Archivo de la categoría: Internet of Things

Wind River announces upgraded IoT software platform

internet of things farmingEmbedded tech vendor Wind River has announced an upgraded portfolio of IoT software development tools for the internet of things (IoT).

The wholly-owned Intel subsidiary made the announcement at the Embedded Linux Conference in Dublin this week, and claimed to bring added flexibility and interoperability to its open-source platform, Wind River Linux 8. It also says it’s thrown in improved user experience and scalability for addressing IoT, stating that a combination of its virtualization services also allows customers to begin developing apps for IoT platforms within minutes of set-up and installation.

Speaking on the development of the upgraded platform, which will underpin a number of Wind River’s existing technology profiles, general manager of OS platforms Dinyar Dastoor is proud of the work the firm’s doing in driving the development of IoT.

“Wind River Linux allows customers to extract vast amounts of business intelligence and value from their data, and supports devices of all sizes, architectures and industries – from general purpose and high-performing real-time devices to carrier grade, virtualization, and highly secure military applications,” he said. “With the latest version of Wind River Linux and our updated Open Virtualization profile, we are delivering a versatile and robust Linux offering to the market that is ideally suited for the development if IoT devices.”

Wind River’s Linux platform is born out of the Linux Foundation’s Yocto Project, a hardware-agnostic an open-source collaboration project designed to provide templates, tools and methodologies for implementing tailored Linux systems on any embedded product – hypothetically ideal for IoT products, software and infrastructures. Jim Zemlin, the Linux Foundation’s executive director, is looking forward to the company’s continued participation with the project, based on its extensive contribution thus far – Wind River has so far contributed more than one third of the lines of code used by Yocto.

“Wind River continues to do important work with the Linux community, as well as foster open-source innovation,” he said. “We look forward to the company’s ongoing contributions to the Yocto Project, and their market success with products like Wind River Linux.”

Visit Europe’s leading IoT event – Internet of Things World Europe – in Berlin on 5 – 7 October 2015

MapR claims JSON IoT development breakthrough

Cloud databaseEnterprise software vendor MapR has unveiled plans to slash the workload of IoT developers and administrators by cutting the complexity of managing its NoSQL databases.

The key to this simplification, it says, is in more creative use of the JavaScript Object Notification (JSON) format, which it claims has the potential to make significant improvements in both database scalability and the analysis of the information they contain.

“We’re seeing big changes in the way applications are developed and how data is consumed,” said MapR’s chief marketing officer Jack Norris, “the underlying data format is the key to making information sharing easier.”

Bringing out the advantages of JSON makes administration easier, according to Norris, because users can make changes easily in a database built on documents. This in turn helps developers when they are planning applications, because it is easier to create a user friendly system. Tweaking JSON will benefit system builders in their own work too, Norris argued, since a document database can now be given enterprise grade scalability, reliability and integrated analytics.

The organisational improvements include the ability to personalise and deliver better online shopping experiences, reduce risk and prevent fraud in real-time, improve manufacturing efficiencies and cut costs. Savings will come from preventing cluster sprawl, eliminating data silos and lowering the cost of ownership of data management, claims MapR. Meanwhile it has promised a productivity dividend from continuous analytics of real-time data.

The MapR-DB supports the Open JSON Application Interface (OJAITM), which is designed to be a general purpose JSON access layer across databases, file systems and message streams, enabling a flexible and unified interface to work with big data, claims MapR.

The addition of a document database capacity extends the NoSQL MapR-DB to cover more types of unstructured business data, said one analyst. This could make it faster and easier to build big data applications, without the burden of shuffling data around first.

“MapR continues to build on the innovative data platform at the core of its Hadoop distribution,” said Nik Rouda, senior analyst at the Enterprise Strategy Group.

Hitachi Data Systems unveils new automated IoT policing system

A new IoT system can predict crime by reading social media and analysing the public’s movements, claims Hitachi data Systems (HDS).

