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LabVIEW Course in Pune with Placement

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  • 40+ Hrs Hands On Learning
  • 3+ Live Best Industry Projects
  • 25+ Practical Assignments
  • 24/7 Student Helpdesk

Online Classroom Batches Preferred

09-Sep-2024
Monday (Monday - Friday)

Weekdays Regular

08:00 AM (IST)

(Class 1Hr - 1:30Hrs) / Per Session

04-Sep-2024
Wednesday (Monday - Friday)

Weekdays Regular

08:00 AM (IST)

(Class 1Hr - 1:30Hrs) / Per Session

07-Sep-2024
Saturday (Saturday - Sunday)

Weekend Regular

11:00 AM (IST)

(Class 3hr - 3:30Hrs) / Per Session

07-Sep-2024
Saturday (Saturday - Sunday)

Weekend Fasttrack

11:00 AM (IST)

(Class 4:30Hr - 5:00Hrs) / Per Session

Can't find a batch you were looking for?
₹21000 ₹16000 10% OFF Expires in

No Interest Financing start at ₹ 5000 / month

Complete Guide to LabVIEW Training

Learnovita’s online LabVIEW Training in Pune provides an extensive dive into the fundamental techniques and tools necessary for mastering LabVIEW. The course starts with an overview of core LabVIEW functionalities, system architecture, and the benefits of using LabVIEW for data acquisition and control. Participants will gain practical skills in programming, system design, and analysis through interactive learning. Upon completion, learners will substantially boost their technical expertise, preparing them for advanced roles and career advancement in engineering and automation.

Additional Info

Navigating the Latest Enhancements in LabVIEW

  • Advanced-Data Acquisition Techniques: LabVIEW's latest version introduces enhanced data acquisition capabilities, allowing for more accurate and efficient data collection. Improved drivers and integration with various hardware platforms support complex measurement systems. Enhanced data logging features ensure reliable and consistent data storage. Users can now customize data acquisition workflows to suit specific project needs. These advancements streamline data collection processes and improve overall system performance.
  • Enhanced User Interface Design: The updated LabVIEW environment offers advanced tools for designing user interfaces, providing greater flexibility and functionality. New controls and indicators simplify the creation of intuitive and interactive interfaces. Enhanced graphical elements and customization options allow for a more tailored user experience. Improved layout tools facilitate the design of complex interfaces with ease. These enhancements make it easier to develop user-friendly applications that meet specific requirements.
  • Integration with Cloud Services: LabVIEW now supports seamless integration with various cloud services, enhancing its data management and sharing capabilities. Users can easily connect their LabVIEW applications to cloud platforms for data storage and processing. This integration facilitates remote access and collaboration, making it easier to work on projects from different locations. The ability to leverage cloud resources allows for more scalable and flexible system designs. These features expand LabVIEW's utility in modern, distributed environments.
  • Improved Performance and Efficiency: Recent updates to LabVIEW focus on optimizing performance and improving execution efficiency. Enhanced algorithms and code execution techniques reduce processing time and resource usage. Performance profiling tools help identify and address bottlenecks in complex systems. The improved runtime environment ensures faster and more reliable application performance. These upgrades contribute to more responsive and efficient LabVIEW applications.
  • Expanded Hardware Compatibility: LabVIEW now supports a wider range of hardware platforms, increasing its versatility and application scope. New drivers and libraries facilitate integration with various sensors, controllers, and instruments. Expanded hardware compatibility allows for more diverse system configurations and experimental setups. Users can now connect and control an even greater array of devices within their LabVIEW environment. These enhancements broaden the potential applications of LabVIEW in different industries.
  • Enhanced Signal Processing Capabilities: The latest LabVIEW release features advanced signal processing tools that improve the analysis and manipulation of complex signals. New functions and algorithms provide more accurate and efficient signal-processing options. Enhanced visualization tools enable better interpretation of signal data. Integration with other software tools expands the possibilities for signal analysis. These improvements support more sophisticated and precise signal-processing applications.
  • Upgraded Debugging and Testing Tools: LabVIEW's debugging and testing tools have been significantly enhanced to streamline development and troubleshooting processes. New features include advanced breakpoints, step-through debugging, and real-time error monitoring. Improved test management capabilities support comprehensive validation and verification of LabVIEW applications. Enhanced logging and reporting tools provide detailed insights into system behavior. These updates make debugging and testing more efficient and effective.
  • Enhanced Data Analysis and Visualization: The recent updates to LabVIEW include advanced data analysis and visualization tools, offering more powerful data manipulation capabilities. Users can now create more complex and interactive charts, graphs, and reports. Improved data analysis functions enable more detailed and insightful examination of experimental results. Enhanced integration with external data sources provides additional analysis options. These features enhance the ability to interpret and present data effectively.
  • Streamlined System Integration: LabVIEW now offers improved tools for system integration, simplifying the process of connecting and coordinating multiple systems. Enhanced interoperability features facilitate seamless communication between LabVIEW and other software and hardware platforms. Improved APIs and protocols support more efficient data exchange and control. These updates make it easier to build integrated solutions that span different technologies and systems. The enhanced integration capabilities contribute to more cohesive and effective system designs.
  • Enhanced Learning and Support Resources: The latest LabVIEW release includes expanded learning and support resources to assist users in mastering new features and capabilities. Updated documentation, tutorials, and online resources provide comprehensive guidance on the latest enhancements. Interactive learning modules and community forums offer additional support and knowledge sharing. Enhanced technical support options ensure users have access to expert assistance when needed. These resources facilitate a smoother learning curve and more effective use of LabVIEW's advanced features.

