Currently, the LabVIEW based hardware units are commonly used in various industries due to their features like rugged design and exact control. The communication of these can be done using different protocols namely RS232, TCP/IP, RS485, etc. The abbreviation of term LabVIEW is “Laboratory Virtual Instrument Engineering Workbench”. It is a software expansion environment used to make custom applications to check & control the real-time information in the application fields like science and engineering. As the name specifies, it is a virtual instrument and it has the characteristics to execute data analyzing, measurements to the user. So this is the main reason to use this in various industries as well as an extensive range of applications. This article provides a list of LabVIEW projects based on different categories.
What is LabVIEW?
The LabVIEW is one kind of platform from National Instruments used to design the system & also an expansion environment for a visual programming language. This is mainly used for controlling the instruments, automation of industries, and DAQ (data acquisition), etc. The programming representation used in LabVIEW is named as G, which depends on the accessibility of data.
The LabVIEW Student Software Suite is a software suite aimed for academic and engineering applications. It provides LabVIEW Student Edition as well as six software add-ons that encompass. Labview tutorials and projects have many applications in electrical project, electronics projects and embedded systems projects. Labview can be interfaced with Arduino and other microcontrollers to receive data through serial communication.
Overview of Serial Bus Serial is a common device communication protocol for instrument control because most computers and many remote instruments include at least one serial port. Tutorial LabVIEW y Arduino: LCD Display 16x2 - YouTube Access Free Labview Arduino I2c Example and-play USB connectivity, the NI USB-8451 is a portable solution to communicate with consumer electronics and integrated circuits. Using I2C with LabVIEW and the USB-8451 - National Instruments I2C Communication Between Two Arduino Boards. Figure 6 shows the block diagram of the system developed using LabVIEW. We start by uploading the code consisting LIFA (LabVIEW Interface for Arduino) commands for the interfacing Arduino UNO with.
LabVIEW provides a huge elasticity to make an application with the help of G-language. This is an influential graphical language when contrasted with normal computer programming languages. It mainly includes two essential elements like the front panel & block diagram.
LabVIEW provides a huge elasticity to make an application with the help of G-language. This is an influential graphical language when contrasted with normal computer programming languages. It mainly includes two essential elements like the front panel & block diagram. The front panel assists a user interface wherever we can situate indicators and controls. The coding part is located in a block diagram wherever we can write the code using functions as well as structures for applications.
LabView Projects for Engineering Students
LabVIEW programming is used in all the branches of engineering projects like electrical, electronics, IEEE, robotics, Arduino, etc. LabVIEW based electrical projects mainly include real-time projects, industrial automation, controlling, drive, LabVIEW industrial projects etc. These LabVIEW based final year projects are very helpful for engineering students. The list of LabView projects for engineering students are also discussed below.
Serial Communication With Labview Tutorial Download Windows 10
Motor Speed Controlling through Voice & LabVIEW
This project uses voice commands to control the operation of the DC motor to reduce the manual operation. This project is mainly used by the disability people like blinds, etc. The main feature of this motor is, it can be controlled through voice or voice. The process of voice recognition can be done with the help of LabVIEW programming language.
This project mainly uses Microsoft SDK as well as voice recognition to control the motor. So the implementation of DC motor control can be done with the help of the PWM technique. This project is used for a DC motor with 0.5HP 220V 3A.
Speech Recognition Project using LabVIEW
The main intension of this project is to design a system to control the objects by using human speech as well as LabVIEW. Human communication is the natural speech and this process is used in computers to follow the voice commands of the human to understand the human languages. In this project, a system is designed to control objects like Toggle switch, LED, etc using human speech & LabVIEW. This project uses a microphone to get the voice signals from Human and it is interfaced through LabVIEW code. So this LabVIEW programming generates a suitable signal for controlling the objects.
Measurement & Controlling of Temperature through LabVIEW
The main intention of this project is to design a system using a LabVIEW program to control the hardware by measuring temperature with temperature sensor
Speech Synthesis based on the Recognition of Optical Character using LabVIEW
This project is used to synthesis the speech depending on the optical character recognition using LabVIEW programming.
