>Focus and Scope Covers</strong></p><ul><li>Electrical Engineering and Signaling</li><li>Systems Engineering and Signaling</li><li>Applied Mathematics and Signaling</li><li>Control System Signals</li><li>Telecommunication Transmission Signals</li><li>Analog & Digital Signals</li><li>Time Varying Measurement Values & Sensor Data</li></ul><p><span>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.</span></p><p><strong>Submission of Paper: </strong><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>Manuscripts are invited from academicians, students, research scholars and faculties for publication consideration.</p><p>Papers are accepted for editorial consideration through email <strong><a href="mailto:electronics@stmjournals.com" target="_blank">electronics@stmjournals.com</a> or <a href="mailto:electronics.editor@celnet.in">electronics.editor@celnet.in</a></strong></p><p><strong>Subject: </strong>Signal Processing</p><p><strong>Abbreviation: CTSP</strong></p><p><strong>Frequency</strong>: Three issues per year</p><p><strong><a href="/index.php/CTSP/about/editorialPolicies#sectionPolicies">Peer Reviewed Policy</a></strong></p><p><strong><a href="/index.php/CTSP/about/editorialTeam">Editorial Board</a></strong></p><p><a href="http://stmjournals.com/pdf/Author-Guidelines-stmjournals.pdf"><strong>Instructions to Authors</strong></a></p><div class="subscrib"> </div>https://engineeringjournals.stmjournals.in/index.php/CTSP/article/view/7657AI Based Virtual Mouse Using Hand Gestures2024-02-26T11:48:23+00:00Umesh Pinjarkarumesh.pinjarkar@aiml.sce.edu.inVedant Bhosaleumesh.pinjarkar@aiml.sce.edu.inPrathamesh Pawarumesh.pinjarkar@aiml.sce.edu.in<em><span>The field of human-computer interaction has advanced significantly over the last several years. To incorporate the use of a mechanical mouse for controlling the mouse pointers with hand gestures and color recognition, we employed a Human-Computer Interaction technique in this project. </span><span>Object identification, image processing, and color recognition are the three key areas in which our project's suggested technologies are applied. In this project, we will demonstrate a revolutionary method of Human-Computer Interaction in which the cursor's movement is controlled by a real-time camera. Hand gestures were recorded using a camera and color recognition software. </span><span>Driven by the notion of interacting with the computer system, we have attempted to eliminate the boundaries between human and computer communication by substituting gestures for the hardware that is already in place. The objective is to employ finger motions—that is, gesture recognition—instead of relying on hardware, like a mouse, to move the mouse cursor on the screen. In recent years, various technologies have been investigated to create virtual mice. The three primary domains of our project's proposed technologies are object identification, image processing, and color recognition. In this study, we provide a novel approach to human-computer interaction in which a real-time camera controls the pointer movement.</span></em>2024-02-15T06:59:40+00:00Copyright (c) 2024 Current Trends in Signal Processinghttps://engineeringjournals.stmjournals.in/index.php/CTSP/article/view/7660Thevenin and Norton Resistance Using Time Domain Analyses Using Spice Simulations2024-02-26T11:48:23+00:00K. Bharath kumarbbkrishnapuram3@yahoo.com<p><em>Thevenin and Norton equivalent circuits are of interest to circuit simulation designers and researchers. For the Thevenin resistance and Norton conductance determination of a network with available circuit theorems, the substitution network theorem (applied to OrCAD, SPICE, and Pspice AD simulation project) is shown to be suitable with the SPICE/ Pspice circuit simulation software. Instead of the DC option, the transient analyses option of SPICE is used to determine Thevenin/Norton conductance/resistance to pure resistive and active circuits, using polynomial sources for voltage to current division. The procedure can be extended to personal computer software like Pspice, OrCAD, and MicroCAP. The described application procedure can also be applied to active circuits with HEMT, and BJTs represented by their small signal/linear models. The results can also be verified by the Superposition theorem and individual resistances could also be replaced by the Analog behavioral modeling (VALUE) option available in the OrCAD simulation program. By using temperature dependent models for resistors to look up tables for use in electronics circuits for THEVENIN and NORTON equivalents can be obtained. For tutorial interest. the substitution theorem variants can also be used to determine Thevenin/Norton immittance; for the Thevenin resistance determination the equation with arbitrary value of k’ {I branch * Runknown + k’ *Thevenin voltage = 1/2 * Thevenin voltage}, can be used to know R unknown which should be substituted at the termination in series with k’* Thevenin voltage. The terminating value for Norton conductance GNOR/k’ with independent current source k1 *Isc can be obtained with the following equation {Isc/2 = k1*Isc + GNOR*Vbranch/k’}. The individual Thevenin/Norton resistances could also be employed as substitutes for larger circuits, for time domain and DC analyses and verification.</em></p>2024-02-19T05:44:10+00:00Copyright (c) 2024 Current Trends in Signal Processinghttps://engineeringjournals.stmjournals.in/index.php/CTSP/article/view/7680Automatic Gate Based on Facemask and Temperature Detection2024-02-26T11:48:23+00:00M. Divya Tejadivyateja.m2020@vitstudent.ac.inN. Ganeshdivyateja.m2020@vitstudent.ac.inBhuvan Saieeshdivyateja.m2020@vitstudent.ac.inS. Hari Bhushandivyateja.m2020@vitstudent.ac.in<p><em>The coronavirus COVID-19 pandemic has been spreading over the world for months and is producing a serious health problem. According to the World Health Organization, wearing a face mask in all situations where people are congregated is a beneficial and safe strategy (WHO). India's large population would make it difficult to prevent the coronavirus from spreading. Face masks and sanitizers are the most effective methods of preventing transmission. When it comes to minimizing disease transmission, this has proven positive outcomes. The COVID-19 epidemic has had an impact on everything from professional activities to social connections, sports of all kinds, and off-screen and on-screen pleasure. Body temperature and sanitization, in addition to the face mask, are important factors in staying safe. As a result, it's more important to keep track of who's wearing the mask and who isn't. So, our organization has opted to work on this issue, and we believe that our method will be effective in decreasing the spread of this infectious disease by encouraging workers to wear face masks, sanitize periodically, and keep the workplace safe</em></p>2024-02-10T00:00:00+00:00Copyright (c) 2024 Current Trends in Signal Processinghttps://engineeringjournals.stmjournals.in/index.php/CTSP/article/view/7656Future Now: Network Architecture of 6G2024-02-26T11:48:23+00:00Younis Parvaizshahyounis098@gmail.comGeeta Sharmashahyounis098@gmail.com<p><em>5G networks are currently being rolled out in various parts of the globe and are expected to be done as the decade ends. However, with the continuously increasing demand for bandwidth and the need for automation, even the most advanced network architecture is expected to reach its capacity limit by 2030. The emergence of wireless technologies has led to the introduction of new infrastructure elements like High-Speed Packet Access (HSPA) and Long-Term Evolution (LTE). This paper aims to explore what holds in the scene of wireless communication and associated technologies. It is expected to revolutionize the digital world in unimaginable ways with its higher transmission rate, improved spectrum efficiency, greater connection proportions, higher spectrum coherence, and significantly reduced latency. This paper presents the findings of a detailed study on the construction of 6G, with a focus on the mobile communication aspect and the key technologies likely to be deployed on 6G networks. Furthermore, the paper provides ongoing research being carried out by different research organizations.</em></p>2024-02-15T05:50:40+00:00Copyright (c) 2024 Current Trends in Signal Processing