Major Corporations Looking for LabVIEW Engineers

  • National Instruments: National Instruments, a leading developer of automated test equipment and virtual instrumentation software, frequently hires LabVIEW engineers. They seek experts to enhance their product offerings and develop innovative testing solutions. Working at NI provides opportunities to contribute to cutting-edge technologies in various industries, including aerospace and automotive. The company values skills in LabVIEW for both product development and customer support roles.
  • Honeywell: Honeywell, a global technology and manufacturing leader, regularly recruits LabVIEW engineers for their automation and control systems. LabVIEW expertise is crucial for developing and maintaining advanced control systems used in industrial processes. Honeywell offers dynamic work environments where engineers can tackle complex challenges across diverse sectors, including aerospace and building technologies. The company is known for its commitment to innovation and professional growth.
  • Siemens: Siemens, a prominent player in the industrial automation and digitalization space, seeks LabVIEW engineers for their various projects. Engineers are involved in designing and implementing automated solutions that improve efficiency and reliability in manufacturing processes. Siemens provides a collaborative environment with opportunities for professional advancement and involvement in global projects. Expertise in LabVIEW is essential for developing sophisticated testing and measurement systems.
  • General Electric (GE): General Electric, a multinational conglomerate, often hires LabVIEW engineers for roles in their industrial and energy sectors. LabVIEW skills are essential for designing automated testing systems and analyzing data from complex machinery. GE offers a dynamic work environment with opportunities to work on cutting-edge projects and make significant contributions to technological advancements. The company supports career development and growth in various technical domains.
  • Rockwell Automation: Rockwell Automation, a leading provider of industrial automation and information solutions, seeks LabVIEW engineers to support its diverse range of products and services. Engineers work on developing and integrating automation systems that enhance manufacturing processes. Rockwell Automation values LabVIEW's expertise for its role in system testing and optimization. The company is committed to innovation and offers robust career development opportunities.
  • Texas Instruments: Texas Instruments, known for its semiconductor and electronics solutions, recruits LabVIEW engineers to aid in testing and system development. LabVIEW skills are vital for designing and executing automated test systems for semiconductor products. Texas Instruments offers an innovative work environment with opportunities for growth and involvement in cutting-edge technology projects. Engineers play a key role in ensuring product quality and performance.
  • Bosch: Bosch, a global leader in engineering and technology, frequently hires LabVIEW engineers for its automotive and industrial technology sectors. LabVIEW expertise is essential for developing testing solutions and automating processes that ensure product reliability and efficiency. Bosch provides a collaborative work environment with opportunities to contribute to innovative projects and advance professional skills. The company emphasizes technological excellence and career development.
  • ABB: ABB, a major player in the fields of robotics and industrial automation, looks for LabVIEW engineers to support their automation projects. Engineers are involved in creating and managing automated systems that enhance operational efficiency. ABB offers a dynamic work environment with opportunities for professional growth and involvement in international projects. LabVIEW skills are crucial for system development and optimization within the company.
  • Philips: Philips, a global leader in health technology and consumer electronics, recruits LabVIEW engineers for roles in their medical and diagnostic equipment divisions. LabVIEW expertise is important for designing and maintaining automated testing systems that ensure the accuracy and reliability of medical devices. Philips provides a collaborative environment focused on innovation and career development. Engineers contribute to impactful projects that improve healthcare outcomes.
  • Cummins: Cummins, a global leader in engines and power generation, seeks LabVIEW engineers for their research and development projects. LabVIEW skills are critical for developing and implementing automated testing systems that enhance product performance and reliability. Cummins offers a supportive work environment with opportunities for career growth and involvement in groundbreaking technology. Engineers play a key role in advancing the company's technological capabilities.

