Technology Record - Issue 23: Winter 21/22

84 www. t e c h n o l o g y r e c o r d . c om Digital twins are fast becoming an essential component within software systems that design, monitor and improve our physical devices – from thermostats to jet engines and skyscrapers. The concept of the digital twin was originally proposed in 2002 by Michael Grieves for use in the field of product lifecycle management (PLM). Some say that it actually dates back to the 1960s when NASA used the digital twin concept to model Apollo spacecraft and help save the Apollo 13 astronauts. Digital twins have typically been used to model the inner workings of physical devices to assist engineers in refining their designs. They can reveal problems that would be much more costly to correct after their physical counterparts have been constructed. Once a device has been built and deployed in the field, its digital twin also can receive telemetry that allows engineers to identify issues and make changes in the next version of the device. The digital twin market is huge at an estimated $3.1 billion market size in 2020. It is also growing rapidly at a 58 per cent compounded annual growth rate and is expected to reach $48.2 billion by 2026. While digital twin adoption is still in its early stages, there are new and exciting use cases waiting to be tapped. One key use case that extends the boundaries of digital twins is real-time analytics, which tracks how live systems are currently behaving instead of how newly designed devices should behave. Here, digital twins continuously analyse streams of telemetry from data sources in the real world to find problems – or in some cases, hidden opportunities. They serve as the eyes and the ears of personnel managing large, complex systems, sifting through torrents of real-time data faster than any human possibly could. They prioritise suspected issues and send alerts when needed so that immediate actions can be taken. Consider, for example, a nationwide trucking fleet with thousands of trucks on the road. Dispatchers are tasked with ensuring that the entire fleet runs smoothly and efficiently all day, every day. However, they have far more telemetry to track than they can examine. Every few seconds, each truck on the road sends messages with engine parameters, cargo condition, fuel, location, speed, acceleration, and more. All this data must be digested immediately to spot problems, such as the urgent need for an engine repair, failing refrigeration that could harm cargo, or a lost or fatigued driver. Multiply this challenge by thousands of trucks, and the role for digital twins becomes clear. Digital twins can separately monitor the condition of each truck by analysing its telemetry with contextual information about the truck and The next step for digital twins New technologies like real-time analytics and machine learning can enable the intelligent monitoring of large systems WI L L I AM BA I N : S CA L EOUT SOF TWAR E V I EWPO I NT “Whether it’s for our supply chains, security or healthcare, digital twins with real-time analytics and machine learning will undoubtedly play a key role”