Arduino & LabVIEW based Controlling of Water Level
This project is mainly designed with an ultrasonic sensor, Arduino & LabVIEW programming to estimate the water level without contact. Once the water level is reduced then the water pump will automatically turn ON. Similarly, the pump will turn OFF once the water level reaches the fixed level.
LabVIEW & DAQ based Data Monitoring in Real-Time for PV Solar Cell
The main concept of this project is to design a system to monitor the data of PV solar cells using LabVIEW programming as well as the DAQ board.
Monitoring & Controlling of Soil Humidity with LabVIEW
This project is used to check the humidity of the soil so that it can be monitored and controlled through LabVIEW programming.
Automatic Biometric using Brain Waves to Recognize the User
This is project is designed with Brainwave sensor, Data Processing, Bluetooth & LabVIEW programming. The BCI (Brain-computer interfaces) is used to convert brain signals to control signals without using peripheral nerves or muscles. By using these signals, authentication can be done. This project is applicable in the navy, army, safety system of industries, and high-security applications.
LabView based Soft Switching Technique for Regulation of Smart Fan
The conservation of energy in homes is a major consideration. Similarly in industries, energy usage inefficient way is also the main consideration. The proposed system is used to decrease the power utilization of the fans by changing the speed in a smart way so that the overall power usage can be reduced. This regulation method can be connected in series/parallel based on the levels of humidity in homes. This project uses humidity as well as temperature sensors for detecting the temperature in rooms.
Home Automation with Energy Gentrification
This system is designed to give highly reliable automation in industries, homes so that the energy shortage problem can be solved. This project is used to control the home appliances with the help of an automation system.
This system uses LabVIEW software & data acquisition board along with various sensors. Home appliances can be connected through a relay over a DAQ board. The different sources of energy generations are associated with the control mechanism to different loads.
LabVIEW based Security System of Railway Track & Gate
At present, railway safety is the main aspect of railways because many accidents have occurred while crossing the railway gate. So, this project is used to design a controller for railway-crossing-gate to avoid accidents at the railway gate with the help of sensors.
This system uses the LabVIEW software, DAQ system as well as different sensors IR & proximity. The arrangement of these sensors can be done at both sides of the railway crossing in a fixed distance. An infrared sensor is arranged in front of the railway gate for detecting the obstacles over the track. This project provides security for both the track & railway gate.
Traffic Light System using WSN with Override for Emergency
The project is designed to provide a traffic light control system using an override capacity used for emergency automobiles.
This project uses the DAQ module at each junction where IR sensors are allied. The programming of LabVIEW can be done in such a way that the traffic light system operates in dissimilar modes such as automatic time period for each junction; a system based on density & manual operation for controlling.
The list of LabView projects for engineering students is listed below.
- Induction Generator Optimized Operation for Small-scale Wind Power
- LabVIEW based Virtual Instrumentation System for Disabled People
- Detection of Fire in Forest with Solar-Power Zigbee Network
- Monitoring of Water Quality & Control System
- Recognition of Optical Character based on LabVIEW & Speech Synthesis System
- Monitoring System of Human Body using Web-Server & LabVIEW
- Foot Ulceration Screening in Diabetic Patients with Flexi Force Sensor
- BLDC Motor Torque Control with Fuzzy Logic
- LabVIEW & DAQ based PV Solar Cell Real-Time Data Monitoring
- LabVIEW based Home Automation System
- Fitness Analyzer & Human Power Generator using LabVIEW
- Implementation of Stepper Motor Controller on FPGA using GUI in LabVIEW
- Encryption of Text File with FFT Method in LabVIEW
- Controlling of Walking Simulator in Omnidirectional
- Power Analyzer using A LabVIEW
- Dangerous Gas Checking with VI Server
- Automation of Driving License Test with LabVIEW
- Humidity Monitoring of Soil with LabVIEW
- LabVIEW based Automotive Safety & Security
- GSM & LabView based Pollution Monitoring in Industries
- LabVIEW & DAQ based Monitoring and Parameter Calculation of 3-Phase AC Motor
- LabVIEW based Medical Aid System
- Railroad Track Visual Detection/Inspection
- LabVIEW based Fault Locating & Monitoring within Distribution Lines
- LabVIEW & RFID based Traffic System Control using Ambulance
- Energy Monitoring System based on Zigbee & GSM for E-Billing
- Accident Avoidance System using LabVIEW in Underground Collieries
- LabVIEW based Mobility Wheelchair
- LabVIEW based Multi-Level Automobile Parking
- Rescue Operation using Automate Machine for Child
- LabVIEW & RFID Automatic Identification & Database Management System
- Voice Control and Wireless EMG System Development
- LabVIEW based Inverter Fed Motor Simulation
- MEMS Digital Accelerometer for Monitoring of Vibration
- Attendance System based on Fingerprint using LabVIEW
- Designing of Quadcopter Controller using LabVIEW & Image Processing
The list of some LabView projects for beginners is listed below. All these are associated with real-time applications that are previously executed by others.
