Man I just found your Chanel here and I’m definitely going to increase my knowledge in Robotics if you teach it anyway I am DCS and Scada programmer now I have to get into industrial robotics so I think I can use some tips from you… thanks in advance sir ❤🙏🏽
My goal is to become a Controls Engineer and I also want to dabble with robotics because it seems interesting. To give you a background: I have a AAS in Electrical Technology (Controls and Automation) and I have been a Controls Builder for five years and have tried advancing, but the companies I have been working for are giving me empty promises. I do have collegiate experience with PLCs for AB and Siemens Software, we learned briefly everything you can think of involving them. Also I have learned basic electrical mathematics (Engineering), that being calculating parallel-series circuits and their Capacitance and Inductance for an example. What do you suggest I do to advance in my career? I am looking forward to making more money and living comfortably.
Shift to another position might be the easiest and best solution. Sometimes it feels like a hard shift but if your not getting anywhere it has to be done. I would assume if you can demonstrate your capabilities you should be able to get a position.
Hi "By 'formats,' I'm referring to the file types or data formats that are commonly used for offsite automation processes. These formats dictate how information is structured and exchanged between different software systems or components involved in the automation workflow. I am curious to know the formats specific to certain applications or equipment in order to automate manufacturing.@@EliteAutomation . Many thanks
Hi buddy, I just to watched this interesting and fantastic video. I was wondering if you could recommend some licenses or certifications for entry level automation/PLC technicians? to further advance my career. Thanks!
Hey there, glad you found the video both interesting and fantastic! It's great to hear you're looking to further your career in automation and PLC tech. Here are some licenses and certifications that are highly regarded in the industry, especially for those starting out: Siemens Certified PLC Technician: This certification program covers Siemens specific hardware and software, making it valuable if you work with their equipment. Allen-Bradley Certified PLC Technician: Similar to the Siemens certification, but focuses on the Allen-Bradley platform. Certified Control Systems Technician (CCST) by ISA: This is a more general certification covering a broad range of control systems technologies, not limited to a specific manufacturer. Additionally, consider exploring certifications offered directly by PLC manufacturers you encounter in your work. They often have programs specific to their hardware and software. Remember, hands-on experience is equally important! Seek out opportunities to work with PLCs and automation systems whenever possible. Best of luck on your journey, and feel free to ask if you have more questions!
I would add basic computer networking and protocols (Modbus TCP, Profibis, Ethernet CIP, etc). OPC principles (eg Kepware). If you plan to work in the pharma industry, GxP. Specifically GAMP.
Thanks for the video bro. I’ve a question? I just take over a position at work. I’m the new automation specialists . I was wondering if there’s any course related to the automation that I could take to develop my skills. Any advice? Thanks in advance
I hope its not too late, I am working as a mechanical designer, and would like to go into industrial automation- design wise, building robots cells for assembly purposes- I know a company called ATS in Ontario that does that. How would you say a guy like me with 4 years of work ex as designer would get a job there. They ask for pneumatics, LVDT, load cells, EOAT expertise. Is there a crash course I can do?
ATS's focus on pneumatics, LVDT, load cells, and EOAT (End-of-Arm Tooling) indicates a strong emphasis on precision engineering and robotic applications. This alignment with your mechanical design background is a solid foundation. While a formal crash course might not be feasible, consider these self-directed learning strategies: Online Courses and Tutorials: Platforms like Coursera, edX, and Udemy: Explore courses on robotics, automation, mechatronics, and control systems. RUclips: Leverage the wealth of tutorials on pneumatics, hydraulics, sensors, and actuators. Industry-Specific Websites: Websites like Automation Direct and Grainger offer technical resources and training materials. Hands-on Experience: Personal Projects: Build small-scale automation projects at home. This could involve simple robotic arms, automated sorting systems, or 3D printing setups. Local Workshops and Hackathons: Participate in events where you can collaborate with other engineers and gain practical experience. Internships or Part-time Jobs: Consider internships or part-time roles in automation companies to gain real-world exposure. Networking and Industry Connections: LinkedIn: Connect with professionals in the automation industry, join relevant groups, and participate in discussions. Industry Events and Conferences: Attend conferences and trade shows to network with industry experts and potential employers. Online Forums: Engage in online forums like Reddit's r/robotics or Engineering Stack Exchange to ask questions and learn from others. Highlighting Your Transferable Skills: When applying to ATS or similar companies, emphasize the following transferable skills: Mechanical Design: Your experience in designing mechanical components and systems is directly relevant to automation. Problem-Solving and Analytical Skills: These skills are essential for troubleshooting automation systems and optimizing processes. CAD Proficiency: Proficiency in CAD software like SolidWorks or AutoCAD is crucial for designing robotic cells and end-effectors. Attention to Detail: Precision and accuracy are paramount in automation, especially when dealing with tolerances and component selection. By combining self-directed learning, hands-on experience, and effective networking, you can significantly enhance your chances of securing a position at ATS or a similar company.
