VOLUME 8, ISSUE 4, APRIL 2020 | IJIREEICE

IoT Based Boiler Drum Level Control using PID in LabVIEW

admin — Sat, 14 Mar 2020 19:36:49 +0000

Abstract: In this paper, a solution is proposed for maintaining and controlling the boiler drum level in industries using PID controller. The inlet flow is also monitored. The software part of the project has been developed using LabVIEW. NI myRIO is used as a controller. The monitored parameter is transferred using IoT.

Keywords: NI LabVIEW, level, myRIO-1900, IoT, IBM Watson Bluemix

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Cancer Detection Biosensor Design and Risk Analysis

admin — Sat, 14 Mar 2020 20:34:52 +0000

Abstract: Cancer is the root cause for a large number of deaths worldwide. Early detection and effective treatments are the two greatest challenges in the fight against cancer. In this paper, our aim is to report a simple, biosensor for early detection and risk analysis of cancer based on meta-materials containing structure utilizing theoretical model. The proposed label-free sensor has the potential to exhibit high sensitivity and selectivity for detecting different cancer cells, such as leukemia, cervical cancer, and breast cancer. According to the simulation results, if the refractive index of a sub-layer is nearer to the refractive index of the samples, the sensor is more sensitive. Also, due to the nanometre size of SRRs, it is easy to detect nanometre-sized specimens. The biosensor has a very high resolution so that the capability of measurement and detection of cancer cells is enhanced. The proposed design also shows sufficiently separated resonant peaks for different levels of risk of cancer cells.

Keywords: Meta-material Biosensor, Biomarkers, Cancerous Cells, Frequency Selective Surface, Refractive Index, Split-Ring Resonator, Incident Angle, Finite Element Method

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IOT Based Power Consumption Monitoring and Automation with Intruder Alert System using LABVIEW

admin — Sat, 14 Mar 2020 21:32:22 +0000

Abstract: Power Consumption Monitoring system is used to measure the amount of power consumed and its estimated cost for the user in home and alert system is used to send notifications to the user every 50 units before reaching the next slab. This will help the user to consume the power cautiously and as a result the cost payed by the user will be reduced. Automation system is done in order to automate the electrical appliances through IoT. This Automation system can also be used for detecting any intruders in the absence of the owner of the house. All the system are done through IoT, so that it will be more efficient and friendly to the user.

Keywords: Live Power Consumption Monitoring System, SMS and E-mail Alert System, NI LabVIEW, NI MyRio, IoT, IBM Watson Bluemix, AWS, Intruder Alert System

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Deduction of Traffic Density from Google Map’s and Speed Control in Automobile’s using LabVIEW

admin — Sat, 14 Mar 2020 22:32:24 +0000

Abstract: The speed control is the major technique used to reduce accidents. This paper represents control strategy for controlling the vehicles maximum speed in traffic lanes by calculating the traffic density in that particular area by using google maps. The traffic density is taken through Image processing. In google maps, density is shown on the basis of color. Based upon that traffic density, the maximum speed of the vehicle will be limited and the message will be shown in the display connected in the vehicle. This helps to reduce accidents due to rash driving in medium traffic lanes. By implementing this system in real time speed of the automobiles can be regulated in the defined range.

Keywords: Google Maps, Traffic Density, Image processing, Speed Control

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IoT Based Temperature Monitoring and Controlling System by using myRIO-LabVIEW

admin — Tue, 17 Mar 2020 05:58:28 +0000

Abstract: Temperature sensors are devices that detect the Temperature in surrounding area. This paper covers an experimental analysis of a temperature monitoring and controlling system using LM35 temperature sensor and the data can be accessed from remote location using IoT.National instruments labVIEW is used as work platform and sensors are interfaced with myRIO.

