V. V. Shete

Bio: V. V. Shete is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Porting & ARM architecture. The author has an hindex of 1, co-authored 1 publications receiving 3 citations.

Developing ARM based PDA using Inferno OS

Abstract: Developing an Embedded system with ARM & Inferno operating system is a radically simplified revolutionary approach. ARM offers the widest choice of embedded operating systems (OS) and execution environments for embedded system development. Inferno comes with all that is needed to quickly develop advanced applications and with ideal solution to produce a winning system design. Inferno is a compact and powerful operating system, ideal for use in embedded devices. It runs on most popular processor architectures. Nowadays Personal Digital Assistants are no more a luxury but a necessity. We will make an attempt to build the essential PDA applications in Inferno environment ported on ARM processor.

Fluorescent magnetic particle inspection device based on digital image processing

Abstract: Fluorescent magnetic particle inspection is widely applied in industry production, however; traditional ways are manual and depend on individuals' experience, which can also cause damage to workers' eyes. An automatic fluorescent magnetic particle inspection device is presented in this paper. A series of image processing methods have been investigated, which are put into a combination for detecting flaws in images automatically. And we propose a wavelet-based Canny operator to extract outlines of flaws in images, which is more effective than common Canny operator, and could constrain noises at a reasonable level. Results suggest that this novel automatic inspection device offers a low labor intensity but more effective way for flaw detection work, and image processing methods proposed in this paper are feasible.

Smart Train Accident Detection And Prevention System Using Iot Technology

Abstract: The point of this paper is to plan and foster a finger impression based train motor getting to framework with a perspective on lessening manual working and to avert unauthorised users. As of late, train commandeer has been on the increment as equipped burglars center around taking vehicles, particularly the pristine ones. This is accomplished with the utilization of a finger impression module, ATMega328P microcontroller and Liquid Crystal Display (LCD) module. Correspondence based train control (CBTC) [8] is a control mechanism which use bidirectional train–ground to operate the trains in a safer manner. Since there is problem in controlling the train via remote operation and its transportability, wireless networks can be incorporated to manage the execution of train control system.For that we used ESP2866 wifi module which is used for uploading the train engine drivers database into the server. However we can avoid this collision and prevent the train from accident by utilizing the impact identification innovation which can be made by ultrasonic sound. This technology is used to detect the obstacle and it gradually slow down the speed of the train by applying the air brake to stop the train before the mishap occurs.

Object collision avoidance with train using android based kit (oak)

Abstract: Railways are providing Eco-Friendly transport system for the mankind. Train accidents can happen very often due to safety violations which results from human errors or limitations in the operation of the existing system and also due to equipment failures’. Our project is fully concentrating on avoiding train collisions and ensures passengers safety through android system integrated with ultrasonic and MEMS sensor based control system inbuilt in the train. Emergency alerts can be sent through traditional tele-communication systems such as Walkie-Talkies or other communication devices. However, Collision avoidance systems using IR sensor and anti collision device are being used by the Railway sector is still facing some problems due to the consideration of some factors such as cost-effectiveness, despite it is increasing the amount spent on implementation of the devices. Currently, to some extent the Konkan Railways has put efforts to provide train safety through Zigbee and Infrared based sensor concepts. Even though it has the disadvantages such as limited range of signal covered and difficulty in their implementation in the real world it is still being used. Hence these drawbacks can be overcome in our project by using android based electronic component for the fast communication with latest technology (ARM-7 LPC 2148) to avoid collision and it gets operated through the GPS /GSM concepts. Here RTOS is ported with ARM7 which deal with much more complicated tasks. Our work will be accepted worldwide because of its effectiveness and its robust communication features.