From smart devices and home automation systems to smart cars and smart buildings, the Internet of Things brings important innovations in our life. In the next years, IoT solutions will continue to take the center stage in the tech environment.

With huge investment in this technology, the global IoT spending is expected to reach $1.29 trillion by 2020 and $1.4 trillion by 2021 (IDC report).

For now, manufacturing industry is still the main investor in the Internet of Things. According to recent surveys, 66% of manufacturers say that the use of IoT solutions is essential for staying competitive and resolving various issues.

Smart factories

Capgemini research reported that smart factories are going to add $500 billion to $1.5 trillion in value added to the global economy in 5 years. By now, 56% of manufacturing companies have already invested $100M in smart factory initiatives.

Today the creation of smart factories with the Internet of Things is gaining momentum and so far, only 6% of manufacturers can be designated to “Digital Masters”, an advanced stage in digitizing various production operations with a strong foundation of smart management, process automation, and employee skills.

Analysts expect smart factories to revolutionize the industry by providing a 7X increase in overall productivity by 2022. Among the most interesting findings, Capgemini reports smart factories will be able to speed up on-time delivery of finished products by 13 times, with the enhancement of quality indicators at more than 12 times the rate of improvement since 1990.

Also, Capital Expense & inventory costs will be rationalized 12 times and material, logistics and transportation costs are predicted to be optimized at 11 times the rate of improvement since 1990.

On the graphic below you can see a comparison of manufacturer’s annual gains since 1990 versus expected annual gains referred to smart factory technologies in the next 5 years.

Besides the Internet of Things, contributing technologies to smart factories also involve Big Data Analytics, machine learning, advanced robotics, and 3D printing, while cloud computing platforms unify all of these technologies together, leading to more rapid smart factory adaptation and bringing revolution in the industry.

IoT use cases in manufacturing

With smart connections of multiple devices, equipment, and production processes, manufacturers get such benefits as minimized human intervention, remote machinery maintenance, employee safety, production automation, and reduced operational costs.

The main IoT applications include:

• Production flow monitoring - leads to flow optimization, minimize waste, and reduced labor and operational costs.
• Remote equipment monitoring & management - Results in saved energy and reduced costs. Predictive analytics allows repairs and replacements to be automatically ordered even before something breaks.
• Condition-based maintenance notifications - enables to successfully maintain machinery health and increase throughput.

• Supply chain management - 

  with the help of vehicle and asset tracking, you improve the efficiency of manufacturing and supply chain operations.

   

   

There is a plenty of other successful IoT use cases in manufacturing: equipment predictive maintenance, vehicle and asset tracking, temperature/energy conservation/air quality control, facility management, smart ventilation, production flow monitoring, and smart radiation monitoring and measurement.

By integrating a smart factory initiative, you can connect all production stages, accelerate production, enhance various management processes, ensure working safety, reduce operational costs, and improve the entire company performance.

In spite the Internet of Things term was coined by Kevin Ashton executive director of the Auto-ID Center as the title of a presentation he made at Procter & Gamble (P&G) in 1999, it was only when companies like Pachube (an early leader in the burgeoning “Internet of things” field) launched a web service  that enabled to store, share & discover real time sensor, energy and environment data from objects & devices around the world, when most of us believed that the time to IoT was finally had arrived.

Since its founding in 2008, Pachube pretended to be the leading open development platform for the Internet of Things.  In 2011 when the company was acquired by Woburn, Massachusetts-based LogMeIn in a deal that was worth "approximately $15 million in cash that re-branded the service as Cosm, but it was still a “beta” test version, to finally launch Xively that become a division of LogMeIn.  LogMeIn did not want or did not know how to incorporate the potential of Xively into its business. And in 2017 again Xively lost its charm.

Google the White Knight of Xively

On February 15, we wake up with the new that Google will acquire IoT platform Xively from LogMeIn for $50 million, according to Bloomberg, to expand in market for connected devices. Google has been the White Knight of Xively.

Another White Knights

In December 30, 2013 - PTC announced it had acquired ThingWorx, a PTC Technology for approximately $112 million, plus a possible earn-out of up to $18 million. The acquisition of ThingWorx positioned PTC as a major player in the emerging Internet of Things era. Later, in July 2014 PTC acquired Axeda Corporation for approximately $170 million in cash which Gartner estimated is an acquisition multiple of just over 6 times revenue.

In February 2016, Cisco Acquired Jasper Technologies for $1.4 Billion in cash. How wonderful White Knight.

A software goliath company like SAP acquires a small IoT startup like PLAT.ONE  now part of SAP?

In 2016, Microsoft did not disclose the sum for Italian start-up Solair acquisition. Th startup  expanded Azure capabilities.

In March 2015, Amazon was taking another step into the Internet of Things acquiring 2lemetry, a startup with a system for sending, receiving, and analyzing data from Internet-connected devices.  2lemetry had raised at least $9 million. Investors included Salesforce Ventures.   

We all know that the IoT Platform market need a quick consolidation

The M2M/IOT Platform market has changed in the last 10 years. The fragmentation is unsustainable and I can say that I do not see a clear IoT platform market leader yet that works as a plug-and-play fix for all kind of connected-device creators. Besides, the rush of investors for IoT platform companies trigger rumors of new acquisitions increasing significantly their actual valuation and encourages thousands of entrepreneurs and startups to create new IoT platform copies of each other. Although there is still room for new innovative IoT platform startups, the decision to trust in a company able to simplify the complexities of the IoT, with a scalable and robust infrastructure and drive real results for your business, will reduce the choice among a short list. The bad news is that the hundreds of IoT platforms startups must compete now with the platforms offered by Tech and Industrial Giant vendors.

Given the confusion that exists about the IoT platforms, companies need to approach experts’ advisors that will recommend which platform(s) is most suitable for your current and future business and technical requirements.

There will not be White Knights for everyone

In “Be careful of the Walking Dead of IoT, I alerted that in spite that no one has the crystal ball, it is almost sure that many IoT platforms are not going to continue within 10 years, not even within 1, 2 or 3 years in this inflated market. As show in the picture below, some Tech Giants have been looking and found some of the best pieces. What will happen to the 700+ platforms out there? There will not be White Knights for everyone. At least for Xively it has been a happy end.

Thanks in advance for your Likes and Shares

Thoughts ? Comments ?   

Within the few months of its release, Internet of Things (IoT) has taken everyone by storm in numerous ways. As a result, more and more organizations, industries, and technologists catch the IoT bug. Right from Data streaming to data collection, events, decisions, processes, messaging, and integration, everything is involved in the form of developer’s activities. Now, do you think that IoT is just another opportunity for vendors to sell or update developer tools? Well, according to several resources nearly 40 billion which is approximately 30 devices for each and every active social network user in the world. In addition to this, trillions of sensors will comprise the IoT.

What is Internet of Things?

It is the network of physical objects, whether in terms of devices, vehicles, buildings or even humans, which are embedded with electronics, sensors, and software and network connectivity. And of course, these devices help us to send, transfer and collect important data anywhere and at any point in time. I strongly feel that the technology, in particular, has turned out to be a growing sensation that’s captured everyone in the technology world. And it is assumed that companies, as well as individuals, are investing $6 trillion in IoT devices within the next five years.   

Bringing IoT to Developing Countries

Now you must be thinking that getting IoT technology to developing countries might be a major problem but in the actual scenario, there’s already a standard infrastructure in many countries. I am sure that you must be well aware regarding the fact that 95% of the world has basic 2G phone coverage, and while 29% of those in rural areas have 3G coverage, 89 percent who reside in urban areas are able to access 3G coverage with ease.

In addition to this, IoT is affordable with some saying that the IoT at its basic capability is already in place in developing countries, where citizens and government officials would bear little cost in tweaking it. Last but certainly not the least, IoT devices have a “plug-and-play” attribute to them, that doesn’t require proper setup from skilled laborer. This allows scalability within the devices. After all, technology grows only at the speed the city or the country wants to it.

What kind of Industries is gaining benefit from IoT?

With the increase in technology, more and more software development firms are establishing across the globe providing full-fledged IoT services among numerous industry verticals such as:

Healthcare

It seems like almost every year, there is an extreme health crisis in a developing nation. But what if that could be prevented? Wearable tech devices called “Sensor, technology, and analytics to monitor, predict and protect Ebola patients” are scaled and shipped to international aid offices worldwide. Such kind of devices collect all data regarding the patient, i.e. from body temperature to oxygen saturation. And once the data is complete, doctors can ship it to a central location, where people can track patient’s health over time.

In short, tracking a group of people or a city as a whole can help with disease containment as well as migrant population tracking. Over time these sensors can help predict where an outbreak is going to spread, allowing enough aid workers to get to the infected area before it's too late. 

Water delivery

Do you know that billions of people in developing countries are going through their day-to-day lives drinking unsafe water? IoT cannot just help in monitoring both water quality, and water delivery but also alert municipalities when a water pump breaks, allowing for a quicker replacement time to ensure that an area's citizens are still getting enough, and quality water.

Agriculture

I am sure you must be well aware regarding the fact that there are many countries in the developing world that are still agriculturally based, where plenty of people still prefer working out in the fields. Here’s a good news for these people, around 75 million IoT devices will be agriculture-related by 2020.