Hybrid cloud systems designed by HDS are to offer new automated policing systems, including predictive crime analytics and video management systems. The new public safety technologies were unveiled yesterday by HDS at the ASIS International Annual Seminar and Exhibits in Anaheim, California.

The new Hitachi Visualization Suite (HVS) (version 4.5) now includes Predictive Crime Analytics (PCA) and version 2.0 of the Video Management Platform (VMP).

The PCA predicts crime by analysing live social media and Internet data feeds to gather intelligent insights which enable the users of the system to make ‘highly accurate crime predictions’, claims HDS. Both social media and video camera data will be analysed for both historical crime and to predict potential incidents.

The HVS is a hybrid cloud-based platform that integrates disparate data and video assets from public safety systems, such as computer-aided emergency services dispatch, number plate readers and gunshot sensors. The real time info is then presented geospatially to monitors at law enforcement agencies in order to improve intelligence, support their investigations and make policing more efficient, says HDS. The geospatial visualizations will also provide better historical crime data, by presenting information on crime in several forms, including heat maps.

Blending real-time event data from public safety systems with historical and contextual crime data allows agencies to conduct more thorough analysis, using spatial and temporal prediction algorithms, that could help solve many hitherto unsolvable crimes. It could also provide underlying risk factors that generate or mitigate crime, says HDS.

The system uses natural language processing for topic intensity modelling using social media networks which, HDS claims, will deliver highly accurate crime predictions.

The systems will ultimately create faster police response times when situations develop, according to Mark Jules, HDS’s VP of Public Safety and Data Visualization. “Today, we are empowering them with the ability to take a proactive approach to crime and terrorism,” said Jules, “Public safety is a fundamental pillar of our vision for smart cities and societies.”

How IoT Security could change infrastructure forever

CybersecurityOn September 22nd and 23rd, the first-ever dedicated IoT Security conference and exhibition will take place in Boston.

While at first glance this may appear to concern a specific and rather specialized area, the relationship of the Internet of Things to the broad issue of human security may well prove much more far-reaching and fundamental.

After all, the development of the Internet itself was driven by a Cold War desire to create resilient computer networks that could withstand a nuclear attack. This threat inspired a whole new architecture for sharing and protecting information – one that was intentionally decentralized.

History suggests that precaution can be a key driver of technological innovation. In changing things to protect them, we often open up unforeseen new opportunities.

Which is why, if we return to 2015, there is something fascinating in seeing the same decentralized architectures applied to real-world infrastructures in the name of collective safety.

“When you apply this kind of Internet-type architecture to core infrastructure — whether it’s water or energy or transportation –  these systems start looking a lot more like the Internet,” says John Miri, Chief Administrative Officer at the Lower Colorado River Authority (LRCA) and a speaker at this month’s Boston event. “You start to see water systems, flood data systems and, hopefully, electric grids that are less centralized, more resilient and more difficult to disrupt.”

The LCRA is an 80-year-old institution with roots in the Great Depression, entrusted with providing reliable water, flood protection and electricity to Central Texas and beyond. The areas LCRA serves covers a number of the fastest growing cities in the United States, meaning LCRA faces some pretty substantial demands on its infrastructure.

“Providing the water and power to support growing communities and a growing business and industrial base is no small task,” Miri says. Indeed, LCRA has  broken ground on a quarter of a billion dollar new reservoir, the region’s first new water supply in decades.

Many of these additional demands make  safety and security more important than ever.

“LCRA is now the second largest electric transmission utility in Texas. Our high tension transmission lines go across a large portion of the state. Protecting the electric grid is a pretty hot topic,” Miri says.

These hypothetical threats encompass what Miri calls “bad actors,”  but also less hypothetical threats to the infrastructure.

“When you have a flood, we may have to intentionally shut down electric substations. Everyone knows electricity and water don’t mix – but even having the situational awareness to know that water is approaching a substation is very important to us in keeping the lights on. Using these kinds of smart networks to get a better picture of the threats and dangers to the power grid helps us protect it rather than just saying ‘build more,’” Miri says.

