Hello, just found your channel. Im currently in a trades program for Mechatronics & am currently working in automotive paint systems (No robots, just the bells + their systems). I recently took a Siemens PLC class, and really enjoyed it. Working with the program was very interesting and fun, I'm thinking of shifting my long term career focus from fixing/building Automotive Robots to programming them and other fields systems (although I'm yet to take a Allen Bradley & Robotics course). I'm curious on what I should be focusing on learning? I know that you need to understand all aspects (mechanical, programming, electrical) to really excel in this field and having access to many different paths. Do you have any free sources that I can spend my free time learning from outside of yourself? I've found one but he is from the UK, so sometimes the symbols/names are different. Appreciate your time, loving the content (I do enjoy the ones you shoot from your desk a bit more)!
That's fantastic that you enjoyed your Siemens PLC class! Shifting your focus to programming automation systems is a very rewarding path. You can also focus on the following, building upon your Siemens experience: 1. Deepen Siemens PLC Expertise such as Advanced Programming, Structured Text, Motion Control, Data Handling, Troubleshooting, TIA Portal Mastery and Safety Integrated 2. Expand PLC Vendor Knowledge 3. Robotics Fundamentals 4. Industrial Communication & Networks 5. Systems Integration I hope this information helps. Thanks for watching and please subscribe to the channel so you can be notified when I have some new content about automation. Cheers!
hi. liked your video and i am planning to pursue bachelors mechatronics in Germany as an international student, would you recommend one to do a masters in AI or ML , or robotics system control or masters in mechatronics only. or rather one can go for data science or elec eng with IT
Hi, this is quite a long answer to your question and I hope it helps you in choosing the right Master's degree after a Mechatronics Bachelor's since it's a crucial decision. Here's a breakdown to help you consider your options: 1. Masters in AI or ML (Artificial Intelligence or Machine Learning) Pros: Highly in-demand: AI/ML is a booming field with incredible job prospects. Interdisciplinary: You'll gain skills applicable to various sectors (robotics, automation, healthcare, finance). Cutting-edge: You'll be at the forefront of technological advancements. Cons: May require bridging knowledge gaps: You might need to supplement your Mechatronics background with more computer science fundamentals. Competitive: The field is highly competitive, so strong academic performance is essential. 2. Masters in Robotics System Control Pros: Deepens Mechatronics expertise: You'll gain advanced knowledge in areas like control theory, motion planning, and robotics systems. Strong foundation for research: Excellent preparation for pursuing a Ph.D. in robotics or related fields. Career opportunities: High demand in industries like aerospace, manufacturing, and automation. Cons: May be more specialized: Could limit career options compared to AI/ML. 3. Masters in Mechatronics Pros: Builds on your existing foundation: You'll gain in-depth knowledge across all core Mechatronics disciplines. Specialization options: Many programs offer specializations (e.g., robotics, automation, biomedical). Versatility: Provides a solid foundation for a wide range of career paths. Cons: May not be as cutting-edge as AI/ML or Robotics System Control. 4. Data Science Pros: Highly versatile: Applicable to numerous industries (finance, healthcare, marketing). In-demand skills: Strong job market and competitive salaries. Complements Mechatronics: You can apply data science techniques to analyze and optimize mechatronic systems. Cons: May require additional coursework in statistics and programming. 5. Electrical Engineering with IT Pros: Combines hardware and software expertise: Highly valuable in modern engineering. Strong foundation for embedded systems, IoT, and automation. Career opportunities: Wide range of options in industries like electronics, telecommunications, and automotive. Cons: May require some adjustments in your coursework to align with your Mechatronics background. Recommendations: Consider your career goals: What kind of work do you envision yourself doing? What are your long-term aspirations? Research specific programs: Look into the curricula, faculty, research opportunities, and career outcomes of different programs in Germany. Talk to professionals: Network with engineers and researchers in your areas of interest to gain insights into their career paths and the skills they value. Consider your personal interests: Choose a field that you are genuinely passionate about. Cheers to your success!
