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Mobile devices have rapidly changed society and the way in which we interact and exchange information. For example, the mobile phone has rapidly evolved from being purely a telephone to the complex smartphone systems of today. This evolution looks unlikely to stop in the foreseeable future with a new generation of mobile, wearable devices for the future.
It is a generally accepted notion that we are living in times of rapid change. If, to paraphrase Heraclitus, change is the only constant, then organizations must anticipate areas of possible change and prepare themselves accordingly.
Artificial intelligence (AI) is one of the big buzz words in the tech industry. From robots to self-driving cars, digital twins and medical diagnosis, AI promises to deliver innovation on the scale of the discovery of fire and electricity, as one Silicon Valley chief executive officer (CEO) has put it. While it is not yet clear if this is truth or hyperbole, technical advances are coming rapidly.
Increasingly, industry projects need to apply a combination of standards, in order for products and systems to run smoothly. The technology must be interoperable at different levels and between diverse domains, while remaining secure and safe.
Whether we realize it or not, the internet of things (IoT) is part of many aspects of daily life. Thanks to billions of connected, “sensorized” devices and systems, it can facilitate everyday activities and tasks and improve the efficiency of work processes, which saves time and money. In the case of healthcare, it can save lives and improve quality of life.
Around the world, urban populations are booming. An estimated 54.5 percent of global populations lived in urban settlements in 2016 and this number is expected to increase to 60 by 2030, according to research by the United Nations.
Early on each New Year, technology companies gather in Las Vegas for the annual CES show. The 2018 edition brought together 3900 exhibitors displaying their latest developments. Analysts from the show organizer, the Consumer Technology Association (CTA), provided an overview of the major trends to follow this year.
The ubiquitous internet of things (IoT) comprises billions of "sensorized" and connected devices and systems, which are used in many industries, including agriculture, energy management, healthcare, industrial automation, smart buildings, smart cities and transport.
Our world is changing rapidly and technologies are converging all around us. Enhancements in communications, renewable energy, medical devices and many other areas have improved health, economic safety and development, which can benefit everyone.
Natural and industrial or accidental disasters can take many forms and have devastating human and material consequences. Some may be prevented or their impact mitigated through forecast, others not. Rescuing victims and repairing damage are essential for a return to normal life. Standardization work by a number of IEC technical committees (TCs) and subcommittees (SCs) may help warn of impending disasters as well as aid in assessing, repairing and mitigating their consequences.
As more and more objects are connected, communicate and interact with each other, in what is labelled the internet of things (IoT), they become building blocks in larger systems. Known and unknown vulnerabilities in this wealth of objects are bound to attract cyber attacks that can bring down entire critical installations in many countries. Protection of IoT components against cyber threats, as well as of the systems that integrate them, is fast becoming a key priority.
What is the future for cars, buses and trucks? Manufacturers are competing to stay relevant in the years ahead. The IEC is also paving the way with a number of forward-looking Standards.
The World Standards Day competition is back. In past years, we’ve had first poster competitions, then video competitions – this year we have both.
Power failure recovery is a key task for governments, hospitals and private businesses to get to grips with if they want to reduce the disruption caused by power outages resulting from natural disasters. Smart and microgrids are one of the solutions and the IEC is leading the way with the appropriate Standards.
To mark the occasion of the 2017 G7 Summit, an article about the IEC contribution in dealing with climate change in cities and communities, written by Frans Vreeswijk, General Secretary and CEO, appears in the official G7 magazine.
Energy, and especially electricity, is the golden thread that impacts the majority of the 17 United Nations Sustainable Development Goals (SDGs), and furthermore, the development of every nation and economy. The UN recognizes electricity access as a key pillar for economic development because it helps to reduce poverty and hunger, improves educational opportunities and enables higher quality healthcare.
Smart is today widely used to signify added intelligence in an increasing number of otherwise ordinary constructs. The question is: why and when did we start to use the word SMART?
The past year may not have seen significant breakthroughs in the tech world but 2017 is promising some interesting technological developments.
In hundreds of smart city projects around the world, governments, municipalities and private stakeholders are investing in smart grids, open data platforms and networked transport systems to meet the challenges of environmental sustainability, population growth and urbanization.
Energy in itself is not smart. What makes it smart then? The numerous technological advances that allow companies and household to use energy more efficiently.
