https://engineeringjournals.stmjournals.in/index.php/RTSRT/issue/feedRecent Trends in Sensor Research and Technology2024-03-04T10:11:36+00:00Saritaelectronics.editor@conwiz.inOpen Journal Systems<p><strong>Recent Trends in Sensor Research & Technology (RTSRT)</strong></p><p><strong>eISSN: <span>2393-8765</span></strong></p><p><strong>Click <a href="/index.php/RTSRT/about/editorialTeam">here</a> for complete Editorial Board</strong></p><p><strong><strong></strong></strong><strong><strong>Scientific Journal Impact Factor (SJIF):</strong> <strong>6.233</strong></strong></p><p><strong>Recent Trends in Sensor Research & Technology (RTSRT)</strong><span> Publishes original, rigorous, and scholarly contributions in the field of Sensor research and technology. The Journal intends to publish Research/Review/Short articles in the area of Sensor research. <span>It's a triannual journal, started in 2014.</span></span></p><p><span><span><strong><span><strong>Journal DOI no.: <strong>10.37591/RTSRT</strong></strong></span></strong></span></span></p><p><span><span><strong><span><strong><strong><strong>Readership:</strong><span> </span></strong></strong></span></strong>Graduate, Postgraduate, Research Scholar, Faculties, Institutions, and in Industries.</span></span></p><p><strong>Indexed in: </strong>Google Scholar, Journal TOC, Indian Science Abstracts, Citefactor, SJIF, <a href="https://journals.indexcopernicus.com/search/details?id=125008">Index Copernicus (ICV</a> : 55.27)</p><div><p><strong>Focus and Scope Covers</strong></p><ul><li>Electric Sensor Technologies</li><li>Magnetic Sensor Technologies</li><li>Electrophysiological Monitoring</li><li>Forensics and Materials Characterization</li><li>Intelligent Vision Sensors</li><li>Tracking and Sensor Fusion</li><li>Space-Based Surveillance and Detection</li><li>Optoelectronic Sensors</li><li>Wireless Sensors</li><li>Thermal Sensors</li><li>Mechanical Sensors</li><li>Electromagnetic Sensor</li><li>Imaging and related Sensors</li><li>Wireless Sensor</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><div id="journalDescription"><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"><strong>electronics@stmjournals.com</strong></a> or <a href="mailto:electronics.editor@celnet.in">electronics.editor@celnet.in</a></strong></p><p><strong>Subject: </strong>Sensor Technology</p><p><strong>Abbreviation: RTSRT</strong></p><p><strong>Frequency</strong>: Three issues per year</p><p><strong><a href="/index.php/RTSRT/about/editorialPolicies#sectionPolicies">Peer Reviewed Policy</a></strong></p><p><strong><a href="/index.php/RTSRT/about/editorialTeam">Editorial Board</a></strong></p><p><strong><a href="http://stmjournals.com/pdf/Author-Guidelines-stmjournals.pdf">Instructions to Authors</a></strong></p><div> </div></div><p><span><br /></span></p><p> </p></div>https://engineeringjournals.stmjournals.in/index.php/RTSRT/article/view/7663IoT-Enhanced Integrated LPG Level and Leakage Detection System2024-03-04T10:11:36+00:00Ayodeji G. Ashidiagashidi@futa.edu.ngOkikiade A. Layioyeagashidi@futa.edu.ngBusola S. Badaruagashidi@futa.edu.ngAdewumi T. Obagadeagashidi@futa.edu.ngOluwatobi I. Balogunagashidi@futa.edu.ng<p><em>Increased statistics of fire outbreak occurrences and gas leakage incidents in both industrial and domestic applications has called for better safety measures in Liquefied Petroleum Gas (LPG) management. Research efforts are therefore geared towards developing solutions which could greatly curb the menace of fire outbreaks and leakages of highly flammable gases. </em><em>The presented work focuses on the design and fabrication of an IoT-enhanced system dedicated to the monitoring and detection of LPG level and leakage, and suitable for hazard prevention. The developed device consists of several units: the gas sensing unit, microcontroller unit, measuring unit, real-time clock, display unit, and power supply unit. The gas sensing unit is an electrochemical sensor whose resistance changes whenever the LPG is being detected, with precision for gas concentration measurement in parts per million (ppm). The quantity of gas in kilograms (kg) is measured by a load cell which is a transducer. It converts a mechanical force to an electrical output which is fed through an amplifier (HX711) to the microcontroller. The microcontroller was programmed with C++ language in Arduino Integrated Development Environment (IDE) to read and process the electrical signal into readable form. For the calibration of the developed device, two methods were employed namely: an experimental calibration setup and field calibration at a gas station. With the experimental setup, the outputs of the sensing unit were compared with standard laboratory masses of 0.5 kg, 1 kg, 2 kg, and 5 kg. Calibration of the developed device and a standard device at gas station showed a clear relation.</em></p>2024-02-10T00:00:00+00:00Copyright (c) 2024 Recent Trends in Sensor Research and Technologyhttps://engineeringjournals.stmjournals.in/index.php/RTSRT/article/view/7695Security and Privacy Concerns Surrounding Spying Rovers: A Research Perspective2024-03-04T10:11:36+00:00Sumana S.sr06patil@gmail.comSadashiva Raddysr06patil@gmail.comNischit M.sr06patil@gmail.comSagar H. P.sr06patil@gmail.comRaghavendra Y.sr06patil@gmail.com<p><em>This paper describes the creation of a flexible spying rover utilizing the electronic stability control (ESP32-CAM) module. The ESP32 microcontroller's strength and the ESP32-CAM camera module's capability are combined by the rover to enable remote monitoring and image capturing. The main objective of this paper is to build an effective and adaptable surveillance rover that can take pictures and send them to a specified Telegram channel or user. Humans operate robotic machines to perform tasks. It is crucial to monitor hazardous situations since they pose a threat to human life and should be avoided. Places like mining sites, urban disasters, closed situations, explosions, etc. need to be continuously watched. The novelty introduced in this work is the spy rover's interaction with Telegram. The rover can create a secure communication channel with a chosen Telegram bot or channel by setting up the ESP32 microcontroller to connect to the Telegram Bot application programming interface (API). When directed, the rover can take pictures and send them right away to the designated Telegram user. This remote picture transmission capability is important when real-time information and surveillance are essential.