Hello, I'm going to follow a mechatronic degree course. I have two questions to clarify. 1.Does someone with a mechatronics degree have the ability to do distance working jobs? 2. In What kind of companies can mechatronic engineers work ?
Yes, a mechatronics engineer is well-suited for distance working jobs and Mechatronic engineers can work in a wide range of industries such as Automotive, Aerospace, Manufacturing, Robotics, Medical devices, Consumer electronics and Energy.
Choosing a mechatronics career path can be exciting! Here are some ideas based on your interests and skills: 1. Robotics Engineer: If you love designing and building robots, this is a great option. You'll work on projects like developing autonomous vehicles, industrial robots, or even personal robots. 2. Automation Engineer: Interested in improving efficiency and productivity? Automation engineers design and implement automated systems for various industries, from manufacturing to healthcare. 3. Control Systems Engineer: If you enjoy programming and problem-solving, consider a career in control systems engineering. You'll develop and maintain control systems for machines and processes. 4. Product Development Engineer: Want to bring new products to life? As a product development engineer, you'll work on designing and developing innovative mechatronic products. 5. Research and Development: If you're passionate about pushing the boundaries of technology, a career in research and development might be for you. You'll work on developing new mechatronic systems and applications. 6. Technical Support: Enjoy helping others? As a technical support engineer, you'll provide assistance and troubleshooting for mechatronic systems. 7. Entrepreneurship: With your mechatronics skills, you could start your own business developing and selling innovative mechatronic products or services. To narrow down your choices, consider: Your interests and passions Your strengths and weaknesses The industries that excite you The type of work environment you prefer Remember, your mechatronics degree provides you with a versatile skillset, opening up many career possibilities. Don't be afraid to explore different options and find the path that's right for you!
Mechatronics engineering is a highly sought-after field in Japan, especially with the country's focus on advanced technology and automation. Potential job roles with a Mechatronics Engineering degree in Japan: - Robotics Engineer - Automotive Engineer - Aerospace Engineer - Manufacturing Engineer - Research and Development Engineer
Hello, I'm a mechatronics undergrad and trying to make up my mind on which path should I specialize at. I have made some research and narrowed it down to three : Industrial Automation , Embedded systems and robotics (software/hardware) but still unsure what to pick. My top preference is robotics but heard that there are not that many job opportunities , is that true? If yes, which should I pick from a career standpoint? (I don't like any more than the other)
While the U.S. robotics job market can be competitive, there are still plenty of opportunities available. Here's why: Growing Demand: Industries like manufacturing, healthcare, and logistics are increasingly adopting robotics, driving demand for skilled professionals. Technological Advancements: Continuous advancements in robotics technology are creating new job roles and applications. Regional Variations: Job markets can vary significantly by location. Some regions, such as Silicon Valley and the Rust Belt, have particularly strong robotics industries. Diverse Career Paths: Robotics offers a wide range of career options, from research and development to engineering and technical support. To increase your chances of finding a robotics job in the U.S., consider the following: Strong Educational Background: Pursue a degree in robotics, engineering, computer science, or a related field. Gain Practical Experience: Internships, co-op programs, or personal projects can provide valuable hands-on experience. Networking: Build relationships with professionals in the robotics industry through conferences, online communities, and networking events. Stay Updated: Keep up with the latest trends and technologies in robotics to remain competitive. By following these steps and actively seeking opportunities, you can increase your chances of finding a fulfilling career in robotics in the United States.
I love the concept behind mechatronics but i wamted to know that is a single mechatronic engneer could do all the stuff alone by building a robot for specific problem?
@muhammadhammad5699 yes, it's technically possible for a single mechatronics engineer to build a robot for a specific problem, but it's often more practical and efficient to work with or in a team.