- RFID based Identification & Data Management System
- Image Processing based Design of Controller for Quadcopter
- MEMS Digital Accelerometer-based Vibration Monitoring with ATmega and MEMS
- Implementation of Controllers like PID & Fuzzy PD for DC Servo Motor
- Temperature Control & Measurement System using LabVIEW
- LabView based Controlling of Smart Fan with Switching Technique
- Home Automation using Energy Gentrification
- Security System for Railway Gate & Track using LabVIEW
- Traffic Light System based on Wireless Sensors
- Industrial Control System using SCADA
- 900 Light Emitting Display
- Aware System for Anti Creeper
- Focus Space
- LabView based Thermistor
LabVIEW based IEEE Projects
The list of LabVIEW based IEEE projects includes the following.
Smart Home Controlling using BCI
This project is used to design a virtual reality system with the help of EEG (electroencephalogram) & BCI (brain-computer interface) for controlling a smart home. This project uses Bluetooth, Brainwave Sensor, Zigbee & LabVIEW programming. The applications of this project mainly include controlling home appliances, BMS control, etc.
Attention Tracking while Distracted Driving
While driving a vehicle, the driver requires full attention to control the vehicle. So this project is designed to maintain the attention of the driver while driving on the road. This project can be designed with Brainwave sensor, GSM, LabVIEW, and Bluetooth. This project is mainly used in automotive applications, Safety of the Driver & Alerting system.
Health Monitoring System of Animals using Zigbee
This project is used to monitor the physiological parameters of the animal-like temperature of the body, rumination, pulse rate, etc. The designing of this system can be done using WSN, Zigbee & LabVIEW. This system also analyzes the level of stress equivalent to THI (thermal humidity index). This project is used in Farms, Zoological parks, Animals care, etc.
Intelligent Management System through Motion Sensing for Surveillance
This project can be designed with PIR, Microcontrollers, Image Processing, Zigbee & LabVIEW. The parameters of the machine system provide huge information regarding the condition of the machine, maintenance, output, etc. So the parameters of the machine can be estimated with motion technology. This project is applicable to security applications.
Animals Food Feeding System based on Time Scheduling
This project is used to design a system for feeding the food for animals based on the scheduling of time. This project is designed with RTC, LabVIEW, Zigbee, and microcontrollers. This project is used in Zoo parks, safe feeding systems.
GSM & Labview based Tracking of Eyeball
This project is used to design a system for tracking the eyeball, position of the eye, movement of the eye. This project uses a smart camera, vision software tool & LabVIEW programming to generate tracking and detection of eye algorithms. This project is used in the biomedical field for Coma Patients.
LabVIEW based Fire Rescue System in Railways
The most comfortable as well as feasible modes of transport for passengers is railways. This project is the best solution for developing a fire rescue system to reduce the no. of victims in case of fire accidents in train. This system can be developed with the help of microcontroller technology as well as smart sensors. This project uses GPS, GSM, LabVIEW & Zigbee.
Power Management System for Institutions using Labview
This project is used to design a system for a smart classroom for reducing energy consumption as well as wastage with the help of LabVIEW. There is one kind of automation process where the environment of the institution can be monitored through ambient intelligence for providing context-aware services & make it possible for remote power control. This project uses Xbee protocols & LabVIEW Data Processing. The applications of this project include Automatic Power controls & Energy management systems.