Similarly, a vast number of sensors throughout its Hydromet network enable LCRA to better monitor water levels – and to effectively manage floods.

“By adopting a new, more open, shared technology approach, we could expand the infrastructure we have for flood data collection at a 90% lower cost than if we had done it a traditional way. The technology  actually opens up our infrastructure to a very wide region that never considered it before. We can offer a level of flood monitoring across a wider region and  extend it rural and agricultural communities and other areas that might not have the resources to gain access to this technology.”

Looking ahead, Miri says, there are new opportunities to apply this decentralized, Internet-style architecture to other projects.

“I think when you look forward 10, 15 or 20 years, the whole infrastructure may work differently. It opens up new possibilities and business models that we didn’t have before. For instance, Texas is on the coast. As with any coastal area, we spend time thinking about desalination. Some of the work we’ve been doing on the Internet of Things  is making people think, maybe we don’t need a couple of giant desalination plants – which has been the approach in Australia and Israel – but a number of smaller plants that are networked together, and share the water more efficiently. In the longer term, IoT may actually change the infrastructure itself, which would be very exciting.”

It could be interesting to one day look back at this month’s inaugural IoT Security event and see how many of the topics discussed went on to fundamentally evolve and affect their wider respective domains.

New IBM cloud service could help car makers to internet things and cut emissions

connected-car-normal

IBM has launched a cloud service that aims to harness the power of the Internet of Things (IoT) so that car makers can cut the costs of production, ownership and pollution.

The new IBM Cloud could help the likes of BMW and Mercedes to make better use of the mass of data created by all the intelligent sensors in a car and use this intelligence to make car drivers more efficient. The service aggregates data about the machines, the drivers and the passengers. IBM claims it could cut carbon emissions by helping cut fuel consumption through promoting better driving techniques, smarter route choices and sensible loading.

On the supplier side, the improved intelligence, says IBM, could help vehicle manufacturers to lower both the cost of production and ownership, through techniques such as predictive vehicle maintenance, real-time engine diagnostics and chassis stress analysis.

The IBM Internet of Things (IoT) for Automotive system is available on IBM Cloud’s SoftLayer infrastructure. IBM says it will analyse primary and secondary sources of intelligence. In addition to primary sources, such as geolocation data collected in the car, it will use external sources such as the car maker’s customer data and vehicle history. It will also use data from parking providers.

Automotive supplier Continental uses IBM MessageSight and IBM InfoSphere Streams, components of the IBM IoT for Automotive solution, to help manage complex data streams and apply analytics to its eHorizon system. This allows vehicle electronics to anticipate road conditions using digital mapping and crowd sourced data.

According to Telefonica’s 2013 Connected Car Industry Report, nine in ten new cars will be equipped with extensive connectivity services by 2020. IBM’s mission is to make sense of all the masses of big data and put it to good use, said IBM’s general manager for global automotive industry Dirk Wollschlaeger. “We have the potential to change how we interact with our vehicles,” said Wollschlaeger.

Salesforce IoT Cloud promises to create meaning from M2M talk

Internet of Things flat iconic illustrationSalesforce has launched its Internet of Things (IoT) offering with IoT Cloud, which promises to convert machine to machine conversations, digital content and customer information into useful intelligence that sales staff can act on.

The IoT Cloud is powered by event processing engine Salesforce Thunder, which will allow customers to personalise the way they sell, service and market. Development partners include processor maker ARM, Etherios, Informatica, PTC ThingWorx and Xively LogMeln.

The service was unveiled by Salesforce CEO Marc Benioff at the company’s Dreamforce conference in San Francisco. “Salesforce is turning the internet of things into the internet of customers,” said Benioff. The IoT Cloud will allow businesses to create instant one-to-one proactive actions for sales, service, marketing or any other business process, Benioff said.

