Wanted – the Infrastructure of Things

The Internet of Things has a problem. Unless we start looking at a new infrastructure, it may peter out after the first fifty billion devices. Everyone seems to be so excited about predicting whether it will be 20 billion or 50 billion or 1.5 trillion that they’ve forgotten about how the connectivity and business models will scale.

There’s a general consensus that we’ll get to between 25 and 50 billion connected devices by 2020. The first 25 billion of these is foreseeable. Around a quarter of it will come from personal devices – mobile phones, tablets, laptops, gaming devices, set-top boxes and even cars, using cellular or broadband connections. They need moderately expensive broadband contracts, but we’ll pay as we can stream lots of data. The same again will come from machine-to-machine (M2M) connections where broadband or cellular connectivity is embedded in commercial products to monitor their performance. That covers everything from telematics, connected medical devices, asset tracking, smart buildings and everything from vending machines to credit card readers. In this case the service contracts are justified by improved business efficiency.

The second 25 billion is likely to come from locally connected devices – generally personal products which connect to smartphones. Eighteen months ago I wrote a report on these appcessories, predicting that they could grow to an installed base of around 20 billion in 2020, getting us close to the total of 50 billion. These will piggy-back on existing broadband contracts, so most won’t have a service model. At best, there may be an opportunity for selling apps or subscription services.

However, at that point, future growth may start to slow. Although these products all get referred to as the Internet of Things, they’re only that in the loosest sense, as they rely either on personal user setup, or professional installation. Both are time consuming and a barrier to ubiquitous deployment. To achieve the real Internet of Things we need products which can be taken out of their box and which connect and work autonomously. Without that, we’ll never get past the tens of billions. Despite all of the IoT hype around, no-one is really addressing the hole that needs to be filled. We need an Infrastructure of Things – a new Low Power, Wide Area, end-to-end wireless Network (LPWAN), along with a new approach to data provisioning for life. This article explains why and what the options may be.

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Is Google and Nest’s Thread a ZigBee Killer?

Today Google and Nest launched the Thread Group – a new wireless network for home automation. It’s not the first and it won’t be the last, but it has some important names behind it. The big two are Google and Nest, not least because Nest’s products may already be using it. But others in the consortium are interesting. ARM is there. Today they power most of our mobile phones, providing the IP behind the processors in billions of chips. But they have a vision of being the microprocessor architecture of choice for the Internet of Things. They processors will be smaller, cheaper and lower powered, but will provide the first opportunity for chip vendors to think about trillions. ARM’s inclusion in the group is an obvious step in their process of acquisition and investment in IoT companies.

Samsung are there (aren’t they always), but so are some very large names in home automation, such as Big Ass Fans and Chubb. And what must be worrying the ZigBee community is that Freescale and Silicon Labs complete the list of founder members.

The important point here is that Thread is not ZigBee. It works in the same spectrum and can use the same chips. It is also a mesh network. But it is not compatible. As the Thread technology backgrounder says, they looked at other radio standards and found them lacking, so they started working on a new wireless mesh protocol. To put it more crudely, it’s Google and Nest saying “ZigBee doesn’t work”.

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FATZ and DECCY – the UK’s cartoon approach to Smart Meters

The UK Government has enlisted two cartoon characters – FATZ and DECCY to explain the need for smart meters to a sceptical public. FATZ – the corpulent blue one, represents the cold, uncaring fat cat executives of the energy industry, eager to take still more of your money, while the manic yellow DECCY represents the seriously scary civil servants of the Department of Energy and Climate Change who have been tasked with dreaming up the world’s most complicated and unworkable smart metering specification. Their bulging eyes and demented smiles tell the average consumer all they need to know about the UK smart metering plan and the mentality of the people behind it.

Claire Maugham, director of communications at Smart Energy GB, who’s responsible for the campaign said: “FATZ and DECCY are embodiments of what we’ve heard about consumers’ experiences about buying gas and electricity. We heard time and time again that people are anxious because they don’t know what they’re spending, they don’t know if they are on the right tariff or with the right supplier. It’s almost like they are out of control, causing chaos around the house like two naughtily children.”  So it’s fitting that they’ve chosen utility bosses and DECC employees as models for their chaos and out of control metering specification.

The aim of the campaign is two-fold. Firstly to try and persuade consumers to allow a smart meter to be fitted, secondly to try to convince them they that might save money, not least because if they don’t it exposes the alleged consumer savings trumpeted by DECC as pure fiction, relegating the whole project into another expensive Government IT fiasco. Achieving either of Smart Energy GB’s aims looks increasingly difficult.

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