Core LabVIEW Tools and Technologies for Effective Development

  • LabVIEW Programming Environment: The LabVIEW programming environment provides a visual interface for developing complex systems. It utilizes a graphical programming language known as G-code, which allows users to create programs by connecting functional blocks. This environment includes tools for designing, debugging, and executing code efficiently. Understanding the layout and features of the environment is crucial for effective development. Familiarity with the environment helps streamline the development process and enhances productivity.
  • Virtual Instruments (VIs): Virtual Instruments (VIs) are the fundamental building blocks in LabVIEW, representing both software and hardware components. Each VI contains a front panel for user interaction and a block diagram for programming logic. Designing VIs involves creating intuitive user interfaces and efficient data processing algorithms. Mastering VIs allows for modular and scalable system design. Proper use of VIs improves code reuse and maintenance.
  • Data Acquisition (DAQ): Data Acquisition (DAQ) in LabVIEW involves collecting and analyzing real-world signals from sensors and instruments. LabVIEW supports various DAQ hardware for acquiring analog and digital data. Understanding how to configure and interface with DAQ devices is essential for accurate data collection. This topic includes signal conditioning, sampling rates, and data logging techniques. Effective DAQ implementation ensures reliable and precise data analysis.
  • Signal Processing and Analysis: Signal processing and analysis in LabVIEW involve techniques for filtering, transforming, and interpreting data. Tools for signal processing include filters, Fourier transforms, and statistical analysis functions. Knowledge of these tools allows for effective noise reduction and feature extraction. Proper signal analysis aids in the accurate interpretation of experimental results. This capability is critical for applications in research and industrial monitoring.
  • Control Systems and Automation: LabVIEW facilitates the design and implementation of control systems and automation solutions. It supports creating feedback loops, PID controllers, and real-time monitoring systems. Understanding control algorithms and automation strategies is crucial for developing efficient systems. Integration with hardware components enables precise control over processes. Effective use of these features enhances system reliability and performance.
  • User Interface Design: User Interface (UI) design in LabVIEW focuses on creating intuitive and functional interfaces for interaction with the system. The front panel of a VI serves as the UI, allowing users to input data and view results. Designing an effective UI involves selecting appropriate controls, indicators, and layout arrangements. A well-designed UI improves user experience and operational efficiency. Usability considerations are key to successful interface development.
  • Instrument Control and Communication: Instrument control and communication in LabVIEW involve interfacing with external devices using standard protocols. LabVIEW supports various communication standards, such as GPIB, VISA, and TCP/IP. Mastering these protocols enables seamless integration with laboratory and industrial equipment. Proper instrument control ensures accurate and reliable data acquisition and experimentation. This knowledge is essential for automation and remote monitoring applications.
  • Error Handling and Debugging: Error handling and debugging are critical aspects of LabVIEW development. LabVIEW provides tools for detecting and managing errors during program execution. Implementing proper error-handling techniques ensures robust and reliable applications. Debugging tools, such as breakpoints and probes, help identify and resolve issues in the code. Effective error management improves the stability and performance of LabVIEW applications.
  • Data Visualization: Data visualization in LabVIEW involves presenting data in a meaningful and interpretable manner. LabVIEW offers various graphical tools, such as charts, graphs, and indicators, for visualizing real-time and historical data. Creating effective visualizations helps in analyzing trends and making informed decisions. Customizing visual elements enhances the clarity and impact of data presentations. Good visualization practices are essential for effective data communication.
  • Integration with Other Software: LabVIEW integrates with various software tools and systems to enhance functionality and expand capabilities. Integration with MATLAB, Excel, and database systems allows for advanced data analysis and reporting. Understanding how to interface LabVIEW with external software extends its utility and application range. This integration capability supports complex workflows and collaborative projects. Leveraging external tools in LabVIEW enhances overall system performance and versatility.