According to Salesforce, its ‘massively scalable’ cloud computing architecture can ‘listen’ to the connected world and make sense of the billions of events each day from all sources. The connections with wearables, windmills, telephones and turbines – and all other devices – can be contextualized by Salesforce’s own real-time rules, it claims. The IoT Cloud aims to give business users intuitive, point-and-click tools to define rules and logic for events that can trigger actions among the users of Salesforce’s customer relationship systems.

The rationale is to glean information reported by devices – such as the numbers of hard braking movements by drivers of a car fleet – in order to monitor and manage customer cases. Machine intelligence, such as vehicle braking data, could help Salesforce users negotiate from a position of superior knowledge with their customers.

According to Salesforce’s figures there will be 75 billion devices connected to the Internet by 2020, with the volume of data growing exponentially each year. The McKinsey Global Institute estimates that IoT applications have the potential to make $11.1 trillion worth of economic impact per year by 2025.

The challenge is to make sense of all that data, said IoT market watcher Gary Barnett, chief analyst at Ovum. “IoT deployments only bring value when organisations can act on the information their IoT networks generate,” said Barnett, chief analyst, Ovum. “The ability to make sense of that data will be a key factor in turning it into action.”

BT and the IoT

BT Sevenoaks workstyle buildingIt is often said that the Internet of Things is all about data. Indeed, at its absolute heart, the whole ecosystem could even be reduced to four distinct layers, ones that are essentially applicable to any vertical.

First of all, you have the sensing layer: somehow (using sensors, Wi-Fi, beacons: whatever you can!) you have to collect the data in the first place, often in harsh environments. From there you need to transport the data on a connectivity layer. This could be mobile or fixed, Wi-Fi or something altogether more cutting edge.

Thirdly, you need to aggregate this data, to bring it together and allow it to be exchanged. Finally, there’s the crucial matter of analytics, where the raw data is transformed into something useful.

Operators such as BT sense the opportunities in this process – particularly in the first three stages. Some telcos may have arrived a little late to the IoT table, but there’s no question that – with their copious background developing vast, secure infrastructures – they enjoy some fundamental advantages.

“I see IoT as a great opportunity,” says Hubertus von Roenne, VP Global Industry Practices, BT Global Services. “The more the world is connected, the more you have to rely on a robust infrastructure, whether it’s connectivity or data centres, and the more you have to rely on secure and reliable environment. That’s our home turf. We are already active on all four layers, not only through our global network infrastructure, but also via our secure cloud computing capabilities and a ‘Cloud of Clouds’ technology vision that enables real time data crunching and strategic collaboration across very many platforms.”

An example of how BT is positioning itself can be seen in Milton Keynes, a flagship ‘smart city’ in the UK, with large public and private sector investment. BT is one of over a dozen companies from various industries testing out different use cases for a smarter, more connected city.

“In Milton Keynes we are the technology partner that’s collecting the data. We’ve created a data hub where we allow the information to be passed on, but also make it compatible and usable. The governance body of this Milton Keynes project decided very early to make it open source, open data, and allow small companies or individuals to play around with the data and turn it into applications. Our role is not necessarily to go onto the application layer – we leave that to others – our role is to allow the collection and transmission of data, and we help turn data into usable information.”

One use case BT is involved in is smart parking – figuring out how to help traffic management, reduce carbon footprint, and help the council to reduce costs and better plan for parking availability. “Lots of ideas which can evolve as you collect the data, and that’s BT’s role.”

Another good example of how BT can adapt its offerings to different verticals is its work in telecare and telehealth, where the telco currently partners with the NHS, providing the equipment, monitoring system, and certain administrative and operational units, leaving the medical part to the medical professionals.

While BT’s established UK infrastructure makes it well positioned to assume these kinds of roles in developing smarter cities and healthcare, in other, more commercial areas there are no place-specific constraints.

