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Hemavathy, R.
- Outcome Based Education: An Empirical Approach
Authors
1 Department of CSE, R V College of Engineering, Bangalore, IN
Source
Journal of Engineering Education Transformations, Vol 28, No 2&3 (2015), Pagination: 92-97Abstract
The outcome based education is student centric approach where the student's performance are measured to justify the curricula and teaching learning process with the help of appropriate assessment tools. Based on the outcome assessed the curricula can be modifi ed by identifying the areas in which students are to be strengthened. Each educational institution defi nes their own outcomes and use their own approach to measure students' performance based on their outcomes. OBE doesn't have set of protocols to follow instead the institution will follow its own procedure to measure students' performance. In OBE we measure what students have learnt using gathered evidences like marks in tests, quizzes, projects, self-study etc. and identify what they were supposed to learn which in turn will help in enhancing/modifying the course. This paper discusses an approach to fi nd the course attainment and program attainment through which we can assess our student's performance.Keywords
OBE, CO Attainment, PO Attainment, PEO.- Deaf-Mute Communication Interpreter
Authors
1 Department of B.M.E., Sri Sivasubramania Nadar College of Engineering, Chennai, Tamil Nadu, IN
Source
International Journal of Scientific Engineering and Technology, Vol 2, No 5 (2013), Pagination: 336-341Abstract
Communications between deaf-mute and a normal person have always been a challenging task. The project aims to facilitate people by means of a glove based deaf-mute communication interpreter system. The glove is internally equipped with five flex sensors, tactile sensors and accelerometer. For each specific gesture, the flex sensor produces a proportional change in resistance and accelerometer measures the orientation of hand. The processing of these hand gestures is in Arduino. The glove includes two modes of operation – training mode to benefit every user and an operational mode. The concatenation of letters to form words is also done in Arduino. In addition, the system also includes a text to speech conversion (TTS) block which translates the matched gestures i.e. text to voice output.Keywords
Deaf-Mute, Communication, Gesture, Flex Sensor, Tactile Sensors, Accelerometer, TTS.- Intra-Body Communication in Bio-Medical Application-Monitoring Health Care
Authors
1 Department of ECE - Hindusthan College of Engineering and Technology, IN
Source
Biometrics and Bioinformatics, Vol 11, No 2 (2019), Pagination: 17-19Abstract
Human Body Communication (HBC) has emerged as an alternative to radio wave for connecting low power, miniature wearable and implantable devices in, on and around the human body. HBC uses the human body as the communication channel between on-devices. The major health care measurements such as Temperature, Heart beat rate and Respiratory rate of the human body are measured and transmitted to the authorized person with a secure manner by the intra body communication. Red-Tacton receiver- transmitter is a device which senses the minute electric field that produced when two human bodies came in contact with each other. By this communication the wired channel communication become less which makes the patient more comfortable for their check up. It can be stored in a database for the future reference of a doctor.
References
- Biophysical Modelling, Characterization And Optimization Of Electro-Quasistatic Human Body Communication by Shovan Maity, Mingxuan He, Debayan Dax, Baibhab Chatterjee, Shreyas Sen IEEE Transaction on 2018.[1]
- Nanoscale Optical Wireless Channel Model For Intra-Body Communications: Geometrical,Time And Frequency Domain Analyses by Pedram Johari, Josep Miquel Jornet IEEE Transaction on Communications, VOL. 66, NO. 4,APRIL 2018.[2]
- Experimental Evalution Of Impulsive Ultrasonic Intra-Body Communication For Implantable Biomedical Devices by G. Enrico Santagati, Tommaso Melodia IEEE Transaction on Mobile Computing, VOL.16, NO.2, FEB 2017[3].
- Secure Communication System For Wearable Devices Wireless Intra- Body Communication by Sang Don Kim and Seung Eun Lee Seoul National University of Science and Technology, Seoul, Korea, IEEE International conference on Consumer Electronics,2015.[4]