Which means with the help of such devices, farmers can easily place them in soil to track acidity levels, as well as temperature, and crop growth so they can create a successful harvest.

City living

Cities like India, Pakistan, Bangladesh, Sub-Saharan Africa and other parts of the world are some of the densest cities in terms of population. IoT devices can help with the traffic flow, by regulating lights based on the number of vehicles on the road, sensors placed in homes can help warn residents of impending disasters like fast-moving fires, mudslides, or other disasters, helping to save lives, as well as personal property.

One of my LinkedIn contacts suggested me last year not to write more articles about MWC event. However, a couple of weeks ago talking with another contact that not attend this year told me he was expecting my article. So here it is, my fourth MWC article in a row since 2015. Am I a MWC addictYou can read previous articles here:

• 2015 - MWC 2015: Everything Connected, Tapas and Jamon
• 2016 - “GSMA need to think how to reinvent MWC”
• 2017-  “MWC- The Great Illusionists Show!”

Unfortunately, the Powerful GSMA rejected my ticket request as Analyst / Press (LinkedIn please help me next year) and of course I did not pay the prohibitive prices of Silver Pass, Gold Pass and Platinum Pass. At the end, conference sessions content is very generic and I can read free the content. I cannot justify the ROI for pay these tickets. Can you?

Avoiding the politics issues between Catalonia and Spain, it was the first MWC where the snow was probably the biggest surprise of the show. The snow and the rain did not allowed visitors to spend some time outside.

A painI do not know the final numbers, but I notice this year less attendants than 2017. No doubt GSMA will try to find excuses eg, political issues, but the reality is that the cost of the show do not convince to many usual large / medium / small companies. It is a fact that some big companies did not attend or send less delegates and use less square meters

Again, visitors that attend 1 or 2 days do not have had time to move to other parallel events like 4YFN.  Running from meeting to meeting, bad lunch as usual. I'm sure I've lost weight these days

The MWC18 has been an evolution of what we saw last 2 years. Not revolution. We need to wait another 5 years to see some notorious technological advances although GSMA should continue helping to create a better future

Before #MWC18

I was angry with the Search exhibitor page of the web . Please GSMA you have 1 year to improve. None exhibitor has included any product in the category of Blockchain or Internet of Things. Duplicates filters, etc. I read some LinkedIn post and articles and talked with people to plan my visit and capture their feeling this year.

• Dean Bubley posted a few days ago “7 reasons he will not go to MWC anymore”. For him, MWC is not productive, informative or fun.
• Matt Hatton, VP Research at Garner make Predictions for MWC this year: - Inappropriate use of blockchain - Inappropriate description of things as AI - Inappropriate use cases for 5G - Better focus on go-to-market for IoT - More apparent rigor applied to the whole POC process - Better specialization (rather than trying to sell "end-to-end IoT") So essentially my expectation is that vendors of all shapes and sizes are looking better on commercial than technological issues. In sharp contrast with previous years. Funny old world.
• Part I covered Analytics, AI, new radio and antennas, Part II NFV, cloud and open source news, plus the 5G delulge. and part III, The third part takes a close look at the network edge, looking at some major industry moves and at the MEC demos.
• Blockchain Makes an Appearance at Mobile World Congress 2018 - 5G will be less sizzle, more substance at MWC
• MWC is exploring Dubai or Paris as alternative to Barcelona. But, the big operators are committed to the defense of Barcelona as the headquarters of the Mobile: "It is the best place in the world".
• Ericsson launches marketplace to unlock the cellular IoT ecosystem
• IoT: Sensor-as-a-service, run by blockchain, is coming - Nokia is launching a blockchain-driven Internet of Things (IoT) sensor network for its telco equipment users to sell on.
• Que es y que no es Aura

During the #MWC18

• MWC Day 0 – Halcyon days.
• Four Highlights from MWC2018 by Nick Hum
• MWC18 Highlights Mobile World Live
• MWC 2018 – who are we trying to convince? – Share with me the idea that Mobile World Congress can feel like a geeky take on Groundhog Day.
• MWC 2018 – Reflections From An Airplane by Ingrid Wistrand, Deputy CEO of Tele2 IoT.
• Mercedes-Benz at the Mobile World Congress 2018: Focus on artificial intelligence
• Here the MWC18 Week in review

The euphoria of 5G has dropped – More info about 5G at MWC18 here “ Intel, Qualcomm Talk About Accelerating 5G Efforts at MWC 2018” 

IoT - The word that describes my feeling is disappointment. Although expected, something sad because the word IoT begins to lose brightness and disappear from the stands. The Pavillion 8.0 dedicated to the IoT, was not star this year. Do you really deserve to be exhibitors at the MWC

At least it was good to pulse the evolution and transformation of the IoT / M2M market. A new impulse will be necessary before 2020

Unfortunately, I could not attend any of the Top 7 IoT Activities at Mobile World Congress. Please tell me if any of it was worth it.

It was funny to hear how Operators trying to explain the use cases of Blockchain in Telco sector.

Artificial Intelligence, Connected Vehicles and Robots the starts of MWC18.  It was interesting discuss with some Operators about the practical potential of Machine learning, Artificial Intelligence (AI), Robots in this sector.  The conclusion in this article “ You Can't Teach an AI to Run a Telecom Network—Yet.

MWC18 was in my opinion the year of the Connected Intelligent Vehicle. Operators, Technology Vendors and Car Manufacturers need to cooperate to avoid a technology nightmare for future drivers/passengers.   

After #MWC18

I cannot resist to compare this congress with the Groundhog Day festivities. I make no secret of my discomfort for the continuous decisions of GSMA to make this show useless for many. My unpleasantness for the prohibitive cost of the tickets, hotels in the town, and the arrogant executives who attend the event as movie stars and finally for the many parallel events that I have missed or meetings of 15 minutes because I had spent hours daily walking by the walk sides of Fira Halls and my frustration for not finding some companies in the labyrinth of  the pavilions

Like Bill Murray in the movie, I discover year after year that MWC's events repeating almost exactly. I feel I am trapped in a time loop that probably most of you are aware of

I am glad if you have spent these days indulging in night parties, looking for new jobs or cheering you for the work you have in your great company.  Luckily for me, I do not return depressed, but my mind do not escape for some days to the MWC loop. Am I a MWC addict?

See you next year at MWC19 Barcelona

Thanks for your Comments and Likes

The Internet of Things (IoT) enables vendors to create an entirely new line of “smart” solutions for its existing and new markets. While the decision to go “smart” is straightforward, the decision of how to do so is not. Vendors are faced with a “build, buy, partner” decision – build it themselves, buy or license it from someone, or partner with a complementary solution provider and go to market together. This article discusses some of the key considerations product managers and executives must study in order to make the most appropriate decision.

“Build, buy, partner” is a strategic decision

For many vendors, IoT means adding a technology layer to products that never had any before. Even for tech savvy vendors, IoT presents a whole new set of technologies that they are less familiar with. Equally important, IoT is not just technology, but includes data, security, user experience, and business/business model elements. Figure One shows an IoT product management framework developed by Daniel Elizalde of TechProductManagement. A company going “smart” has a lot of decisions to make, of which technology is just one component.

Figure One. IoT Product Management Stack.

The framework shows that the “build, buy, partner” decision is multi-dimensional. There are six decision areas, spread across components from the edge to the user applications. Each represents a different “build, buy, partner” decision point, and each takes the company down a different path. In today’s fragmented and dynamic IoT ecosystem, many companies will need to “build, buy, partner” simultaneously. For example, cybersecurity is a specialized field that many vendors cannot address on their own, and must buy or license for their solution. The actual proportion of “build, buy, partner” each vendor does varies based on their specific situations.

Build

The company creates the solution themselves with the resources they own, control or contract to. Companies who choose this option, but have limited internal expertise may contract with Original Design Manufacturers (ODM). These ODMs provide a portfolio of services, from design, prototyping, test, certification, to manufacturing.

The “Build” option enables full management oversight of the development process, the solution functionality and the intellectual property. Conversely, this option may result in a longer time to market, and require additional capital and resources beyond what is scoped.

Companies consider this approach when:

• They have the requisite skill sets and resources to do it
• They can do it faster, cheaper and at lower risk
• This is a strategic competence they own or want to own
• There is strategic knowledge or critical intellectual property to protect
• They are fully committed throughout the company

Buy

The company procures all or part of the solution components from a 3rd party. This includes licensing technology and services. Companies may also acquire technology through mergers and acquisitions, as well as buying the rights to technology from companies willing to part with it. This option eliminates “reinventing the wheel”, enables faster time to market, maximizes resource efficiency with limited execution risk. One common variant of this approach is to buy technology platform from a vendor, and then build their specific solution components on top of that. 

The downsides of the “Buy” option include a loss of control in the development process, and limited agility to respond in a timely manner to changes in the market and customer needs.

Companies consider this approach when:

• They don’t have the skills or resources to build, maintain and support it
• There is some or all of a solution in the marketplace and no need to “reinvent the wheel”
• Someone can do it faster, better and cheaper than they can
• They want to focus their limited resources in other areas that make more sense
• Time is critical and they want to get to market faster
• There is a solution in the market place that gives you mostly what you want.