“Typically our core customer base for global services are the large multinational players,” says von Roenne, “and these operate around the world. We are bringing our network and cloud integration capabilities right down to the manufacturing lines or the coal face of our multinational customers. Just a few weeks ago, we announced a partnership with Rajant Corporation, who specialise in wireless mesh deployments, to enable organisations to connect and gather data from thousands of devices such as sensors, autonomous vehicles, industrial machinery, high-definition cameras and others.”

Indeed, there are countless areas where data can be profitably collated and exploited, and next month von Roenne will be attending Internet of Things World Europe in Berlin, where he will be looking to discover new businesses and business opportunities. “I think there is already a lot of low hanging fruit out there if we just do some clever thinking about using what’s out there,” he says, adding that, often, the area in which the data could really be useful is not necessarily the same as the one it’s being collected in.

The capacity to take a bird’s eye view, bringing together different sectors of the economy for everyone’s mutual benefit, is another advantage BT will point to as it positions itself for the Internet of Things.

IBM launches cloud-based Internet of Things service for electronic industry

IBM has launched the first in a series of cloud-based, industry-specific services for the Internet of Things (IoT), with an offering for the electronics industry. Its debut IoT service will gather data from individual sensors to provide instant analysis of the production processes of electronics manufacturers.

Meanwhile, IBM said it has integrated its IoT system, IBM IoT Foundation, with the firmware of chipmaker ARM, so that all devices driven by ARM chips will be able to release data for analysis. IBM said the fusion will allow ‘huge quantities’ of data from industrial appliances, weather sensors and wearable monitoring devices to be gathered, analysed and acted upon.

The IBM IoT Foundation, a cloud-hosted offering, aims to simplify the complexity of analysing masses of machine to machine (M2M) data. It offers tools for analysing large quantities of fast-moving data and provides access to Bluemix, IBM’s service for managing and prioritising data flows. It also offers to secure confidential financial, IP and strategy information.

During the integration process, products powered by ARM’s ‘mbed-enabled’ chips will automatically register with the IBM IoT Foundation and connect with IBM analytics services. This unification means that information gathered from sensors in any connected device is delivered to the cloud for analysis. The IoT connection also means that commands can be pushed to devices, with actions being taken on the basis of the intelligence gathered.

If an alarm message is triggered on a machine in a manufacturing plant, it can now be automatically shut down and an engineer despatched to trouble shoot the disruption, IBM said. This cost-saving damage limitation is best achieved by combining the knowledge and communications protocols of different vendors at different levels of the ICT stack, according IBM’s General Manager for the Internet of Things, Pat Toole.

“The IoT is now at an inflection point and it needs the big data expertise of IBM and little data expertise of ARM to ensure it reaches its global potential,” said Toole.

Original design manufacturers and OEMs, like Ionics, are already seeing value in the chip level architecture harmonisation, said Krisztian Flautner, the General Manager of ARM’s IoT business. “Deploying IoT technology has to be easy, secure and scalable for it to feel like a natural extension of a company’s business,” said Flautner.

Make your Sunday League team as ‘smart’ as Borussia Dortmund with IoT

IoT can help make your football team smarter

IoT can help make your football team smarter

How, exactly, is IoT changing competitive sports? And how might you, reader, go about making your own modest Sunday League team as ‘smart’ as the likes of AC Milian, Borussia Dortmund and Brazil?

We asked Catapult, a world leader in the field and responsible for connecting all three (as well as Premier League clubs including Tottenham, West Brom, Newcastle, West Ham and Norwich) exactly how the average sporting Joe could go about it. Here’s what the big teams are increasingly doing, in five easy steps.

Link-up play

The technology itself consists of a small wearable device that sits (a little cyborg-y) at the top of the spine under the uniform, measuring every aspect of an athlete’s movement using GPS antenna and motion sensors. The measurements include acceleration, deceleration, change of direction and strength – as well as more basic things like speed, distance and heart rate.

Someone’s going to have to take a bit of time off work though! You’ll be looking at a one- or two-day installation on-site with the team, where a sports scientist would set you up with the software.

