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Internship Robotics Control Jobs in Utah (NOW HIRING)

Internship Robotics Control information

What are the key skills and qualifications needed to thrive as an Internship Robotics Control, and why are they important?

To thrive in an Internship Robotics Control position, you generally need a background in engineering or computer science and foundational knowledge of robotics, control systems, and programming languages such as Python or C++. Familiarity with tools and environments like ROS (Robot Operating System), MATLAB/Simulink, and microcontroller platforms is typically required. Strong problem-solving skills, eagerness to learn, and effective teamwork set exceptional interns apart in this field. These skills and qualities are crucial for successfully contributing to robotics projects, adapting to new technologies, and collaborating on innovative solutions.

What types of projects and responsibilities can I expect during an Internship in Robotics Control?

As an intern in Robotics Control, you will typically work on projects involving the programming, testing, and optimization of robotic systems. Responsibilities often include assisting with algorithm development, calibrating sensors and actuators, and supporting troubleshooting efforts for hardware and software issues. You may collaborate closely with engineers, research scientists, and other interns, contributing to real-time control experiments, data analysis, and documentation tasks. This hands-on experience provides valuable exposure to the robotics workflow and offers opportunities to develop both technical and teamwork skills in a collaborative environment.

What are Internship Robotics Control positions?

Internship Robotics Control positions are entry-level opportunities for students or recent graduates to gain hands-on experience working with robotic systems, focusing on programming, designing, and testing control algorithms. These internships typically involve collaborating with experienced engineers to develop software or hardware that helps control the movement and operation of robots. They offer practical exposure to fields like automation, artificial intelligence, and mechatronics. Interns may work on real-world projects, use tools like ROS (Robot Operating System), and learn to optimize robot performance in various environments.

What is the difference between Internship Robotics Control vs Robotics Technician?

AspectInternship Robotics ControlRobotics Technician
CredentialsTypically pursuing or recent graduate of engineering or robotics programsAssociate's or bachelor's degree in robotics, electronics, or related fields
Work EnvironmentEducational settings, labs, or entry-level industry projectsManufacturing facilities, research labs, or industrial settings
Job FocusLearning, assisting, and gaining experience in robotics control systemsMaintaining, troubleshooting, and operating robotic systems
Industry UsageInternship programs, training, and entry-level rolesFull-time technical roles in robotics and automation

In summary, Internship Robotics Control is an entry-level, learning-focused position aimed at students or recent graduates gaining experience in robotics control systems. Robotics Technicians are more experienced professionals responsible for maintaining and troubleshooting robotic equipment in industrial or research environments.

What are popular job titles related to Internship Robotics Control jobs in Utah? For Internship Robotics Control jobs in Utah, the most frequently searched job titles are:
What cities in Utah are hiring for Internship Robotics Control jobs? Cities in Utah with the most Internship Robotics Control job openings:
Mechanical Engineer

Contractor

Posted 21 hours ago


Job description

Need locals or someone who can relocate to Utah from day one
Position: Mechanical Engineer
Location: Mendon, Utah
Duration: 6 Months
JOB SUMMARY
We are seeking a skilled Mechanical Engineer to join our team developing automated mobile heavy equipment that removes humans from dull, dirty, and dangerous jobs. In this role, you will design, draft and support innovative systems that advance safety and efficiency in demanding industrial environments.
Key Responsibilities
  • Create and manage CAD models and drawings, including importing, simplifying, and documenting designs.
  • Develop CAD models of existing hardware to support integration and improvement.
  • Collaborate with product owners to define requirements and ensure designs meet performance, safety, and usability goals.
  • On shape Modeling: Organize 3D sheet metal parts and complex, multi-part assemblies using on-shape.
  • Drawings & GD&T: Create detailed 2D fabrication drawings (PDF) including proper GD&T (ASME Y14.5), annotations, welding symbols, and bend information.
  • Sheet Metal Optimization: Design sheet metal parts, create flat patterns for fabrication.
  • Assemblies & BOMs: Manage large assembly files, including hardware, sub-assemblies, and generate accurate Bills of Materials (BOMs) including electrical drawing revisions and buyout part information.
  • Documentation Control: Maintain, update, and revise drawings and assemblies based on engineering change requests. (ECRs)
  • Attention to Detail: This person will be able to catch mistakes while reviewing drawings, assemblies and ask questions related to each BOM that will enhance the product and correct any issues before drawings and BOMs are finalized.
  • Provide technical input to support the creation of assembly documentation, operator manuals, and maintenance guides.

Qualifications
  • Bachelor's degree in Mechanical Engineering or related field (Master's a plus).
  • 1 to 4 years of experience working in Robotics/Automotive or similar domain.
  • Good experience in mechanical design, automation, robotics, or related areas (internships count).
  • Proficiency in CAD software (On-shape - preferred, SolidWorks, Creo, or similar) for modeling and drawing creation.
  • Basic understanding of mechanical systems, materials, and manufacturing methods.
  • Good understanding of GD&T and Welding process.
  • Hands-on experience with prototyping, testing, or hardware builds preferred.
  • Basic understanding of pneumatic and hydraulic systems
  • Strong communication skills and ability to work effectively in cross-functional teams.
  • Demonstrated interest in automation, robotics, or safety-critical systems is a plus.