Partner

The company allies itself with a complementary solution or service provider to integrate and offer a joint solution. This option enables both companies to enter a market neither can alone, access to specialized knowledge neither has, and a faster time to market. This option adds additional management and solution integration complexity. For some companies, reliance on partners for some aspects of the solution may be uncomfortable due to a limited loss of control.

Companies consider this approach when:

• Neither party has the full offering to get to market on their own.
• Each party brings specialized knowledge or capabilities, including technology, market access, and credibility.
• It lowers the cost, time and risk to pursue new opportunities

Management considerations for “build, buy, partner”

Before the company chooses a path to go “smart”, executives and managers must base their decision along three “build, buy, partner” dimensions – execution, strategy, and transformation.

Execution

The first dimension focuses on the company’s ability to execute successfully. Managers must audit and assess their capabilities and resources to answer the following questions:

• Do I have the necessary skills in-house to successfully develop, test, support and operate an IoT enabled “smart” solution and business (Figure One)?
• Do I have the right human, capital, financial, and management resources to do this? Is this the best use of my resources relative to other initiatives and projects?
• What am I willing to commit, sacrifice and re-prioritize to see this through? Am I willing to redeploy top management and company resources? How long am I willing to do this?
• How much budget and resources am I willing to commit?
• Is there anyone that can do it better than me? Does it make sense for me to do it? What am I willing to do and not do?
• What infrastructure (processes, policies, systems) do I have, or need to build, maintain, support and operate these new solutions?

Strategy

The second dimension relates to the company’s current and future strategic needs. These are company specific as it relates to its current situation, its customer and channel, and its position within the industry. Key considerations to be addressed include:

• How does going “smart” align with the company’s vision and strategy? Which parts align and which doesn’t? Does the vision and strategy need to be updated to reflect the realities of going “smart”?
• How important is time to market? Do I need or want to be a first mover? How long will it take to execute with the resources that I have?
• Am I trying to reach existing or new markets with IoT? Do I understand their needs well enough that I can execute on meeting it?
• Do I have any critical proprietary technology, processes, and other intellectual property that I need to protect?
• What are the risks? How much risk am I willing to tolerate? What are the costs of those risks? How much risk can I mitigate with my current capabilities?
• How much control do I want or need to go “smart”? What areas do I want to control myself and how? Can I afford to control those areas?
• What is your real value to customers and your channel? Why do they buy from you, and why do they come back? What do you do well?

Transformation

The third dimension is the company’s ability to manage transformation. Going “smart” doesn’t stop with the IoT technology. The entire organization, its operations, policies, systems and business models must transform to support and operate the “smart” business. Furthermore, resellers and service channels, and suppliers and partners, are also impacted.

• What is your corporate culture and how well does it support change? Do you have the right people to manage and sustain this change? Are you nimble and agile?
• What degree of disruption will there be to internal processes, channels, organization readiness, and business models? How agile are your current capabilities?
• How prepared are you to operate a “smart” business? Do you have the skills and infrastructure required? Can you support a recurring revenue business model? How willing are you to invest in order to develop and sustain these capabilities?

What should you do next?

Each company is unique, and its situation will dictate its response to these dimensions. There is no one “right” universal answer to the “build, buy, partner” decision. Equally important, what’s right today, may not be right tomorrow. Companies that want to go “smart” start by looking inward first and doing the following:

• Establish a current baseline. Audit and catalog current and planned offerings, strategy, human resources and skill sets, channel and suppliers, internal operations and policies, and culture.
• Evaluate the IoT product management stack (Figure One) against your baseline using the three “smart” dimensions. The list of questions listed are starter questions, but answering those will lead to more questions to be addressed.
• Evaluate and assess your company’s future state capabilities against the baseline using the three “smart” dimensions. Understand where the gaps are, and the extent of those gaps.
• Identify your risk tolerance level. Going “smart” is not without risk, especially if you have never done it before. The key is to identify what and how much risk you are willing to take. Once you do so, you can develop a risk management plan and incorporate the appropriate tactics to manage it.
• Update your business vision and strategy as applicable.
• Develop your “build, buy, partner” decision and strategy. This strategy must align to the broader business vision and strategy.

About:

Benson Chan is an innovation catalyst at Strategy of Things, helping companies transform the Internet of Things into the Innovation of Things through its innovation laboratory, research analyst, consulting and acceleration (execution) services. He has over 25 years of scaling innovative businesses and bringing innovations to market for Fortune 500 and start-up companies. Benson shares his deep experiences in strategy, business development, marketing, product management, engineering and operations management to help IoTCentral readers address strategic and practical IoT issues.

With so many companies and people on the search for the "IoT killer app” for a decade, and nobody has found it yet ☹. You can be sure that I do not either, otherwise I would not be writing this article and I will be furiously developing it.

Most companies are anxiously looking for the killer IoT app/solution, which their IoT reps could sell in volume to their enterprise customers. The bad news for them: “ there’s no true “killer app” for IoT and that any company can create the right killer app to solves a business need of a customer or a whole industry.

Nevertheles we can not avoid that some people think pet care or fitness could be the "killer app" for IoT, while others instead think that the killer IoT app winners will be in Verticals like predictive maintenance in manufacturing, smart home or smart city solutions and also I had read funny opinions that considers measuring Temperature and Humidity seem the killer application for most of the IoT industry. The comment is comical but at the same time ironic. In the absence of bright or innovative ideas it seems that we would have discovered the fire when we install sensors and we are able to visualize temperature and humidity in real time on the screen of our smartphone.

Instead of continuing to dream of finding the Holy Grail of the IoT, I think it will be more productive to analyse by categories what are the possible IoT applications that exist and if I am enlightened try to guess which application would be the milk to launch myself to develop it without fearThese are the 5 categories to search for the IoT horizontal Killer app:

1. IoT-Search
2. IoT-Messaging
3. IoT-Security
4. IoT-Commerce
5. IoT-Social

Summary

Search for the killer IoT horizontal application is a chimera given the definition of the IoT. However, the challenges that the IoT has to achieve that 50 billion machines can be found, communicate safely through various networks, socialize and favour the monetization of its services, open great opportunities for hardware and software engineers to develop different killer applications. And I'm sure some will find it. I wish I could be part of one of them.

Thanks for your Likes, Comments and Shares

“I talk to a dozen or more companies involved in IoT every week. One thing they all have in common is their desire for the projected IoT volumes and revenues to come to fruition...the sooner the better”.

Mike Krell

Analyst at Moor Insights & Strategy covering the Internet of Things, Forbes.

Internet of things has always been functioning in a context of business transformation.

If you’re in business, just read on, as we are to have several working IIoT solutions to consider right now.

To be successful today you need to:

1. really love what you do;
2. move with the times;
3. make the IIoT technology a part of your business development plan;
4. and find an Industrial IoT company for you to cooperate with.

Here I gathered 5 IIoT solutions implemented by global industry leaders and the key examples of their efficient cooperation with IoT developers:

#1 Predictive Maintenance for Wind Energy

The IIoT solution is projected to be implemented into the maintenance of wind energy. The smart wind turbines will be applied to reveal how employees can get additional insights by using ML about the equipment performance in different conditions. Thus, smart sensors are supposed to give the information in a real-life regime.

The system can give reliable statistics for the future planning and help to replace vital parts of the engines during the less windy periods:

Source: Schaeffler Group & IBM

#2 Health Detectors for Caterpillar Equipments

Recently, the American machinery and equipment giant, Caterpillar implemented a new IIoT solution to help its customers better understand the workability and health of the equipment. It should also be said that the company uses IoT solutions for tracking fuel efficiency, idle times, location, and many more. The new project lets clients directly address the company maintenance service and timely repair the sensitive spots by using the IoT platform.

The end-to-end platform for predictive diagnostics allows for better monitoring and timely replacement of the interchangeable parts. The Caterpillar CEO, Doug Oberhelman supposes the IIoT, which is primarily applied to the fleet and fuel monitoring, will take the clients offering to the next level.

#3 Airbus Smart Manufacturing

You know the biggest European aircraft manufacturer has already applied the IoT solutions to its products. Today Airbus is working at implementing the IIoT to the tools its workers use during the manufacturing process.

For this reason, Airbus opts to involve its employees and the factory floor. The workers will manage to use smart tablets or glasses to evaluate a task and then send the data to a robotic tool that will finish it.

Jean-Bernard Henz, the head of PLM R&T Innovation at Airbus ICT, says the IoT platform manufacturing will speed up the processes and improve the reliability of the production.

#4 Siemens -- a 75% automated plant

You know the Siemens AG plant is a part of a concerted effort by the German government to develop fully automated factories. Guess what? Siemens is claimed to be 75% automated with 1,150+ employees on board.