ATS's focus on pneumatics, LVDT, load cells, and EOAT (End-of-Arm Tooling) indicates a strong emphasis on precision engineering and robotic applications. This alignment with your mechanical design background is a solid foundation. Building Your Skillset: While a formal crash course might not be feasible, consider these self-directed learning strategies: Online Courses and Tutorials: Platforms like Coursera, edX, and Udemy: Explore courses on robotics, automation, mechatronics, and control systems. RUclips: Leverage the wealth of tutorials on pneumatics, hydraulics, sensors, and actuators. Industry-Specific Websites: Websites like AutomationDirect and Grainger offer technical resources and training materials. Hands-on Experience: Personal Projects: Build small-scale automation projects at home. This could involve simple robotic arms, automated sorting systems, or 3D printing setups. Local Workshops and Hackathons: Participate in events where you can collaborate with other engineers and gain practical experience. Internships or Part-time Jobs: Consider internships or part-time roles in automation companies to gain real-world exposure. Networking and Industry Connections: LinkedIn: Connect with professionals in the automation industry, join relevant groups, and participate in discussions. Industry Events and Conferences: Attend conferences and trade shows to network with industry experts and potential employers. Online Forums: Engage in online forums like Reddit's r/robotics or Engineering Stack Exchange to ask questions and learn from others. Highlighting Your Transferable Skills: When applying to ATS or similar companies, emphasize the following transferable skills: Mechanical Design: Your experience in designing mechanical components and systems is directly relevant to automation. Problem-Solving and Analytical Skills: These skills are essential for troubleshooting automation systems and optimizing processes. CAD Proficiency: Proficiency in CAD software like SolidWorks or AutoCAD is crucial for designing robotic cells and end-effectors. Attention to Detail: Precision and accuracy are paramount in automation, especially when dealing with tolerances and component selection. By combining self-directed learning, hands-on experience, and effective networking, you can significantly enhance your chances of securing a position at ATS or a similar company.
Great to see you....Iam also a Mechanical engineer....worked with govt of india as a Research engineer and want to start my own company.....Can you pls suggest a better Factory automation software??Rockwell automation factory talk or Delmia??also if you know more softwares pls let me know...thanks...
Very good mention. A few of the people on my team use fusion and then convert to inventor to do the final drawings. Fusion is super user friendly in comparison.
Majority of courses will cover both but it depends on the college and the particular degree. For example food processing automation doesn't generally include robotics. So some schools may have the program tailored towards something like food process automation.
Can you go over a more overarching principles based video. Im self taught, but im struggling to have the confidence in using my coding knowledge to implement esp32 based relays into my manufacturing buisness. Im planning on finding free/cheap alternators and utilizing my lease agreement that includes free eletrical. 😂😅. I feel writing this comment i already can do it, but everything you mentioned was new too me, can you please help bridge the gap. I apreciate the reality check 😂🎉
I'm looking to build automated systems from scratch, and I'd greatly appreciate your help with this endeavor. An ESP32 developer board is essentially an affordable Wi-Fi and Bluetooth-capable computer that you can easily connect components to, making it a great choice for creating automated solutions. These boards are only $5 each. My idea is to combine these small 5V devices with relays and larger components to construct a complete automated production line. While I'm aware that building a Wi-Fi-enabled line with features like an automated concrete mixer and hopper will require more time and effort, I believe it will ultimately save me a significant amount of time and effort in my business. I admit I'm a bit apprehensive about taking the step toward automating various aspects of my business since it's my livelihood, and I'm not a wealthy individual. Moreover, the line is always operating, and making edits to it as "the grandson" in the family company is a huge social and professional risk for me. However, I see the potential benefits in terms of efficiency and productivity. Any guidance or advice on how to get started with this project would be invaluable to me. Thank you for your support!
