Category Archives: IoT

Homeowner Advice, IoT

Best ways to turn a home into a smart home

Looking to turn your home into a smart home? We don’t blame you; a lot of homes nowadays are very outdated compared to the modern standard. Every single day more and more fantastic smart technology is being developed, all of which can totally revolutionise our general way of living. Upgrading your home into a smart home can offer you countless benefits depending on your budget. If you are sick of living in the past and want to give your home some character, investing in some smart technology to incorporate around the house will make things seem a whole lot more sophisticated! Not only will the aura of your home change after including some of this impressive modern technology, but it can also be very practical and make your life a lot easier! Out with the old in with the new, as they say. Here are some of the best to turn a home into a smart home.

 

Smart Lighting

One of the best ways to turn your home into a smart home would without a doubt be investing in some smart lighting. Say goodbye to those dreaded old regular lights because this is the future! Both smart bulbs and LED lighting are brilliant ways to modernise your home. If you have a smart speaker, smart bulbs can even be controlled through voice commands. you won’t even need to stand up to control your lights! LED lighting can also be a brilliant addition, having the ability to dim and change the colour of your lights all through the power of your phone makes your life a whole lot easier. Not to mention, LED lights definitely give off a much nicer atmosphere than other lights on the market. Considering how cheap this is in comparison to other types of smart technology out there, smart lighting is one of the best ways to turn a home into a smart home for sure.

 

Security Features

Security is an essential thing to focus on in your home for obvious reasons, taking the correct precautions is important. There is a range of smart technology that can help! There are smart locks, smart doorbells, smart alarms, and even smart cameras that notify you when someone is in your home and allows you to check the camera through your phone! If you’re looking for some smart technology, smart security is one of the best ways to turn a home into a smart home!

 

Smart TV

Smart TVs are a whole lot more popular than they were a good few years ago due to their drop in price, luckily now you can enjoy all the brilliant benefits that a smart TV has to offer without breaking the bank. If you haven’t already got one of these then it’s a no brainer. Let’s be honest, TV is slowly but surely becoming a thing of the past. The majority of the new generation is far too used to the luxury of being able to watch whatever they want at the click of a button. With a smart TV, you’ll have access to a range of features that a standard TV simply cannot offer. The ability to download apps on your TV is becoming the norm in this day and age and we are all for it! Some of the things you can do on your smart TV would include using music apps, YouTube, Netflix, and even games! Say goodbye to waiting through dreading commercials because with a smart TV you will be able to watch your favourite show whenever you like at the click of a button! If you’re going to get a smart TV or already own one, it’s worth noting that it might be a good idea to have it mounted to the wall. If you’re going for more of a modern feel in your home there are little better ways to achieve this than getting rid of that old TV unit and having your TV on the wall. Not only will this make your home look sleeker and more sophisticated, but it can also be safer if you own pets or small children. For TV and wall mounting services click here.

 

Smart Sensors

Here’s a brilliant idea, why not incorporate some smart sensors into your home? They can be very useful for a number of reasons. The point of these nifty little gadgets is to make your home responsive to your presence. For example, you could set up your smart sensor to turn the lights on when it senses you walking into a room, you could even set up your smart sensor to adjust the heating in your home when you walk into a room! Having some smart sensors is one of the best ways to turn your home into a smart home, it really makes you feel like you are living in the future!

 

 

5G, IoT, Logistics, News

Moeco reinvents supply chain tracking with its innovative sustainable 5G-based solution

Moeco reinvents supply chain tracking with its innovative sustainable 5G-based solution

  • Moeco, the IoT-based tracking solutions company, has developed a new sustainable tracker that uses 5G to radically reduce overheads for logistics companies
  • Shipment location data automatically feeds into a cloud dashboard, enabling logistics companies to track global shipments to over 180 countries worldwide
  • Moeco’s end-to-end supply chain monitoring helps reduce spoiled goods, improves efficiency, and reduces CO2 impact

Moeco, a provider of visibility solutions that improve global supply chain operations, has developed a new generation of disposable cargo trackers that enable logistics companies to significantly reduce costs through improved visibility into the location and condition of every package and shipment.

The Moeco Act Tracker uses 4G and 5G cellular networks and supports 2G and 3G network data gathering to provide logistics companies with real-time access to geolocation, temperature, humidity, light, and shock data. The tracker works in over 180 countries, and complies with International Air Transport Association (IATA) standards—ensuring safe, sustainable, and efficient operations while supporting harmonisation across the aviation industry.

