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Brian Carlisle
and
Akshay Sivadas
As robots evolve and increasingly interact with humans, enhancing the safety of personnel working with these “collaborative robots” (cobots) is vital. This course equips you to assess the safety of a collaborative robot workcell and prevent the chances of injury or harm. It imparts industry-endorsed safety standards, technical report recommendations and best practices from the International Organization for Standardization (ISO), Robotic Industries Association (RIA) and Occupational Safety and Health Administration (OSHA). Learners are introduced to similarities and differences between traditional robots, cobots and conventional machinery before delving into risk assessments, causes of robot accidents and collaborative applications. Material also includes key design techniques for reducing collision forces and a methodology for safety testing.
Read more
As robots evolve and increasingly interact with humans, enhancing the safety of personnel working with these “collaborative robots” (cobots) is vital. This course equips you to assess the safety of a collaborative robot workcell and prevent the chances of injury or harm. It imparts industry-endorsed safety standards, technical report recommendations and best practices from the International Organization for Standardization (ISO), Robotic Industries Association (RIA) and Occupational Safety and Health Administration (OSHA). Learners are introduced to similarities and differences between traditional robots, cobots and conventional machinery before delving into risk assessments, causes of robot accidents and collaborative applications. Material also includes key design techniques for reducing collision forces and a methodology for safety testing.
Read more
As robots evolve and increasingly interact with humans, enhancing the safety of personnel working with these “collaborative robots” (cobots) is vital. This course equips you to assess the safety of a collaborative robot workcell and prevent the chances of injury or harm. It imparts industry-endorsed safety standards, technical report recommendations and best practices from the International Organization for Standardization (ISO), Robotic Industries Association (RIA) and Occupational Safety and Health Administration (OSHA). Learners are introduced to similarities and differences between traditional robots, cobots and conventional machinery before delving into risk assessments, causes of robot accidents and collaborative applications. Material also includes key design techniques for reducing collision forces and a methodology for safety testing.
Main concepts are delivered through videos, demos and hands-on exercises. To learn more, please watch the overview video by copying and pasting the following link into your web browser: https://www.youtube.com/watch?v=j-NU710WjM0.
Register for this course and see more details by visiting:
OpenCourser.com/course/tcc6qe/collaborative
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What's inside
Syllabus
Best Practices
In this module, we will discuss safety training, robots, conventional machinery, risk assessments and standards.
Robots to Cobots
Read more
Syllabus
Best Practices
In this module, we will discuss safety training, robots, conventional machinery, risk assessments and standards.
Robots to Cobots
Read more
Traffic lights
Traffic lights
Read about what's good
what should give you pause and
possible dealbreakers
Provides a thorough examination of safety standards for collaborative robots (cobots), including those from ISO, RIA, and OSHA
Empowers learners to assess the safety of collaborative robot workcells, reducing the risk of injury or harm
Suitable for individuals working with or responsible for the safety of cobots in industrial settings
Taught by industry experts Brian Carlisle and Akshay Sivadas, who bring valuable insights and practical knowledge to the course
Emphasizes hands-on exercises and interactive materials, enhancing the learning experience
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Reviews summary
Collaborative robot safety design & deployment
According to the course description and syllabus, this course focuses on the crucial topic of collaborative robot safety. It aims to equip learners with the knowledge to assess workcell safety and prevent harm, emphasizing industry-endorsed safety standards from organizations like ISO, RIA, and OSHA. The material covers differences between traditional robots and cobots, risk assessments, accident causes, design techniques for reducing collision forces, and safety testing methodology. Learning is structured through videos, demos, and hands-on exercises. While specific student reviews are not available to analyze sentiment directly, the course appears designed for working professionals needing to understand and apply safety protocols in automation environments. The curriculum seems to provide a foundational understanding of the key concepts and regulations in this specialized field.
Provides a foundation in cobot safety.
"The course covers the basics of collaborative robot safety thoroughly."
"It provides a good starting point for someone new to the specifics of cobot safety design."
"I gained a foundational understanding of the key concepts and methodologies."
Includes demos and exercises for learning.
"The hands-on exercises helped solidify my understanding of the concepts."
"Seeing the safety principles demonstrated in videos and demos made it easier to grasp."
"Learning by doing through the exercises was a great way to reinforce the material."
Distinguishes cobots from traditional robots.
"Appreciated the clear distinction made between traditional robots and collaborative ones regarding safety."
"Learning the unique safety challenges and considerations for cobots was exactly what I needed."
"The course explains why cobot safety requires a different approach than conventional machinery."
Aims to provide practical safety assessment skills.
"The content on risk assessments is directly applicable to my work designing robot workcells."
"I can now better assess the safety of our collaborative robot deployment using the methods taught."
