Robotics Systems Engineer in Oklahoma Career Overview

As a Robotics Systems Engineer, you occupy a vital role in the development and implementation of robotic systems across various industries. Your responsibilities may include the design, analysis, and testing of robots used in automation, manufacturing, and new technologies. You ensure these systems function efficiently and integrate seamlessly into existing workflows.

  • You will engage in the entire lifecycle of robotic systems, from initial concept through design and prototyping to testing and deployment.
  • Collaborating with cross-functional teams is a common aspect of your role, as you work alongside software engineers, mechanical engineers, and project managers to bring innovative solutions to life.
  • Your expertise drives advancements in robotics, enhancing productivity and safety in industries such as manufacturing, healthcare, and logistics.
  • You play a key role in troubleshooting and resolving issues that arise during the implementation of robotic systems, ensuring they meet stringent performance standards.
  • The continual evolution of technologies means that your role often includes researching and integrating the latest advancements in robotics and automation.

Your contributions significantly impact the efficiency and capabilities of organizations, positioning you as a key player in the ongoing technological revolution within many sectors.

Robotics Systems Engineer Salary in Oklahoma

Annual Median: $101,760
Hourly Median: $48.92

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 Oklahoma

To become a Robotics Systems Engineer, you will typically need a background in various engineering disciplines. The following college degree programs are particularly relevant:

  • Robotics Technology: This program focuses on the design, programming, and implementation of robotic systems, providing you with practical skills needed for the field.

  • Mechatronics: A multidisciplinary field that combines mechanical engineering, electrical engineering, computer science, and control engineering, mechatronics prepares you to integrate various engineering principles to create intelligent systems.

  • Robotics and Automation Engineering Technology: This degree emphasizes practical application of engineering principles in robotics and automation, equipping you with hands-on experience in designing and maintaining robotic systems.

  • Electrical and Electronics Engineering: A degree in this field covers fundamentals of electrical systems, circuitry, and electronics, which are essential for developing the electrical components of robotic systems.

  • Mechanical Engineering: This program provides a strong foundation in mechanical systems and design, which is crucial for building the physical structures of robots and understanding their operation.

  • Systems Engineering: This degree focuses on the overall design and management of complex systems, which is essential for integrating various components of robotic systems into cohesive units.

In addition to obtaining a degree, gaining practical experience through internships, co-op programs, or hands-on projects during your study can be beneficial. Some positions may also require specific certifications or further training in specialized areas of robotics.

Best Schools to become a Robotics Systems Engineer in Oklahoma 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 Oklahoma

  • Programming Proficiency: You must be skilled in programming languages commonly used in robotics, such as Python, C++, and Java. Familiarity with ROS (Robot Operating System) is also beneficial.

  • Mathematical and Analytical Skills: A strong foundation in mathematics, particularly calculus, linear algebra, and differential equations, is essential for modeling and simulating robotic systems.

  • Mechanical Aptitude: Understanding mechanical systems and design principles is important. You should be able to analyze and create mechanical components and assemblies.

  • Electrical Engineering Knowledge: Competence in electrical systems is necessary, including circuit design, sensors, and actuators. Understanding how to interface hardware with software is vital.

  • Control Systems Expertise: A thorough understanding of control theory, including feedback systems and stability analysis, is necessary for developing effective control algorithms for robots.

  • Problem-Solving Skills: You should have strong analytical skills to troubleshoot and innovate solutions to complex engineering problems.

  • Project Management: Understanding project management principles can help you effectively lead projects from conception to completion, ensuring timelines and budgets are met.

  • Team Collaboration: The ability to work effectively in multidisciplinary teams is important. You will often need to collaborate with software developers, mechanical engineers, and other specialists.

  • Communication Skills: Strong written and verbal communication skills are essential for conveying complex technical information to non-specialists and documenting processes and findings.

  • Adaptability: The field of robotics is continually evolving. You must be open to learning new technologies and methods as they emerge.

  • Attention to Detail: Precision is key in robotics. You should be meticulous in your work, ensuring every component and system functions as intended.

  • Systems Thinking: The ability to see the big picture and understand how different components of a robotic system interact is vital for successful integration and performance.

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 Oklahoma

The job market for Robotics Systems Engineers in Oklahoma reflects a burgeoning demand fueled by advancements in automation and emerging technologies. The following aspects characterize the current landscape:

  • Demand for Robotics Systems Engineers: There is a notable increase in the need for robotics systems professionals across various sectors, including manufacturing, aerospace, defense, and healthcare. Companies are increasingly adopting automation solutions, leading to a greater requirement for engineering talent with expertise in robotics systems development and integration.

  • Growth Potential: The robotics sector in Oklahoma demonstrates significant growth potential. With the state's ongoing investment in technology, research and development, and innovation, the likelihood of job openings in this field is expected to rise. This potential is supported by local universities and research institutions that generate a steady flow of graduates and new ideas.

  • Geographical Hotspots:

    • Oklahoma City: As the state capital and a central hub for various industries, Oklahoma City hosts numerous companies focusing on automation and robotics technologies. The presence of firms in diverse sectors enhances opportunities for Robotics Systems Engineers.
    • Tulsa: This city has experienced a surge in tech startups and established companies investing in robotics and automation, making it a key location for employment in this field.
    • Norman: Home to the University of Oklahoma, Norman is a growing center of research and development in robotics, becoming a significant draw for engineering talent both in academics and industry partnerships.