Real-time tracking means that cargo acceptance at intermediate points of the supply chain is automated, and the number of goods that need to be checked manually is reduced significantly. Since conditions are continuously monitored, only those goods that have violated the conditions of transportation require manual checks by staff, reducing checkpoint labour costs.

Logistics companies can access analytics on shipments in real time through a cloud platform via dashboards and one-time trackers that are easily affixed to packages and boxes. This enables logistics companies to offer premium shipment tracking and disposition services to their customers — an additional advantage in a highly competitive market.

Moeco is setting new standards in the sustainability of trackers. The Moeco Act Tracker contains less than 2g of lithium, which means they can be disposed of as plastic waste. And, with a unit cost starting at $14, a Moeco tracker is up to 80% less expensive than competing analogue sensors.

Alexa Sinyachova, CEO and co-founder at Moeco said: “There is a pervasive misunderstanding in this industry that any reusable item is better than a disposable item, when in fact, a reusable tracker has a greater CO2 impact than a disposable tracker. This is because only five percent of all shipments require two-way tracking — or reverse logistics — but reusable trackers must be returned to the original location once a shipment has reached its destination. In addition, manufacturing a reusable tracker generates more CO2 than the production of a disposable tracker, since the battery in the reusable tracker is larger.“Most importantly, a disposable tracker does not require reverse logistics. Upon arrival at the end point, it is folded in half so that electronic components can be disposed of as e-waste, with the rest as recyclable plastic. We advocate the use of disposable trackers—they are far better for the environment at a time when there is a need to focus on sustainable supply chains.”

IoT, News

Wyld launches sensor-to-satellite technology for global IoT connectivity

Partnership with Eutelsat provides access to LEO satellite network

22 March 2022: Wyld Networks has announced the availability of its new range of low-power, sensor-to-satellite LoRaWAN® terminals and modules for IoT applications across areas where there is little or no alternative connectivity. The Wyld Connect hybrid devices can transfer data directly to terrestrial networks or through a network of Low Earth Orbiting (LEO) satellites through a partnership with Eutelsat. With 100 percent global coverage, the new Wyld Connect solutions are ideal for applications in remote areas for agriculture, environmental monitoring, energy, supply chain and utilities. The full sensor-to-satellite service will be available in the second half of 2022.

The Wyld Connect hybrid terminal can connect directly to existing sensors, while the small modules can be fully integrated into IoT sensors as an embedded solution. Data is delivered from the satellite ground station or terrestrial LoRaWAN gateway through Wyld’s cloud-based Fusion platform, which also allows IoT sensors to be registered, configured, authenticated, and managed remotely.

“The huge demand for IoT connected sensors and devices is being held back by the lack of ubiquitous global connectivity,” says Alastair Williamson, CEO at Cambridge-based Wyld Networks. “It is estimated that only around 15% of the earth’s surface is covered by cellular networks and it is simply not practical or cost effective to install costly, high maintenance network infrastructure over tens of thousands of square kilometres. Only satellites can provide this coverage and in contrast to expensive, power hungry VSAT systems, LEO satellites provide the low-cost solution needed to catapult IoT growth around the world.”

The prospect of global IoT connectivity is already attracting international attention and Wyld is working on trials with companies such as Bayer, Chevron, Treevia, Agrology, KWS, Agrocognitive, Wezen Group and others. Wyld is also partnering with TrakAssure on the design and production of a new sensor-enabled device for global supply chains and asset tracking ecosystems. By making satellite IoT competitive with terrestrial solutions but with the benefit of global connectivity, Wyld is opening up a wide range of new IoT applications, from measuring soil conditions and maintaining biodiversity to monitoring assets in the energy sector and utilities infrastructure.

“Existing LPWA networks such as LoRaWAN are ideal to connect low power assets and sensors that don’t need to send much data, but they currently rely on a limited terrestrial infrastructure,” said Luc Perard, Senior Vice President, IoT Business at Eutelsat. “Wyld’s new sensor-to-satellite LoRaWAN terminals and modules now make it possible to harness our network of LEO satellites to deliver low-cost, hybrid terrestrial and satellite connectivity over 100% of the earth’s surface.”