Main Roles and Responsibilities of LabVIEW Professionals

  • System Design and Architecture: LabVIEW professionals are responsible for designing and architecting measurement and control systems using LabVIEW software. They work closely with stakeholders to understand system requirements and translate them into technical specifications. This involves selecting appropriate hardware and configuring software components to ensure seamless integration. Professionals create detailed design documents and prototypes to validate system functionality. Their goal is to deliver robust and scalable solutions that meet project objectives.
  • Development of Custom Applications: Developing custom applications in LabVIEW involves writing code to automate data acquisition, processing, and control tasks. Professionals utilize LabVIEW’s graphical programming environment to build intuitive user interfaces and implement complex algorithms. They ensure that applications are efficient, user-friendly, and tailored to the specific needs of the project. Rigorous testing and debugging are performed to identify and resolve issues. The final product should enhance operational efficiency and data accuracy.
  • System Integration and Testing: LabVIEW experts integrate various hardware and software components to create cohesive systems. This includes configuring sensors, instruments, and data acquisition devices to work together seamlessly. They conduct thorough testing to validate the functionality and reliability of integrated systems. This involves troubleshooting any integration issues and refining system performance. Effective integration and testing ensure that the system operates as intended and meets quality standards.
  • Maintenance and Support: Ongoing maintenance and support are critical responsibilities for LabVIEW professionals. They provide technical support to users, addressing issues related to system performance and functionality. Regular updates and enhancements are applied to ensure the system remains current with evolving technologies. They also perform preventative maintenance to minimize downtime and extend the system's lifespan. Effective support helps maintain system reliability and user satisfaction.
  • Documentation and Reporting: Comprehensive documentation is essential for LabVIEW projects, including detailed descriptions of system design, implementation, and testing processes. Professionals create user manuals, technical guides, and maintenance procedures to support system users and administrators. They also prepare project reports that summarize key findings, challenges, and solutions. Accurate documentation ensures that all aspects of the system are well-documented and easily understandable. It also facilitates knowledge transfer and future system modifications.
  • Project Management: LabVIEW professionals often take on project management roles to oversee the development and deployment of LabVIEW-based systems. They plan and coordinate project activities, manage timelines, and allocate resources effectively. This involves working with cross-functional teams to ensure that project milestones are met and objectives are achieved. They track project progress and address any issues that arise during the development process. Effective project management ensures that projects are delivered on time and within budget.
  • Client Interaction and Requirement Analysis: Interacting with clients to gather and analyze requirements is a key responsibility. LabVIEW professionals work closely with clients to understand their needs and objectives, translating these into technical requirements for the system. They provide expert advice on system capabilities and limitations, helping clients make informed decisions. Regular communication ensures that client expectations are met and any changes in requirements are addressed promptly. Understanding client needs is crucial for delivering successful solutions.
  • Training and Knowledge Transfer: LabVIEW professionals often provide training to clients and end-users to ensure they can effectively use the developed systems. This includes creating training materials and conducting workshops or one-on-one sessions. They share their expertise in system operation, troubleshooting, and best practices. Knowledge transfer helps clients become self-sufficient and maximize the value of their investment in LabVIEW systems. Effective training enhances user proficiency and system utilization.
  • Quality Assurance: Ensuring the quality of LabVIEW applications and systems is a fundamental responsibility. Professionals implement quality assurance processes to verify that systems meet design specifications and performance criteria. This includes conducting rigorous testing, including unit tests, integration tests, and system validation. They identify and rectify any defects or inconsistencies in the system. Quality assurance is essential for delivering reliable and high-performing solutions.
  • Innovation and Improvement: LabVIEW professionals are responsible for staying updated with the latest technological advancements and industry trends. They explore new tools, techniques, and methodologies to improve system performance and efficiency. This involves evaluating emerging technologies and incorporating relevant innovations into their projects. Continuous improvement ensures that systems remain competitive and aligned with current standards. Innovation drives the development of cutting-edge solutions that address evolving industry needs.

