Scotland is to get a new Internet of Things network. The network, called IoT Scotland, will allow the collection of data from smart devices through a wireless sensor network based on LoRa wireless technology.
The £6m, three-year project has been funded with investment from both the public and private sectors.
Initially, the network will cover Scotland’s seven cities, Glasgow, Inverness, Edinburgh, Aberdeen, Dundee, Perth, and Stirling, with the aim of expanding it throughout Scotland.
Nick Chrissos – from Cisco Systems – looks at a smart city project in Manchester and the UK’s Smart City IoT Demonstrator, CityVerve.
Manchester Smart City Lessons
The project saw 20 organisations ranging from the city council, universities and hospitals, to transport bodies and private businesses – collaborate to embrace the technology and provide data to make Manchester an even better place to live, work, play and learn, locating activity along Manchester’s Oxford Road Corridor.
Arm acquires Treasure Data and launches Pelion IoT platform to provide end-to-end IoT connectivity, device and data management.
Arm has acquired Treasure Data, a specialist in enterprise data management providing businesses the ability to aggregate and derive insights from disparate data sources, CRM, IoT devices, ecommerce and more.
Arm, a UK-based subsidiary of Japanese firm SoftBank, has also launched its Pelion IoT platform, which combines technologies from US-based Treasure Data, the acquisition of Stream and Arm Mbed Cloud, to provide end-to-end IoT connectivity, device and data management for hybrid environments. The Pelion IoT platform will enable companies to connect seamlessly and securely and manage IoT devices and data at any scale
Apple joins the Thread Group, sparking speculation over whether HomeKit will support the low-power mesh networking protocol.
“Up until now, Apple has adopted its typical my-way-or-the-highway approach to smart home technology, even ending up in the ludicrous positionwhere it forced device manufacturers to add a special Apple-specified microcontroller and firmware to their products if they wanted their kit to work with Apple’s iThings via HomeKit.
In other words, if you made smart-home stuff, and you want it to be controlled from iOS or macOS, you needed to place Apple-picked electronics in your system. These extra components would perform the cryptography and other operations needed to secure the connection between a person’s iPhone, iPad or Mac, and the smart-home equipment. Not a bad way to enforce security, yet not a great way to make friends in the consumer hardware world: virtually no manufacturer was interested.
Apple eventually backtrackedon that decision, and implemented authentication through software after the broader smart-home market decided not to bother with what it saw as Cupertino control freakery.”
@nickhunn on GB’s Smart Metering project: “it is now clear that there is no economic case for continuing the current programme”
GB Smart Metering no longer financially viable
Last week the British Infrastructure Group (BIG), comprising 93 Members of Parliament and the House of Lords, delivered a devastating report on the British Smart Metering Project.
Titled “Not So Smart”, their headline assessment is that it is a “roll-out which is set to become yet another large scale public infrastructure project delivered well over budget which fails to deliver the expected benefits.”
The consequence is that it is now clear that there is no economic case for continuing the current programme. All that is going to happen is that our energy bills will go up to pay for this fiasco.
If the costs rise to £20 billion and the meters only have a ten year life, that means everyone will see their energy bill go up by around £67 a year. The Government plan has always been to pass these costs on to consumers, which is a cunning trick.
It means the costs don’t appear on the Treasury books. If they did, the project would almost certainly have been cancelled by now.
Sharks, healthcare and #IoT come together during Discovery Channel’s Shark Week
Shark Week on Discovery Channel, and one episode will focus on how paramedics leverage AT&T’s IoT connectivity and a virtual exam room to remotely monitor and diagnose diver conditions in shark-infested waters off the coast of the Bahamas.
The divers and production team on the show were able to access a full clinic through Dictum Health’s Virtual Exam Room (VER) through wireless connectivity from AT&T. Through VER, physicians on land were able to remotely monitor critical vital signs, ECG, and pain levels to ensure the health and safety of the divers and production team.
By Mark Duncan @cityverve
From a Council perspective, CityVerve taught us the value of Internet of Things (IoT) technology in improving the way we can design and deliver services for the people who visit, live and work in Manchester.
CityVerve comes to an end – but for Manchester, this is just the beginning
For us, this was a way of realising our objectives within the Our Manchester Strategy using new IoT solutions and working with an impressive set of public and private sector partners.
IoT has huge potential for a local authority. In our case, it opened up new sets of data and also, through the work of FutureEverything on human centred design and citizen engagement, new conversations with residents about what they wanted.
Now, with data giving us a picture of the citizen experience, we can gain new insights into how people are using our city and its services.
And this of course means we have the opportunity to use data and new insights to develop and design services so they better meet the needs of users.
Our experience of CityVerve has directly informed the Council’s emerging new digital strategy for the city, and the lessons and partnerships developed through CityVerve will play a big part in its development.
Using layers of conductive paint in unique patterns, a research team transformed a wall into a wide-area capacitive sensor and an EM-field sensor.
We think of Interior walls for defining and dividing areas (and providing a place to hang things), but what if they could easily and cheaply be transformed into sensors? That’s what a joint project team from Carnegie Mellon Institute School of Computer Science and the Disney Research Pittsburgh has done, as detailed in a paper presented at the ACM CHI Conference on Human Factorsin Computing Systems.
Their highly readable paper, “Wall++: Room-Scale Interactive and Context-Aware Sensing” provides full details on how they used conductive paint to add a dual-function role to a standard wall, providing a mutual-capacitance sensor for close-range sensing plus an electromagnetic-field sensor for wider-area performance. The result is what they call the Wall++, which can become part of a “smart” infrastructure to sense human touch, detect gestures, and even determine when appliances are in use
New energy-harvesting technologies coupled with energy-efficient battery storage and low-power platforms have pushed the boundaries of where embedded systems, IoT, and edge devices can be utilized.
This article, in Electronic Design, provides snapshots of some of the latest technologies that allow those devices to siphon energy from their surroundings for operation in remote areas.
Whatever the application, all electronic devices require power of some sort, and energy harvesting is already allowing them to operate in a standalone manner, reducing managing costs and maintenance time in the field.
European Parliament regrettably missed an opportunity to establish mandatory security requirements for connected products such as smart watches, baby monitors or smart locks. This is the outcome of a vote in its industry (ITRE) committee.
PRESS STATEMENT – 10.07.2018
Consumers in Europe are exposed to a string of unsecure connected products. These range from hackable security cameras, door locks and heating thermostats in people’s homes, to the possibility for strangers to easily tap into connected toys and smart watches for children.
Consumer groups had urged the EU to ensure that the upcoming Cybersecurity Act would plug this gaping hole in EU legislation to finally protect the security of our lives and homes.
Yet, despite the immense threat to consumers and society as a whole because of unsecure connected products, the European Commission, Member States and (as of today) Parliament are content with only a voluntary scheme that will not appropriately protect consumers’ privacy, security or safety.