Robotics / Automation
Admission
Benefits of this program
Employment Opportunities
Automation and robotics programs at Rumi Academy prepare students for work in a number of fields, from robotics and computer control methods to hydraulics and pneumatics. Emphasis on assembly languages means students are prepared for work in the computer and IT field as well as in the engineering industry.
If you’ve got a technical mind that you’d like to apply to robotics engineering training, here’s what you need to know.
Robotics and Automation Courses
Robotics and automation programs (usually offered as two- or three-year programs) are generally classified under electromechanical engineering technology, which means skills will focus on the manufacturing and industrial applications of robotics. Math, computer applications and electrical courses will provide a knowledge base for specialized courses such as mechatronics and programming.
Hands-on learning using the latest robotics technology will be a big part of most program curriculums. Students will practice the skills necessary to build, repair, troubleshoot and maintain electromechanical equipment. Many programs offer the opportunity to build small robots or robotic parts as an in-class project.
A career planning course and field placement may also be part of a robotics program to prepare students for work in real-world settings.
Salary
- $50 AVERAGE WAGE/HR**
- $71 HIGH WAGE/HR**
Qestions & Answers
ROLE OF ROBOTICS AND AUTOMATION IN INDUSTRIES
Robotics is one of the most up-and-coming technological advancements, which has now been integrated into many industries.
ROBOTICS IN MANUFACTURING
Robotics are used to increase productivity and efficiency in the manufacturing industry. They do not need to take breaks like humans and can work in any hazardous environment as well. Additionally, Robotic Arms are used to carry out efficient work in the manufacturing Industry.
ROBOTICS IN HEALTHCARE
All the minimally invasive surgeries are now carried out by robotics in many countries, where the surgeons inside the body can control tiny devices. Other types of robotic applications in healthcare are Robotic assistants or Care Robots, Hospital Robots, and more.
AUTOMATION IN MANUFACTURING
In the manufacturing industry, automation yields high reliability, safety, and accuracy of business processes. It effectively replaces human work and can function in hazardous situations such as heat, water, fire, etc. It saves time and effort and increases the production rate.
HOW TO MAKE THE RIGHT AUTOMATION/ROBOTICS DECISIONS
In the age of the internet, we are more dependent on automated technologies and robotic machines to perform the tasks in our everyday lives.
These technologies are integrated with Artificial Intelligence which helps in making faster and accurate decisions for businesses. They have become an integral part of any industry by automating the smallest of tasks, which allows taking the biggest decisions for the growth of the businesses.
Professionals working in the field of Robotics/Automation require a diverse set of skills spanning mechanical engineering, electrical engineering, computer science, and more. Here are some essential skills for individuals in this field:
Programming and Software Development,Control Systems,Mechanical Design and Engineering,Electrical and Electronic Systems,Robotics Simulation,Computer Vision and Perception,Sensor Integration,Kinematics and Dynamics,Artificial Intelligence and Machine Learning,Human-Robot Interaction,Safety Standards and Regulations,Problem-Solving and Troubleshooting,Project Management,Communication Skills,Continuous Learning
These skills collectively enable professionals in Robotics/Automation to contribute to the design, development, and deployment of intelligent and efficient robotic systems across various industries. The multidisciplinary nature of this field requires individuals to have a broad skill set and the ability to adapt to new challenges and technologies.
Professionals working in the field of Robotics/Automation perform a variety of tasks related to the design, implementation, and maintenance of robotic systems and automated processes. The specific tasks can vary based on the industry and the application, but here are some common tasks performed by individuals in this field:
System Design,Programming and Control,End-of-Arm Tooling (EOAT),Sensor Integration,Motion Planning,Collaborative Robotics (Cobots),Industrial Automation,Mobile Robotics,Process Optimization,Maintenance and Troubleshooting,Research and Development,Integration of Control Systems,Training and Documentation,Quality Assurance,Project Management
These tasks collectively contribute to the successful development and deployment of intelligent and efficient robotic systems, enhancing automation across various industries.
Robotics and automation programs require an Ontario Secondary School Diploma (OSSD) or equivalent, including a grade 12 English and grade 12 mathematics credit. Additional mathematics or physics courses may be required and are always an asset. Some institutions may include their own mathematics and English testing as part of the selection process.
1. robotics engineer
Robotics engineers build robots from scratch, handling everything from design and programming to assembly, testing and maintenance. They’re the cornerstones of robotics companies and research labs, lending their expertise to clients within diverse industries, from healthcare to manufacturing. To succeed as a robotics engineer, you’ll need a firm grasp of computer-aided design systems and the ability to write and test code for robots.
2. mechanical engineer
When it comes to making a robot functional, mechanical engineers take center stage. Tasked with creating the physical infrastructure of a robot, these engineers handle everything from designing the robot’s primary structure to its chassis, bearings and joints. You’ll often find them in the manufacturing, automotive and aerospace industries.
Mechanical engineers’ duties often extend beyond construction. They may install robotic systems, conduct research or analyze efficiency levels post-implementation. While they need a foundational degree in engineering, they often specialize in one or more areas within the field.
3. design engineer
Ever wondered why robots have a futuristic vibe? Credit that to design engineers. These professionals refine the visual appearance of robots, but their role isn’t limited to aesthetics. They collaborate with mechanical engineers to ensure the physical design is functional, allowing the robot to accomplish its programmed tasks efficiently.
Design engineers are involved in all phases of a robot’s physical design, from blueprint creation to determining movement. They often rely on computer programs to visualize designs before crafting physical prototypes.
4. automation engineers
Automation engineers design, program, simulate and test automated machinery and processes, which often include robotic devices. These experts find their place across industries from manufacturing and logistics to healthcare and entertainment. You’ll need a solid understanding of robotic systems and programming languages to excel in this role. Moreover, you’ll need to be a problem solver with a knack for finding efficient solutions to keep the automation process on point.