Exploring the Benefits of LabVIEW in Engineering

  • Enhanced Data Acquisition and Analysis: LabVIEW provides advanced tools for real-time data acquisition and analysis, enabling engineers to capture and process data efficiently. Its integration with various hardware interfaces allows seamless connection with sensors and instruments. Engineers can implement complex data processing algorithms to extract valuable insights from raw data. This capability ensures accurate and timely information for decision-making and system optimization.
  • Improved System Integration: LabVIEW facilitates the smooth integration of different system components, including hardware and software, through its modular architecture. Its graphical programming environment simplifies the connection of various devices and systems, enhancing overall interoperability. This integration capability reduces the complexity of system design and accelerates the development process. Engineers can focus on system functionality rather than dealing with integration challenges.
  • Rapid Prototyping and Development: With LabVIEW’s intuitive graphical interface, engineers can quickly develop and test prototypes without extensive coding. The drag-and-drop programming model allows for the rapid creation of functional prototypes, which can be modified easily as requirements change. This agility in development helps in reducing time-to-market for new products and innovations. Engineers can validate concepts and iterate designs efficiently.
  • Robust Testing and Validation: LabVIEW offers comprehensive testing and validation tools that ensure system reliability and performance. Engineers can create automated test sequences to validate system functionality against predefined criteria. The ability to simulate various operating conditions helps identify potential issues before deployment. This thorough testing process minimizes the risk of errors and enhances system quality.
  • User-Friendly Interface Design: LabVIEW’s graphical programming environment allows engineers to design intuitive user interfaces for controlling and monitoring systems. The ease of creating custom dashboards and control panels enhances the user experience and accessibility. Engineers can tailor interfaces to specific needs, making it easier for operators to interact with complex systems. This customization improves usability and efficiency in system operation.
  • Comprehensive Data Visualization: LabVIEW excels in data visualization, offering a range of tools to display data in graphical formats such as charts, graphs, and gauges. Engineers can create dynamic and interactive visualizations that make complex data more understandable. Effective data visualization aids in identifying trends, anomalies, and system performance metrics. This clarity supports better analysis and decision-making./li>
  • Scalability and Flexibility: LabVIEW supports scalability, allowing engineers to design systems that can grow with evolving needs. Its flexible architecture accommodates a wide range of applications, from simple data acquisition to complex control systems. Engineers can easily expand or modify systems without significant rework, adapting to changing requirements. This scalability ensures the long-term viability and adaptability of engineered solutions.
  • Advanced Signal Processing: LabVIEW includes advanced signal processing capabilities, enabling engineers to analyze and manipulate signals for various applications. Built-in functions and libraries support tasks such as filtering, Fourier analysis, and spectral analysis. Engineers can apply these techniques to improve signal quality and extract meaningful information. This advanced signal processing enhances the accuracy and effectiveness of data analysis.
  • Effective Automation: LabVIEW’s automation features streamline repetitive tasks and processes, improving efficiency and consistency. Engineers can design automated workflows for tasks such as data collection, testing, and system calibration. Automation reduces manual intervention, minimizes human error, and speeds up processes. This efficiency is crucial for high-throughput applications and large-scale operations.
  • Robust Community and Support: LabVIEW benefits from a strong community and extensive support resources, providing engineers with access to a wealth of knowledge and expertise. The vibrant user community shares solutions, best practices, and troubleshooting tips, enhancing the overall user experience. Additionally, National Instruments offers comprehensive technical support and training resources. This robust support network helps engineers overcome challenges and optimize their use of LabVIEW.
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Skills You Will Gain
  • Signal Processing
  • Control Systems Design
  • Hardware Integration
  • User Interface Design
  • Test Automation
  • Real-Time Data Monitoring
  • LabVIEW FPGA Programming

LabVIEW Course Key Features 100% Money Back Guarantee

  • 5 Weeks Training

    For Become a Expert
  • Certificate of Training

    From Industry LabVIEW Experts
  • Beginner Friendly

    No Prior Knowledge Required
  • Build 3+ Projects

    For Hands-on Practices
  • Lifetime Access

    To Self-placed Learning
  • Placement Assistance

    To Build Your Career

Top Companies Placement

At Learnovita, our LabVIEW training and placement program is meticulously crafted to provide an in-depth understanding of LabVIEW programming and system design. Led by industry experts with extensive experience, our course offers top-tier instruction combined with practical, hands-on learning. We are committed to accelerating your career with our 100% placement assistance. Our dedicated placement services are designed to align your LabVIEW skills with a wide range of career opportunities in automation, test engineering, and data acquisition systems.
  • Designation
  • Annual Salary
    Hiring Companies
  • 4.6L
    Min
  • 6.5L
    Average
  • 13.5L
    Max
  • 4.50L
    Min
  • 8.5L
    Average
  • 16.5L
    Max
  • 4.0L
    Min
  • 5.9L
    Average
  • 14.5L
    Max
  • 3.24L
    Min
  • 6.8L
    Average
  • 12.5L
    Max

