IoT integration takes centre stage in the smart homes market

As the use of the Internet of Things (IoT) picks up pace, the adoption of smart home devices is steadily increasing. By 2023, the average UK smart home will have 50 connected devices, according to Marc Allera, the CEO of BT‘s consumer division. As many consider what lies ahead for connected homes, one topic that is continuously

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Does the world need another IoT standard?

Webcomic #927 on the xkcd.com site typifies the dilemma around standardisation. It makes a joke about two people wanting to create a new standard when fourteen already exist, says Ken Figueredo of oneM2M. While the subtext shines a light on rivalry between different organisations or schools of thought, the issue remains when it comes to

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Construction begins on £22mn centre for UK robotics research in Edinburgh

Construction has started on a research facility for robotics and artificial intelligence, which will be the advanced of its type in the UK.

Based at Heriot-Watt University’s Edinburgh campus, the National Robotarium is supported by £21 million (€24.16 million) from the UK Government, and £1.4 million (€1.61 million) from the Scottish Government as part of the Edinburgh and South East Scotland City Region Deal.

The National Robotarium will be a centre of excellence for research and is expected to open in Spring 2022. It will create innovative solutions to global challenges using cutting-edge research, product design and industry collaboration. Bringing together academics and global companies, the facility will provide a catalyst for entrepreneurship and is expected to deliver sustainable economic benefit to Edinburgh, the UK and beyond.

Although research projects led by the National Robotarium have already begun, the new building will provide extensive world-class facilities for researchers and knowledge exchange. Key areas of research application will include hazardous environments, offshore energy, manufacturing, healthcare, human-robot interaction, assisted living and agritech.

Professor Helen Hastie and professor Yvan Petillot are joint academic leads of the National Robotarium. Describing the vision for the new facility, Professor Hastie says, “As a world-leading facility that will promote entrepreneurship and drive forward early-stage product development, the National Robotarium will play a significant role in supporting the UK’s economic recovery from the COVID-19 pandemic.

“By drawing upon the world-class talent of the staff at Heriot-Watt and our collaborative partner, the University of Edinburgh, alongside students at the Centre for Doctoral Training in Robotics and Autonomous Systems, the National Robotarium will form a centre of excellence for fundamental research and knowledge exchange to address real-world challenges and industry needs.

“The new building will facilitate a collaborative approach that is at the heart of the National Robotarium’s ethos, helping to accelerate research from laboratory to market and paving the way for the UK to take a leadership role in AI and robotics technology.”

Professor Yvan Petillot added, “The cutting-edge resources provided by the new facility combined with the expertise of our researchers will put us in a highly competitive position to elevate the UK onto the global stage in robotics and AI technologies. Our existing and new students will have the opportunity to apply their knowledge by working on real-world problems through internships and industry-led group projects facilitated by the Robotarium, accelerating their skills as they actively shape the future of the field.

“We hope to inspire subsequent generations about the positive impact of robotics and artificial intelligence, building trust, ethics and understanding into our research outputs and engaging the public regularly through school visits and open days,” says Petillot.

UK Government minister for Scotland Iain Stewart commented, “The creation of the UK’s first National Robotarium in Edinburgh will place Scotland at the forefront of a technological revolution that is changing the way we work. This exciting new facility, supported by £21 million (€24.16 million) from the UK Government, will create opportunities for Scotland’s entrepreneurs and innovators, and bring jobs and prosperity to the entire region.

“The UK Government has now committed more than £1.5 billion (€1.73 billion) to City Region and Growth Deals which will help communities to build back better from the pandemic.”

Funded as part of the Edinburgh and South East Scotland City Region Deal, the National Robotarium is a collaboration between Heriot-Watt University and the University of Edinburgh. The 40,000ft ² building will house three distinct research and development areas, providing bespoke facilities for Robotics & Autonomous Systems (RAS), Human & Robotics Interaction (HRI) and High Precision Manufacturing. Amongst the specialist equipment will be dedicated laser labs, an autonomous systems laboratory, and a living lab for trialling technology in a realistic home setting.

In keeping with the National Robotarium’s commitment to foster a responsible and collaborative approach, the building will include a ‘partner suite’ dedicated to industry, academic and government collaboration.

Innovative design means the cutting-edge resources will be matched by the building itself, with a focus on sustainability and energy efficiency. In winter, the intelligent façade will provide solar heat and recycle warm air. An ecological zone will integrate sustainable urban drainage systems, while a solar PV array will be installed on the roof. EV charging spaces will also be available. To support the facility’s commitment to public engagement activities, linear grazing luminaire technology and an exterior projector will project graphics onto the facade.

The National Robotarium will be home to numerous research projects aimed at addressing a wide range of global challenges. Examples of projects include SPRING (Socially Pertinent Robots in Gerontological Healthcare), developing the multi-user conversational robot for healthcare, intended to support the care of elderly patients and the EPSRC ORCA Hub (Offshore Robotics for Certification of Assets), a national hub of five universities led by Heriot-Watt that is advancing technologies to remove humans from hazardous work environments.

The building’s assisted living lab will utilise technology to help individuals live independently for longer, with research ranging from robotics and conversational assistants to IoT devices and wireless monitoring techniques.

As part of the UKRI Trustworthy Autonomous Systems (TAS) programme, in November 2020 it was announced that the National Robotarium will spearhead research into ways to manage trust between humans and autonomous systems to support adoption in scenarios that require human interaction, such as in self-driving cars or autonomous wheelchairs.