The proportion of people aged over 60 will almost double from 12 to 22% between 2015 and 2050, according to the World Health Organization (WHO). In line with this, the WHO World Report on Disability states that currently more than one billion people live with some form of disability worldwide. The figure is expected to rise in the coming years as populations age.
One of the emerging trends of the 21st century is the ageing of the world population.
Take the 169 countries in the IEC family, the 20 000 technical experts who work in standards development, the many Certification Bodies (CBs) and Test Laboratories (TLs) in the IEC Conformity Assessment (CA) Systems, and add to the mix the rapid pace at which technologies are evolving today and you have hundreds, if not thousands of stories that can be told within the IEC community.
As more areas of our lives become connected to the Internet of Things (IoT), the work of experts in ISO/IEC Joint Technical Committee (JTC) 1: Information Technology, who develop worldwide International Standards for business and consumer applications in Information and Communication Technologies (ICT), is increasingly crucial.
Smart Energy can be described as connecting many points of generation with many points of consumption, from end-to-end, not limited to just the electric grid. Smart Energy is also about all energy needs for Smart Cities. The IEC Systems Committee (SyC) on Smart Energy aims to create one international platform for a comprehensive portfolio of standards – efficient and easy-to-use standards that can be used by any project working on Smart Energy. The work of SyC Smart Energy includes wide consultation within the IEC community and a broader group of external stakeholders, in the areas of Smart Energy and Smart Grid, also including Heat and Gas.
The first World Smart City Forum was held on 13 July 2016, co-located with the World Cities Summit in the Marina Bay Sands Expo and Convention Centre in Singapore. More than 300 participants joined the live event and listened to world experts who addressed, discussed and accepted live questions from audiences in the room and online. The event was simultaneously live-streamed to close to 1 000 online participants and IEC tweets reached well over half a million city stakeholders. The online community www.worldsmartcity.org has more than 1 000 active members.
The IEC regularly supports key global and regional industry events, which can present the IEC endorsement on their website and materials.
Everybody wants to build Smart Cities but what is needed to make them come true? Which city pain points are hindering Smart City development and how can they be best overcome? A new online community initiated by the IEC in partnership with ISO and ITU aims to help stakeholders worldwide make their cities smarter. It is part of the lead-up to the first World Smart City Forum which will take place in Singapore on 13 July 2016.
Increasing the efficiency on how energy is generated and then used, should not remain idle talk. And while measuring is important to know where to improve, factual changes on the ground will make all the difference.
During his address to Council, the IEC General Secretary & CEO, Frans Vreeswijk, provided a brief overview of key accomplishments since Tokyo and drew the audience’s attention to a number of topics of high importance for the future relevance of the Commission.
Connected safety and security systems and devices with remote monitoring capabilities are expanding their share of the global smart home market. A survey in the UK in July 2015 identified security as the second most important of five key drivers for the connected home, after smart energy. The BI Intelligence research company estimates that by 2019 home security systems will account for 38% of the connected home market.
As smart commercial buildings become incorporated into the wider energy control networks of smart cities and linked to other aspects such as transport, water and air quality, the increasing intelligence and automation of buildings will play a key role in the smart cities of the future.
With mass urbanization emerging as an unstoppable trend across the world, cities need to become sustainable on many levels. The solution is to design smart solutions at all levels to help meet multiple challenges and lead to the development of smart cities.
To deliver services and maintain an acceptable quality of life for their citizens, cities need to get smarter and make more efficient use of resources.
Addressing Council for the first time as IEC President, Junji Nomura expressed his pleasure at doing so in his home country, Japan. Satisfied with the state of the organization which he described as ‘strong and healthy’ with a ‘truly global reach’, he nonetheless emphasized the need for the IEC to continue to improve its services while keeping up with the fast-changing global market.
IEC e-tech talked to James E. Matthews III, IEC Vice-President and Chairman of the SMB (Standardization Management Board) during the General Meeting in Tokyo, Japan. Matthews shared key decisions and why they are needed to ensure IEC relevance in the future.
The IEC MSB (Market Strategy Board) helps identify what areas the IEC should focus on in the future through the identification of key technological trends and market needs. It publishes recommendations in the form of White Papers. Three new IEC White Papers focus on Smart Cities, the Internet of Things and Microgrids for disaster preparedness and recovery.
More than half of the world’s population currently lives in cities. This growth is expected to continue with city residents estimated to make up two-thirds of the population by 2050. Megacities – with a population of more than 10 million – are proliferating, fuelled by economic growth and rapid industrialization.