Training Options

One to One Training

₹23000₹ 18000

  • Exclusive one-on-one sessions for personalized skill development.
  • Latest version curriculum is provided by industrial professionals.
  • Get industry-recognized certification with placement assistance.
  • Lifetime Access to Study Materials, Videos & Top MNC Interview Question.
  • Work on multiple Industry-specific projects to enhance your portfolio.

Online Training

₹21000₹ 16000

  • preferred
  • Schedule your sessions at your preferred timings for maximum convenience.
  • Lifetime access to high-quality self-learning and live online class recordings.
  • Attend a Free Demo before signing up.

Next Demo Sessions

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Corporate Training

Customized to your team's needs

  • Self-Paced/Live Online/Classroom modes of training available.
  • Design your own course content based on your project requirements.
  • Comprehensive certification guidance for your career advancement.
  • Get 100% Job-oriented Training With Dedicated Placement Support.
  • Receive 24x7 assistance and support to maximize your learning experience.

Self Paced Training

  • 50+ Hours High-quality Video
  • 28+ Downloadable Resource
  • Lifetime Access and 24x7 Support
  • Access on Your Computer or Mobile
  • Get Certificate on Course Completion
  • 3+ Projects
12500 ₹4500

LabVIEW Course Curriculum

Trainers Profile

At Learnovita, our LabVIEW course is led by industry experts with extensive experience in automation, instrumentation, and control systems. Our instructors are seasoned professionals from top technology firms, bringing a wealth of hands-on expertise to the classroom. They ensure that the course is not only comprehensive in theory but also rich in practical application. By the end of the course, you will be proficient in LabVIEW, capable of designing and implementing advanced data acquisition, control, and automation systems. We are dedicated to equipping you with the skills and knowledge necessary to excel in the dynamic field of engineering and automation.

Syllabus of LabVIEW Certification Online Course in Bangalore Download syllabus

  • Overview of LabVIEW
  • Navigating the LabVIEW Interface
  • Understanding the LabVIEW Programming Environment
  • Key Features and Benefits of LabVIEW
  • Basic Concepts in Graphical Programming
  • Data Types and Structures
  • Variables and Constants
  • Control Structures (Loops and Conditionals)
  • Functions and SubVIs
  • Error Handling in LabVIEW
  • Designing the Front Panel Interface
  • Using Controls and Indicators
  • Creating Custom Controls
  • Structuring the Block Diagram
  • Best Practices for UI Design
  • Introduction to Data Acquisition (DAQ)
  • Configuring DAQ Hardware
  • Acquiring Analog and Digital Data
  • Signal Processing Techniques
  • Data Logging and Visualization
  • Basic Signal Processing Concepts
  • Filtering and Signal Conditioning
  • Spectral Analysis
  • Implementing FFT (Fast Fourier Transform)
  • Analyzing Data Trends and Patterns
  • Basics of Control Systems
  • Implementing PID Controllers
  • Real-Time Control and Monitoring
  • Feedback Mechanisms
  • Designing Control Algorithms
  • Introduction to Instrument Control
  • Communicating with Instruments
  • Using VISA
  • Automating Test Procedures
  • Creating Automation Scripts
  • Object-Oriented Programming in LabVIEW
  • Advanced-Data Structures (Queues, Notifiers)
  • Memory Management and Optimization
  • Custom Libraries and Frameworks
  • Debugging and Performance Tuning
  • Interfacing with External Software and Hardware
  • Using LabVIEW with MATLAB and Simulink
  • Integrating LabVIEW with Databases
  • Networking and Communication Protocols
  • Synchronizing LabVIEW with Other Platforms
  • Setting Up Test Benches
  • Creating Test Sequences and Procedures
  • Analyzing Test Results
  • Automated Testing and Validation
  • Generating Test Reports
  • Designing Effective Graphs and Charts
  • Creating Custom Data Displays
  • Building Dashboards and Reports
  • Exporting and Sharing Data
  • Integrating Reports with Other Tools
  • Managing LabVIEW Projects and Files
  • Version Control and Collaboration
  • Project Documentation and Specifications
  • Troubleshooting and Maintenance
(15) view More view Less
Need customized curriculum?