In addition to partnering with Eutelsat to provide LoRaWAN® coverage via its low earth orbiting satellites, Wyld is also partnering with leading terrestrial LoRaWAN® network providers including Senet and American Tower. And to ensure low power consumption at all times, Wyld has implemented a unique beaconing technology developed with Eutelsat that ensures that the terminal and sensor remain in sleep mode until a satellite is available to collect data.

IoT, News

Cellular IoT Connectivity Provider EMnify Raises $57M (€50M) in Series B Funding from One Peak

EMnify, the leading cloud-based platform for cellular connectivity in the modern Internet of Things (IoT) stack, today announces a $57 million Series B investment from London-based growth investor One Peak. The Berlin-based company will use the new capital to accelerate its global market expansion, with a particular focus on the US, and to further develop and optimize its proprietary industry leading cellular IoT technology. Capitalizing on its growth momentum to date, the company plans to further expand its leadership team and double its headcount in 2022 by hiring the best global talent, with a focus on the technology and go-to-market functions in the DACH region and North America.

EMnify equips thousands of customers with secure, reliable, and borderless cellular IoT connectivity for millions of connected devices. The company reported a 2016-21 CAGR of 190% for SIM growth and 77% for revenue growth.

The EMnify API and SIM technologies connect and secure any kind of IoT deployment to its application back-end. Its cloud-native integrations and no-code workflows ensure seamless lifecycle scalability for deployments of all sizes – from local start-up to global enterprise.

Far out-performing industry standards, the EMnify IoT Supernetwork is the single biggest independent IoT network of its kind. It supports local access (2G – 5G, LTE-M, NB-IoT) to over 600 radio network operators – 397 in direct partnerships – in almost 200 countries from more than 25 cloud regions, with plans to add an additional 10 cloud regions in 2022.

“In One Peak, we are not only gaining an investor, but a well-matched strategic partner with expertise in European founded SaaS scale-ups set for global growth. EMnify has come a long way in a short period of time and is perfectly positioned to use this capital and accelerate our market expansion and product development globally, with particular focus on the US market, where we already have 20 percent of our global customer base, representing over 30 percent of our revenues” emphasized Frank Stoecker, CEO and co-founder of EMnify. “We are excited to help many more companies of all sizes connect, secure and scale their IoT solutions worldwide.”

“The global cellular IoT market is approaching an inflection point as the need for location independent real-time data is greater than ever, while diminishing module sizes and deployment costs enable an abundance of use cases. EMnify is paving the way to meet the demand for global borderless connectivity to be available as a cloud native resource analogue to other existing components of a modern technology stack”, commented David Klein, Managing Partner at One Peak. “We have been hugely impressed with EMnify’s strong and capital efficient growth trajectory, its disruptive best-in-class technology stack, and its world class founding team. We believe the company has all the ingredients in place to become the global standard in cellular IoT connectivity and look forward to supporting EMnify during its next phase of explosive growth.”

To date, EMnify has raised $80 million (€70 million) in equity capital. Its disruptive software platform and customer-centric approach are made possible by over 110 full-time international IoT experts that are helping fast-growing IoT companies from 70 countries to scale their solutions in more than 140 markets.

Cybersecurity, IoT, News, Tech

Device Authority launches KeyScaler Edge to address Edge IoT security challenges

Device Authority, a global leader in identity and access management (IAM) for the Internet of Things (IoT), today announces it latest major software release which includes KeyScaler Edge.

Today’s market is driving a more mature Edge computing model with localized AI and ML becoming more mainstream. However, no solution exists today to address localized Edge gateway IoT security services. Organizations require automation for Edge deployments to drive efficiency at IoT scale. This includes:

– Security lifecycle management
– Device bound identity
– Leaf device authentication and authorization to edge gateways
– Zero touch onboarding and registration
– Automated credential management

Additionally, organizations still need to meet compliance and regulatory adherence for private local network deployments. Safety, confidentiality, data theft/privacy, brand reputation, revenue protection is important for edge deployments.

“We’re delighted to bring KeyScaler Edge to the market and help our customers with their IoT edge deployments. Our BETA program has been a success within healthcare, retail and transport sectors, and we’re regularly speaking with companies who have experienced similar challenges and see KeyScaler Edge as the solution,” said Darron Antill, CEO of Device Authority.