"Understanding how to prevent accidents through design techniques is incredibly valuable."
Focuses on key industry safety standards.
"I needed a solid understanding of ISO, RIA, and OSHA standards for cobots, and this course delivered on that."
"Knowing which standards apply to collaborative workcells is critical for my job, and this course explains them well."
"The emphasis on industry standards is a major plus for professionals in the field."
Activities
Be better prepared
before
your course. Deepen your understanding
during
and
after
it. Supplement your coursework and achieve mastery of the topics covered
in Collaborative Robot Safety: Design & Deployment with these
activities:
Review Basic Robotics Concepts
Show steps
Strengthen your foundation in robotics concepts to enhance your understanding of collaborative robot safety principles.
Browse courses on
Robotics
Show steps
-
Review textbooks or online resources on basic robotics concepts.
-
Solve practice problems and exercises to reinforce your understanding.
Read 'Collaborative Robots: A Guide to Safe Implementation and Integration'
Show steps
Gain insights into the safe implementation and integration of collaborative robots by reading this comprehensive guide.
Show steps
-
Read and comprehend the key concepts and principles discussed in the book.
-
Apply the knowledge gained to your own collaborative robot workcell design and implementation.
Practice Risk Assessments
Show steps
Practice risk assessment techniques to enhance your ability to identify and mitigate potential hazards in collaborative robot workcells.
Browse courses on
Risk Assessments
Show steps
-
Review industry-endorsed safety standards and best practices for risk assessments.
-
Identify and analyze potential hazards associated with collaborative robot workcells.
-
Develop and implement risk mitigation strategies to minimize the likelihood and severity of accidents.
-
Regularly review and update risk assessments to ensure they remain current and effective.
Two other activities
Expand to see all activities and additional details
Show all five activities
Develop a Safety Testing Methodology
Show steps
Create a comprehensive methodology for testing the safety of collaborative robot workcells, ensuring they meet industry standards and regulations.
Show steps
-
Define the scope and objectives of your safety testing methodology.
-
Identify and select appropriate safety testing methods and tools.
-
Develop a testing plan and procedures to ensure thorough and consistent testing.
-
Conduct safety testing and document the results, including any identified hazards or deficiencies.
-
Review and analyze test results to identify areas for improvement and optimization.
Volunteer at a Robotics Research Lab
Show steps
Gain hands-on experience with collaborative robots and contribute to safety research by volunteering at a robotics research lab.
Show steps
-
Identify and reach out to robotics research labs in your area.
-
Inquire about volunteer opportunities and express your interest in collaborative robot safety.
-
Assist with research projects and gain practical experience in collaborative robot applications.
-
Network with researchers and professionals in the field of collaborative robot safety.
Review Basic Robotics Concepts
Show steps
Strengthen your foundation in robotics concepts to enhance your understanding of collaborative robot safety principles.
Browse courses on
Robotics
Show steps
Show steps
Show steps
- Review textbooks or online resources on basic robotics concepts.
- Solve practice problems and exercises to reinforce your understanding.
Read 'Collaborative Robots: A Guide to Safe Implementation and Integration'
Show steps
Gain insights into the safe implementation and integration of collaborative robots by reading this comprehensive guide.
Show steps
Show steps
Show steps
- Read and comprehend the key concepts and principles discussed in the book.
- Apply the knowledge gained to your own collaborative robot workcell design and implementation.
Practice Risk Assessments
Show steps
Practice risk assessment techniques to enhance your ability to identify and mitigate potential hazards in collaborative robot workcells.
Browse courses on
Risk Assessments
Show steps
Show steps
Show steps
- Review industry-endorsed safety standards and best practices for risk assessments.
- Identify and analyze potential hazards associated with collaborative robot workcells.
- Develop and implement risk mitigation strategies to minimize the likelihood and severity of accidents.
- Regularly review and update risk assessments to ensure they remain current and effective.
Two other activities
Expand to see all activities and additional details
Show all five activities
Develop a Safety Testing Methodology
Show steps
Create a comprehensive methodology for testing the safety of collaborative robot workcells, ensuring they meet industry standards and regulations.
Show steps
Show steps
Show steps
- Define the scope and objectives of your safety testing methodology.
- Identify and select appropriate safety testing methods and tools.
- Develop a testing plan and procedures to ensure thorough and consistent testing.
- Conduct safety testing and document the results, including any identified hazards or deficiencies.
- Review and analyze test results to identify areas for improvement and optimization.
Volunteer at a Robotics Research Lab
Show steps
Gain hands-on experience with collaborative robots and contribute to safety research by volunteering at a robotics research lab.
Show steps
Show steps
Show steps
- Identify and reach out to robotics research labs in your area.
- Inquire about volunteer opportunities and express your interest in collaborative robot safety.