I work in the oil and gas industry... I deal with Istruments, but I want to get into automation what course would it be the best or the easiest to learn? Any tips or recommendations will be greatly appreciated!!!
As electrical engineer i finished since 2005 my master i like Scada programming and Aitomation what's free programme or center institute do u suggest for me as pratical Training.thank you
Alot of community colleges offer courses in the exact discipline. You may have better luck with an online course. SolisPLC has one. Tim Wileborn has one. They also have some free stuff on YT.
Sir i am installing fanuc cnc system at one of the OEM INDUSTRY in India but want to go out for more anyway to work for u in India plz let me know sir.
Hi, I just got my bachelors degree in electrical engineering and I am hoping to break into controls engineering. What do you suggest I get my masters in to be a control’s engineer
Hi, I hope this information helps... College Roadmap for Industrial Automation: Industrial Automation is a dynamic field that blends engineering, technology, and problem-solving skills. Here's a roadmap to guide you through college for a successful career in this exciting field: 1. Choose Your Academic Path: Bachelor's Degree: This is the most common path, offering a strong foundation in core engineering principles. Popular options include: Bachelor of Science in Mechanical Engineering: Provides a solid understanding of mechanics, robotics, and design principles crucial for industrial automation systems. Bachelor of Science in Electrical Engineering: Focuses on electrical control systems, power distribution, and automation components. Bachelor of Science in Manufacturing Engineering: Offers a blend of mechanical, electrical, and industrial engineering principles with a focus on manufacturing processes and automation integration. Bachelor of Science in Computer Science: Provides programming skills for developing automation software and controlling robots. Associate's Degree: While less common, some community colleges offer associate degrees in automation technology or robotics. These can be stepping stones to a bachelor's degree or directly lead to technician roles in the field. 2. Foundational Courses: Mathematics (Calculus, Linear Algebra, Statistics): Essential for understanding robot kinematics, control systems, and data analysis. Physics (Mechanics, Electricity & Magnetism): Provides the fundamental principles of motion, forces, and electrical systems. Engineering Mechanics (Statics, Dynamics): Focuses on forces, motion, and stability of objects, crucial for robot design and operation. Computer Programming (C++, Python, Java): Enables developing code for robot control, automation software, and data analysis. 3. Core Industrial Automation Courses: Industrial Automation Fundamentals: Introduces concepts like control systems, sensors, actuators, and industrial communication protocols. Robotics & Kinematics: Focuses on robot motion, manipulation, and programming techniques. Mechatronics: Blends mechanics, electronics, and control systems for designing automated machines. Programmable Logic Controllers (PLCs): Teaches programming and troubleshooting PLCs, the workhorses of industrial automation. Machine Vision & Sensing: Covers camera systems, sensors, and image processing techniques for robots to “see” the environment. 4. Additional Considerations: Internships: Gain practical experience by participating in internships with automation companies or manufacturers. Industry Certifications: Consider pursuing certifications like Certified Automation Professional (CAP) to validate your skills. Project-Based Learning: Look for programs that offer opportunities to work on real-world automation projects. Minors/Specializations: Consider minoring in computer science, electrical engineering, or robotics to deepen your knowledge. 5. Career Paths in Industrial Automation: Automation Engineer: Design, develop, implement, and maintain industrial automation systems. Robotics Engineer: Focuses on the design, programming, and application of robots in manufacturing. Controls Engineer: Specializes in designing and programming control systems for automated machines and processes. Mechatronics Engineer: Applies engineering principles to integrate mechanical, electrical, and control systems for automation. Manufacturing Engineer: Integrates automation solutions to optimize production processes. Remember: This roadmap is a starting point. Explore different programs, talk to professionals, and find a path that aligns with your interests and career goals. The industrial automation field is constantly evolving, so staying updated on new technologies and trends will be key to your success.
@@deviousengineer8398 I am learning ignition and python as well, I’m going to attempt to learn both by using inductive university for ignition and python throigh W3 school. Do you have any other suggestions?
The complexity of robots and PLCs depends on the specific application and the level of experience. PLCs (Programmable Logic Controllers): PLCs are typically easier to learn and program for basic tasks. They excel at controlling sequential operations and simple logic. Robots: Robots are more complex, involving mechanical design, electrical engineering, and programming. They require a deeper understanding of kinematics, dynamics, and sensor integration. However, the difficulty of working with either depends on background and experience: If you have a strong background in electrical engineering and programming, you might find PLCs more approachable. If you have experience in mechanical engineering and robotics, you might find robots easier to understand. Ultimately, both PLCs and robots require a combination of technical skills and problem-solving abilities. The best choice will depend on your specific project and your personal preferences.
