Robotics Systems Engineer in Tennessee Career Overview

In your role as a Robotics Systems Engineer, you engage with the design, development, and implementation of robotic systems that automate tasks across various industries. This position is fundamental to the advancement of technology, as you work on innovative solutions that enhance process efficiency and safety.

  • You collaborate with multidisciplinary teams, including software engineers, mechanical engineers, and project managers, to create and integrate robotic systems tailored to specific applications.
  • Your responsibilities often include conducting feasibility studies, developing system specifications, and performing testing to ensure the reliability and functionality of robotic systems.
  • Trends in automation and artificial intelligence are reshaping the landscape of manufacturing, healthcare, and logistics, making your skills increasingly valuable in the marketplace.
  • You play a key role in advancing industries such as automotive, aerospace, and construction by contributing to systems that can adapt to complex environments and tasks.
  • The importance of your work extends to addressing societal challenges, such as labor shortages and the need for safer working conditions, by creating robots that assist in hazardous or repetitive tasks.

Your expertise as a Robotics Systems Engineer is instrumental in driving the future of automation, making you a vital contributor to the ongoing evolution of technology and its applications across sectors.

Robotics Systems Engineer Salary in Tennessee

Annual Median: $86,070
Hourly Median: $41.38

Data sourced from Career One Stop, provided by the BLS Occupational Employment and Wage Statistics wage estimates.

Required Education To Become a Robotics Systems Engineer in Tennessee

To become a Robotics Systems Engineer in Tennessee, you will need to complete specific educational qualifications and training in relevant fields. Here are the key degree programs that will prepare you for this career:

  • Robotics Technology: This program usually focuses on the design, development, and operation of robotic systems. You will learn about control systems, sensors, and robotics applications.

  • Mechatronics: A blend of mechanical engineering, electronics, computer science, and control engineering, a degree in mechatronics provides a strong foundation in the integration of these disciplines. This program is essential for developing intelligent systems and robotics.

  • Robotics: A specialized degree in robotics typically covers advanced robotic systems, artificial intelligence, and machine learning, equipping you with the skills to design and implement robotic systems.

  • Automation Engineering Technology: This program centers around automated systems and their use in manufacturing and industry. Coursework often includes topics in control systems, instrumentation, and programmable logic controllers (PLCs).

  • Electrical and Electronics Engineering: A degree in this field provides essential knowledge about electrical systems and circuits, which are critical to the functioning of robotic systems.

  • Mechanical Engineering: This degree offers a strong understanding of the principles of mechanics and dynamics, which are vital in designing and building robotic mechanisms.

  • Systems Engineering: A program in systems engineering teaches you how to analyze, design, and manage complex engineering projects, making it particularly useful for overseeing robotics projects that require a multidisciplinary approach.

Additionally, pursuing internships and hands-on training in robotics-related projects will enhance your practical experience and understanding of the field.

Best Schools to become a Robotics Systems Engineer in Tennessee 2024

#1Alameda County

University of California-Berkeley

Berkeley, CA

In-State Tuition:$11,564
Out-of-State Tuition:$41,636
Admission Rate:11%
Graduation Rate:94%
Total Enrollment:45,307
#2Fulton County

Georgia Institute of Technology-Main Campus

Atlanta, GA

In-State Tuition:$10,258
Out-of-State Tuition:$31,370
Admission Rate:17%
Graduation Rate:93%
Total Enrollment:45,296
#3Tippecanoe County

Purdue University-Main Campus

West Lafayette, IN

In-State Tuition:$9,718
Out-of-State Tuition:$28,520
Admission Rate:53%
Graduation Rate:83%
Total Enrollment:51,528
#4Brazos County

Texas A & M University-College Station

College Station, TX

In-State Tuition:$8,815
Out-of-State Tuition:$36,239
Admission Rate:63%
Graduation Rate:84%
Total Enrollment:74,014
#5Allegheny County

Carnegie Mellon University

Pittsburgh, PA

In-State Tuition:$59,864
Out-of-State Tuition:$59,864
Admission Rate:11%
Graduation Rate:92%
Total Enrollment:16,002
#6Orange County

University of Central Florida

Orlando, FL

In-State Tuition:$4,478
Out-of-State Tuition:$19,810
Admission Rate:41%
Graduation Rate:76%
Total Enrollment:68,346
Robotics Systems Engineer Job Description:
  • Research, design, develop, or test automation, intelligent systems, smart devices, or industrial systems control.

Robotics Systems Engineer Required Skills and Competencies in Tennessee

  • Technical Proficiency: You should have a strong understanding of robotics systems, including mechanical, electrical, and software engineering principles. Familiarity with sensors, actuators, and embedded systems is essential.

