Innovation is my Hobby. Creativity is my Art.Learning is my Goal.
Innovative, Creative, Maker, Researcher
Jagannath Sahoo is an Impact Innovator, an Engineer by education, a maker. His area of interest includes topics not limited to wearables, augmented reality, IoT enabled products, mechatronics, human machine interface and cleantech.
Automatic Vehicle Registration Plate Recognition(AVRPR) is a pattern recognition application with great importance in vehicle counting, traffic surveillance and law enforcement. This system also offers users to place, mark out and monitor moving vehicles automatically by extracting their number plates. The proposed method for License Plate Recognition (LPR) system works in three modules: localization of license plate, segmentation of the characters and recognition of the characters from the license plate. Character recognition is done by using K-Nearest Neighbour Algorithm. Accuracy of more than 90% under testing dataset.
Urine-Glucose sensor using triangular photonic crystal structure is reported in this paper. In this work, photonic crystal is realized by considering glass (VITRON-IG) as back ground material with periodic six numbers of air holes containing different percentages of glucose in human urine. The principle of estimation of glucose in urine is based on variation of photonic band gap of aforementioned structure. The output beam emerging from above said crystal structure containing different percentages of human urine depends on both absorption and reflection loss. Simulation result reveals that output energy increases from 0.719 eV to 0.722 eV with glucose concentration, which varies from 0 gm/dL to 10 gm/dL. Finally, the output result along with glucose concentration is displayed using Arduino development board.
Published on IEEE Explorer
Project targets to the digitization of the old notice board where the authorities will enable with the feature of the Internet of Things. The authorities will have a web platform where they will update the notice by logging in. The Raspberry Pi will fetch the information from the web and it Display on the LCD screen. A custom app is made with Java, which will do this job of fetching data from the web database. The Web platform is made with PHP, java script and MySQL Database.
The use of visible light communication (VLC) in the area of smart home automation is presented in this paper. The VLC link between two Arduino development board containing microcontroller to transfer the controlling ASCII character through LED and LDR is also discussed. The Proteus ISIS simulation software is used to realize the data transfer between two microcontrollers. Simulation result revealed that different electrical gadgets can be controlled by using VLC link. The Experiment is also carried out to show its validation.
Published on Springer Nature Singapore Pte Ltd. 2017
Biometric authentication, most often termed as simply biometrics is used to verify the identity of a living person depending upon some physiological parameters, despite the entire cross individual similarities. In view of importance of Internet of Things, this design and implement, the cloud-based biometric attendance system using a low-cost IoT device Raspberry Pi. This project work has many advantages like desktop notification about the individual attendance info to the concerned person and checking own database by using both web and Android App from anywhere in the globe.
Publised On:Journal of Advanced Database Management & Systems, 2393-8730(online) Volume 3, Issue 3,www.stmjournals.com
Surveillance systems are the new most important part of any security systems. The research is made on making the intelligence camera with addition of motion detection capabilities to it. This paper proposes a motion detection system by implementing Matlab image processing toolbox for real-time processing along with a voice feedback system. It also uses an Arduino UNO board interfaced with different hardware like LCD, Buzzer etc to display the result. The image processing is made with pixel colour scaling and comparative method in the real world environment.
Published On: IEEE EDS NIST STUDENT Chapter
This project proposed an intelligent fault detection system using Arduino in optical fibre communication. The idea behind this fault invigilating module is to monitor the received power supply in optical fibre. For this purpose, the Arduino UNO which consists of Atmega 328 microcontroller is used along with the sensor unit. The output of the sensor is designed and simulated by employing Proteus ISIS simulators to monitor the received power supply in the optical fiber. The sensor unit is used for the simulation consists of a LDR along with an opamp. If there are any abrupt changes in power of optical line, the fault message is displayed on the LCD which is interfaced with Arduino and at the same time the date and time of fault occurrence will be transferred to the web server.
Published On: Journal of Applied Engineering Research, ISSN 0973-4562 Vol. 10 No.44 (2015),© Research India Publications; http://www.ripublication.com/ijaer.htm
This work presents a monitoring system that has the capability to monitor physiological parameters like human body temperature, blood pressure (BP), heartbeat and the oxygen level from multiple patient bodies. In the proposed system, a coordinator node in patient site has attached to the patient's body to collect all the signals from sensors and sends them to the central base station at doctor site. Both the units comprise of microcontroller and communicated with each other by Controlled Area Network (CAN) protocol. The different sensors attached to the patient’s body observe the required physiological parameters and are displayed in the LCD on the patient unit. Then the acquired data are transmitted to the central node on doctor site. This system can also detect the abnormal conditions, issue an alarm to the patient and send an SMS/E-mail to the doctor. Also, the monitoring signals are finally obtained in an Android mobile device. Finally, an android app is developed to display the recorded biomedical information graphically to both the doctor and patient in real time.
Telling about my life. I’m always passionate about do things differently, be the one among the hundreds and stand in-front of everything. These few things keep me wake-up for the new path. I love to learn new stuffs. This craziness in my life bring me to learn several things which are not of my domain. I always say one line, “The Man stops learning, after this he is no more live.” When I find free time I start myself gaining new skills like programming, designing circuits and finding some amazing and innovative for others.
I’m Jagannath, my nick name is Sipu. My father Lambodar Sahoo is in police and My loving mummy Shanti Sudha Sahoo cares us all. I love my family a lots.
I come from steel city Rourkela, a small city of Odisha. I completed my bachelor’s degree from Gandhi Institute For Technological Advancement, Bhubaneswar. At present I’m part of start-up of my own company known as EPSUMLABS. Thinking, Innovating and making something different makes me and my work full with idea and creativities.
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This is underlined and this is code: for (;;) { ... }. Finally, this is a link.
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i = 0;
while (!deck.isInOrder()) {
print 'Iteration ' + i;
deck.shuffle();
i++;
}
print 'It took ' + i + ' iterations to sort the deck.';| Name | Description | Price |
|---|---|---|
| Item One | Ante turpis integer aliquet porttitor. | 29.99 |
| Item Two | Vis ac commodo adipiscing arcu aliquet. | 19.99 |
| Item Three | Morbi faucibus arcu accumsan lorem. | 29.99 |
| Item Four | Vitae integer tempus condimentum. | 19.99 |
| Item Five | Ante turpis integer aliquet porttitor. | 29.99 |
| 100.00 | ||
| Name | Description | Price |
|---|---|---|
| Item One | Ante turpis integer aliquet porttitor. | 29.99 |
| Item Two | Vis ac commodo adipiscing arcu aliquet. | 19.99 |
| Item Three | Morbi faucibus arcu accumsan lorem. | 29.99 |
| Item Four | Vitae integer tempus condimentum. | 19.99 |
| Item Five | Ante turpis integer aliquet porttitor. | 29.99 |
| 100.00 | ||