Man I just found your Chanel here and I’m definitely going to increase my knowledge in Robotics if you teach it anyway I am DCS and Scada programmer now I have to get into industrial robotics so I think I can use some tips from you… thanks in advance sir ❤🙏🏽
Welcome aboard! Looking forward to sharing some more insightful content with all the lovely people out here.
I used Inventor, Solidworks, Ansys, NX cad, CNC fanuc control denford etc.,
Very nice!
My goal is to become a Controls Engineer and I also want to dabble with robotics because it seems interesting. To give you a background: I have a AAS in Electrical Technology (Controls and Automation) and I have been a Controls Builder for five years and have tried advancing, but the companies I have been working for are giving me empty promises. I do have collegiate experience with PLCs for AB and Siemens Software, we learned briefly everything you can think of involving them. Also I have learned basic electrical mathematics (Engineering), that being calculating parallel-series circuits and their Capacitance and Inductance for an example. What do you suggest I do to advance in my career?
I am looking forward to making more money and living comfortably.
Shift to another position might be the easiest and best solution.
Sometimes it feels like a hard shift but if your not getting anywhere it has to be done. I would assume if you can demonstrate your capabilities you should be able to get a position.
Am currently on entry level PLCs and SCADAs, hearing robots are easier than PLCs sounds yummy
I would like to hear about what kind of formats the robots work with, if that is possible.
Formats Meaning? Types of applications, PLCs they interface with, etc?
Hi "By 'formats,' I'm referring to the file types or data formats that are commonly used for offsite automation processes. These formats dictate how information is structured and exchanged between different software systems or components involved in the automation workflow. I am curious to know the formats specific to certain applications or equipment in order to automate manufacturing.@@EliteAutomation . Many thanks
Hi I’m a fan from Taiwan also in IPC industry. Will you attend the Automate show in Chicago in May as well? Great videos 🙌🏻
Awesome. I'm glad you enjoy the content. I'm planning to be there at automate. You going?
Hi buddy, I just to watched this interesting and fantastic video. I was wondering if you could recommend some licenses or certifications for entry level automation/PLC technicians? to further advance my career. Thanks!
Hey there, glad you found the video both interesting and fantastic! It's great to hear you're looking to further your career in automation and PLC tech.
Here are some licenses and certifications that are highly regarded in the industry, especially for those starting out:
Siemens Certified PLC Technician: This certification program covers Siemens specific hardware and software, making it valuable if you work with their equipment.
Allen-Bradley Certified PLC Technician: Similar to the Siemens certification, but focuses on the Allen-Bradley platform.
Certified Control Systems Technician (CCST) by ISA: This is a more general certification covering a broad range of control systems technologies, not limited to a specific manufacturer.
Additionally, consider exploring certifications offered directly by PLC manufacturers you encounter in your work. They often have programs specific to their hardware and software.
Remember, hands-on experience is equally important! Seek out opportunities to work with PLCs and automation systems whenever possible.
Best of luck on your journey, and feel free to ask if you have more questions!
I would add basic computer networking and protocols (Modbus TCP, Profibis, Ethernet CIP, etc).
OPC principles (eg Kepware).
If you plan to work in the pharma industry, GxP. Specifically GAMP.
Ya those are definitely good ones. And especially if you want to become a programmer.
Sir are CAD skills usable in Industrial Automation??Plz reply 🙏
Absolutely. Most things are a custom design that is created in a CAD software.
Thanks for the video bro. I’ve a question? I just take over a position at work. I’m the new automation specialists . I was wondering if there’s any course related to the automation that I could take to develop my skills. Any advice? Thanks in advance
Ya absolutely. Tim Wilborne has training, Solic PLC, RealPars those are all good sources
I hope its not too late, I am working as a mechanical designer, and would like to go into industrial automation- design wise, building robots cells for assembly purposes- I know a company called ATS in Ontario that does that. How would you say a guy like me with 4 years of work ex as designer would get a job there. They ask for pneumatics, LVDT, load cells, EOAT expertise. Is there a crash course I can do?
