PROJECTS
//Active Vibration Monitoring System
System developed to stimulate the peizo material whith known frequency and vibration amplitude in g. Monitoring and analyzing the vibration using ICP type accelerometer.
Hardware:
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ICP type single axis accelerometer
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4 channel IEPE Data acquisition system
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Smart Shaker
Software:
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LabVIEW based customized software for vibration monitoring
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Automatic data logging
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Data Analyzer - logged data
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synchronization between channels for acquisition
Handled this project at Structural Solutions Private Limited
//Dynamic Pressure Measurement System
Developed software to measure the dynamic pressure change in close end air-column. The system integrated by using two 4 channel data acquisition system and 2 dynamic pressure transducers
Hardware:
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ICP type dynamic pressure transducers
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4 channel IEPE Data acquisition system
Software:
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LabVIEW based customized software for pressure measurement
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Automatic data logging with engineering value
Handled this project at Structural Solutions Private Limited
//Dual Channel Frequency Response Analyzer
This system is used to validate the operation and stability of Electro-Hydraulic Actuator at various frequencies using Frequency Resposne Analysis. Actuator is driven using known amplitude and frequency control signal (Sine wave). The response of actuator measured using LVDT connected parallel to the actuator. Comparision between the control and response signal will give Magnitude and Phase details which can be further verfied with the design data of actuator.
Hardware:
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Data acquisition system with analog output and input card
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Actuator Controller (Ruggedised PC for acqusition)Data
Software:
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LabVIEW based Frequency Response Analysis software
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Live update of FRA calculation (Magnitude and Phase) to graph as well as table
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Timing synchronization between acquisition of control and response signal to eliminate the calculation error
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Different cursors option
Handled this project at Structural Solutions Private Limited
//MEASUREMENT OF DYNAMIC MULTI-PARAMETER IN NEONATAL INCUBATOR
The project portrays a design and implementation of an infant incubator with better multi-parameter measurements. The proposed model focuses on the design of low cost and effective incubator which can be utilized in developing countries and rural areas for the treatment of premature babies and infants. Infants typically lose heat to their environment in four different ways: through conduction, convection, radiation, and evaporation.
The temperature, moisture, heart beat rate of the infant are monitored through sensors. The central controlling unit of the incubator is the ChipKit UNO32 which takes care of data acquisition. The data is transmitted serially through USB and they are given as input to LabVIEW. LabVIEW consists of graphical user interface which makes data acquisition and monitoring easy. Thus with the help of LabVIEW the monitoring of data can be made automatic and emergency conditions can be indicated. The proposed model will make the operation like the normal neonatal ICU with the efficiency of 60 to 80% to advanced neonatal incubators.
First prize in Bioelectronics 2k15 sponsored by IEEE Engineering in Medicine and Biology Society
Academic Project
//Few More. .