All the employees are mainly operating computers and monitoring the process of manufacturing by using the IIoT solutions. Sinalytics, which is a critical component of the IIoT Platform was implemented in 2015. Today Siemens continues developing the Web of System, which directly connects devices to the open Internet and with each other. Besides, Siemens launched a new company in 2016 that is named Innovations AG. The company is dedicated to the search and support of the emerging start-ups that can be a good technological investment for Siemens. This has influenced the factory efficiency, opened the new technological opportunities and reduced costs.

https://twitter.com/Siemens/status/935795639472021506

#5 ThyssenKrupp Elevates IIoT Implementation

The CGI global tech firm claims ‘that thing is an elevator’ for the company. Well, let’s see it. Having joined forces with Microsoft and CGI, the ThyssenKrupp Elevator company has now obtained a predictive maintenance for elevators manufacturing.

The IIoT solution securely connects tens of thousands of sensors and elevators systems across the plant. The technology allows for monitoring every stage of production starting from motor temperature and finishing with shaft alignment. The real-life IIoT gathered data lets the company identify vulnerabilities and repair them before an actual breakdown occurs:

https://twitter.com/thyssenkrupp_en/status/964787252629946368

What’s the bottom line?

IIoT solutions undoubtedly contribute to production efficiency. The predictive maintenance and pre-emptive repair, manufacturing automation and further spending cuts are just a tiny bit of what I recorded here.

I am almost done here...

Feel like you have something to tell about your IIoT use case?

Drop me a line below!

Those who follow my articles know that I like to make comparisons between the IoT and TV shows and movies. For this article, I have selected the famous show "The Walking Dead" (TWD).

When preparing this article, I read this piece “The Real Walking Dead: Surviving the Software-Defined Zombie Apocalypse” by Scott Noteboom and I thought, well, I am not alone. As Scott, I see a lot of similarities between IoT technology and biology.

Many companies are thinking about their survival after the apocalypse that will be produced by the mix of IoT, AI and Blockchain. CEOs, must make decisions that prevent their companies from disappearing or worse becoming walking dead. And one of the most important will be choose their travel companions well, in order to build a strong ecosystem capable of resist the most adverse scenarios one might think.

IoT solutions that companies need to implement to survive the apocalypse are composed of many apparently simple blocks (devices, protocols, edge computing, fog computing, communication networks, platforms, cloud, analytics, AI, Machine Learning, blockchain, security, applications). But the selection of the vendors and the integration of all of them in the business processes, systems and organizations of companies is complex and there are few companies who can boast of having achieved it.

You probably are tired of hearing that the IoT is very complicated and the ecosystem is very fragmented. You feel that many will become walking dead. But, no one has the crystal ball to know who will be the IoT companies are going to continue within 10 years, not even within 1, 2 or 3 years. Some of them are perhaps in the phase of becoming, when just a couple of years ago they were in good health and of they enjoyed the sympathy of the analysts.

If you have been living in a sanctuary, isolated, it will not last for a long time. You will receive soon the visit of survivors and walking dead. You have to decide to accept or fight the survivors and you must protect your community against the zombies.

The good news is that you are not alone. During the last 5 years I have lived 24x7 by and for the IoT. I have been monitoring and analyzing the IoT landscape. I have seen many IoT start-ups appear and some disappear. We have seen large companies make absurd purchases, or sell IoT businesses when they have not been able to obtain the expected return.

That´s why I am able to provide wise advice and recommendation to avoid from being trapped by partnerships with potentials Walking Dead of the IoT and help you build robust and scalable IoT solutions.

Do not walk blind alone among The Walking Dead of IoT

Image courtesy: Pixabay

Bitcoin topics are being on the front page of finance or tech newspapers almost every day and they do not necessarily deal with investment. With bitcoin transactions getting expensive and taking longer to get approved, investors are now sceptical about bitcoin and its future. One can argue that there are troubles wherever the money is in play. But is it really the money (in our case bitcoin) or the underlying technology which is the root cause of these problems?

There are lots of reports mentioning the use cases of blockchain in various industries and sectors. However, none of them hints upon how exactly it works in terms of architecture, a division of roles and responsibilities etc. If we still assume that whole would work more or less in a way it works for bitcoin, then there are certain questions which need to be addressed before one decides for blockchain. We should not only keep the implementation but also the long-term application and maintenance of blockchain in let say a manufacturing environment. 

Let’s assume we have an OEM (X) who purchases the equipment parts from supplier A, B till E which in turn depend on their raw material supplier A1, B1..E1 respectively. X decides one day to implement blockchain in order to achieve transparency and better control on processes. In order to achieve this, he asks A..E and their respective supplier to join the network. Moreover, X would like to invite his logistic partner, service partner as well as bank and end customer to join blockchain. The issue which he might face later within his blockchain environment are as follows:

Example of a blockchain in manufacturing

Available IT infrastructure: Blockchain demands decentralized ledger/transaction record made available to all of the nodes/parties involved. The size of the ledger/transaction record will grow with the increase in number transaction with a period of time. What kind of information influx we are talking about can be understood by the fact that every new purchase order will trigger hundreds of manufacturing and supply chain related events with all of this information need to be monitored in the blockchain. Here, for example, A demands stock availability and shipment status from A1 and would like to update his block accordingly. This block will then be made available to X will, in turn, provide the updated information to his logistics partner and the customer. Now in real life, it is more one-to-many or many-to-many kinds of communication. Moreover, when we talk about data then it does not only mean excel sheets or pdf files but it can be anything from an image to a video. The question here, does all of the parties involved are capable of dealing with this load of information/data volume in terms of IT infrastructure? Just to give an idea, the size of bitcoin blockchain increased from merely 620 MB in 2012 to 150 GB in 2018 (ref. blockchain.info). 150 GB of just transaction list, user profile and hashtag info. No way we can compare it to data (design, CAD files, photos, videos, manuals etc.)  generated or need to be stored in a manufacturing environment.

Consensus: Every transaction made need to be approved thus creating a new block in the chain. The approval process is quite tedious and requires checks, calculations and creation of hashes (unique ID per block). In case of bitcoin, this task is taken over by miners who select transactions to approve based on the fee offered to them for that. The logic here is simple: a miner chooses to approve a transaction which offers a better fee. The whole idea here is to encourage a party, by means of incentive, to approve a transaction. How this will work in our scenario and who will take over the role of a miner? With no incentive involved, it will be difficult to convince any single party to take over this role especially if creating a block (approving transaction) comes at a cost of high resources consumption.

Transaction approval rate: The other issue with block creation is that the blockchain algorithm limits the creation of new block to 1 block per 10 minutes. Moreover, more transaction will demand more minors to approve them. How does a logistics company shipping hundreds or thousands of packets per hour will cope with this rate?

Openness: In a distributed ledger technology the digital ledger/database is shared and synchronized across the network and is made public to all the parties. This prevents data or record manipulation since each party owns a copy of this ledger and any change or attempts will be reflected within seconds.  A very powerful feature of a blockchain to avoid fraud and cyber-attack but with a flaw. What if in our scenario A does not want to share his shipping details to rest of the suppliers of X, or what if X does not want to disclose his dealings with Bank to his customer? Again considering one-to-many or many-to-many kinds of transaction, one has to define a lot of exceptional cases in which one party can satisfy its need of dealing with a certain number of partners.

There is no doubt in the capability of blockchain to revolutionize the digital world. It worked (at least until now) quite well in case of bitcoin but maybe because there was an idea of incentive behind that. Each party involved wanted to make the most out of it (profit for an investor, an incentive for miners) which kept them involved in the system. Will there be the same degree of involvement in the business world and what would be the gain here?

This certainly does not mean that blockchain technology is questionable in every case. The blockchain is a best available solution for sectors where the data security, avoiding data mishandling or manipulation, availability and transparency are the utmost goals. An example here could be government sectors, NGO, hospitals, banks or financial institutes, certification services and so on. There are certain use cases available where certain banks and government institutes have implemented blockchain within their network in order to achieve above-mentioned goals along with ease of business. Again, the information influx in these sectors cannot be compared to that of in a manufacturing environment. Soon or late there will be a solution overcoming the mentioned issues. Or do we already have one?

Healthcare is undeniably one of the most important industries. The quality of medical treatment and patient care directly impact the quality of life. The integration of innovative technological solutions in the domain brings workflow automation, patient treatment, operation, and service improvement.

IoT plays a huge role in the healthcare. By 2020 the global IoT healthcare market is predicted to reach $163.24 billion. At the moment, 60% of healthcare providers have already adopted IoT applications and successfully use them in their work.

According to Aruba Networks research, healthcare organizations implement IoT applications mainly for patient monitoring and maintenance (73%) and remote operation and control (50%).

There is a wide range of IoT medical solutions effectively used by healthcare providers: wearables, smart pills, smart beds, biosensors, robots, glucose measurement devices, equipment monitoring devices, remote monitoring systems, RTHS (Real-time Health Systems), and more.

The connected hospital

There is a variety of IoT use cases for hospitals to integrate and make the environment totally connected. RFID and IoT-enabled devices, IoT-enabled assets and traditional IoT cross-industry applications including predictive maintenance of hospital assets, connected equipment, gathering real-time data, and tracking of healthcare devices. Going deeper there is robotics for routine tasks and complex operations.

Concerning examples, monitoring of medical equipment allows to track its “health”, predict, when some part will need replacement, alert about breaks, and automatically order repairs when required.

