Material Gains

AI could be the key to understanding the data collected by the IoT.

Big data is useless and all the sensors in the world are not enough. Contentious? Maybe. I've talked in the past about the prospects for digitizing the world and it's true that we have many of the ingredients to make this happen: tiny, low-power sensors including optical and MEMS inertial sensors that provide contextual awareness; connectivity technologies for almost every practical and budgetary constraint; low-cost processing power and mass storage.

We're well on the way to seeing almost 30 billion devices connected to the IoT in the next couple of years, and there is no practical limit to this. We have enough IPv6 addresses to cover the earth's surface many times over with smart "things." We can easily collect the data we need to digitize the world.

The bigger challenge is to understand what that data are telling us and, from there, determine suitable responses. The sheer volume, velocity and variety of data we can now capture through IoT devices easily exceed the capacity of humans to analyze and extract meaningful insights manually. AI is the perfect companion to the IoT, capable of providing the assistance we need. Bringing them together as the AIoT is the key to tackling complex challenges such as sustainability. Studying the climate and humans' impact, the effects of using natural resources such as energy, and the prospects for controlling and managing these are subject to huge numbers of variables that are impossible for us to analyze effectively.

Read more: Data Overload

The road to resilience for Western manufacturing must begin with small steps.

For more than three decades, leading electronics brands in the West have enshrined leanness, maximum efficiency and lowest cost. The drive to outsource manufacturing to areas where labor costs are lowest has enabled the industry to deliver more advanced electronic products at relatively affordable prices.

It has made perfect sense for the world's OEMs, relieving demand for capital investment and helping to cut costs while giving access to cutting-edge processes and providing rapid, low-risk scalability. The trend to outsource began in the late 1970s and became the dominant model in the '80s and '90s. Throughout the 21st century, this has been the way to operate a competitive supply chain. Now, the largest EMS operations are based in China and Southeast Asia and the sector is currently worth about $800 billion. It's still growing at more than 7% compounded annually.

But something else happened during this transformation. As production migrated geographically, the essential skills associated with designing and making advanced electronics products also moved away from the OEMs and became concentrated in Asia. Many associated industries also moved out. In the 1980s there were 23 full-scale manufacturers of substrate base materials in Europe. Currently, there are two. Similarly, the number of manufacturers of glass and copper foil has fallen from 12 to just one.

Read more: Reshoring or Resurrection?

Is the next generation of designers honing its skills on Minecraft?

If there were a record for the longest wait for a technology to take off (longest gestation period for a new technology), then virtual reality must surely be a top candidate for the honor. As long ago as 1990, the movie Total Recall gave mainstream audiences a dystopian view of the way life could be. The intervening three decades have cemented the image of the headset-wearing gamer in our minds – totally immersed in the experience yet oblivious to all around. And still it has failed to gain a large-scale following. Until now, perhaps.

With equipment sales currently rising at about 14% per annum according to research by IDC, all the big consumer technology brands are planning major new product launches in the coming months. Growth should accelerate to more than 30% in the next five years.

Read more: Pervasive Virtual Reality, Driven by Gamers, Could Bring Exciting Opportunities for Professionals

The IoT could finally permit RFID to reach its full potential.

A "solution waiting for a problem" is a label often affixed to technologies and inventions. It's perhaps one of the harshest judgements the world could pass, after all the time and care and emotional energy that gets poured into its creation. Yet it's a risk any developer must accept. Often, we cannot know for sure that our pet project will take off in any way – much less that it will achieve the incredible success we have seen in some cases over recent years: Google, cellphones, ARPANet....

Read more: RFID: A Solution 100 Years in the Making

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