KeyScaler Edge is the first device identity centric IAM to address the complex end-to-end challenges of IoT security lifecycle management at the Edge. It is a lightweight version of KeyScaler that is created specifically for Edge nodes, with the ability to register, authenticate, and provision certificates and tokens to devices in the local network, independent of an available internet connection.

“KeyScaler Edge gives technical, security and operations teams the confidence that their IoT devices won’t lose robust security when no connection to the cloud is available,” said James Penney, CTO of Device Authority. “We’ve developed the functionality to support any public and private CA, as well as provide central reporting and management of all certificates and central visibility of Edge and Leaf node relationships. As Edge becomes mainstream customers are asking for Online and Offline capability and for KeyScaler to solves the associated security challenges,” he added.

Awards, IoT, News

Industrial IoT specialist Powerhouse Digital crowned ‘Most Innovative’ in national innovator awards

Powerhouse Digital is delighted to have won the Most Innovative Industrial IoT Company at the 2021 Media Innovator Awards.

Powerhouse Digital was founded by Tim Bennett in 2017, with a vision to help companies reduce their carbon footprint. The Huddersfield-based consultancy works with companies in the IoT space to improve efficiencies in manufacturing and supply chains. It specialises in developing IoT monitoring systems and data visualisation solutions for manufacturing and technical engineering businesses, such as the industrial door and loading bay sector. By identifying areas where efficiencies can be improved or processes changed, energy consumption is reduced, delivering cash and environmental benefits.

The business is focused on supporting the supply chain for the warehouse and distribution sector, which has experienced an unprecedented uptake in demand due to the explosion of internet shopping and home delivery needs. This is highlighting the need for better servicing and maintenance for key supply chain equipment such as loading bay doors, to avoid rising costs and a damaging environmental impact.

Tim Bennett said, “Industrial Internet of Things, or IoT, is the concept of bringing together data collected from various sensor devices in connected environments that can be analysed and acted upon to help boost the operational efficiency of machinery and day-to-day activities. IoT is already having a huge impact on everything from domestic kitchens to industrial loading bay doors. But now, with more and more advances across the IoT sector, the capabilities of the concept are growing rapidly.

Industry is one of the worst offenders in terms of carbon footprint, accounting for 23% of total greenhouse gas emissions today. Many businesses operating in the industrial sector are already starting to digitise processes and utilise AI and machine learning. By incorporating IoT into these growth and development strategies, they can help reduce their carbon footprint through more accurate forecasting, preventative maintenance, environmental monitoring, better use of renewable energy and design of energy efficiency policies.

I am delighted that our work has been recognised by this award. I am passionate about using technology to drive future solutions, working smarter for the benefit of our planet. Climate change is a real phenomenon, and, with the right support, industry can start making significant inroads in carbon footprint reduction through the use of smart data today.”

Cybersecurity, IoT

IoT security risks are real – this is how you mitigate them

Written by Martin Giess, CTO & co-founder at EMnify

IoT hacks are sadly becoming an increasingly regular occurrence as the world becomes more digitized and an ever greater number of devices are being connected to the Internet. The threat of security breaches and intrusions makes IoT security imperative for companies and consumers alike.

Hacks and breaches of and intrusions into smart device networks are becoming increasingly frequent. The recent cyber-attack on the Colonial Pipeline, the American oil pipeline system integral to the energy security of the Southeastern United States, is only the latest occurrence of criminal cyber breaches of Internet of things (IoT) enabled smart infrastructure.

The Colonial Pipeline hack had a devastating impact on commercial activity in several states, with many petrol stations being without fuel for several days. This was a criminal attack by a cyber racket that held the computerized equipment managing the pipeline for ransom. Whether it is done by a criminal organisation, a hostile nation state or an individual with bad intentions: hacks of IoT are a looming threat that will only become more prevalent in the future as more and more devices become smart.

Essentially any Internet-connected device is vulnerable to being hacked and misused. In the age of the Internet of Things, that means that malicious actors could potentially exploit vulnerabilities to billions of connected devices to access confidential data, spread malware or ransomware, assimilate devices into a botnet, shut down utilities and other pieces of infrastructure or even cause tangible harm.