  • Programming Skills: Proficiency in programming languages such as C++, Python, and MATLAB is important for writing algorithms and interfacing with robotic hardware.

  • Systems Integration: You need the ability to integrate various subsystems into a cohesive robotic solution, ensuring they work together efficiently.

  • Problem-Solving Ability: Strong analytical skills will help you diagnose and resolve issues that arise during the design, development, and testing phases of robotic systems.

  • Simulation and Modeling: You should be comfortable using simulation tools (e.g., ROS, Gazebo) to model robot behavior and predict system performance under various conditions.

  • Control Theory Knowledge: Understanding control algorithms and methods for motion control (such as PID control) is fundamental to ensuring precise and reliable robot operations.

  • Project Management Skills: You will benefit from project management abilities to oversee development phases, coordinate with team members, and manage timelines and resources effectively.

  • Collaboration and Communication: Strong interpersonal skills are necessary to collaborate with cross-functional teams, convey technical information effectively, and document processes clearly.

  • Attention to Detail: Precision is vital in robotics design and troubleshooting. You should have a keen eye for detail to ensure the reliability and accuracy of your work.

  • Adaptability: The field of robotics is rapidly changing, so being open to learning new technologies and methods is crucial for staying current and effective in your role.

Job Duties for Robotics Systems Engineers

  • Create mechanical design documents for parts, assemblies, or finished products.

  • Design advanced precision equipment for accurate or controlled applications.

  • Design engineering systems for the automation of industrial tasks.

Technologies and Skills Used by Robotics Systems Engineers

Analytical or scientific software

  • Finite element method FEM software
  • Vector CANalyzer

Development environment software

  • C
  • Microsoft Visual Basic

Presentation software

  • Microsoft PowerPoint

Basic Skills

  • Reading work related information
  • Thinking about the pros and cons of different ways to solve a problem

People and Technology Systems

  • Measuring how well a system is working and how to improve it
  • Thinking about the pros and cons of different options and picking the best one

Problem Solving

  • Noticing a problem and figuring out the best way to solve it

Job Market and Opportunities for Robotics Systems Engineer in Tennessee

The job market for Robotics Systems Engineers in Tennessee is currently experiencing notable activity, with increasing demand across various sectors. As automation continues to advance and industries seek to optimize efficiency, the need for skilled professionals in robotics and system integration grows.

  • Demand: The demand for Robotics Systems Engineers is driven by their application in manufacturing, healthcare, logistics, and defense. As companies adapt to technological advancements and seek to implement intelligent systems, your expertise will likely become essential in developing and maintaining these solutions.

  • Growth Potential: The robotics field is projected to expand significantly over the next several years. Advancements in artificial intelligence, machine learning, and automation technologies mean that Robotics Systems Engineers will find a wealth of opportunities. In particular, Tennessee's strategic initiatives in technology innovation promise to create more roles in this domain.

  • Geographical Hotspots: Within Tennessee, certain areas exhibit a higher concentration of opportunities for Robotics Systems Engineers:

    • Nashville: As a hub for healthcare and technology, Nashville is home to numerous healthcare technology firms, as well as startups focusing on automation and robotics applications in various industries.
    • Knoxville: With its strong emphasis on research and development, Knoxville attracts companies involved in robotics and engineering technologies, particularly around the University of Tennessee.
    • Memphis: Known as a logistics powerhouse, Memphis is a key player for supply chain robotics and automation, providing ample job openings in this sector.
    • Chattanooga: This city is gaining recognition for its focus on smart city initiatives and technology-driven solutions, which enhances the need for robotic systems and support.

As you explore the job market, consider networking within industry-specific organizations and attending conferences to remain informed about the latest trends and opportunities available in the robotics field.

Top Related Careers to Robotics Systems Engineer 2024

Industrial Automation Specialist
Intelligent Systems Designer
Automation Controls Developer
Smart Device Engineer

Additional Resources To Help You Become a Robotics Systems Engineer in Tennessee

  • Robotics Industries Association (RIA)

    • A leading trade association in the robotics industry, providing extensive resources including industry news, research papers, and access to professional development courses.
    • Website: www.robotics.org

  • Institute of Electrical and Electronics Engineers (IEEE) Robotics and Automation Society

    • Offers access to technical publications, conferences, and standards related to robotics and automation.
    • Website: www.ieee-ras.org

  • American Society of Mechanical Engineers (ASME)

    • Provides industry standards, professional development resources, and access to journals focusing on mechanical engineering, including robotics.
    • Website: www.asme.org