Nominate a number cruncher

All the raw data you’ll collect is then put through algorithms that provide position-specific and sport-specific data output to a laptop. Many of Catapult’s Premier League and NFL clients hire someone specifically to analyse the massed data.  Any of your team-mates work in IT or accountancy?

Tackle number crunching

Now you’ve selected your data analyst, you’ll want to start them out on the more simple metrics. Everyone understands distance, for instance (probably the easiest way to understand how hard an athlete has worked). From there you can look at speed. Combine the two and you’ll have a fuller picture of how much of a shift Dean and Dave have really put in (hangovers notwithstanding).

Beyond this, you can start looking at how quickly you and your team mates accelerate (not very, probably), and  the effect of deceleration on your intensity afterward. Deceleration is usually the most harmful to tissue injuries.

Higher still up the spectrum of metrics, you can encounter a patented algorithm called inertial movement analysis, used to capture ‘micro-movements’ and the like.

Pay up!

Don’t worry, you won’t have to actually buy all the gear (which could well mean your entire team re-mortgaging its homes): most of Catapult’s clients rent the devices…

However, you’ll still be looking at about £100 per unit/player per month, a fairly hefty additional outlay.

Surge up your Sunday League!

However, if you are all sufficiently well-heeled (not to mention obsessively competitive) to make that kind of investment, the benefits could be significant.

Florida State Football’s Jimbo Fisher recently credited the technology with reducing injuries 88 per cent. It’s one of number of similarly impressive success stories: reducing injuries is Catapult’s biggest selling point, meaning player shortages and hastily arranged stand-ins could be a thing of the past.

Of course if the costs sound a bit too steep, don’t worry: although the timescale is up in the air, Catapult is ultimately planning to head down the consumer route.

The day could yet come, in the not too distant future, when every team is smart!

How will the Wearables market will continue to change and evolve? Jim Harper (Director of Sales and Business Development, Bittium) will be leading a discussion on this very topic at this year’s Internet of Things World Europe (Maritim Pro Arte, Berlin 6th – 7th October 2015)

Link Labs bags $5.7m to boost IoT network dev efforts

Link Labs scored $5.7m, which it will use to double down on product development

Link Labs scored $5.7m, which it will use to double down on product development

Internet of Things (IoT) networking specialist Link Labs has secured $5.7m in series A funding which the company said would be used to boost its low-power wide area network (LPWAN) expansion efforts.

The funding round was led by TCP Venture Capital, which included investment from the Maryland Venture Fund, Blu Venture investors, Inflection Point Partners, and individual and existing investors.

Link Labs specialises in developing IoT networking technology based on LoRa, a standard for IoT-centric wide area networks. Its wares are popular in the intelligent manufacturing, healthcare and smart metering sectors.

The company’s Symphony Link software and hardware connects a range of IP-connected devices over long ranges, both indoors and outdoors, over both licenced and unlicensed spectrum (915 MHz ISM band and ETSI­ compliant for use in the 868 MHz band in Europe and are capable of deployment from 137 MHz­1020 MHz).

“This round marks an important milestone for us as we shift from system development, to accelerated deployment with our early customers,” said Brian Ray, chief executive of Link Labs. “This gives us the capital to expand our distribution channel and open up additional international markets and new applications.”

Bob Proctor, founding member at Blu Venture Investors said: “Link Labs is quickly emerging as the leader in hardware and software systems for low-power, long-range communications. We were excited to provide the seed round for Link Labs last year and are proud to be a major part of the Series A round.”

Link Labs is one of a small but growing number of startups making inroads in the IoT networking space, where there is a flurry of activity around developing standards to handle the communications element.

LoRa, which is developed by Semtech, is being backed by IBM, Cisco, and Microchip among the members of the LoRa Alliance, but other include Sigfox (which is being backed by Samsung) and Neul (which is being backed by Huawei).