I had a hard time studying mechanical engineering when I was younger due to a roadblock called calculus. I have been thinking about trying again. I have a degree in Industrial Automation and Electrical Technology, and it seems to be in a similar vein. PLC wiring and programming, industrial robotics, industrial wiring, power distribution, and electrical theory are some of the bigger classes.
Absolutely! While calculus can be challenging, many successful engineers have overcome similar hurdles. Here are some tips to consider as you contemplate returning to mechanical engineering: 1. Assess Your Comfort with Calculus: Review the basics: Start by revisiting fundamental calculus concepts like derivatives, integrals, and limits. Online resources and textbooks can be helpful. Identify specific areas of difficulty: Pinpoint the exact topics that gave you trouble. This will help you focus your efforts. 2. Seek Additional Support: Tutoring: Consider hiring a tutor or joining a study group to get personalized help. Online resources: Explore online courses, tutorials, and practice problems to reinforce your understanding. 3. Connect with Professors: Reach out to professors in your previous mechanical engineering courses. They may offer advice or additional resources. 4. Explore Alternative Pathways: Industrial engineering: If calculus is a significant barrier, consider industrial engineering, which combines elements of mechanical, electrical, and industrial engineering. Specialized roles: Focus on areas of mechatronics that require less calculus, such as PLC programming or automation engineering. 5. Leverage Your Existing Skills: Build on your strengths: Your experience in industrial automation and electrical technology can be valuable assets. Transferable skills: Identify skills you've developed that can be applied to mechanical engineering, such as problem-solving, technical analysis, and project management. Remember, returning to school can be challenging, but with the right approach and dedication, you can overcome obstacles and achieve your goals. Don't hesitate to seek support and explore different options to find the best path for you.
Great video! I am a current Mechatronics student.
That's awesome!
that's awesome!
Same here...
Hello, just found your channel. Im currently in a trades program for Mechatronics & am currently working in automotive paint systems (No robots, just the bells + their systems).
I recently took a Siemens PLC class, and really enjoyed it. Working with the program was very interesting and fun, I'm thinking of shifting my long term career focus from fixing/building Automotive Robots to programming them and other fields systems (although I'm yet to take a Allen Bradley & Robotics course). I'm curious on what I should be focusing on learning? I know that you need to understand all aspects (mechanical, programming, electrical) to really excel in this field and having access to many different paths.
Do you have any free sources that I can spend my free time learning from outside of yourself? I've found one but he is from the UK, so sometimes the symbols/names are different. Appreciate your time, loving the content (I do enjoy the ones you shoot from your desk a bit more)!
That's fantastic that you enjoyed your Siemens PLC class! Shifting your focus to programming automation systems is a very rewarding path. You can also focus on the following, building upon your Siemens experience:
1. Deepen Siemens PLC Expertise such as Advanced Programming, Structured Text, Motion Control, Data Handling, Troubleshooting, TIA Portal Mastery and Safety Integrated
2. Expand PLC Vendor Knowledge
3. Robotics Fundamentals
4. Industrial Communication & Networks
5. Systems Integration
I hope this information helps. Thanks for watching and please subscribe to the channel so you can be notified when I have some new content about automation. Cheers!
hi. liked your video and i am planning to pursue bachelors mechatronics in Germany as an international student, would you recommend one to do a masters in AI or ML , or robotics system control or masters in mechatronics only. or rather one can go for data science or elec eng with IT
Hi, this is quite a long answer to your question and I hope it helps you in choosing the right Master's degree after a Mechatronics Bachelor's since it's a crucial decision. Here's a breakdown to help you consider your options:
1. Masters in AI or ML (Artificial Intelligence or Machine Learning)
Pros:
Highly in-demand: AI/ML is a booming field with incredible job prospects.
Interdisciplinary: You'll gain skills applicable to various sectors (robotics, automation, healthcare, finance).
Cutting-edge: You'll be at the forefront of technological advancements.
Cons:
May require bridging knowledge gaps: You might need to supplement your Mechatronics background with more computer science fundamentals.
Competitive: The field is highly competitive, so strong academic performance is essential.