The list of LabVIEW Projects for biomedical engineering students are discussed below.
Monitoring of Human Body using Web Server & LabVIEW
This project is used to monitor the parameters of the human body such as temperature, pulse rate, etc using LabVIEW programming. The procurement of this data can be performed using the Arduino controller, LabVIEW & web server.
Temperature Monitoring of Premature Newborn Baby
This project is designed with GSM, Webpage HTML, and Zigbee. Patient safety is very important but for premature newborn infants, there is no proper way to monitor the temperature. With the development of technology in the medical industry, the death rates of newborn babies have been controlled. This project is used in Neonatal nursing stations & Biomedicals.
Automated Blood Bank Design using LabVIEW & Embedded System
This project is used to design an automated blood bank system using LabVIEW & embedded systems. This project is designed with GSM, microcontroller, web page, and LabVIEW. This system updates the information about the voluntary blood donors as well as those in require of blood on this platform. This system fulfills each and every blood request in the country through an android application. This project is applicable to Bio-medicals, etc.
Robotics Projects
The list of LabVIEW robotics projects includes the following.
Robot Controlling through Neuro Waves using LabVIEW
This project is designed with Bluetooth, Robotics, Brainwave sensor & LabVIEW. A BCI or brain-computer interface can be defined as a control system or communication system which works on ECG signals or brain waves to control a device. The communication between the human brain and a computer can be done by using this system. This project is mainly used to control robots, wheelchairs, etc.
LabVIEW based Book Picking Robot in Libraries
This project is used to design a robot for picking up library books using LabVIEW programming. This project is designed with RFID, ZigBee & Webpage based on HTML. This project is used in Document Saftey, Large Libraries & Institutional book management.
Omni-Directional Robot Controlling with Android Phone & Accelerometer Sensor
This project is used to design a robot that travels in omnidirectional. This project is used to control this robot using android mobile as well as an accelerometer sensor. This project is designed with Microcontrollers, Android mobile, Zigbee, and LabVIEW. This project is used in controlling robotic applications.
LabVIEW & Smart Surveillance based Mobile Robot
This project is used to design a mobile robot including a camera that is placed on the robot for investigation purposes. The outline of this robot can be controlled using GUI based LabVIEW programming.
The list of some more robot projects includes the following.
- Climbing Robot Controlled by LabVIEW
- Racing Robots using LabView & Leap Motion Controller
- LabVIEW based Fruit Picking Robot
- LabVIEW & EEG based Robots for Controlling Mind
- LabVIEW based Smart Surveillance of Mobile Robot
- A Piano Player Robot
- myRIO based Autonomous Robot
- Robotic Arm Custom design
The list of LabView projects using Arduino are listed below.
- LabVIEW and Arduino based Non-contact Level of Water Controlling
- LabVIEW and Arduino based Light Control System Automatically
- LabVIEW and Arduino based Pediatric Gait Instructor
- Fire Detection alarm system using LabVIEW and Arduino
- The Rescue System for Wearable Electronics using Arduino & LabVIEW
- Arduino Programming using Labview
- Remote monitoring system using Arduino & LabVIEW
- Serial Communication based Getting Arduino Data
- Controlling the Speed of a DC Motor using LabView & Arduino
- LabView & Arduino based Weather station
- Ball & Beam System
- Monitoring System for Heart Rate
- Arduino & Linux based 24volts LED Dimmer
- Interface od LabVIEW UDP for Arduino
- Arduino and Linx based Light Show
- Controlling of Temperature based on Arduino & LINX
- Controlling of Water Level based on Arduino & LINX
LabView Projects using myRIO
The LabView projects using myRIO are listed below.