What companies need to understand is that cybersecurity threats are continually evolving and that concomitantly their cyber defenses need to keep up with them. If companies are serious about protecting their organizational assets and their end users – and they should be – they should particularly do the following: 

  • Gain a greater understanding as to how their IoT applications could be vulnerable to hacking attempts
  • Do an in-depth analysis of past IoT security breaches, hacking attempts and failures and incorporate the lessons learned into their security strategy; and
  • Incorporate the solutions and strategies that make their applications more secure into the design and use protocols of new devices

 

Check the security of IoT application against potential hacking attempts

It starts with weak authentication

Perhaps the most common problem in cybersecurity – and the one that can most easily be mitigated by common sense – is the general human tendency toward laziness: people just use passwords that are too simple, like “123”, “ABC” or a combination of alphanumeric characters that are comparatively easy to “guess” or arrive at in a brute force attack. In essence, passwords are the first line of defense against malicious attackers trying to breach your network. But if an employee’s password isn’t strong enough, your devices and network aren’t secure. More worrisome is that in some cases passwords may even be publicly accessible or stored in an application’s source code. As such, the first rule of a proper “cybersecurity hygiene” has to be having strong passwords that brute force attacks cannot just simply guess.

 

A lack of encryption during data transmission can be costly

Ancillary to the above point, another substantial threat to the security of your IoT networks is a lack of encryption used for regular transmissions among devices. Many IoT devices that do not necessarily store sensitive data – such as thermostats – do not encrypt the data they send to other devices. Yet if someone manages to compromise the network, they could thereby still intercept credentials and other important information transmitted to and from that device.

 

Low processing power obstructs timely security updates

Many IoT applications are engineered in such a way that they use data economically, so that costs are reduced and battery life can be extended. However, this makes it difficult to send over-the-air (OTA) updates to these devices to update their security settings. As such, this leaves them vulnerable to hacking.

Other common issues are legacy assets that weren’t originally designed for cloud connectivity, shared network access with a multitude of devices with different security settings using the same network, inconsistent security standards stemming from a hitherto lack of common standards as well as missing firmware updates.

 

An analysis of past security breaches can provide you with valuable insights

While technology has evolved and every year a myriad different attack vectors and zero-day exploits come to light, analysing past security breaches can help you in predicting the behaviour and motivations of malicious actors. The aforementioned cyber attack on the Colonial Pipeline, for example, was about extorting a ransom payment.

Similarly, the 2016 Mirai botnet case became famous – or rather infamous – because the malware managed to assimilate over 145,607 video recorders and IP cameras into this botnet in order to wreak havoc. The botnet was created by a single hacker – a college student – and came about by the aggregation of unsecured IoT devices. In several attacks, the botnet firstly crashed Minecraft servers, but then quickly went on to launching attacks on French web hosting service OVH, as well as the websites of Netflix, Twitter, Reddit, The Guardian, and CNN. Yet more worrisome is that the malware’s code is apparently still out on the Internet and successors of Mirai have been created to do a host of nefarious things like hijacking cryptocurrency mining operations.

Yet more worrisome was the 2017 announcement by the US Food and Drug Administration (FDA)  that more than 465,000 implantable pacemaker devices by manufacturer St. Jude Medical were vulnerable to hacking. While there were no known hacks, and St. Jude Medica was quick to patch the devices’ security flaws, it was a disturbing revelation with potentially fatal implications. If a hacker would have come to control these pacemakers they could have literally killed people by depleting the battery or altering the bearer’s heart rate.

 

Familiarize yourself with the strategies and solutions that secure your applications

So what can companies do to keep their IoT devices secure? Well, companies should take their cues from previous incidents and incorporate the solutions that secure their applications into the design and use protocols of new devices right from the start.

For one thing, companies should make the best use of physical security – fences, doors, shutters –  to keep their devices secure. Another issue, specific to cellular IoT devices, is that a lot of the critical information is stored on the SIM card. In general, form factors for SIMs are removable, which makes this data more vulnerable. However, using an eSIM is the better option as the eSIM is soldered directly onto the circuit board and thus much harder to physically access.

Likewise, it pays for companies to include remote access security into their products that lock SIM functionality to specific devices and gives them the ability to remotely disable connections if there’s a physical security breach.

Similarly, being aware of the risks inherent in public networks, companies should consider building private networks on top of existing security mechanisms to ensure that data never crosses the public Internet.

Furthermore, it is recommended to include abnormality detection and IMEI locks, to encrypt all data transfers, have a network based firewall and limited connectivity profiles for all devices.

