Publications

Share / Export Citation / Email / Print / Text size:

International Journal on Smart Sensing and Intelligent Systems

Professor Subhas Chandra Mukhopadhyay

Exeley Inc. (New York)

Subject: Computational Science & Engineering , Engineering, Electrical & Electronic

GET ALERTS

eISSN: 1178-5608

DESCRIPTION

FEATURED ARTICLES

Touch fingerprint sensor based on sensor cell isolation technique with pseudo direct signaling
HYBRID DATA APPROACH FOR SELECTING EFFECTIVE TEST CASES DURING THE REGRESSION TESTING
PERFORMANCE AND ANALYSIS OF AUTOMATIC LICENSE PLATE LOCALIZATION AND RECOGNITION FROM VIDEO SEQUENCES

VOLUME 2 , ISSUE 2 (June 2009) - List of articles

CONTROL-CENTRIC SIMULATOR FOR MECHATRONICS DESIGN Case Study: Gyroscopically Stabilized Single Wheel Robot

Zhu Zhen/ A. Al-Mamun/ Myint Phone Naing

A 3-Dimensional simulation platform developed as an aid for designing complex mechatronics system is presented in this paper. It uses ADAMS for simulation with animation of the dynamic behavior of the mechanism whose parts are drawn using a 3-D drawing software e.g., SolidWorks. The overall simulation platform integrates the 3-D simulator ADAMS with control design software MATLAB. This integration allows the designer to adopt a control-centric approach for designing complex mechanical structure (..)

DOI: 10.21307/ijssis-2017-345

An electrodynamic sensor for electrostatic charge measurement

M. F. Rahmat/ N.S. Kamaruddin

Electrodynamic sensors are used in the process industry because they are low cost and robust. Though frequently used very little fundamental work on them has been reported. This paper describes an investigation into characteristics of hemispherically and rectangularly shaped sensors. Two parameters are investigated, the effect of sensor area on sensitivity and the spatial filtering effect of the sensor due to its finite size. Models are proposed and results obtained using them compared with expe(..)

DOI: 10.21307/ijssis-2017-346

DESIGN AND FPGA IMPLEMENTATION OF NONLINEARITY COMPENSATION OF CAPACITIVE PICK-OFF MEMS ACCELEROMETER FOR SATELLITE LAUNCH VEHICLES

Thampi Paul/ S.Vijin Jenius/ M. Sasi Kumar

This paper presents the algorithm on the compensator design for eliminating the nonlinearity in the capacitive pick-off MEMS open-loop accelerometer and its implementation in the FPGA. A simple and elegant method is presented for the purpose. In the sensor model of compensator, upto 3rd order terms are taken. The first step approximation is derived using linear model. This approximation is improved over iterations to reduce the non-linearity. With this method, the inertial navigational grade per(..)

DOI: 10.21307/ijssis-2017-347

EXTRACTING ELECTRIC POWER FROM HUMAN BODY FOR SUPPLYING NEURAL RECORDING SYSTEM

G. Ben Hmida/ A. L. Ekuakille/ A. Kachouri/ H. Ghariani/ A. Trotta

A powerful approach to the characterization of cellular electrical activity is electrical recording from cells or living tissues. The human central and / or peripheral nervous system has been a subject of study and fascination of the neuroscience and biomedical engineering communities for many decades. In this paper, we propose a new approach to feed implantable neural recording system, which based on extracting electrical power from human tissue warmth in order to supply a biomedical neural rec(..)

DOI: 10.21307/ijssis-2017-348

APPLICATION OF SELF-TUNING FUZZY PID CONTROLLER ON INDUSTRIAL HYDRAULIC ACTUATOR USING SYSTEM IDENTIFICATION APPROACH

Zulfatman / M. F. Rahmat

In this paper, Self Tuning Fuzzy PID controller is developed to improve the performance of the electro-hydraulic actuator. The controller is designed based on the mathematical model of the system which is estimated by using System Identification technique. The model is performed in linear discrete model to obtain a discrete transfer function for the system. Model estimation procedures are done by using System Identification Toolbox in Matlab. Data for model estimation is taken from an experiment(..)

DOI: 10.21307/ijssis-2017-349

MODELING AND MEASUREMENT SYSTEM FOR MAGNETIC FIELD DISTRIBUTIONS IN BIOLOGICAL STRUCTURES

I. Marinova/ V. Mateev/ H. Endo/ Y. Saito

In this paper we develop a system for modeling and measurement of magnetic field distributions in biological structures caused by the externally applied electromagnetic field. We describe an effective and versatile approach for three-dimensional reconstruction of the field distributions from two-dimensional visualization the measured magnetic field data. The finite element model for magnetic field calculation is built. The magnetic fields of very thin slices of the 3D object are determined and v(..)

DOI: 10.21307/ijssis-2017-350

A SIMPLE AND COUNTABLE METHOD FOR THE ASSESSMENT OF PERCEIVED WELL-BEING AMONG ELDERLY PEOPLE

Jori Reijula/ Toni Rosendahl/ Kari Reijula/ Matti Linnavuo/ Raimo Sepponen

This report illustrates the technical design for the monitoring system of wellbeing and demonstrates its feasibility in elderly people. The Con-Dis device consists of three buttons with a happy, neutral or unhappy face, each describing the mood of the patient. The functionality of the device was tested on 5 test persons who were asked to demonstrate their state of well-being by pressing one of the three buttons representing present condition three times per day for a time period of one week (5 w(..)

DOI: 10.21307/ijssis-2017-351

USING CAPACITIVE SENSING TO DETERMINE THE MOISTURE CONTENT OF WOOD PELLETS – INVESTIGATIONS AND APPLICATION

Anton Fuchs/ Michael J. Moser/ Hubert Zangl/ Thomas Bretterklieber

This paper discusses a measurement principle for online moisture determination of wood pellets that is based on capacitive sensing. To ensure reliability and proper operation of the sensing device even under harsh industrial conditions, a robust principle based on a frequency hopping approach is required. Therefore, we investigate the impact of multiple carrier frequencies and analyze the frequency dependency of the material permittivity. Two different electrode topologies, one based on parallel(..)

DOI: 10.21307/ijssis-2017-352

A NOVEL INTEGRATED WIRELESS SENSOR NETWORK ARCHITECTURE FOR DISASTER PREVENTION

Md. Abdullah-al MAMUN/ Yuji koi/ Naoshi Nakaya/ Goutam Chakraborty

There has been growing interest in the application of Wireless Sensor Networks (WSN) in the field of disaster prevention. In such applications, sensor nodes are randomly deployed in an area of interest, a large number of exactly same wireless sensor nodes form a robust mesh network to prevent damages in case of a disaster. In many applications, however, deploying sophisticated sensors on every sensor nodes is unnecessary and very costly. For example, in case of Earthquake one seismographic senso(..)

DOI: 10.21307/ijssis-2017-353

Portable Automatic Conjecturing and Announcing System for Real-Time Accident Detection

Chin Feng Lai/ Chen Ying Liu/ Sung-Yen Chang/ Yueh Min Huang

In this paper, we propose the portable automatic conjecturing and announcing system for real-time accident detection. There are six sensors with 3-axis accelerometers and the ZigBee transmission standard mounted on the patients' specific region. After being transmitted to the mobile device through the ZigBee devices, the data are analyzed immediately. When the accident occurs, the mobile device could get the user's location with Assisted Global Positioning System (AGPS) and transmit the informat(..)

DOI: 10.21307/ijssis-2017-354

No Record Found..
Page Actions