  • NASA Robotics Alliance Project

    • Features educational resources and research initiatives related to robotics, particularly in the context of space exploration.
    • Website: robotics.nasa.gov

  • National Robotics Education Foundation (NREF)

    • A non-profit organization dedicated to promoting robotics education and careers through grants and scholarship opportunities.
    • Website: www.nref.org

  • Robotics Online

    • A resource hub for robotics news, technology articles, and a directory of robotics manufacturers and suppliers.
    • Website: www.roboticsonline.com

  • Coursera and edX

    • Online learning platforms offering courses on robotics and automation from various universities. Look for courses that cover control systems, machine learning, and robot design.
    • Websites: www.coursera.org, www.edx.org

  • Books

    • "Robotics: Modelling, Planning and Control" by Bruno Siciliano and Lorenzo Sciavicco
    • "Introduction to Autonomous Robots: Mechanisms, Sensors, Actuators, and Algorithms" by Nikolaus Correll, et al.
    • Check local libraries or online retailers for availability.

  • LinkedIn Groups

    • Join groups related to robotics and engineering, such as "Robotics Professionals" or "Robotics Enthusiasts," where industry trends and job opportunities are frequently discussed.

  • Meetup.com

    • Search for local robotics or engineering meetups in Tennessee to network with professionals, attend workshops, and share experiences.
    • Website: www.meetup.com

  • Tennessee Robotics Competitions

    • Look for state-based competitions like VEX Robotics or FIRST Robotics, where you can engage with the community and gain hands-on experience.

    These resources will aid you in furthering your knowledge and professional development as a Robotics Systems Engineer in Tennessee.

Frequently Asked Questions (FAQs) About Robotics Systems Engineer in Tennessee

  • What is a Robotics Systems Engineer?
    A Robotics Systems Engineer is a professional who designs, develops, and maintains robotic systems. This role involves integrating hardware and software, ensuring that robots function efficiently within various environments and applications.

  • What qualifications do I need to become a Robotics Systems Engineer?
    You typically need a bachelor's degree in engineering, computer science, or a related field. Advanced degrees can be beneficial, and additional certifications in robotics or specialized software may enhance your qualifications.

  • What skills are important for a Robotics Systems Engineer?
    Key skills include:

    • Proficiency in programming languages such as Python, C++, or MATLAB
    • Knowledge of robotics hardware and control systems
    • Strong problem-solving and analytical abilities
    • Familiarity with CAD software for designing robotic components
    • Understanding of machine learning and artificial intelligence can be advantageous

  • What industries employ Robotics Systems Engineers?
    Robotics Systems Engineers are employed in various industries including manufacturing, automotive, aerospace, healthcare, and logistics. The need for automation and robotic solutions is growing across sectors, expanding job opportunities.

  • What are typical job responsibilities for a Robotics Systems Engineer?
    Responsibilities often include:

    • Designing robotic systems and components
    • Conducting feasibility studies and prototype testing
    • Collaborating with multi-disciplinary teams
    • Troubleshooting and resolving system design issues
    • Ensuring compliance with safety standards and regulations

  • Are there opportunities for advancement in this career?
    Yes, there are various opportunities for career advancement. With experience, you can move into senior engineering roles, project management, or specialized areas such as research and development. Leadership positions in engineering management or consultancy are also attainable.

  • What is the job outlook for Robotics Systems Engineers in Tennessee?
    The job outlook for Robotics Systems Engineers is positive, with an increasing demand for automation and robotics in various industries. As technology continues to evolve, the need for skilled engineers in this field is expected to grow.

  • What is the average salary for a Robotics Systems Engineer in Tennessee?
    As of recent data, the average salary ranges between $80,000 to $120,000 per year, depending on experience, education, and the specific industry. Salaries may vary by region within the state.

  • What professional organizations can I join?
    Consider joining organizations such as the Institute of Electrical and Electronics Engineers (IEEE), Robotics Industries Association (RIA), or the American Society of Mechanical Engineers (ASME). These organizations offer networking opportunities, resources, and industry updates.

  • How can I stay updated on advancements in robotics?
    To stay updated, you can:

    • Attend industry conferences and workshops
    • Subscribe to relevant journals and publications
    • Join online forums and discussion groups focused on robotics
    • Participate in continuous education and professional development courses

  • What entry-level positions can lead to a career as a Robotics Systems Engineer?
    Entry-level positions such as robotics technician, mechanical engineer, or software developer in a robotics-related company can provide valuable experience and a pathway to becoming a Robotics Systems Engineer. Internships can also be beneficial.