</em></p>2023-12-30T00:00:00+00:00Copyright (c) 2024 Recent Trends in Sensor Research and Technologyhttps://engineeringjournals.stmjournals.in/index.php/RTSRT/article/view/7492Sensor Based Agriculture – An approach Towards Better Agriculture Management2024-03-04T10:11:36+00:00Sonali S Takawadesonalitakawade17@gmail.comShubha Baravanisonalitakawade17@gmail.comNikita T Vanjerisonalitakawade17@gmail.comKushal R Suryawanshisonalitakawade17@gmail.com<p class="Abstract"><em>Agriculture plays a crucial role in India's economy, and nowadays, it has become more data-driven and advanced. This paper discusses how sensors are being used in agriculture to make it smarter and more precise. Different types of sensors are available for specific tasks in farming, like checking soil conditions, monitoring crop status, managing irrigation, detecting insects, and studying environmental effects. Farmers are benefiting from these sensors throughout the entire crop process, from planting to harvesting, packing, and transportation.</em> <em>Farmers may secure higher harvests, optimize resource utilization, and make more informed decisions by utilizing the knowledge these smart sensors provide. These sensors are transforming the age-old practice of farming, whether it is by tracking animal movements, identifying early signs of plant illnesses, or automating irrigation to conserve water. By using this technology, farmers can work more effectively and efficiently. Different sensors have different specific tasks which will help the farmers to do their work in easy existence. Farmers should implement smart farming technology to enhance the growth. Indian agricultural economy. The main goal of these sensor systems is to reduce the need for human intervention and make farming easier by connecting the real world to the virtual world</em></p>2023-12-30T00:00:00+00:00Copyright (c) 2024 Recent Trends in Sensor Research and Technologyhttps://engineeringjournals.stmjournals.in/index.php/RTSRT/article/view/7647Types and Applications of Chemochromic Sensors2024-03-04T10:11:36+00:00Aditi Raiusha.shukla1@gmail.comUsha Shuklausha.shukla1@gmail.com<p><em>Smart materials, also known as responsive or intelligent materials such as chemochromic materials changes colour upon exposure to a different environment or when react with different chemicals. Chemo chromic sensors are specially designed for robustness and can be used for leak detection in the vicinity of connections, valves, or Hydrogen line outlets. They can be altered, nevertheless, for a variety of uses. These are the materials whose colors and reflective qualities vary when exposed to various substances. This is a result of several chemical reactions that the material is undergoing. When an electron that was once a component of a chemical bond dislocates and takes up a new place inside the molecule, the substance absorbs a certain color of light depending on whether the electron is there or not. The aim is to provide a simple and robust Hydrogen sensor, when exposed to Hydrogen, changes colour and is not prone to failure. The sensor can be left in place during hazardous operations and does not require any operator or power intervention. Here, we will get to know about the use of these materials as sensors in different fields like Hydrogen detecting sensor, sensor for detecting Hypergolic fuels that are hazardous in their very nature.</em></p>2023-12-27T00:00:00+00:00Copyright (c) 2024 Recent Trends in Sensor Research and Technologyhttps://engineeringjournals.stmjournals.in/index.php/RTSRT/article/view/7696Gesture Connect Gesture Recognition for Sign Language2024-03-04T10:11:36+00:00Umesh Pinjarkarumesh.pinjarkar@aiml.sce.edu.inHeena Sheikhumesh.pinjarkar@aiml.sce.edu.inSaurabh Tripathiumesh.pinjarkar@aiml.sce.edu.inKaustubh Sonkusaleumesh.pinjarkar@aiml.sce.edu.in<p><em>A natural method of human-computer interaction, hand gesture recognition is a hot topic in computer vision and machine learning research. This field offers a wide range of potential applications, allowing users to interact with robots and system interfaces in a more straightforward and natural way without requiring additional hardware. One of the primary goals of gesture recognition research is to create systems that can identify gestures and use them to send data or control a device. But gestures need to be represented in both the temporal and spatial domains; a hand posture is the hand's static structure, whereas a gesture is its dynamic mobility. Researchers studying gesture recognition in human-machine interaction have shown that hands are among the most important instruments for human communication in daily life, which has led to the use of this technology in a range of settings. Therefore, the main objective of research on gesture recognition in the context of human-computer interaction (HCI) is to develop systems that can recognize certain human gestures and use them to operate devices or transmit information. To do this, real-time gesture recognition and quick, incredibly reliable hand detection are necessary for vision-based hand gesture interfaces. With the aid of machine learning methods, this work proposes a sufficiently generic approach that may be used in a variety of HCIs.</em></p>2023-12-30T00:00:00+00:00Copyright (c) 2024 Recent Trends in Sensor Research and Technology