Online Engineering Blog
Artificial intelligence (AI) and automation applications are experiencing explosive growth in modern technology across all industries. Advanced systems and control engineering works at the intersection of operational technology and information technology, making it an important feature in many of these new applications.
Biomedical engineers develop new devices and create medical equipment that improve human health and help people thrive after trauma: advanced imaging systems, medical instruments, bioartificial organs, bionic limbs and eyes, sensory aids, and more. To accomplish this, they apply engineering principles to healthcare and medicine.
Whether it’s the rise of advanced robotics or the demand for sustainable solutions, engineers play a pivotal role in solving complex challenges and pushing the boundaries of what’s possible.
As industries become more complex and technology continues to advance at a fast pace, employers need highly skilled engineers.1 This means that advanced education is no longer just a bonus—it’s fast becoming a necessity.
While some engineering elements are timeless, today’s modern mechanical engineers also need to master new skills driven by technological advances such as artificial intelligence (AI), the Internet of Things (IoT) and robotics.
Mechanical engineers are at the forefront of revolutionizing energy management through groundbreaking technologies.
As technology continues to advance, professionals in control engineering must stay informed—so that their skills remain current and their systems continue to perform optimally.
Engineers are known for their technical skills, but leadership and soft skills are just as important for driving innovation and promoting project success. Effective leaders can handle difficult challenges, inspire their teams and make strategic decisions to further organizational goals.
An impressive 84% of professional engineers report being "satisfied to very satisfied" with their job and 91% recommend engineering as a career path for a young person. But those are only two reasons to choose a career path in engineering.
The biomedical engineering field is experiencing significant growth, driven by continuous technological advancements and the pressing need for innovative healthcare solutions. For professionals in the industry, obtaining a Master of Science (MS) in Biomedical Engineering can be a catalyst for career advancement.