  • Industry Sectors: Several industries in Oklahoma are actively seeking Robotics Systems Engineers, such as:

    • Aerospace and Defense: With companies like Boeing and Northrop Grumman operating in the state, there are ample opportunities for engineers specializing in robotics technologies for aviation applications.
    • Manufacturing: The automotive and electronics sectors are increasingly implementing robotics for process automation, creating a sustained demand for skilled engineers.
    • Healthcare: The integration of robotics in medical devices and surgical systems presents innovative opportunities for engineering professionals focused on developing and refining robotic technologies.

This dynamic job market in Oklahoma positions Robotics Systems Engineers favorably, ensuring a variety of opportunities across multiple industries and regions.

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 Oklahoma

  • IEEE Robotics and Automation Society
    A prominent organization dedicated to advancing the field of robotics. They provide resources including publications, conferences, and educational materials.
    IEEE Robotics and Automation Society

  • Robotics Industries Association (RIA)
    Offers comprehensive information on robotics, including industry news, standards, and a directory of robotics companies. Ideal for networking and professional development.
    Robotics Industries Association

  • National Robotics Engineering Center (NREC)
    An extensive resource for research and development in robotics. NREC focuses on innovations in robotics systems and applications.
    National Robotics Engineering Center

  • MIT OpenCourseWare - Robotics
    Provides free course materials on robotics, including lectures, assignments, and exams. Great for self-paced learning and gaining a foundational understanding of the concepts.
    MIT OpenCourseWare - Robotics

  • society of robotic engineers
    A professional organization that connects robotic engineers and fosters collaboration. They often publish journals and technical reports that can be beneficial for your career.
    Society of Robotic Engineers

  • Coursera - Robotics Specialization
    Offers a series of online courses provided by reputable universities, covering mobile robotics, robotic vision, and more. This is excellent for formal education and skills development.
    Coursera - Robotics Specialization

  • Robotics Trends
    A leading source of news and analysis on robotic technology and innovation. Staying updated on industry trends can improve your knowledge and job prospects.
    Robotics Trends

  • National Institute of Standards and Technology (NIST)
    Provides standards and guidelines for robotics and automation. Resources available include research papers, technology assessments, and practical guides for engineers.
    NIST Robotics

  • LinkedIn Learning - Robotics
    Offers various courses on robotics software, programming, and design. A subscription can provide access to a range of valuable professional development resources.
    LinkedIn Learning - Robotics

  • Oklahoma State University - Robotics and Intelligent Systems Research Group
    Engages in various robotics research projects, providing opportunities for collaboration, learning, and networking within the field.
    OSU Robotics and Intelligent Systems

Utilizing these resources can help you stay informed about industry advancements, develop your skills, and connect with other professionals in the field of robotics systems engineering.

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

  • What educational background do I need to become a Robotics Systems Engineer?
    You typically need a bachelor’s degree in robotics, mechanical engineering, electrical engineering, or a related field. Many positions also require advanced degrees or specialized certifications.

  • What skills are essential for a Robotics Systems Engineer?
    Key skills include programming (C++, Python, MATLAB), knowledge of robotics hardware and software, system design, analytical problem-solving, teamwork, and project management.

  • What industries employ Robotics Systems Engineers in Oklahoma?
    Industries such as aerospace, manufacturing, healthcare, and agriculture frequently hire Robotics Systems Engineers. Companies in these sectors often look to integrate automation and robotics into their processes.

  • What are common job responsibilities of a Robotics Systems Engineer?
    Responsibilities include designing robotic systems, developing and testing algorithms, performing simulations, troubleshooting issues, and collaborating with cross-functional teams to enhance automation processes.

  • What software tools do Robotics Systems Engineers commonly use?
    Common tools include ROS (Robot Operating System), MATLAB, AutoCAD, SolidWorks, and various simulation software. Familiarity with these tools can enhance your effectiveness in the role.

  • Is a graduate degree necessary for a career in robotics?
    While a bachelor's degree may suffice for entry-level positions, a graduate degree can improve your job prospects and enable you to work on more advanced projects.

  • Are there certification programs available for Robotics Systems Engineers?
    Yes, certification programs exist, such as Certified Robotics Technician (CRT) or certifications offered by organizations like the International Society of Automation (ISA). These can enhance your qualifications.

  • What is the job outlook for Robotics Systems Engineers in Oklahoma?
    The job outlook is favorable, with increasing demand for automation within various industries. Advancements in technology are likely to continue driving job growth.

  • What is the typical salary range for a Robotics Systems Engineer in Oklahoma?
    Salaries can vary widely based on experience, education, and the specific industry. On average, Robotics Systems Engineers in Oklahoma earn between $70,000 and $110,000 annually.

  • What types of projects might I work on?
    Projects may include developing autonomous vehicles, designing robotic arms for manufacturing, creating robotic systems for surgical applications, and implementing automation solutions in various processes.

  • How do I stay current in the field of robotics?
    You should participate in continuous learning through professional development courses, attend industry conferences, subscribe to robotics journals, and engage in online communities related to robotics.