How digital twins aid manufacturers, doctors and automakers

DIGITAL twin technology is a cost-effective way for operation-based businesses to replicate a physical asset in a way that drives innovation.

Before investing in resources for real-world implementation, digital twin technology can simulate plans and formulate what-if scenarios.

The virtual model pairs with the physical world and analyzes the data captured.

Via a digital twin, businesses can find out problems before they even occur, prevent downtime, and even develop new business opportunities.

So, this means that technology can analyze the data captured against business and other contextual data to drive innovation from within.

Here are three surefire areas where digital twin technology can help businesses thrive:

1 | Manufacturing factory floors

Implementing new change to the manufacturing sector may interrupt many things and therefore, must be a sound decision.

With digital twin technology, a manufacturing business can simulate new change to monitor if it will have any unforeseen circumstances.

Factory floors are able to capture many, many data through smart sensors. However, if the data is not put to good use, it will be such a waste.

Therefore, digital twin technology is a perfect use of the data as it can drive innovation within the facilities itself.

2 | Health professionals training rooms

Digital twin technology can also be of good use in the space of healthcare operations and patient care.

The technology enables the simulation of a real patient or body organ for health professionals to practice and trial on.

Together with smart sensors that can monitor parameters like heartbeat and blood pressure, the technology can monitor the recovery progress.

Although healthcare can be subjective, simulations can determine which hands-on skills will deliver more effective and efficient real-world care application.

3 | Automaker’s product development grounds

In the automotive industry, digital twin technology helps make the product development process more efficient.

When smart sensors on test vehicles are able to capture data of use, it can be measured for further innovation.

It can reduce the time from design to launch significantly by cutting down the time taken to test the new vehicle.

A typical car takes 6 years to reach its launch stage. However, using a digital twin, automakers can simulate the different components to test its form and function quickly, reducing its time to launch significantly.

Digital twin technology will help businesses plan for innovative improvements for many more years to come.

Not only will it save productive hours, but also allow businesses to test different theories without incurring major expenditures.

Thus, the technology really has no limit to how it can positively change the business world.