 

Securing devices takes effort from both manufacturers and users

Ensuring IoT security requires manufactures and users to make a conscious and constant effort. An important part of IoT security is building up a separate, controllable environment that is not integrated into a customer’s incumbent networks (e.g. Wifi or Ethernet) – i.e. environments that may already have security flaws like weak Wifi passwords or outdated operating systems – as this may in turn compromise the security of the new IoT network. Companies can get around this issue by using a cellular IoT network, because with a cellular network all devices are in a separate network, which can be controlled.

Besides this, managed security services such as a network firewall or a virtual private network (VPN) can be used to protect against malicious data filtering.

Furthermore, using a Secure Access Service Edge (SASE) is an effective way of controlling all data connections to an intranet, a SaaS-cloud and remote workers. With SASE, the software-defined networking keeps a company’s data local – something that ingeniously complements equipment like data access brokers, network firewalls and VPNs.

In summary, it boils down to having standardized managed security services, like firmware updates, firewalls, etc. in place,  that provide comprehensive security and take the pain of securing the devices away from the device manufacturers. Customers are naturally more aware of their security requirements as the device manufactures themselves and so they should implement as many of the industry best practices as possible.The threat of security breaches is ever evolving and companies need to keep up to date.

 

About the author

Martin Giess is CTO and co-founder at EMnify, a leading cloud communication platform provider for IoT. In his role, he oversees the technical execution of EMnify’s product vision. Martin brings 20 years of experience as a technology expert in agile development of innovative telecom services. Before founding EMnify, he held technical VP positions at Syniverse and MACH.

IoT, News, Telecoms

EMnify launches eSIM for developers, kick-starting end-to-end IoT CPaaS development in minutes – instead of days

Leading cloud communication platform provider for IoT, EMnify, today announces the release of eSIM for evaluation customers, enabling IoT developers to sign up and develop with the EMnify API immediately, anywhere in the world. The eSIM lets users install EMnify’s global SIM profile on a compatible device in seconds without having to order and swap physical SIM cards. With the eSIM option, EMnify aims to speed up time-to-market of IoT projects and make life easier for developers.

Until today, IoT developers could sign up on the EMnify platform and order a free evaluation package with IoT SIM cards and a prepaid balance to try out network services and all available platform features for 60 days.

Leveraging 10T Tech’s eSIM Cloud Solution for remote SIM provisioning, EMnify’s eSIM now provides a new option to download an EMnify subscription profile over the air on a supported device, to significantly simplify and shorten the process. eUICC has been at the cutting edge of SIM technology, giving users the flexibility to easily activate and switch between different SIM profiles as needed.

The combination of eSIM technology and EMnify’s global cellular coverage allows IoT developers to:

  1. Bypass the shipping fees and delivery time of the physical SIMs.
  2. Immediately access and explore all EMnify platform functionalities including Cloud Connect, Data Streamer, and OpenVPN, at no cost.

Knud Kegel, VP of Product at EMnify, explains: “User experience is at the core of our product. EMnify constantly strives to make it as easy, fast, and seamless as possible for IoT developers to get started with our platform and APIs. The eSIM speaks to the self-service capability of the EMnify cloud platform. Until now, SIM cards have been the only non-cloud-native component in our offering. Now, with the eSIM, we give developers the opportunity to kick-start their projects in minutes.”

Fredric Liljestroem, CEO at 10T Tech added: “We’re very excited to be working with EMnify to make the world more accessible through eSIM connectivity”.

The eSIM profile can be downloaded on the latest eSIM-compatible devices – by scanning a QR code delivered on the web portal after sign-up. Users then have all platform services at their disposal for a 60-day trial period or until the prepaid balance has been used up.

With the vision to transform complex cellular connectivity into an easy-to-consume cloud offering, EMnify provides powerful APIs and robust services that enable low-code integrations and let IoT developers easily automate their operational processes and workflows. To download the eSIM and start developing with the EMnify platform, go to: https://portal.emnify.com/sign/up

 

IoT, Networks, News

EMnify Announces Global LTE-M Roaming for Low-Cost, Low-Power IoT Applications

Leading cloud communication platform provider for IoT, EMnify, today 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 unique 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-cost modules that are only 30% of 4G module price.