- myRIO Powered Full Scale R2D2
- myRIO based Diligent Motor Adapter designed for Stepper Motor
- Guitar Effects Pedal Enabled by the Internet
- myRIO based Music Box
- myRIO based RGB LED (32×32) Display
- myRIO based Measurement of Current
- Illumination based Visualization
- Lag-lead Approach based myRio Control system
- Information Age Medical Monitor
- Trouble using Semaphore through my-RIO & X-CAN Stratum Adapter
- A Device for Wireless Surveillance
- 3D Images Making within Thin Air
- Strings of light based on Music
- Control System based on Machine Vision
- myRIO & the Classy State Machine based USB LiDAR Controlling
- SmartHome Motion Sensor using myRIO
- NI myRIO based Reliable, Traceable, and Recordable Flight Data
Thus, this is all about LabView Projects which includes LabVIEW based mini projects, present, hardware units based on LabVIEW are commonly used in various industries because of their controlling capability & rugged design. The communication of this can be done using some protocols such as RS232, TCP/IP, RS485, etc. Here is a question for you, please list out some LabView projects using DAQ.
It’s another year and National Instruments has released LabVIEW 2017. This guide will walk you through the steps for downloading and installing the product.
LabVIEW 2017 System Requirements
First, you’ll want to make sure your computer can run LabVIEW 2017. Refer to the below table to see the system requirements:
Windows | Run-Time Engine | Development Environment |
Processor1 | Pentium 4M/Celeron 866 MHz (or equivalent) or later (32-bit) Pentium 4 G1 (or equivalent) or later (64-bit) | Pentium 4M (or equivalent) or later (32-bit) Pentium 4 G1 (or equivalent) or later (64-bit) |
RAM | 256 MB | 1 GB |
Screen Resolution | 1024 x 768 pixels | 1024 x 768 pixels |
Operating System | Windows 10/8.12/7 SP13 Windows Server 2012 R22 Windows Server 2008 R2 SP13 | Windows 10/8.12/7 SP13 Windows Server 2012 R22 Windows Server 2008 R2 SP13 |
Disk Space | 620 MB | 5 GB (includes default drivers) |
Color Palette | N/A | LabVIEW and the LabVIEW Help contain 16-bit color graphics. LabVIEW requires a minimum color palette setting of 16-bit color. |
Temporary Files Directory | N/A | LabVIEW uses a directory for storing temporary files. NI recommends that you have several megabytes of disk space available for this temporary directory. |
Adobe Reader | N/A | You must have Adobe Reader installed to search PDF versions of all LabVIEW manuals. |
1 LabVIEW and LabVIEW Run-Time Engine require processors of the Pentium 4M/G1 generation or later, which are capable of executing SSE2 instructions. 2 NI software installs VC2015 Runtime and .NET 4.6.2. Windows 8.1 and Windows Server 2012 R2 require Microsoft updates to support these items. Refer to Microsoft KB2919442 and KB2919355 for more information about how to install these updates. 3 NI software is signed with a SHA-256 certificate. Windows 7 SP1, Windows Embedded Standard 7 SP1, and Windows Server 2008 R2 SP1 require Microsoft updates to support SHA-256. Refer to Microsoft KB3033929 for more information about how to install this security update. |
Overall, these requirements are not high. If you have a computer that was made in the last 5-8 years, you should be fine. Regardless, it’s important to verify your hardware to be sure you can run the software before purchasing it.
Downloading the Software
You can download the software from this page. Scroll down to the “NI LabVIEW 2017 Downloads” section and click on the link for the version you need. Chances are, if your computer was made in the last 6-7 years, you will want to download the 64-bit version.
When you click on one of the links, you’ll be brought to NI’s website. You’ll see two options listed. Click the link that says “I am a current user of LabView Development System”. NOTE: If you do not see these options, you may need to login to the website by using the Login option at the top-right of the page.
Once you click on the link, you’ll be asked what your current version of LabView is. Choose “LabView 2016” from the dropdown.
Click “Continue” once you’ve selected LabVIEW 2016 from the dropdown.
Now, you’ll be on the download page. You can click the Blue link that says “Download LabVIEW 32-bit for Windows” or you can click the link further below that says “LabVIEW for 64-bit Systems” if you want the 64-bit version.
Once the download is done, navigate to where your downloads are and right-click the newly downloaded file and click “Run as Administrator”.