Michael Matheson, cabinet secretary for transport, infrastructure and connectivity added, “Across Scotland we have so far committed more than £1.9 billion (€2.19 billion) over the next 10 to 20 years to City Region and Growth Deals and additional investments. We are investing £300 million (€345.21 million) over 15 years to the Edinburgh and South East Scotland City Region Deal across transport, housing, culture, innovation and skills as we work towards a fairer and more inclusive economy.

“It’s great to see construction now beginning on the National Robotarium. This project will ensure that innovation can play an intrinsic part in the recovery from the coronavirus (COVID-19) pandemic.”

Robertson Construction, the project’s main contractor, has been working in partnership with the University to safely start work on the building despite lockdown restrictions. David Cairns, managing director, Robertson Construction Central East says, “The National Robotarium building is designed to be as innovative as the research taking place within its walls. The commitment to sustainability and the wellbeing of its staff and students mean the facility will be equipped with state-of-the-art technology for energy efficiency and production and will boast considerable green space.

“The building will be certified to ‘Fitwel’ standards, meaning its design meets strict criteria for supporting occupants’ health, wellbeing and productivity. The start on site marks a significant moment in the delivery of a facility which will be a centre of excellence to pioneering research, we are proud to be the University’s delivery partner of choice,” Cairn concluded.

The National Robotarium forms part of the City Deal’s Data Driven Innovation (DDI) theme which aims to establish the region as the data capital of Europe.

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A global IoT solution for monitoring indoor air quality

Poor indoor air quality is detrimental to our health, economy and workplace productivity, especially in an environment dominated by COVID-19. Real-time airborne monitoring can help prevent the spread of airborne disease, including COVID-19 pathogens. Now, more than ever, businesses need measures in place to protect their workforce and customers from potential airborne hazards and disruptions.

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Why enterprises are choosing eSIM for simple and flexible global IoT connectivity

As the number of connected devices rises from around 700 million today1 to an estimated ten billion by 2030, it’s clear that the pace of evolution in cellular connections is poised to accelerate radically. Current IoT connectivity is composed of 2G, 3G and 4G cellular networks and low power wide area networks (LPWANs). This base will be added to by newer technologies that enable devices to connect without needing their own power supplies.

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How to ensure a high quality of service everywhere for global IoT deployments

Enterprises launching global connected services need their cellular IoT devices to connect seamlessly all over the world. But setting up connectivity is just the first stage of deployment.

Running an international connected business that delivers mission-critical applications is an ongoing endeavour: end customers need services with a high level of reliability and quality, while enterprises have to commit to strong Service Level Agreements to differentiate their offering. The right tools are required to fulfil SLA commitments and meet customers’ expectations wherever in the world their devices are connected.

EMnify announces global LTE-M roaming for low-cost, low-power IoT applications

Cloud communication platform provider for IoT, EMnify, announces global roaming of LTE-M a 3GPP standard for Low Power Wide Area Networks (LPWAN) built on 4G networks and forward compatible with 5G. With this launch, EMnify is adding LTE-M support to its current 2G, 3G, and 4G network access, providing a future-proof connectivity option for cellular

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EMnify announces global LTE-M roaming for low-cost, low-power IoT applications

Cloud communication platform provider for IoT, EMnify, announces global roaming of LTE-M a 3GPP standard for Low Power Wide Area Networks (LPWAN) built on 4G networks and forward compatible with 5G.

With this launch, EMnify is adding LTE-M support to its current 2G, 3G, and 4G network access, providing a future-proof connectivity option for cellular IoT in answer to worldwide GSM and UMTS phase-out.

LTE-M introduces advantages for global IoT deployments, including:

  • Long battery life with Power Save Mode (PSM) and Extended Discontinuous Reception (eDRX) features.
  • Extended range for improved indoor and underground connections.
  • Low-costmodules that are only 30% of 4G module price.

Compared to NB-IoT the other cellular LPWAN variance LTE-M offers wider national and international roaming availability. The technology also comes with excellent mobility support and higher data rates to enable a wider range of connected use cases such as asset tracking and fleet management.

Faster data speed further reduces power consumption in medium-bandwidth transmission like over-the-air firmware updates, as devices stay online for a much shorter time.

Alexander Schebler, VP carrier relations and co-founder at EMnify, explains, “We recognise LTE-M is the go-to connectivity for a variety of IoT applications because it allows for innovative features not available with previous cellular generations while solving the challenge of 2G/3G sunsetting in regions like North America. To deliver these benefits to customers, we are proactively working with our network partners to enable LTE-M roaming as soon as it is technically available in their networks.”

As of today, EMnify offers LTE-M access in 45 countries with varying support levels depending on the customer’s deployment location, including:

  • Expected coverage where LTE-M access is technically available by default based on standard 4G implementation of EMnify’s network partners.
  • Validated coverage where LTE-M availability is frequently tested and confirmed by EMnify’s internal tests.
  • Guaranteed coverage where LTE-M service is guaranteed via official roaming agreements with EMnify’s network partners.

EMnify empowers IoT businesses with a single SIM card for global cellular and LPWAN connectivity in 180 countries, along with a pay-as-you-go subscription model that can start at small data volumes under 1 MB. In addition to the new LTE-M launch, the company is also working on NB-IoT and 5G roaming with first agreements already signed, to ensure customers have the best access to the latest radio technologies.

For more information on EMnify’s LTE-M coverage, Click here.

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