https://www.matjournals.in/index.php/JOEDE/issue/feedJournal of Electronic Design Engineering2019-07-12T12:25:46+0530Open Journal Systems<p><strong>Journal of Electronic Design Engineering:-</strong> is a print e-journal focused towards the rapid Publication of fundamental research papers on all areas of electronic design engineering.<br />This Journal involves the basic principles of design, fabrication, and operation of circuits, electronicdevices, and systems</p><ul><li>Electricity, electronics, and electromagnetism</li><li>Microelectronics</li><li>Signal Processing</li><li>Telecommunications</li><li>Global Positioning System to electric power generation</li><li>Electron tubes, and semiconductor devices, especially transistors, diodes and integrated circuits</li><li>Solid-state physics</li><li>Radio engineering</li></ul><p>This Journal involves the comprehensive coverage of all the aspects of electronic design engineering.</p>https://www.matjournals.in/index.php/JOEDE/article/view/3758A Methodology to Secure ATM System Using Microcontroller2019-07-12T12:25:20+0530Ankita S. Ugaremayuripatilsit@gmail.comAnuja S. Bhendavademayuripatilsit@gmail.comMayuri L. Patilmayuripatilsit@gmail.comMonika R. Varnolemayuripatilsit@gmail.comSwati S. Halundemayuripatilsit@gmail.com<p><em>This paper gives the depiction of the new way to deal with wards the security of ATM (Automatic Teller Machine) Systems. Frauds related to the ATM (Automatic Teller Machine) are increasing day by day which is a serious issue. ATM security is used to provide protection against these frauds. Though security is provided for ATM machine, cases of robberies are increasing. Past advancements give security inside machines to secure transaction, yet machine isn't flawlessly ensured. The ATM machines are not safe since security provided traditionally were either by using RFID reader or by using security guard outside the ATM. This security is not sufficient because RFID card can be stolen and can be misused for robbery as well as watchman can be black mailed by the thief. So there is a need to propose new technology which can overcome this problem. This paper proposes a system which aims to design real-time monitoring and controlling system. </em></p>2019-04-10T09:05:53+0530Copyright (c) 2019 Journal of Electronic Design Engineeringhttps://www.matjournals.in/index.php/JOEDE/article/view/3808Emergency Detection and Monitoring Daily Routine of a Cattle using IOT2019-07-12T12:25:27+0530Chandana Rnagashreemani.098@gmail.comNagapragathi S Vnagashreemani.098@gmail.comNagashree B Knagashreemani.098@gmail.comPooja Manjunathnagashreemani.098@gmail.comMr. Kiran Kumar Tnagashreemani.098@gmail.com<p class="Abstract"><em>The main aim of this system is to smarten the infrastructure of cattle farming and to track the biological and physiological activities of cattle by implementing a noninvasive wearable by using IOT. In these, we come into picture the lightning sensor depend upon the climate it will turn on and off, temperature sensor will depend upon room temperature of cattle farm; methane sensor is used to check methane level in the farm; fire sensor depend upon any fire emergency and is responsible for smart lighting and also smart ventilation, it is also responsible for sprinkler actuation to make the infrastructure safer and smarter. We are also implementing automatic food releasing mechanism. We can identify the single cattle count with the help of the IR sensor.</em></p>2019-04-25T05:50:53+0530Copyright (c) 2019 Journal of Electronic Design Engineeringhttps://www.matjournals.in/index.php/JOEDE/article/view/4109Design of E-shaped Microstrip Patch antenna for S band Applications2019-07-12T12:25:36+0530Mr.P. Sivakumararunapothi@gmail.comP. Arunadeviarunapothi@gmail.comMs.T. Revathiarunapothi@gmail.comMr.L.K.Balaji Vignesharunapothi@gmail.comMr.C. Shanmugarajaarunapothi@gmail.comMicro strip antennas are widely used in many applications due to their low profile, low cost and ease of fabrication which is required in various applications like mobile & satellite communication, Global positioning system and wireless application etc. In this paper, different E-shaped micro strip patch antennas are designed and the results are compared. The antenna design is an improvement from previous research and it is simulated using ADS (Advanced Design System) software. The design has been made on low cost material of FR4 substrate having dielectric constant of 4.2 with thickness of 1.6 mm. The proposed scheme is used by the probe feeding technique in order to operate under the frequency range of 3.45 GHz. The main objective of this paper is to design E-shaped microstrip antenna under various conditions by adjusting the dimensions of the antenna. After comparing different antenna’s parameter values, the better antenna will give good enhancement in the return loss, bandwidth, gain and directivity.2019-07-12T12:23:28+0530Copyright (c) 2019 Journal of Electronic Design Engineeringhttps://www.matjournals.in/index.php/JOEDE/article/view/3940Opportunistic Routing using Wireless Sensor Networks2019-07-12T12:25:41+0530Prankur Guptaamarranjere1997@gmail.comAmar R.amarranjere1997@gmail.comDr. H.C. Srinivasaiahamarranjere1997@gmail.com<p><em>Wireless Sensor Networks (WSN) are used in our daily life for monitoring and controlling application because of it’s unique features such as low power consumption, reduced cost, and implementation with ease. To improve the lifetime of wireless sensor networks energy efficient routing protocol is very necessary to choose in the network layer of WSN. A comparative analysis based on performance and energy consumption referring to opportunistic routing algorithm is done. It is being evaluated in terms of energy consumed, packets lost, flow rate and throughput. We see that Opportunistic routing algorithm performs way better than the entire traditional routing algorithm. The results provided show that Opportunistic routing give significant improvement in power consumption.</em></p>2019-05-22T04:28:03+0530Copyright (c) 2019 Journal of Electronic Design Engineeringhttps://www.matjournals.in/index.php/JOEDE/article/view/4000Bank Locker Security with Fingerprint and Image Capture2019-07-12T12:25:46+0530V Hindumathihindumathi.v@bvrithyderabad.edu.inM. Sushmithahindumathi.v@bvrithyderabad.edu.inM. Yoshithahindumathi.v@bvrithyderabad.edu.inR. Venkata Harikahindumathi.v@bvrithyderabad.edu.inA. Sri Vaishnavihindumathi.v@bvrithyderabad.edu.inThe secure fingerprint based bank locker system is an enhancement to the traditional bank locker system that uses keys. The fingerprint authenticated bank locker system is safe as well as easy to use and maintain. The system uses fingerprint sensing and image capture. This system scans the fingerprint and also capture the image of user and compares with registered customer image. If match is not found with existing image of the particular user, then it sends the message to the concern bank manager and the customer. Also, the buzzer is used to know about the unauthorized person to the bank manager immediately. If it match with both fingerprint and image then the locker opens.2019-06-07T07:05:28+0530Copyright (c) 2019 Journal of Electronic Design Engineering