ATS's focus on pneumatics, LVDT, load cells, and EOAT (End-of-Arm Tooling) indicates a strong emphasis on precision engineering and robotic applications. This alignment with your mechanical design background is a solid foundation.
While a formal crash course might not be feasible, consider these self-directed learning strategies:
Online Courses and Tutorials:
Platforms like Coursera, edX, and Udemy: Explore courses on robotics, automation, mechatronics, and control systems.
RUclips: Leverage the wealth of tutorials on pneumatics, hydraulics, sensors, and actuators.
Industry-Specific Websites: Websites like Automation Direct and Grainger offer technical resources and training materials.
Hands-on Experience:
Personal Projects: Build small-scale automation projects at home. This could involve simple robotic arms, automated sorting systems, or 3D printing setups.
Local Workshops and Hackathons: Participate in events where you can collaborate with other engineers and gain practical experience.
Internships or Part-time Jobs: Consider internships or part-time roles in automation companies to gain real-world exposure.
Networking and Industry Connections:
LinkedIn: Connect with professionals in the automation industry, join relevant groups, and participate in discussions.
Industry Events and Conferences: Attend conferences and trade shows to network with industry experts and potential employers.
Online Forums: Engage in online forums like Reddit's r/robotics or Engineering Stack Exchange to ask questions and learn from others.
Highlighting Your Transferable Skills:
When applying to ATS or similar companies, emphasize the following transferable skills:
Mechanical Design: Your experience in designing mechanical components and systems is directly relevant to automation.
Problem-Solving and Analytical Skills: These skills are essential for troubleshooting automation systems and optimizing processes.
CAD Proficiency: Proficiency in CAD software like SolidWorks or AutoCAD is crucial for designing robotic cells and end-effectors.
Attention to Detail: Precision and accuracy are paramount in automation, especially when dealing with tolerances and component selection.
By combining self-directed learning, hands-on experience, and effective networking, you can significantly enhance your chances of securing a position at ATS or a similar company.
ATS's focus on pneumatics, LVDT, load cells, and EOAT (End-of-Arm Tooling) indicates a strong emphasis on precision engineering and robotic applications. This alignment with your mechanical design background is a solid foundation.
Building Your Skillset:
While a formal crash course might not be feasible, consider these self-directed learning strategies:
Online Courses and Tutorials:
Platforms like Coursera, edX, and Udemy: Explore courses on robotics, automation, mechatronics, and control systems.
RUclips: Leverage the wealth of tutorials on pneumatics, hydraulics, sensors, and actuators.
Industry-Specific Websites: Websites like AutomationDirect and Grainger offer technical resources and training materials.
Hands-on Experience:
Personal Projects: Build small-scale automation projects at home. This could involve simple robotic arms, automated sorting systems, or 3D printing setups.
Local Workshops and Hackathons: Participate in events where you can collaborate with other engineers and gain practical experience.
Internships or Part-time Jobs: Consider internships or part-time roles in automation companies to gain real-world exposure.
Networking and Industry Connections:
LinkedIn: Connect with professionals in the automation industry, join relevant groups, and participate in discussions.
Industry Events and Conferences: Attend conferences and trade shows to network with industry experts and potential employers.
Online Forums: Engage in online forums like Reddit's r/robotics or Engineering Stack Exchange to ask questions and learn from others.
Highlighting Your Transferable Skills:
When applying to ATS or similar companies, emphasize the following transferable skills:
Mechanical Design: Your experience in designing mechanical components and systems is directly relevant to automation.
Problem-Solving and Analytical Skills: These skills are essential for troubleshooting automation systems and optimizing processes.
CAD Proficiency: Proficiency in CAD software like SolidWorks or AutoCAD is crucial for designing robotic cells and end-effectors.
Attention to Detail: Precision and accuracy are paramount in automation, especially when dealing with tolerances and component selection.
By combining self-directed learning, hands-on experience, and effective networking, you can significantly enhance your chances of securing a position at ATS or a similar company.
Great to see you....Iam also a Mechanical engineer....worked with govt of india as a Research engineer and want to start my own company.....Can you pls suggest a better Factory automation software??Rockwell automation factory talk or Delmia??also if you know more softwares pls let me know...thanks...
Rockwell is definitely the winner in the US, Siemens in other places. But India has less of these two. They generally go for lower budget items
Thanks for the video :) Inventor has the fusion version, which is free and allows for 10 active drawings at a time. :)
Very good mention. A few of the people on my team use fusion and then convert to inventor to do the final drawings. Fusion is super user friendly in comparison.