Beacons and motion sensors enable healthcare providers to track medical equipment, employees, and even patients in real-time, resulting in the improvement of patient care, right estimations of staff work efficiency and patient health status, and a lot more.

Speaking of connected patients, IoT technology can be successfully used for sending them automatic reminders about taking medication, health check-ups, and appointments with mobile applications. Thus, connected IoT hospitals result in more advanced data, enhanced patient treatment, cost savings, and workflow automation.

The past decade witnessed the emergence of two of the most significant technologies- virtual reality and Internet of Things.

Virtual reality refers to the use of technology to counterfeit an environment where the digital world seems real. It aims to place the user inside an experience, consequently enabling them to interact with the 3D worlds. On the other hand, Internet of Things is all about making real-world objects connect and manipulate in the digital world.

While both these technologies work to bring augmented ease to our lives, it's the convergence of the two that offer the most promising opportunities. Becoming quickly enmeshed in the prevailing times, the two disruptive technologies have largely revolutionized the industrial platform.

The meeting point of the two technologies boasts of immense potential. Let’s understand this with some examples.

1) Telepresence

The encroachment of telepresence depicts the colossal potential of the confluence of IoT and VR. If we talk about a typical video conference, the system includes a monitor screen, sound system, and codec. You can add additional speakers or a projector screen to improve the video conference experience. However, with telepresence, it is not the same.

With an aim to extend near lifelike audio and video quality, telepresence leverages compound multi-codec, multi-monitor, and multi-speakers. It has successfully transformed the way we can communicate with others over long distances. It offers the ability to look and move freely within a real-world environment, giving the illusion of actually being present there.

Telepresence has efficaciously eliminated the time and financial constraints related to travel. Offering all the benefits of a face-to-face interaction, it has made long-distance meetings exceedingly convenient.

2) Virtual Smart Cities

An increasing number of cities around the world are looking to become “smart” in order to improve comfort, reduce costs and consumption of resources and augment the quality of life of its citizens. Consequently, for the concept to materialize, it is significant that Internet of Things along with its accessibility to public grows. This will enable adequate accurate data to be amassed in cities for analysis and forecasting.

Moving ahead, these cities need to be integrated into a well-controlled virtual environment. This will allow an accurate analysis of the prevailing city conditions as well as help in making predictions of the impending future scenario. Thus, any kind of risk or disaster can be effectively monitored to simulate its effects.

3) Healthcare

The union of VR and IoT technologies has greatly assisted the healthcare field by bringing improved ease to patients as well as doctors. A competent example of this is robotic-assisted surgery, which has been in use for quite some time now. Also known as da Vinci Surgical System, it allows the surgeons to perform a least invasive surgery. A camera along with a few tools is inserted into the body through a relatively small opening that allows the surgeon to get a full view of the operating area without exposing the patient to the ordeal of a large incision.

The system includes a 3D HD vision system and small wristed devices that revolve and bend much better than the human hand, thus enabling improved vision, control, and accuracy.

But, this is just the beginning. It is anticipated that VR surgeries will soon control real da Vinci systems, permitting surgeons to operate on patients while sitting in their offices.

Final Thoughts

Considering the potential of the two technologies, more and more companies are investing into the development of new applications of both virtual reality and internet of things and because of that, in past several years so many IoT App development companies has been evolved in the market. In the following year, it is predicted to see a growing number of integration of smart objects within virtual simulations, for purposes such as leisure, training, or damage prevention.

The Internet of Things is now widely used in a wide array of business verticals like manufacturing, healthcare, logistics, and more. According to the latest research data, the number of IoT connected devices, which made up ~4,9 million things in 2015, reached the point of ~3,9 billion in 2016.

Concerning AR, Statista predicts at least three various scenarios of AR/VR growth, but they all forecast the economic impact amounting ~$29,5 billion in 2020. Having reached the decision of developing your own IoT or AR software, you need to get heads up about the pitfalls of starting this new business solution development.

Major AR and IoT solutions’ programming challenges.

Challenges may be divided into several categories: high-level business obstacles and application development problems along with the solution’s further maintenance and enhancement. The first group may include the following issues:

• Unclear business benefits;
• Insufficient funding;
• A poor go-to-market strategy, and more;

While it’s quite clear how to avoid business-level problems, it’s also worth taking into account the challenges which arise during the software development process itself. The average IoT obstacles may include:

• Infrastructure problems (devices, gateways, platforms);
• Security concern;
• Cross-platform compatibility;
• Lack of support, and more.

AR development challenges encompass:

• AR hardware;
• Generated content;
• Security issues, and more;

With reference to the latest Cisco’s survey, only 26% of IoT projects considered as successful by their developers, whereas more than 50% reach the jumping-off place at the strategy crafting stage. One of the key AR challenges is to correlate virtual data with the real environment, which can bring even a leading vendor to a screwjob. For this very reason, it’s critically important to have an idea of technology development nuances.

Nevertheless, the latest statistics on the number of the internet connected devices and the AR technology in various spheres shows that a business owner is a targeted consumer for the outputs. This gives extra room for the IoT and AR initiatives:

Statistics reveals the amount of investment made worldwide in IoT by sectors during 2015-2020.

Statistics shows AR technology’s market share by business spheres.

2 notable IoT/AR use cases

In the context of solving the task, below are the two living examples of successful solutions to take into account while initiating your own development project.

E.g.: IoT mobile app for smart buildings and yachts management:

The idea was to develop a highly customizable system allowing to manage numerous connected devices in smart buildings/yachts.

Challenge:

A necessity to run a proprietary protocol in remoteness from real devices.

Solution:

Multiple devices installed within a building/yacht were united into a single smart system. A proprietary text protocol which provided smooth communication between the user interface and the backend was applied for infrastructure visualization configuration, gateways, and IR-gateways communication. This permitted cutting down on customizing the part of UI for each client.

The developed IoT application allowed for managing a chain of devices, including surveillance cameras (change the angles, zoom in/out), lighting, media systems, smart locks, and more via an Android-based mobile app. This led to essential energy and budget economy. The product is now being enhanced by integrating more smart devices into the system. A similar solution may be implemented in any smart home, hotel, or yacht to introduce automation and analysis to the existing infrastructure.

E.g.: Equipment maintenance and service mobile app with augmented reality

The idea was to develop a mobile app compatible with numerous platforms, which would give a possibility to maintain complex industrial equipment single-handedly.

Challenge:

A necessity to ensure image recognition with absolute accuracy.

Solution:

To create a repair or service guide, a user takes a photo of the equipment as a first step. Then the image is processed by Metaio SDK, which is a basis for its further recognition by the app. The built-in image recognition helps to save on painstaking programming and therefore additional investments on the part of the user.

Afterward, each of the required equipment part scenes is supplied with a step-by-step guide by means of animated, drag-and-drop 3D objects, such as a nut, a screwdriver, etc. The system allows to include text information, as well as images and videos in the instructions. Finally, the app’s user gets the complete instructions by simply pointing the device’s camera at the equipment that needs repair. A similar solution may be applicable to any industrial enterprise, healthcare organization, or any other vertical which requires urgent fixes and updates.

The bottom line

Any AR and IoT application development challenges may be addressed with a well-thought-out plan for development, implementation, and further maintenance and enhancement. The quantity of IoT and AR applications is skyrocketing and the above examples are a living proof of the system’s effectiveness in different business spheres.

A few days before Christmas holidays, I received an email from a customer that said “... I want to tell you that I have really appreciated your help, your professional approach and your “human touch”: they are as important as knowledge is …”.

Moved by the Christmas spirit that surround us these days, made me change my priorities of publishing the next articles and I decided to dedicate a few lines to what I consider a very important issue: What is the human touch value of the CEOs in the IoT?

I do not intend to convert this article into an analysis of the types of CEOs, or a list of the best CEOs of IoT companies (for that there will be time). 

My objective today is in making IoT´s CEOs aware, especially those of large multinationals, of their responsibility to print a human touch on their actions and decisions. Not only will the stability and quality of work of millions of people depend on them, but also the conservation of our planet in favourable conditions for future generations.

The Human touch of IoT´s CEOs to save the World

Global Warming is very real.  Even if greenhouse gas concentrations stabilized today, the planet would continue to warm by about 0.6°C over the next century because of greenhouses gases already in the atmosphere. Its effects are already so visible that no one doubts its catastrophic consequences.

We know that the IoT can help in many ways to monitor and control Global Warning, and there are many great stories of how companies are making use of IoT technology to help save water, money … and the planet. 

In  the article “3 ways businesses can use the internet of things to save the environment“, Jayraj Nair - Global Head of IoT, Vice President Wipro-, suggest  a few steps that business leaders could take to lessen the effects of these barriers and set their companies on the right path to become champions of a more sustainable and connected future.

1.       Emphasize digital citizenship and individual responsibility

2.       Share knowledge and resources across departments

3.       Collaborate to create guidelines for tech development

We should reward those IoT´s CEOs who follow the slogan “ We develop the IoT that Save the World!..