Industry Projects

Project 1
Environmental Monitoring System

Create a system to continuously monitor environmental factors like temperature, humidity, and air quality using LabVIEW. This project entails configuring sensors, logging environmental data, and generating compliance reports.

Project 2
Automated Calibration System

Develop a system to automate the calibration and verification of various test instruments. The project involves setting up calibration routines, automating equipment adjustments, and ensuring precise instrument accuracy.

Project 3
Real-Time Visualization Data

Design a system for real-time visualization and analysis of data from scientific experiments using LabVIEW. This project focuses on creating interactive graphs, integrating diverse data sources, and providing detailed analytical tools.

Mock Interviews

  • Mock interviews by Learnovita give you the platform to prepare, practice and experience the real-life job interview. Familiarizing yourself with the interview environment beforehand in a relaxed and stress-free environment gives you an edge over your peers.
  • Our mock interviews will be conducted by industry experts with an average experience of 7+ years. So you’re sure to improve your chances of getting hired!

How Learnovita Mock Interview Works?

LabVIEW Course Objectives

To enroll in a LabVIEW course, you should have a fundamental understanding of engineering principles and basic programming concepts. Familiarity with data acquisition systems and instrumentation will be beneficial. Prior experience in fields like electrical engineering or automation can enhance your learning experience. A basic knowledge of control systems and signal processing is also advantageous.

  • Automotive Industry
  • Aerospace
  • Medical Device Manufacturing
  • Industrial Automation
  • Electronics and Semiconductor

This course is ideal for engineers, technicians, and researchers who aim to enhance their proficiency in graphical programming and system control using LabVIEW. It is especially suited for individuals involved in test and measurement, automation, and data analysis who wish to leverage LabVIEW for more efficient and effective project execution.

Learnovita’s LabVIEW training includes comprehensive course materials, interactive modules, and practical exercises. Participants benefit from expert-led sessions, real-world examples, and hands-on labs designed to deepen their understanding of LabVIEW applications. Additional resources such as online tutorials and community forums further support the learning journey.

Yes, Learnovita’s LabVIEW course emphasizes practical experience through interactive projects and real-life scenarios. Participants will engage in tasks such as building and programming virtual instruments, data acquisition, and control system implementation. These practical exercises help solidify theoretical knowledge and enhance technical skills.

  • Test Engineer
  • Automation Engineer
  • Control Systems Engineer
  • Systems Integration Specialist
  • Data Acquisition Specialist

Our LabVIEW course equips you with essential skills and hands-on experience, supported by dedicated career services. While the course prepares you for the job market with comprehensive training, we also provide robust placement assistance to help you secure relevant positions in engineering and automation fields.

  • LabVIEW Programming Environment
  • NI Instruments
  • LabVIEW FPGA
  • LabVIEW Real-Time
  • NI VeriStand

Enrolling in Learnovita’s LabVIEW course provides a deep dive into graphical programming and system control, enhancing your technical expertise in automation and data acquisition. You will gain practical skills in designing, programming, and implementing LabVIEW-based systems, significantly advancing your career prospects in engineering and technology.

  • Introduction to LabVIEW and Programming Basics
  • Data Acquisition and Instrument Control
  • Creating Virtual Instruments and User Interfaces
  • Advanced Signal Processing Techniques
  • System Integration and Real-Time Applications
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Exam & Certification

  • Yes, Learnovita’s LabVIEW training program includes thorough practice assessments to solidify your understanding.
  • These assessments cover key areas such as programming fundamentals, data acquisition, and system design, ensuring comprehensive preparation for the certification exam.
  • Regular practice exams and feedback will help you effectively apply LabVIEW concepts to real-world engineering challenges.

To pursue a LabVIEW certification, having a basic understanding of programming concepts and engineering principles is beneficial. Familiarity with LabVIEW’s graphical programming environment will enhance your preparation. Prior experience with data acquisition systems or control systems can further improve your readiness for the certification.

