Post-Covid Engineering - What has Changed And What You Should Know! | NITTE Blogs

Post-Covid Engineering - What has Changed And What You Should Know!

Today's world is fraught with uncertainty, and our interactions with one another have shifted dramatically. With many challenges confronting society today, new and innovative systems are being imagined and developed to meet our ever-changing needs. From education to health care, unemployment to disrupted supply chains, no one appears to be immune to the COVID-19 pandemic's effects.

With new challenges emerging daily, we require talented and highly qualified individuals with the knowledge and determination to address some of society's most pressing concerns, particularly in engineering. Engineers, on the other hand, thrive on a challenge, demonstrating to the world what they are capable of with great tenacity.

Engineering Trends And Changes That Emerged Post-Covid
Building ventilators and hospitals, simulating viral spread and developing social-distancing technology to help colleagues stay safe at work brought organisations and individuals together like never before. Unfortunately, we are still feeling the effects of the pandemic.

However, thanks to great innovation and problem-solving, we have a good idea of where we are going. Here are a few ways Covid-19 influenced engineering and how engineering will control the post-pandemic world.
  • Technology Is Advancing Across Industries
    As we adjust to a more distant world, our reliance on technology and the digital systems that connect us grows stronger by the day. The field of cyber-physical systems engineering enables us to imagine, design, develop, refine, and sustain innovative systems in areas that benefit industries, communities, and individuals. Indeed, the benefits of cyber-physical systems extend far beyond engineering and technology, affecting industries such as health care, intelligent transportation, disaster response, and manufacturing.

  • Better Product Development and Manufacturing
    With so many unknowns in our lives today, there is a strong demand for better cleaning products and safer personal care items. Chemical engineers are responsible for discovering and manufacturing products that improve the environment and people's health. They are also required to produce many of the valuable products on which so many industries rely.

  • Addressing Environmental Issues
    As food supply chains grapple with shifting demand and labour shortages, new sustainable agriculture systems are critical to ensuring adequate access to necessities. Environmental engineers study all aspects of the natural environment to develop solutions to problems associated with natural resource consumption. Environmental engineers can design and implement strategies that promote public health and ecological sustainability by studying climate change, pollution, and soil depletion.

  • Medical Technology Advancements
    The public health crisis caused by the spread of COVID-19 has placed enormous strain on our healthcare system and medical professionals. For many, the race to develop and implement better methods of treating and preventing this deadly disease has become a gruelling task. Biomedical engineers work tirelessly to improve machines, technologies, and devices, all with the goal of improving others' health and quality of life now and in the future.

  • Infrastructure System Enhancements As society evolves, so do our requirements. For example, transportation patterns have shifted as more people work from home and more people than ever before order everyday items online. Civil engineers are in charge of designing and constructing the infrastructure systems that support our world. Considering the physical consequences of the pandemic, civil engineers concentrate on developing better techniques to support our new way of life.

Covid has demonstrated that the gap between skills and requirements should be bridged as soon as possible so the world can deal with such a situation. During the pandemic, for example, IT professionals had to learn new technologies and concepts to secure new job opportunities.

As a result, the demand for skilled professionals will increase post-Covid. As a result, colleges and universities will revise their curricula to include more current concepts, ensuring students have the necessary skills.

Engineering Education Post-Covid
From data science engineering to robotics engineering, new engineering branches will emerge. These are based on new technologies and concepts that have the potential to revolutionise the world further and make it more capable of dealing with any such crisis. Another trend that can potentially transform the engineering world entirely is the increase in master's applications.

M.Tech, or Masters in Technology, provides more opportunities for a student to investigate a specific concept in depth, regardless of the field. Engineers can quickly advance and gain new skills with this advanced education. As a result, they will be able to apply for higher-paying positions.

In addition, companies can use these professionals' skills to improve their operations and become more competent. Despite the pandemic's negative impact, engineering as a career option is making a comeback as the economy slowly recovers.

Students must be aware of current technological developments such as AI, ML, Data Sciences, and the Internet of Things (IoT), which will be the primary driving force in the coming years as the demand for automation and increased interconnectivity multiplies.

According to 3M's State of Science Index 2021, the pandemic has rekindled interest in STEM fields among Indians, who have also become more environmentally conscious.

Furthermore, with the rapid development of start-ups and other small-business-driven organisations, engineering is expected to pick up pace and see massive growth in the coming years.