Upon clicking “Run as Administrator”, a window will come up, asking you where to save the installer. Leave the settings default and click “Save”.
At this point, the download manager will begin downloading the installer. Your window will look like this:
How long the download takes depends on your internet connection. If you have slow internet, this could take a while.
Once the download is done, you’ll see an “Open” option show up on the download manager. Click this option.
The Installation Procedure
After clicking “Open” on the Download Manager, a window will come up asking you to extract some data. Click “OK” on this window.
Another window will come up, asking you where to extract the files to. Usually, the default file path is fine. If, for some reason, you need to save it to a different location, then you can click the “Browse” option and choose a different file path. Click “Unzip” to begin the extraction.
The files will begin extracting. How long this takes depends on your computer hardware. This process can take anywhere between several seconds to several minutes. Be patient.
Once the files are done extracting, a window will come up, telling you the files have been extracted. Click OK.
At this point, the installer will open itself up. If you don’t see the installer, look at your taskbar across the bottom of your screen and click on the Computer Monitor icon, as seen here:
Once the installer is open, click “Next”. The installer should have opened by itself after the previous step.
On the next window, fill out your name and organization and click “Next”. NOTE: This information is information pertaining to YOU. Do not just copy the information from the below screenshot.
Next, you will be asked for your product serial #. If you purchased a digital copy from us, you will have been sent your serial #. It will look something like this: B01P23456.
If you purchased a physical copy, then the serial # should be located somewhere on the packaging. Typically, it is attached to a sticker on the sleeve the DVD came in. If you don’t see it there, thoroughly check your package for a serial #. If you do not have a serial #, contact us, and let us know and we’ll do our best to resolve your issue.
In the “LabVIEW 2017 (Base/Full/Professional)” section, put your serial # into the white box. If you received serial #’s for the other products listed, put those numbers into their appropriate boxes.
The next window will ask you where you want to install the software to. Leave these options default and click “Next”.
On the next window, you will be asked which features you wish to install. Click the drop-down arrow next to the “NI Device Drivers” option and choose “Do Not Install Device Drivers”. We do this because this installer does not include these drivers. If you have a MyDAQ, you will want to download the drivers separately.
On the next window, leave the check box checked and click “Next”.
The installer will search for updates. Usually, it will tell you there were no updates found. Click “Next”.
Next, you will be asked to agree to some license agreements. Choose the “Agree” option and click next.
Next window will ask something similar. Choose to accept and click “Next”.
On the next window, I recommend unchecking the box to prevent Windows fast startup. I have never had an issue arise from Windows fast startup being enabled. None of our customers have ever had an issue either.
Now, you will be shown a review of what you will be installing. Click “next” to begin installation.
The software will begin to install. How long this takes depends on your computer hardware. It could take a few minutes to a few hours, depending on your hardware. Be patient.
Once the installation is complete, click the “Next” button
You will then be asked if you want the software to periodically check for updates. This is up to you. Generally, it’s recommended to choose “yes” so you can keep up-to-date with your product.
You will then be asked to restart your computer. I highly recommend restarting immediately instead of waiting until later.
Licensing: Activate Your Software
Once your computer restarts, we need to activate the software
Go to your start menu and type “NI License Manager”. Click on the “NI License Manager” application.
Once the wizard is open, click the “Activate software” button at the top of the window.
In the box for “LabVIEW 2017 Student Edition”, put in your serial #.
Labview Serial Communication Tutorial
The wizard will contact NI’s servers and attempt to activate. If all goes well, it should tell you the activation was successful. You can now close out of the license manager.
Opening LabVIEW
Now that the software is installed and activated, you’re ready to use it. You should have an icon on your desktop for LabVIEW 2017. If you do not have this icon, then open your start menu and type “labview 2017”. The LabVIEW 2017 application should show up. Click on this application to open it. You can also right-click on the application and choose “Pin to Taskbar” if you want to create a shortcut on your taskbar across the bottom of your screen.
Once the program is open, you are good to go!
Support
If you purchased LabVIEW 2017 from Studica and you are running into issues with this process, you can contact our support by filling out a ticket. We will contact you as soon as we can to try and resolve your issue.