Can i learn and program the software without a physical robot whether it be FANUC or Universal (Colloborative)
yes, you can.
Does automation engineering cover both robotics and PLCs?
Majority of courses will cover both but it depends on the college and the particular degree. For example food processing automation doesn't generally include robotics. So some schools may have the program tailored towards something like food process automation.
Can you go over a more overarching principles based video. Im self taught, but im struggling to have the confidence in using my coding knowledge to implement esp32 based relays into my manufacturing buisness. Im planning on finding free/cheap alternators and utilizing my lease agreement that includes free eletrical. 😂😅. I feel writing this comment i already can do it, but everything you mentioned was new too me, can you please help bridge the gap. I apreciate the reality check 😂🎉
I don't know too much about esp32. We do have some general videos. What specific are looking for or generally
I'm looking to build automated systems from scratch, and I'd greatly appreciate your help with this endeavor. An ESP32 developer board is essentially an affordable Wi-Fi and Bluetooth-capable computer that you can easily connect components to, making it a great choice for creating automated solutions. These boards are only $5 each.
My idea is to combine these small 5V devices with relays and larger components to construct a complete automated production line. While I'm aware that building a Wi-Fi-enabled line with features like an automated concrete mixer and hopper will require more time and effort, I believe it will ultimately save me a significant amount of time and effort in my business.
I admit I'm a bit apprehensive about taking the step toward automating various aspects of my business since it's my livelihood, and I'm not a wealthy individual. Moreover, the line is always operating, and making edits to it as "the grandson" in the family company is a huge social and professional risk for me. However, I see the potential benefits in terms of efficiency and productivity. Any guidance or advice on how to get started with this project would be invaluable to me. Thank you for your support!
I work in the oil and gas industry... I deal with Istruments, but I want to get into automation what course would it be the best or the easiest to learn? Any tips or recommendations will be greatly appreciated!!!
If you are already doing programming then the transition should be easy. Programming seems like an easy entry point.
@EliteAutomation I don't program but I want to learn programming and Automation what would you recommend what software to get familiarize?
As electrical engineer i finished since 2005 my master i like Scada programming and Aitomation what's free programme or center institute do u suggest for me as pratical Training.thank you
Alot of community colleges offer courses in the exact discipline. You may have better luck with an online course. SolisPLC has one. Tim Wileborn has one. They also have some free stuff on YT.
I just graduated in industrial production engineering and do not know where to start
Time to get to work my man! If you have time be selective and apply for all the positions you would like to have.
In industrial automation which one is better python or c/c++
Python is more used.
Sir i am installing fanuc cnc system at one of the OEM INDUSTRY in India but want to go out for more anyway to work for u in India plz let me know sir.
We really don't do cncs we primarily do robotics and automation
Hi, I just got my bachelors degree in electrical engineering and I am hoping to break into controls engineering. What do you suggest I get my masters in to be a control’s engineer
You can. It'll definitely look better on a resume but so does experience as well.
Thank you
Interesting. Thank you for sharing
Thanks for watching!
I'm interested in industrial automation can you give a roadmap for it? I need it urgently so please kindly help me in this and I'm confused
Hi, I hope this information helps...
College Roadmap for Industrial Automation:
Industrial Automation is a dynamic field that blends engineering, technology, and problem-solving skills. Here's a roadmap to guide you through college for a successful career in this exciting field:
1. Choose Your Academic Path:
Bachelor's Degree: This is the most common path, offering a strong foundation in core engineering principles. Popular options include:
Bachelor of Science in Mechanical Engineering: Provides a solid understanding of mechanics, robotics, and design principles crucial for industrial automation systems.
Bachelor of Science in Electrical Engineering: Focuses on electrical control systems, power distribution, and automation components.
Bachelor of Science in Manufacturing Engineering: Offers a blend of mechanical, electrical, and industrial engineering principles with a focus on manufacturing processes and automation integration.
Bachelor of Science in Computer Science: Provides programming skills for developing automation software and controlling robots.
Associate's Degree: While less common, some community colleges offer associate degrees in automation technology or robotics. These can be stepping stones to a bachelor's degree or directly lead to technician roles in the field.
2. Foundational Courses:
Mathematics (Calculus, Linear Algebra, Statistics): Essential for understanding robot kinematics, control systems, and data analysis.
