Warner Electric
The growth and advancement in technology are changing our perspective towards life. Product design and manufacturing must also adhere to these changes. , if engineering firms don’t change with technology, then they risk running out of business. And no one wants this to happen.
The changes present a new opportunity to solve current problems in ways we didn’t anticipate. The human resource in these engineering firms should expect a change in their roles and duties. And yes, flexibility and the ability to acquire new skills will determine whether they stay relevant in the industry or not.
Here are the 5 exciting engineering technologies to watch out for in the market.
1. Real-Time Innovation
Technology is revolutionizing the innovation industry. For instance, it took years to invent transportation equipment. Trial and error techniques with endless prototypes were the order of the day. Designing and manufacturing a vehicle with a shelf life of seven years could take four years.
That’s not the case anymore.
Digitization is changing the design field for engineers. One can easily get real-time data on the performance of Warner electric equipment in the field today.
2. More Big Data
Big data is a common term in the engineering industry. However, many applications rely on limited data connected to a factory or a single machine. Well, this is bound to change, thanks to the proliferation of IoT sensors.
With IoT, machines and software will easily collect real-time data. With 5G internet, data transmission is faster, leading to real-time decision making. As such, a factory can optimize tasks over the internet.
3. Generative Design
The generative design relies on cloud computing power and artificial intelligence software to generate design solutions that are hard for the human mind to conceive. Well, it acts as a partner to an engineer in the designing phase.
But how does it work?
The engineer starts by giving algorithm design parameters to the software. The software then explores all the viable options. An engineer then takes these options to determine the most feasible under the given conditions.
Generative design technology requires a huge collaboration between the engineer and the machine.
4. 3D Printing
The additive manufacturing strategy, known as three-dimensional printing, is transforming the design and manufacturing industry. But that’s not all, and this strategy is slowly creeping into almost every sector of the economy.
The 3D printing strategy makes it easier and cheaper to design prototypes: the result, higher satisfaction levels to customers. For instance, let’s say you’re designing a commercial plane. You don’t have to design and manufacture to note that something is amiss. The 3D prototype allows you to critique and improve on the final product before starting the manufacturing process.
5. Robotics
Robots are increasingly becoming popular in modern-day society. Even better, they can do much better than providing physical strengths or moving items around the factory.
The robots can complement our work in several ways, including performing cognitive duties.
Conclusion
The above-mentioned technologies have the potential of completely disrupting the engineering industry. The disruption may result in better, efficient, and impressive solutions to common-day design problems. As such, engineers must be flexible and ready to adapt to these changes.