2. Masters in Robotics System Control
Pros:
Deepens Mechatronics expertise: You'll gain advanced knowledge in areas like control theory, motion planning, and robotics systems.
Strong foundation for research: Excellent preparation for pursuing a Ph.D. in robotics or related fields.
Career opportunities: High demand in industries like aerospace, manufacturing, and automation.
Cons:
May be more specialized: Could limit career options compared to AI/ML.
3. Masters in Mechatronics
Pros:
Builds on your existing foundation: You'll gain in-depth knowledge across all core Mechatronics disciplines.
Specialization options: Many programs offer specializations (e.g., robotics, automation, biomedical).
Versatility: Provides a solid foundation for a wide range of career paths.
Cons:
May not be as cutting-edge as AI/ML or Robotics System Control.
4. Data Science
Pros:
Highly versatile: Applicable to numerous industries (finance, healthcare, marketing).
In-demand skills: Strong job market and competitive salaries.
Complements Mechatronics: You can apply data science techniques to analyze and optimize mechatronic systems.
Cons:
May require additional coursework in statistics and programming.
5. Electrical Engineering with IT
Pros:
Combines hardware and software expertise: Highly valuable in modern engineering.
Strong foundation for embedded systems, IoT, and automation.
Career opportunities: Wide range of options in industries like electronics, telecommunications, and automotive.
Cons:
May require some adjustments in your coursework to align with your Mechatronics background.
Recommendations:
Consider your career goals: What kind of work do you envision yourself doing? What are your long-term aspirations?
Research specific programs: Look into the curricula, faculty, research opportunities, and career outcomes of different programs in Germany.
Talk to professionals: Network with engineers and researchers in your areas of interest to gain insights into their career paths and the skills they value.
Consider your personal interests: Choose a field that you are genuinely passionate about.
Cheers to your success!
Hello, I'm going to follow a mechatronic degree course. I have two questions to clarify.
1.Does someone with a mechatronics degree have the ability to do distance working jobs?
2. In What kind of companies can mechatronic engineers work ?
Yes, a mechatronics engineer is well-suited for distance working jobs and Mechatronic engineers can work in a wide range of industries such as Automotive, Aerospace, Manufacturing, Robotics, Medical devices, Consumer electronics and Energy.
@@EliteAutomation Thank you
I am currently studying Mechatronics Engineering and I want to choose a specific career path but don't know how..
Choosing a mechatronics career path can be exciting! Here are some ideas based on your interests and skills:
1. Robotics Engineer: If you love designing and building robots, this is a great option. You'll work on projects like developing autonomous vehicles, industrial robots, or even personal robots.
2. Automation Engineer: Interested in improving efficiency and productivity? Automation engineers design and implement automated systems for various industries, from manufacturing to healthcare.
3. Control Systems Engineer: If you enjoy programming and problem-solving, consider a career in control systems engineering. You'll develop and maintain control systems for machines and processes.
4. Product Development Engineer: Want to bring new products to life? As a product development engineer, you'll work on designing and developing innovative mechatronic products.
5. Research and Development: If you're passionate about pushing the boundaries of technology, a career in research and development might be for you. You'll work on developing new mechatronic systems and applications.
6. Technical Support: Enjoy helping others? As a technical support engineer, you'll provide assistance and troubleshooting for mechatronic systems.
7. Entrepreneurship: With your mechatronics skills, you could start your own business developing and selling innovative mechatronic products or services.
To narrow down your choices, consider:
Your interests and passions
Your strengths and weaknesses
The industries that excite you
The type of work environment you prefer
Remember, your mechatronics degree provides you with a versatile skillset, opening up many career possibilities. Don't be afraid to explore different options and find the path that's right for you!
@@EliteAutomation Thanks very much
how could i find video like that your background videos ,
try pexels.com or adobe stock.
Hi i am willing to study mechatronics engineering and what kind of jobs will i get in japan
Mechatronics engineering is a highly sought-after field in Japan, especially with the country's focus on advanced technology and automation.