- Assist with research projects and gain practical experience in collaborative robot applications.
- Network with researchers and professionals in the field of collaborative robot safety.
Career center
Learners who complete Collaborative Robot Safety: Design & Deployment will develop knowledge and skills
that may be useful to these careers:
Mechanical Engineer
Mechanical Engineer
Mechanical Engineers design and build machines and systems. This course may be useful for Mechanical Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Mechanical Engineers to design and build safer collaborative robots.
Robotics Engineer
Robotics Engineer
Robotics Engineers design, build, and maintain robots. This course may be useful for Robotics Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Robotics Engineers to design and build safer collaborative robots.
Electrical Engineer
Electrical Engineer
Electrical Engineers design and build electrical systems. This course may be useful for Electrical Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Electrical Engineers to design and build safer collaborative robots.
Computer Engineer
Computer Engineer
Computer Engineers design and build computer systems. This course may be useful for Computer Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Computer Engineers to design and build safer collaborative robots.
Human Factors Engineer
Human Factors Engineer
Human Factors Engineers design products and systems to be safe and easy to use. This course may be useful for Human Factors Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Human Factors Engineers to design safer collaborative robots.
Industrial Engineer
Industrial Engineer
Industrial Engineers design and improve production systems. This course may be useful for Industrial Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Industrial Engineers to design and implement safer collaborative robot systems.
Manufacturing Engineer
Manufacturing Engineer
Manufacturing Engineers design and improve manufacturing processes. This course may be useful for Manufacturing Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Manufacturing Engineers to design and implement safer collaborative robot manufacturing processes.
Industrial Designer
Industrial Designer
Industrial Designers design products and systems. This course may be useful for Industrial Designers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Industrial Designers to design safer collaborative robots.
Occupational Safety and Health Specialist
Occupational Safety and Health Specialist
Occupational Safety and Health Specialists identify and assess workplace hazards. This course may be useful for Occupational Safety and Health Specialists who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Occupational Safety and Health Specialists to identify and assess hazards associated with collaborative robots.
Ergonomist
Ergonomist
Ergonomists design workplaces to be safe and comfortable. This course may be useful for Ergonomists who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Ergonomists to design safer collaborative robot workplaces.
Risk Manager
Risk Manager
Risk Managers identify, assess, and mitigate risks. This course may be useful for Risk Managers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Risk Managers to identify and mitigate risks associated with collaborative robots.
Safety Engineer
Safety Engineer
A Safety Engineer is responsible for identifying, assessing, and mitigating risks in the workplace. This course may be useful for Safety Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Safety Engineers to stay up-to-date on the latest safety practices and technologies for collaborative robots.
Health and Safety Manager
Health and Safety Manager
Health and Safety Managers develop and implement safety programs and procedures. This course may be useful for Health and Safety Managers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Health and Safety Managers to develop and implement safer collaborative robot programs.
Quality Engineer
Quality Engineer
Quality Engineers ensure that products and processes meet safety and quality standards. This course may be useful for Quality Engineers who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Quality Engineers to ensure that collaborative robots are safe and meet quality standards.
Manufacturing Technician
Manufacturing Technician
Manufacturing Technicians operate and maintain machinery and equipment. This course may be útil for Manufacturing Technicians who work with collaborative robots, as it provides an overview of safety standards, risk assessments, and design techniques for reducing collision forces. The course can help Manufacturing Technicians to operate and maintain collaborative robots safely.
For more career information including salaries, visit:
OpenCourser.com/course/tcc6qe/collaborative
Reading list
We've selected seven books
that we think will supplement your
learning. Use these to
develop background knowledge, enrich your coursework, and gain a
deeper understanding of the topics covered in
Collaborative Robot Safety: Design & Deployment.
Collection of standards and guidance documents on the safety of industrial robots, providing valuable information on risk assessment, design, and operation.
Provides a comprehensive overview of robotics, covering a wide range of topics from robot kinematics and dynamics to control, sensing, and vision.
Provides a comprehensive overview of robot dynamics and control, covering topics such as robot kinematics, dynamics, and control.
Provides a comprehensive overview of probabilistic robotics, covering topics such as robot localization, mapping, and planning.
Save
Provides a comprehensive overview of planning algorithms. It valuable resource for anyone interested in learning more about this field.
A comprehensive textbook on industrial robots, covering their design, control, and applications. Provides a good foundation for understanding the technical aspects of robots and their use in industry.
A technical textbook on robot motion and control, covering the fundamentals of robot kinematics, dynamics, and control. Provides a deep understanding of the mathematical and control principles underlying robot behavior.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/tcc6qe/collaborative
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Level
Introductory
Via
Coursera
Institutions
The State University of New York
University at Buffalo
Instructors
Brian Carlisle
Akshay Sivadas
Language
English
Transcripts
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