Physics (Mechanics, Electricity & Magnetism): Provides the fundamental principles of motion, forces, and electrical systems.
Engineering Mechanics (Statics, Dynamics): Focuses on forces, motion, and stability of objects, crucial for robot design and operation.
Computer Programming (C++, Python, Java): Enables developing code for robot control, automation software, and data analysis.
3. Core Industrial Automation Courses:
Industrial Automation Fundamentals: Introduces concepts like control systems, sensors, actuators, and industrial communication protocols.
Robotics & Kinematics: Focuses on robot motion, manipulation, and programming techniques.
Mechatronics: Blends mechanics, electronics, and control systems for designing automated machines.
Programmable Logic Controllers (PLCs): Teaches programming and troubleshooting PLCs, the workhorses of industrial automation.
Machine Vision & Sensing: Covers camera systems, sensors, and image processing techniques for robots to “see” the environment.
4. Additional Considerations:
Internships: Gain practical experience by participating in internships with automation companies or manufacturers.
Industry Certifications: Consider pursuing certifications like Certified Automation Professional (CAP) to validate your skills.
Project-Based Learning: Look for programs that offer opportunities to work on real-world automation projects.
Minors/Specializations: Consider minoring in computer science, electrical engineering, or robotics to deepen your knowledge.
5. Career Paths in Industrial Automation:
Automation Engineer: Design, develop, implement, and maintain industrial automation systems.
Robotics Engineer: Focuses on the design, programming, and application of robots in manufacturing.
Controls Engineer: Specializes in designing and programming control systems for automated machines and processes.
Mechatronics Engineer: Applies engineering principles to integrate mechanical, electrical, and control systems for automation.
Manufacturing Engineer: Integrates automation solutions to optimize production processes.
Remember: This roadmap is a starting point. Explore different programs, talk to professionals, and find a path that aligns with your interests and career goals. The industrial automation field is constantly evolving, so staying updated on new technologies and trends will be key to your success.
Thanks for share you knowledge.
No problem. Any thing I can do to help!
@elite automation
Please i need Autocad Electrical 😭😭
Sorry, we don't have that right now.
Hi,
In your opinion, what is the impact of artificial intelligence on our work + or - ?
Thank you
I recorded 3 videos on the topic! Stay tuned. It may take them a few weeks to get out. Editing team has a pretty big back log.
I think Gazebo and Webots are best.
Think so?
Which is the High paying countries for automation engineers
That’s a good question. I would assume it’s probably the country with the highest wages in general.
Any recommendations for Computer Science majors moving into automation?
Anything that involves computer programming. Or maybe networking
ETO ERP software for Industrial Automation?
Honestly can't advise. We don't really get into that side of things internally.
What about TIA V17 ?
That’s Siemens
Good Point!
probaby could save money using a VM for the trial
Ya that's definitely a work around. We just can't advise it lol
hello
how can I learn all about sensors like calibration.........
To calibrate sensors or....?
Networking
Definitely a good one.
How I get connected with you?
Hi there! You can reach out at:
LinkedIn: @malachigreb
Email: malachi@eliteautomationusa.com
should i learn python?
Python is definitely an up and coming language in automation. UR robot back end is Python.
Was looking for this very question! I just started learning Python today
Python is the main language for creating SCADA’s in Ignition. So I would definitely recommend it.
@@deviousengineer8398 I am learning ignition and python as well, I’m going to attempt to learn both by using inductive university for ignition and python throigh W3 school. Do you have any other suggestions?
@@deviousengineer8398what about C++ ?
Thx love it!
Thank you!
Did you say robots are easier than PLCs????
The complexity of robots and PLCs depends on the specific application and the level of experience.
PLCs (Programmable Logic Controllers): PLCs are typically easier to learn and program for basic tasks. They excel at controlling sequential operations and simple logic.
Robots: Robots are more complex, involving mechanical design, electrical engineering, and programming. They require a deeper understanding of kinematics, dynamics, and sensor integration.
However, the difficulty of working with either depends on background and experience:
If you have a strong background in electrical engineering and programming, you might find PLCs more approachable.
If you have experience in mechanical engineering and robotics, you might find robots easier to understand.
Ultimately, both PLCs and robots require a combination of technical skills and problem-solving abilities. The best choice will depend on your specific project and your personal preferences.