The Human touch of IoT´s CEOs to build ethic AI

When I wrote  “Internet of Things – Kings and Servants” I gave great importance to the CEOs visionaries of the companies that were destined to change the world of the 21st century. CEOs like Sundar Pichai (Google) or Satya Nadella (Microsoft) have been responsible from conceptual shift for their companies, moving from “mobile strategy” to “cloud and artificial intelligence”.

Could we avoid psychopath and sociopath robots? CEOs of the Tech Giants companies need to influence in developers of AI the human touch. We do not want to live with fear surrounding by not ethic AI machines and robots. 

IoT´s CEOs involved in Artificial Intelligence must believe that machines and robots will help us to be better people. They need to boost the challenge in our future society and make sure that their Robots and Artificial Intelligence not only pursue productivity and profit but also other values eg justice, opportunity, freedom, compassion.

The Human touch of IoT´s CEOs to ensure democracy

We cannot conceive democracy today without the free use of technology. Technology, on the other hand, that is more difficult to control by citizens. Is it possible to democratize the technology, not only the Internet of Things? Could we avoid that a handful of companies come to dominate the Technology? and therefore our Democracies.

The temptation of the power is great in the IoT´s CEOs of the companies that manipulate huge amount of data of the people, of the intelligent devices at their whim.

I thought at some point that the Countries could prevent the creation of these monsters, but their powers already transcend the States. I fear that the fight of egos, in the heights in which these CEOs live, give priority to the Highlander philosophy "Only one can be left!" And drag the dormant democracies for their technology into the vacuum of complacency.

Today more than ever, we need CEOs with a human touch that ensures the health of our democracies.

The Human touch of IoT´s CEOs to ensure equality of job opportunities

Which IoT companies have a culture that allow dissent between the CEOs and the employees? IoT´s CEOs need to understand that people are not going to do what they want them to do unless I engender equal commitment and passion on their part.

I have worked for many years in different technology companies, and I have regrettably proved that their business cultures, far from differentiating themselves, are more and more similar.

We all know cases of companies, including those of IoT, that abuse salaries of interns or inexperienced employees, but the problem of overqualification when applying to a new job is no less true. Many of us have heard numerous times: Sorry, you are overqualified. Not sure I can manage you.

I am convinced that a human touch on the part of the CEOs would help to correct these endemic problems of the current business culture. What are you waiting for?

The Human touch of CEOs to ensure a dignified life for the elderly

I was wondering a few years ago with the Smart Cities hype, How will be our life as retired workers in the Smart Cities we are building?.

In light of what I'm seeing, there are currently not many IoT´s CEOs that are worrying about the elderly. Of course, because, they consume less, they produce less, they do not understand the technology created for millennials or the digital native, the generations that is going to change the world.

Considering that all IoT´s CEOs, or at least that's what I want, will also be older people, a human touch in the investment of technology for the elderly will now make their lives more dignified in a few years.

Summary

In a time where digital premium on the physical, where business results are required not every quarter, but every day, in a time of robots, cryptocurrencies, virtual reality it is not easy to be a CEO with human touch. But to save the World, to make sure we build ethical AI, to ensure democracy in the technology, to ensure equality of job opportunities, to ensure a dignified life for the elderly, we need their human touch.

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With Internet of Things (IoT) progressively taking its strong hold in the industrial sector, let us find out how companies are making the most of it.  

Back in 2014, a report issued by the top management consultant company, Accenture predicted that by 2020 investment in the Industrial IoT would reach around $500 billion.  A combination of powerful data processing, cheap sensors, and machine learning has allowed the companies the leverage the Internet of Things (IoT) in industrial sector to make their industrial processes more efficient and significantly smarter than ever. 

Nowhere is IoT leveraged more so than in the rail industry, which is one of the most lucrative and profit-driven industries all over the world.  Previously rail operators would only be able to fix any problem that had visibly broken, however with the advent of IoT in industrial sector, the province of predictive maintenance has enabled operators to identify and fix any issue before services need to be stopped for the time being.  Today, it is increasingly common for all the other industries allowing companies to monitor and analyze data generated from the IoT devices, and if any changes found in data, companies can accurately predict future performance issues.  

Smarter Transportation 

It comes as no surprise that capturing, monitoring and analyzing of big data can provide industrial companies with a host of advantages. You might know that French rail provider SNCF is the biggest company that is trying to leverage big data in industrial IoT. They have started working on several projects that aim to capitalize on big data to achieve a number of things, including:  

• Predict maintenance requirements more accurately

• Integrate data from across the organization

• Improving visibility of asset health

• Reduce instances of unscheduled maintenance 

Smart Maintenance  

Smart maintenance has already shown itself in various early case studies on how to use data to make management of networks more efficient and smarter. For example, a Finnish company Sharper Shape has been using drones to map utility networks. They are leveraging big data, IoT and machine learning to identify those trees that are at high risk of falling onto the power lines. In an interview, the CEO of Finnish company Sharper Shape, Tero Heinonen said that using drones instead of humans to identify the trees that are at high risk of falling onto the power lines can cut costs by up to 30%. Moreover, drones can perform this task faster than humans.  

With the kind of predictive maintenance and monitoring programs discussed in this blog post, we can say that network faults will become a thing of the past. Don’t you think so? However, if you also want to be a part industrial IoT, learn IoT Training and Analytics online from a reputed institute. 

With Internet of Things (IoT) progressively taking its strong hold in the industrial sector, let us find out how companies are making the most of it.  

Back in 2014, a report issued by the top management consultant company, Accenture predicted that by 2020 investment in the Industrial IoT would reach around $500 billion.  A combination of powerful data processing, cheap sensors, and machine learning has allowed the companies the leverage the Internet of Things (IoT) in industrial sector to make their industrial processes more efficient and significantly smarter than ever.

Nowhere is IoT leveraged more so than in the rail industry, which is one of the most lucrative and profit-driven industries all over the world.  Previously rail operators would only be able to fix any problem that had visibly broken, however with the advent of IoT in industrial sector, the province of predictive maintenance has enabled operators to identify and fix any issue before services need to be stopped for the time being.  Today, it is increasingly common for all the other industries allowing companies to monitor and analyze data generated from the IoT devices, and if any changes found in data, companies can accurately predict future performance issues.  

Smarter Transportation

It comes as no surprise that capturing, monitoring and analyzing of big data can provide industrial companies with a host of advantages. You might know that French rail provider SNCF is the biggest company that is trying to leverage big data in industrial IoT. They have started working on several projects that aim to capitalize on big data to achieve a number of things, including:  

·         Predict maintenance requirements more accurately

·         Integrate data from across the organization

·         Improving visibility of asset health

·         Reduce instances of unscheduled maintenance

Smart Maintenance  

Smart maintenance has already shown itself in various early case studies on how to use data to make management of networks more efficient and smarter. For example, a Finnish company Sharper Shape has been using drones to map utility networks. They are leveraging big data, IoT and machine learning to identify those trees that are at high risk of falling onto the power lines. In an interview, the CEO of Finnish company Sharper Shape, Tero Heinonen said that using drones instead of humans to identify the trees that are at high risk of falling onto the power lines can cut costs by up to 30%. Moreover, drones can perform this task faster than humans.  

With the kind of predictive maintenance and monitoring programs discussed in this blog post, we can say that network faults will become a thing of the past. Don’t you think so? However, if you also want to be a part industrial IoT, learn IoT Training and Analytics online from a reputed institute. 

Bottom of Form

What if a modern office could live on its own? What if it became an ecosystem that could function clearly, without any extra controls, providing all that is needed to support work activities? Sounds too perfect, doesn’t it? However, here we are going to consider the office of the future and focus attention on crucial issues that the IoT office is able to solve.

A Few Words about Smart Office Forecast

According to MarketsandMarkets research, smart offices will be a driver of tangible growth. The current smart office market is valued at USD 22.21 bln, with this expected to reach USD 46.11 bln by 2023. This means there will be a strong demand for IoT programmers in this area.

The Internet of Things is gradually immersing all spheres of life. Smart cities, Smart homes, Smart vehicles – it is reaching almost every system in which we need to control components remotely and/or implement their interaction. The Smart office is no exception. While we can currently see a bold border between these various just-emerging technologies, in the future the border is likely to disappear and several related smart areas will merge in a whole global IoT concept combining all existing similar systems – smart cars, smart homes, smart buildings, smart offices, smart infrastructure, smart cities... In other words, when speaking about the direction of IoT in one area, we touch on other areas because all of these mutually link to each other. The result is a common impact. A Smart lock is adopted by Smart buildings in Smart cities. A Smart car merges with a Smart home at the technological level.

Having said and recognized this, what however will the Smart office look like?

The smart corporate reality already exists, and advanced tech-savvy owners have endorsed the idea of intelligent digital workplaces responsive to the needs of the staff. Currently though the technology is still driven by human capabilities and market demand – it may take up to 20 years for the Smart office to have evolved and deployed enough to be a common illustration of the ideal future work space.

The Internet of Me, or IoT in HR

A human in the context of the system – a player in the context of the team. The Smart office concept can be considered in terms of it being an item in a community involved in a closed system that is designed to provide what is needed for efficient work. We can start treating the IoT system through ‘The Internet of Me’ approach.