Keywords: NI LabVIEW, myRIO, LM35 sensor, IoT

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Voice Controlled Wheel Chair using LabVIEW

admin — Tue, 17 Mar 2020 08:03:45 +0000

Abstract: In our day-to-day life many accidents are happening all-over the world. Quadriplegia, also known as Tetraplegia, is defined as paralysis caused by illness or injury to a human that result in the partial or total loss of use of all their limbs and torso. Those who are affected by this problem are taken care and given training to learn how to use wheel chairs. Our project mainly focuses on helping them to move around by using a Voice controlled wheel chair by just simply using voice commands. In this way it easier for them to move effortlessly.

Keywords: NI-myRIO, NI LabVIEW, Quadriplegia, Voice control

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Density Based Traffic Control using RFID in Labview

admin — Wed, 18 Mar 2020 05:58:40 +0000

Abstract: The traffic control is the major technique used to reduce time and also to reduce accidents. This paper represents strategy for controlling the traffic signal according to the live traffic density. The traffic density is taken through RFID. The number of vehicles in the lane is calculated using a reader and tags. A reader is placed on the road and the tags are attached to the cars. As the cars passes through the reader it starts to count. Based upon the count, traffic signal time reduces and rises. Generally, traffic signal opens for every 60 seconds. This system opens the signal according to the live traffic density.

Keywords: LabVIEW, myRIO, RFID, Traffic density

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Energy Generation using Interconnected Motor in a Closed Loop

admin — Thu, 19 Mar 2020 17:26:16 +0000

Abstract: This work is based on “Electricity Generation in a Closed Loop”. As number of motors are coupled to each other as motor generator set for the generation of electricity. In this project we are going to regenerate energy in a close loop with the help of PMDC Motor whose shaft are interconnected to each other. This technology can be used in electric vehicles to regenerate the electricity to increase the efficiency of the system which can be used in the electric vehicles.

Keywords: PMDC motor, diodes, converter, Plugin Hybrid Electric Vehicle (PHEV) and Electric Vehicle (EV)

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Design and Simulation of High Performance Low Power Voltage Mode OTA-C Universal Filter for Biomedical Applications at 90nm Technology Node

admin — Sat, 21 Mar 2020 06:36:10 +0000

Abstract: In this paper, Carbon Nanotube (CNT) based Universal filter for Biomedical Applications are proposed at 90 nm technology node. Cascode Operational Transconductance Amplifier (COTA), a new class of operational amplifier is used as basic building block. The proposed Universal filter is electronically tunable, flexible and low power consuming. Average Power dissipation in the proposed structures i.e. Low-Pass (LPF), the High-Pass (HPF), the Band-Pass (BPF) and Band Reject (BRF) are very small. It has been designed using 20 CNTs, 1.5 nm Diameter of CNTs, 20 nm Pitch of CNTs. The low power dissipation, use of high speed CNT based devices and small devices dimensions at 0.9V supply voltage make proposed structures suitable for biomedical applications.

Keywords: CMOS, CNTFET, Cascode -OTA, Power consumption, Universal Filter

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Single Axis Solar Tracking System For E-Vehicle Charging Station

admin — Thu, 26 Mar 2020 09:16:13 +0000

Abstract: Renewable energy is quickly gaining importance as an alternative energy resource since fossil fuel are limited and their prices are very costly. The sole feature of the proposed methodology is the use to charge the electric vehicles with the help of renewable energy sources by using the MPPT tracking Algorithm .This project observes the potential benefits of having a single axis tracking for the solar panels which ensures maximum power point tracking (MPPT) taking solar rays as the only reference outline. Tracking is implemented through the use of LDR’s and DC motors. The simulation of the tracking system has been provided using schematic modeling in proteus software. Buck – boost converter is used to regulate the voltage level according to the charging level of the electric vehicles. For controlling operations of the hardware, arduinoIDE is programmed and installed. In this paper, the microcontroller named ‘Arduino UNO (Atmega 328)’ is utilized to give the signal to the motor that will move the solar panel along with the sun to gain maximum sunlight angle. With the implementation of the proposed system, the energy efficiency can be increased by 20% – 25% than the existing system with very less consumption of the system itself.

Keywords: Electric vehicles

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