Compared to NB-IoT (the other cellular LPWAN variant), 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 such as over-the-air firmware updates, since devices stay online for a much shorter time.

Alexander Schebler, VP carrier relations and co-founder at EMnify, explains: “We recognize 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, visit: https://www.emnify.com/lte-m-coverage

IoT, News

Data Collected from IoT Devices Will Breed the Next New ‘Uber’ or ‘Netflix’, Predicts Eseye

What organisations can do with data is set to dramatically shift in 2021 and beyond, according to IoT connectivity specialist Eseye, as more IoT devices are deployed and the data they generate dwarfs that collected through traditional online channels. Eseye predicts that data mined from user interactions with things rather than digital services will create a wealth of rich data, bigger and more detailed than online data ever was, enabling new business models, the creation of new products and services and new levels of understanding of human behaviour.

Services like Amazon, Facebook and Netflix capture a wealth of consumer usage and behaviour data which is stored, analysed and used to digitise and reinvent shopping, social interactions and entertainment as custom personalised, data-driven services. This has had an extraordinary effect on the creation of new personalised services and new disruptive business models. As radical a change as this was, now IoT data is set to power unprecedented levels of innovation over the coming years.

According to Eseye, this innovation will be seen not just in the next generation of classic IoT devices, which will become much more interactive and personalised to real time behaviour, but also in the development of a new set of devices created through the fusion of multiple sensors, cellular connectivity to the cloud and advanced AI techniques. This combination will enable near real time predictions of what services should be dynamically configured into those devices to maximise revenue and collect even more data and deliver huge value.

“IoT companies that see the potential, not just in the device but also in the data collected, will be the big winners,” comments Nick Earle, CEO, Eseye. “As we come out of the pandemic, organisations will be looking for new ways to innovate, and IoT data has the potential to disrupt business models and processes in practically every industry. Disruption, by its nature, comes from places we haven’t even dreamed of, but it can be radical. For example, the people who invented the internet could never have predicted the emergence of services such as Uber and Netflix. Likewise, we can only speculate around what IoT entrepreneurs will come up with once they have access to data from billions of devices capturing rich intelligence on every aspect of our lives and businesses. We predict it will be an even bigger wave of innovation than the first wave of IoT adoption.”

One of Eseye’s customers is already using rich data to predict diseases before they happen. A leading digital therapeutics provider manufactures and sells a next-generation clinical-grade wearable, which delivers actionable insights powered by machine learning, deep neural networks and AI on real time disease trajectory. This helps clinicians predict and prevent serious medical events. For example, chronic diseases, like heart failure, can lead to billions of pounds of unnecessary hospitalisations and re-admissions. Therefore, the potential benefits across the healthcare sector if this model becomes widely adopted are enormous.

Another example is how IoT is helping vulnerable people remain independent through condition monitoring, whereby such devices use personal health data combined with behavioural patterns, and analytics predict when changes in care regimes might be required. These are just two examples of millions of potential applications.

“In 2020 the pandemic has accelerated many of the IoT trends we predicted last year. That’s because an economic slowdown, like we are experiencing, puts enormous pressure on enterprises to reduce costs and increase customer delivered value. IoT does both of these things, and so the pressure for adoption is growing. This sudden need for new technological approaches has happened at a time when IoT is reaching a level of cost and maturity that allows for mainstream adoption. This will increase the ability to collect rich data from these next generation IoT devices, delivering unimaginable insights to power innovation in years to come,” adds Earle.

This is just one of 10 IoT predictions that Eseye is forecasting for 2021 and beyond. Others include how IoT can deliver real time visibility into the food supply chain with technology advances such as printing IoT circuits, batteries, and cellular connectivity onto flexible labels. It’s exploring how IoT – as it becomes more integrated into consumer and industrial products – can provide brands with a direct line to customers, collapsing supply chains to bring original equipment manufacturers closer to consumers.

Furthermore, Eseye is also analysing how mobile network operators (MNOs) are adapting to compete globally and why a federation approach creates a more viable economic model for MNOs to deliver IoT, as well as the emergence of virtual MNOs. Eseye announced its global alliance of MNOs, The AnyNet Federation, in 2019 and over the last year the AnyNet Federation has grown to 12 MNO members, a number which Eseye expects to further grow in 2021.

To find out more about Eseye’s 2021 IoT predictions, download the report here.