Popular HR editor Steve Boese has discussed his vision of HR innovations. In his opinion, the Internet of Me takes the IoT concept a step further by integrating increasingly personalized products and services into corporate culture. Thus, in the same manner that a group of people begins from a single person, such a personalized approach will find the best way to create an efficient management system. If we keep track of following issues that Smart office technology resolves, we’ll see that each issue is a problem for every employee, and we therefore see that the main mission of the IoT office is to help the employee to do their work smoothly, to easily incorporate separate employees into a solid team, and to take control of and facilitate working and personal needs in the office.

What challenges will Smart office solve?

Speaking generally, IoT allows us to automate all office activities, including parts of the workflow to deliver more efficient work results and the work environment to form the conditions and the highly-equipped workspace where an employee has all they need at hand. Any network system consisting of some items integrated as with each other or directly with processing equipment can be considered as a future IoT system. So, we need to manage this network of objects to:

• reduce the time we spend for fulfilling any tasks;
• evenly spread actions and tasks to avoid over- and underloading;
• reasonably spend energy resources to reduce financial ones;
• automate all the things to simplify system management.

IoT office solutions can serve employees as well as employers. In the Smart office context, implementation of IoT technologies can not only speed-up workflows but cover the most topical business issues. Let’s consider them.

1. An intelligent environment to make convenient conditions for work

The Smart environment provides the capabilities of a smart building. For example, the organization of an office can include automation of electric lighting and work equipment, an intelligent security system (biometric and remotely-controlled locks), smart counters to collect statistics on electricity consumption, office microclimate specifications and differences, checking of the water supply, ensuring sufficient household and office supplies, and smart support for staff requests.

When an employee enters the room, sensors identify the visitor via motion sensors or other access controllers and send signals to the lighting system and all equipment inside the room to be switched on. Lighting, computers, conditioners, air-humidifiers all start working at levels pre-set for the employee’s comfort.

On one hand, the Internet of Me works because all the conditions are changed to be favorable for the employee. From the business perspective, the intelligent environment is beneficial for employers because its usage considerably reduces office maintenance and ongoing costs.

Challenges:

• monitoring humidity, temperature, air quality, illuminance;
• maintaining comfortable office environment;
• sensor monitoring and automatic device control;
• lighting failure analysis and replacement notification;
• roller blinds control;
• blocking standby power (reduction of power consumption).

To provide such operations, the room is equipped with sensors that detect the environmental status and devices such as air-cleaners, air-conditioners, humidifiers, lighting wall switchers, and smart plugs, which execute programmed commands according to various scenarios:

• turn on the office lighting based on information regarding the beginning of working hours and motion detector readings; 
• gathering the temperature and humidity information in the office;
• when the temperature is high, air-conditioners are automatically turned on;
• when humidity is low, humidifiers are automatically turned on;
• when equipment is turned off, smart plugs are also turned off to block standby power;
• when the lighting in the office fails, the IoT system sends the administrator information about failure and turns on lighting from an extra generator if this is provided (in the case of a power cut).

2. Smart reception service to automate meeting visitors

The smart reception desk helps to unite in-house office life with some activities from outside. If we recently had a receptionist who met visitors, in case of automated reception service, it could work in the following way – a customer uses the wallpad to call the necessary employee, and the IP camera sends the employee a notification and a recorded image of the person waiting for him.

Challenges:

• easy calling service and searching for an employee;
• notification of customer visit to employee’s smartphone;
• customer identification through the camera image.

3. Smart meeting rooms

This works well in big companies of 200 persons and over. In this case, visiting a colleague can be difficult – finding a mutually convenient time and place, for example. However, the inner smart meeting system organizes all arrangements and discussions to avoid over-loading them when things are busy or under-loading when things are calm.

The smart meeting system can have several connected devices and software to provide all opportunities. Firstly, it is a web or mobile service to enable preparations for the upcoming meetings, and secondly, it is a service for remote control of devices. For example, you can customize your presentation remotely through a projector in advance, and coming to the smart meeting room, you can control the whole demonstration through your smartphone.

We should also mention that using AR and VR technologies at the junction of the IoT office can massively expand the opportunities for remote meetings – especially when thinking about very long distances.

Challenges:

• automated convenient booking system for meeting rooms;
• email request to attend a meeting;
• push notifications of meeting attendance; 
• distribution an email of meeting minute;
• auto mode function (presentation start, complete);
• broadcasting to employees’ smartphones and possibility to join the meeting online.

4. Smart security zone

Security inside the office can also be smart. It’s not just the outside wall that needs to be secure for many offices. The system is outfitted with door sensors, IP cameras, motion sensors, smart alarm integrators and others, providing fully-automated control of every action in the office during the day, when staff are working inside, and at night, when all people have left the office. We can treat security in general, but overall it means more ways of control, enabling control over employees’ actions to avoid information leakage and intervention against insiders. A separate direction is the use of smart locks, smart cameras, smart tracking software, etc.

Challenges:

• intrusion detection and notification;
• real-time camera images;
• video recording;
• smart locks status and remote control.

5. Smart space management service

Speaking about smart office opportunities, we shouldn’t forget about the personal necessities for employees. One example concerns the automation of restrooms and kitchens. The employee can use connected devices when – for example – going to get a coffee and relax in the lounge zone: the system will tell him before he goes there how many people are there and whether the zone has free spaces for him.

Challenges:

• occupancy checking using Smartphone;
• real-time update of occupancy information.

To sum up the smart office opportunity, we see that there are many corporate scenarios where IoT can make a difference to the enabling of business activities, rather than spending resources on redundant actions. This is the main idea of IoT development as a whole: the technology helps to make a system efficient, reducing all expenditure and increasing its potential.

Photo Credit: Tayloright

There is a lot of talk, and, indeed, hype, these days about the internet of things. But what is often overlooked is that the internet of things is also an internet of shared services and shared data. What’s more, we are becoming too heavily reliant on public internet connectivity to underpin innovative new services.

Take this as an example. Back in April, Ford Motor Company, Starbucks and Amazon announced and demonstrated an alliance that would allow a consumer to use Alexa to order and pay for their usual coffee selection from their car. Simply saying, “Alexa: ask Starbucks to start my order,” would trigger the sequence of events required to enable you to drive to the pickup point and collect your already-paid-for coffee with no waiting in line.

Making that transaction happen behind the scenes involves a complex integration of the business processes of all the companies involved. Let’s be clear: this is about data protection. For this series of transactions to be successfully handled, they must be able to share customer payment data, manage identity and authentication, and match personal accounts to customer profiles.

Because all of that critical data can be manipulated, changed or stolen, cyberattacks pose significant data protection risks for nearly any entity anywhere. The ambition of some of these consumer innovations makes an assumption that the “secure” network underpinning this ecosystem for the transfer of all that valuable personal data is the public internet. And that’s the point – it’s not secure.

As we’ve talked about previously on Syniverse's blog Synergy, the public internet poses a systemic risk to businesses and to confidential data. In short, when we are dealing on a large scale with highly sensitive data, the level of protection available today for data that, at any point, touches the public internet is substantially inadequate.

And this alliance between Ford and Starbucks is just one example of the type of innovation, across many different industry and consumer sectors, that we can expect to see a lot of in the very near future. These services will connect organizations that are sharing data and information about businesses and about consumers – about their purchase history, their preferences and requirements, and also about their likely future needs. This is potentially a very convenient and desired service from a consumer’s point of view, but at what cost?

We need security of connectivity, security from outside interference and the security of encrypted transfer and protection for our personal and financial data. And we need to be able to verify the protection of that data at all times by ensuring attribution and identity – both concepts we’ll explore more deeply in an upcoming blog post. And that’s a level of security that the public internet simply cannot provide.

Last month, an internet-based global ransomware attack took down systems and services all over the world – affecting sensitive personal healthcare data in the U.K. in particular.

Whether it is personal health records, financial records, data about the movement of freight in a supply chain, or variations in energy production and consumption, these are digital assets. Businesses, institutions and government bodies all over the world have billions of digital assets that must be constantly sent to and from different parties. And those assets require the type of high-level data protection that is not currently possible because of the systemic risk posed by the insecure public internet.

As mentioned in my last blog post on Synergy, there is an alternative. Some companies using private IP networks were able to carry on regardless throughout the high-profile cyberattacks that have been capturing headlines in the last year. That’s because those companies were not reliant on the public internet. Instead, they were all using what we are beginning to term “Triple-A” networks on which you can specify the speed and capacity of your Access to the network while guaranteeing the Availability of your connection. What’s more, on a Triple-A network, Attribution is securely controlled, so you know who and what is accessing your network and the level of authority granted both to the device accessing the network and to its user.

The public internet cannot provide or compete with a Triple-A level of security, and nor should we expect it to. It cannot live up to the stringent data protection requirements necessary for today’s critical digital assets. We cannot remain content that so much infrastructure, from banking, to transport and to power supplies, relies on a network with so many known vulnerabilities. And we must consider whether we want to carry on developing an industrial internet of things and consumer services on a public network.

We will continue to explore these issues on this blog, to highlight different approaches, and examine the requirements of the secure networks of the future. And in the process, we’ll take a look at the work being done to build more networks with a Triple-A approach.