Potential job roles with a Mechatronics Engineering degree in Japan:
- Robotics Engineer
- Automotive Engineer
- Aerospace Engineer
- Manufacturing Engineer
- Research and Development Engineer
Hello, I'm a mechatronics undergrad and trying to make up my mind on which path should I specialize at. I have made some research and narrowed it down to three : Industrial Automation , Embedded systems and robotics (software/hardware) but still unsure what to pick. My top preference is robotics but heard that there are not that many job opportunities , is that true? If yes, which should I pick from a career standpoint? (I don't like any more than the other)
While the U.S. robotics job market can be competitive, there are still plenty of opportunities available. Here's why:
Growing Demand: Industries like manufacturing, healthcare, and logistics are increasingly adopting robotics, driving demand for skilled professionals.
Technological Advancements: Continuous advancements in robotics technology are creating new job roles and applications.
Regional Variations: Job markets can vary significantly by location. Some regions, such as Silicon Valley and the Rust Belt, have particularly strong robotics industries.
Diverse Career Paths: Robotics offers a wide range of career options, from research and development to engineering and technical support.
To increase your chances of finding a robotics job in the U.S., consider the following:
Strong Educational Background: Pursue a degree in robotics, engineering, computer science, or a related field.
Gain Practical Experience: Internships, co-op programs, or personal projects can provide valuable hands-on experience.
Networking: Build relationships with professionals in the robotics industry through conferences, online communities, and networking events.
Stay Updated: Keep up with the latest trends and technologies in robotics to remain competitive.
By following these steps and actively seeking opportunities, you can increase your chances of finding a fulfilling career in robotics in the United States.
Thanks ChatGPT 😅 @@EliteAutomation
I love the concept behind mechatronics but i wamted to know that is a single mechatronic engneer could do all the stuff alone by building a robot for specific problem?
@muhammadhammad5699 yes, it's technically possible for a single mechatronics engineer to build a robot for a specific problem, but it's often more practical and efficient to work with or in a team.
Hi am i highschool graduate that applying for college and i want to do mechanical engineering,is mechatronics the right course to pick ?
yes it is. good luck to your career path.
I had a hard time studying mechanical engineering when I was younger due to a roadblock called calculus. I have been thinking about trying again. I have a degree in Industrial Automation and Electrical Technology, and it seems to be in a similar vein. PLC wiring and programming, industrial robotics, industrial wiring, power distribution, and electrical theory are some of the bigger classes.
Absolutely! While calculus can be challenging, many successful engineers have overcome similar hurdles. Here are some tips to consider as you contemplate returning to mechanical engineering:
1. Assess Your Comfort with Calculus:
Review the basics: Start by revisiting fundamental calculus concepts like derivatives, integrals, and limits. Online resources and textbooks can be helpful.
Identify specific areas of difficulty: Pinpoint the exact topics that gave you trouble. This will help you focus your efforts.
2. Seek Additional Support:
Tutoring: Consider hiring a tutor or joining a study group to get personalized help.
Online resources: Explore online courses, tutorials, and practice problems to reinforce your understanding.
3. Connect with Professors: Reach out to professors in your previous mechanical engineering courses. They may offer advice or additional resources.
4. Explore Alternative Pathways:
Industrial engineering: If calculus is a significant barrier, consider industrial engineering, which combines elements of mechanical, electrical, and industrial engineering.
Specialized roles: Focus on areas of mechatronics that require less calculus, such as PLC programming or automation engineering.
5. Leverage Your Existing Skills:
Build on your strengths: Your experience in industrial automation and electrical technology can be valuable assets.
Transferable skills: Identify skills you've developed that can be applied to mechanical engineering, such as problem-solving, technical analysis, and project management.
Remember, returning to school can be challenging, but with the right approach and dedication, you can overcome obstacles and achieve your goals. Don't hesitate to seek support and explore different options to find the best path for you.