Earning a LabVIEW certification from Learnovita showcases your expertise in using LabVIEW for engineering applications and systems control. This credential can open doors to career opportunities such as LabVIEW Developer, Test Engineer, and Automation Specialist. With Learnovita’s dedicated career support and placement services, you’ll be well-equipped to advance your career and explore new opportunities in the engineering field.

Achieving a LabVIEW certification from Learnovita will significantly enhance your engineering career by providing advanced skills in LabVIEW systems. It positions you as a skilled professional capable of handling complex data acquisition and control tasks. This certification can lead to diverse roles in system design, automation, and engineering applications.

  • LabVIEW Certified Developer
  • LabVIEW Certified Architect
  • LabVIEW Certified Associate Developer
  • LabVIEW Certified Instructor

Recently Placed Students

LabVIEW Course FAQ's

Certainly, you are welcome to join the demo session. However, due to our commitment to maintaining high-quality standards, we limit the number of participants in live sessions. Therefore, participation in a live class without enrollment is not feasible. If you're unable to attend, you can review our pre-recorded session featuring the same trainer. This will provide you with a comprehensive understanding of our class structure, instructor quality, and level of interaction.
All of our instructors are employed professionals in the industry who work for prestigious companies and have a minimum of 9 to 12 years of significant IT field experience. A great learning experience is provided by all of these knowledgeable people at LearnoVita.
  • LearnoVita is dedicated to assisting job seekers in seeking, connecting, and achieving success, while also ensuring employers are delighted with the ideal candidates.
  • Upon successful completion of a career course with LearnoVita, you may qualify for job placement assistance. We offer 100% placement assistance and maintain strong relationships with over 650 top MNCs.
  • Our Placement Cell aids students in securing interviews with major companies such as Oracle, HP, Wipro, Accenture, Google, IBM, Tech Mahindra, Amazon, CTS, TCS, HCL, Infosys, MindTree, and MPhasis, among others.
  • LearnoVita has a legendary reputation for placing students, as evidenced by our Placed Students' List on our website. Last year alone, over 5400 students were placed in India and globally.
  • We conduct development sessions, including mock interviews and presentation skills training, to prepare students for challenging interview situations with confidence. With an 85% placement record, our Placement Cell continues to support you until you secure a position with a better MNC.
  • Please visit your student's portal for free access to job openings, study materials, videos, recorded sections, and top MNC interview questions.
LearnoVita Certification is awarded upon course completion and is recognized by all of the world's leading global corporations. The National Institute of Education (NIE) in Singapore and LearnoVita are the exclusive authorized Oracle, Microsoft, Pearson Vue, and PSI exam centers, as well as an authorized partner of ITIL Course. Additionally, those who want to pass the National Authorized Certificate in a specialized IT domain can get assistance from LearnoVita's technical experts.
As part of the training program, LearnoVita provides you with the most recent, pertinent, and valuable real-world projects. Every program includes several projects that rigorously assess your knowledge, abilities, and real-world experience to ensure you are fully prepared for the workforce. Your abilities will be equivalent to six months of demanding industry experience once the tasks are completed.
At LearnoVita, participants can choose from instructor-led online training, self-paced training, classroom sessions, one-to-one training, fast-track programs, customized training, and online training options. Each mode is designed to provide flexibility and convenience to learners, allowing them to select the format that best suits their needs. With a range of training options available, participants can select the mode that aligns with their learning style, schedule, and career goals to excel in Artificial Intelligence Course.
LearnoVita guarantees that you won't miss any topics or modules. You have three options to catch up: we'll reschedule classes to suit your schedule within the course duration, provide access to online class presentations and recordings, or allow you to attend the missed session in another live batch.
Please don't hesitate to reach out to us at contact@learnovita.com if you have any questions or need further clarification.
To enroll in the LabVIEW Course at LearnoVita, you can conveniently register through our website or visit any of our branches in India for direct assistance.
Yes, after you've enrolled, you will have lifetime access to the student portal's study materials, videos, and top MNC interview questions.
At LearnoVita, we prioritize individual attention for students, ensuring they can clarify doubts on complex topics and gain a richer understanding through interactions with instructors and peers. To facilitate this, we limit the size of each LabVIEW Course batch to 5 or 6 members.
The average annual salary for LabVIEW Course Professionals in India is 7 LPA to 9 LPA.
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