Dec 26, 2024  
2023-2024 College Catalog and Student Handbook 
    
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2023-2024 College Catalog and Student Handbook [ARCHIVED CATALOG]

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EMMT 1710 - Introduction to Robotics

2 Credit(s)
This course covers the basic programming, operation, interfacing, troubleshooting and OSHA safety standards for industrial robots and work-cell systems. The primary focus is on the use of automatic parts-handling equipment, contour applications and interfacing with emphasis on design for manufacturing. Topics include the use of conveyors, parts feeders, positioning equipment and safety systems. Hands-on laboratory experiences include operation of robots using the teach pendant.
2 Lab Hour(s)
1 Lecture Hour(s);
Required Prerequisite Course(s): None
Required Concurrent Course(s): None
College Wide Outcomes
College-Wide Learning Outcomes Assessments - - How it is met & When it is met
Communication – Written  
Communication – Speech  
Intercultural Knowledge and Competence  
Critical Thinking  
Information Literacy  
Quantitative Literacy  

Student Learning Outcomes for Course
Outcomes Assessments – How it is met & When it is met

1. Demonstrate basic robotic programming commands and concepts, particularly those that are associated with articulated arm robots.

Labs throughout the semester

Midterm and final exams

2. Describe any robot encountered in terms of: arm geometry, power source, drive system, control technique, path control, and possible applications.

Labs

Midterm and final exams

3. Evaluate the end of arm tooling needs for a given application and specify the tooling in general terms at type, weight, operation, and collision system needed.

Labs

Midterm and final exams

4. Evaluate the types of jigs or fixtures needed for successful and accurate assembly operations.

Labs

Midterm and final exams

5. Demonstrate understanding of robotic safety systems and programming and be able to identify those devices, and circuits that are used for safety.

Labs

Midterm and final exams

6. Identify OSHA’s standards and terminology for robotic safety.

Labs throughout the semester

Final exam

7. Interface external devices such as limit and proximity switches, conveyor systems and other robot controllers to the controller.

Labs

Midterm and final exams

8. Describe the classifications of manufacturing systems and which can be successfully automated.

Labs

Final exams

 



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