If you have read my post “Will finally be 2017, the year of Internet of Things? I do not think so.” you will have confirmed there were some analysts and companies who guessed and others who did not hit the bullseye.

As usual, numerous predictions about the Internet of Things (IoT) appear at the end of the year, some with foundation, others by interests and others by opportunism. Although I notice a certain fatigue this year perhaps due to the appearance of other cooler technologies or very likely to the lack of success and few differences from previous predictions. 

It may also be the last time I write an IoT prediction article.

Let's start by reviewing some of the 2017 predictions.

Successes and failures of IoT 2017 predictions

Sorry Morgan Stanley but 2017 has not been The Year Of Internet Of Things however is true that there is less hype around IoT.

Yes Forrester, we continue worried that there will be a large-scale IoT security breach.

As not many large IoT projects in 2017, the role of System Integrators has not been as important as IDC predicted.

Have you seen, Analysys Mason, key developments in LPWA technologies, connected cars and smart cities?

Who now, MachNation if Internet of Things platform revenue grow 116% in 2017. There are only financial numbers but we all agree with Sandhill that still many doubts how “Choose your platform.”

It is true Forbes “The Internet of Things (IoT) is still a popular buzzword, but adoption will continue to be slow.” 

I have to say that Judith Hurwitz and Associates, were right that the growth will be in industrial sector rather than the consumer sector.

Hard to fail if you consider what Moor Insights & Strategy predicted: IoT is still in its infancy in terms of dollars and deployments, and that can’t last much longer, before market frustration sets in. 

Brave, ADLINK and FreeWave Technologies, Inc predicted that Edge computing will become a mainstream term for IIoT. 

Internet of Things Institute - “Recruiting Will Remain a Challenge for Organizations with IoT Initiatives” and sorry Teradata not many companies looking for Internet of Things architect role.

Tier-1 operators in the US and Europe happy with Northstream because IoT revenues contributing up to 3% of total revenue in 2017. 

Telefonica IoT and Cisco Jasper trusted that LPWA expansion to harness the growing IoT.

What will be of IoT in 2018?

According with Ericsson, in 2018, mobile phones are expected to be surpassed in numbers by IoT devices.

It seems that 2018 will be the year when AI and IoT will converge. But it will also be the year in which the CIOs will be busy integrating device management into overall IT infrastructure in a way that doesn’t overwhelm the organization. This is where the adoption of application robots, natural language processing (NLP) and AI automation of processes will come into their own, offering intelligent management of IoT deployments cheaply and efficiently. 

However, 2018 will not be the year of Blockchain and the IoT, because although Blockchain-based IoT adoption rises to 5%, Blockchain is not yet ready for large scale deployments requiring reliability, stability and seamless integration with existing technology infrastructure. But promising pilot projects are beginning to emerge and the maturation of IoT and blockchain technologies and products will drive blockchain adoption in 2018.

To reinforce the ongoing investment across the industry Gartner’s Strategic Trends for 2018 back up the focus on IoT with Intelligent Things, Digital Twins and Cloud to the Edge all making the list for the coming year. 

On the other hand, Forrester affirms that finally 2018 will be the year in which the Internet of Things moves from "experimentation to business scale". Forrester also predicts that IoT platform offerings will begin to specialize in “design” and “operate” scenarios.

Punctual to his annual appointment, IDC makes its Worldwide IoT 2018 Predictions. 

One more year, Citrix leading thinkers also share their predictions.

A small  startup, Imagimob considers 6 trends in the IoT and Industrial IoT-IIOT in 2018. As you can imagine Low Power Area Networks (LPWAN), Edge computing, AI on the edge and Blockchain are included.

IoT Security repeat predictions in 2018. Forrester in the same line predict More cyber threats and design specialization.

Fog Computing, Security, and Smarter Decisions are IoT Predictions for 2018 by Saar Yoskovitz, CEO of Augury, a preventive maintenance company.

The State of IoT In 2018 for Marketers: We’re going to experience a massive increase in the number of digitally connected devices, changing the game for marketers across the globe.

IoT 2018 – the next stage: the IoT of integration, value and action

IoT Will Move From Experimentation To Business Scale - 

5 IoT trends that will define 2018 - In 2018, IoT-based ventures will have greater access to startup capital and be taken more seriously in the market. 

Only one wish for IoT 2018 from my side

In spite, I am not in this list of 17 Experts Tell The Most Exciting IoT Trends to Watch for in 2018, I have a wish for 2018: 

“I hope that in 2018, all proofs of concept become successful projects and that the most innovative startups resist the temptation to be acquired." 

Thanks, in advance for your Likes and Shares.

Let’s just say it: The public internet is great, but it’s an unfit, wide-open place to try to conduct confidential business.

More and more, the public nature of the internet is causing business and government leaders to lose sleep. The global ransomware attacks this year that crippled infrastructure and businesses across Europe clearly shows the concern is not only justified but also growing.

As a result, internet and privacy regulations, like GDPR and PSD2, are front and center as governments around the world increasingly look at the web and how it’s being used. This is creating competing and contradictory objectives.

On the one hand, governments want to protect consumer privacy and data; on the other, they want to be able to monitor what certain folks are up to on the internet. And in both cases, they can at least claim to be looking to protect people.

Regardless of the difficulty of the task, there is no doubt the big governments are circling and considering their options.

Speaking in Mexico in June, Germany Chancellor Angela Merkel touted the need for global digital rules, like those that exist for financial markets, and that those rules need to be enforceable through bodies like the World Trade Organization.

From a business perspective, I can applaud the ambition, but it does seem a little like trying to control the uncontrollable. The truth is that the public internet has come to resemble the old Wild West. It is an increasingly dangerous place to do business, with more than its fair share of rustlers, hustlers, and bandits to keep at bay.

The public internet connects the world and nearly all its citizens. When it comes to connecting businesses, national infrastructures, and governments themselves, trying to regulate the Wild West of the public internet simply isn’t an option. Instead, it’s time to take a step back and look for something different.

We believe organizations that want to conduct business, transfer data, monitor equipment and control operations globally – with certainty, security and privacy – should not be relying on the public internet. The sheer number of access points and endpoints creates an attack surface that is simply too wide to protect, especially with the increased trending of fog and edge networks that we’ve discussed on previous Syniverse blog posts.

Just last week, the online gaming store CEX was hacked. In an instant, around two million customers found their personal information and financial data had been exposed. Consumers in America, the U.K. and Australia are among those affected. As I said, the public internet presents an ever-widening attack surface.

Recently on the Syniverse blog, we’ve been talking about the need to develop private, closed networks where businesses, national utilities and governments can truly control not just access, but activity. Networks that are always on and ones where the owners always know who is on them and what they are doing. Networks that are private and built for an exact purpose, not public and adaptable.

Trying to apply or bolt on rules, regulations and security processes after the fact is never the best approach.  Especially if you are trying to apply them to a service that is omnipresent and open to anybody 24/7.

When we look at the public internet, we see fake actors, state actors, hackers and fraudsters roaming relatively freely. We see an environment where the efforts to police that state might raise as many issues as they solve.

Instead, it’s time for global businesses to build a new world. It’s time to leave the old Wild West and settle somewhere safer. It’s time to circle the wagons around a network built for purpose. That is the future.

Embedded systems have become part and parcel of electronic equipment such as mobile phones, routers, modems, washing machines, microwave ovens, remote controls, RFID tags, PDAs, etc. They are low power consumption units that are used to perform some specific function of the device. For example, embedded systems are used in home automation with wired or wireless networking to control or regulate lights, security devices, sensors, audio/visual systems, sense climate change, monitoring etc. They are also used as networked thermostats in HVAC systems i.e. Heating, Ventilation and Air Conditioning systems. Furthermore, in the coming years embedded systems will be the mainstay for the deployment of many IoT solutions, especially within Industrial IoT applications. The leading players in embedded systems are engaged in hardware and software development, and are looking forward to bringing these transformations into their products to take advantage of the thriving IoT market.

The chief areas which are going to be transformed are microcontrollers, microprocessors and Real-Time Operating Systems (RTOS), followed by networking and memory devices, open source communities and developers. By 2020, humongous growth will be seen in the market for embedded systems. It is predicted that the market will grow with a CAGR of 22.5% to reach $226 billion by then. On the other hand, IoT will bring up a host of challenges for developers of embedded systems, as they need to develop devices which allow flawless and uninterrupted connectivity. To assist them meet the challenges posed by the internet of things, a real-time operating system (RTOS) must be designed that delivers flawless connectivity, scalability, modularity, and safety. 

What does internet of things, IoT mean for an embedded developer?

As the internet of things, IoT solutions are present across several industries, it gives a wonderful opportunity for embedded system developers too. For an embedded developer, it’s not all about linking multiple devices to the internet. There is much more than just connecting devices to the internet. Internet of things (IoT) for embedded systems is more about gathering, monitoring, and analyzing large amounts of disparate data from different sources and summarizing it into useful and actionable information to enhance the way services and devices are being used today.  

Hope you find this post helpful. If you did, share it with your colleagues and friends. For any query related to this post and career in IoT, you can comment down below.