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Tools and software
Disruptive technology is advancement that changes the way consumers, industries, or businesses operate. Disruptive techs have the potential to replace age-old practices. Few areas of business are seeing more of such changes than supply chains. These are evolving to become digital networks that are on-demand and always-on. As such, they have the potential to deliver massive economic and environmental rewards, boosting productivity and sustainability, driving new markets, and encouraging innovation as digital transformation continues.
As with all disruptive tech, choosing the right time to invest is a key consideration. Some disruptive techs - such as Industry 4.0 advancements including Internet of Things and robotics - are more embedded than others, such as 3D printing. But in ten years’ time, most of them will have had a seismic impact on the way companies move goods from A to B.
Here are the most disruptive technologies, in ascending order of impact.
3D printing layers materials to produce finished goods. Metal, body tissues, concrete and food are all now being used as part of the 3D printing process due to the technology developing in capability since it was brought into reality in the early 1980’s, no longer can the tech “just” produce plastic prototypes.
CIPS says: “The 3D printer could be set to revolutionise future supply chains by reducing supply complexities, increasing the speed to market of products, reducing global impact by limiting the shipping of goods around the globe, whilst enabling the printing of replacement parts in remote locations. Whilst 3D printing is not set to displace mass production it will open up a world of product personalisation that could shape the demands of consumers.”
We all know about ‘the cloud’ but what about the ‘fog’? This is a new concept that spreads data across multiple servers with reliance on any single location. It uses virtual buffers to endlessly relocate data packets, meaning a file is never completely in one place. Such a network has the potential to make big-data analytics more secure and stable, because at no point is any given single piece of data in a single location.
It could even rival artificial intelligence, IoT app development and 5G in importance.
In a decade’s time, lorry drivers will be driving in an entirely new way. Through the integration of vehicle-to-vehicle comms and radar-based collision avoidance systems fleets of trucks will drive in ‘platoons’, using aerodynamics to save fuel. The lead truck sets the pace. The tech synchronises braking and acceleration between pairs of trucks. This communication ensures lorries travel at a safe distance.
Platoons are managed by cloud-based network that connect trucks through mobile comms and Wi-Fi. Cloud-based supervision limits platoons to specified roads in safe driving conditions.
The increasing demand for contactless deliveries is seeing drones being used to deliver packages. There are an estimated 20,000 drones carrying out retail deliveries today, and an estimated 500,000 drones are registered for commercial use with the Federal Aviation Administration (FAA) in the US. The drone package-delivery market is expected to grow from $528 million in 2020 to $39 billion. Gartner estimates drone delivery will not only reduce last-mile delivery costs by 70 percent but will also make the delivery process more energy efficient.
Wearable tech are smart, hands-free electronic devices that automatically deliver information to the wearer. Connected glasses and clothing are becoming increasingly common in warehouse facilities.Companies such as UPS use wearables to streamline their supply chain processes and save time.
The worldwide wearables market hit a new record high in the fourth quarter of 2021 (4Q21) as shipments reached 171 million units, up 10.8% from the same quarter last year, according to new data from the International Data Corporation.
Blockchain is set to significantly change the way retailers and consumer-packaged-goods manufacturers run their supply chains. The universal need for secure transactions and the demand for transparency are already steering how buyers relate to brands. Blockchain is meeting these needs by guaranteeing the origin of goods, as well as the security of the transaction. Finance online predicts global spend on blockchain to reach US$17.9bn by 2024.
No longer the stuff of Isaac Asimov novels, robotics is revolutionising the supply chain and delivering significant value. It improves speed and accuracy of operations, particularly in warehousing and manufacturing.
Robots are also helping companies increase worker productivity, reduce error rate, cut pick-, sort-, and storing-times; and increase access to difficult or dangerous locations. And with the current labour shortage - and people’s general disinclination to work in warehouse environments - robots are the last-mile workers of the future.
This is example from Kroger Technology (pictured below), the American retail giant soon to be in April’s edition of Technology Magazine, is a great example of robotics in action at scale.
Big Data has long ceased to be a buzzword; it’s now a guiding principle of supply chain management. But having data and making sense of it are different things. Enter predictive analytics, which Gartner characterise as data mining. This uses applied statistical modeling with data mining to give supply chain bosses a 360-degree view of the supply landscape. Research shows the decision making of high-performing organisations is five times more likely to be analytics-driven than intuition-based, with intuition being the habit of low-performing firms.
These types of tools help businesses produce, store and distribute products more efficiently and effectively. Customer service is the watchword here, with all manner of businesses now demanding speed, visibility and transparency from supply chain partners with a view to satisfying customer expectation. Once mostly a retail-centric notion, ‘on-demand’ is now mission-critical for all companies, regardless of size, industry or position in the supply chain. Solutions that optimise inventory or supply chain networks are now de rigueur.
Forrester indicates that the likes of telcos and system integrators will increase their offering of wide area network (WAN) optimised managed services.
Not so long ago, complex supply chains were seen more as a barrier to progress. But no more, thanks in main to the Internet of Things (IoT). IoT is really little more than a collective noun for the billions of sensors that are embedded in various devices (within the supply chain but also the wider world, just as in fridges and cars). The IoT allows for data-exchange - both within and between systems - over the Internet, and can leverage actionable data from all steps of the supply chain. It’s now used for locating materials, servicing equipment and monitoring productivity and efficiency.
Back in 2013, there were around 20 million smart sensors in use in supply chains, feeding live data back to those controlling supply levers. In 2022, that number is expected to climb to 1 trillion, and by 2030, Deloitte says 10 trillion sensors will be deployed.