artificial intelligence sort by issue
The brain contains about 100 billion microscopic cells called neurons which together can generate enough electricity to power a low-wattage bulb. Scientists, researchers as well as forward-looking tech companies are investigating ways to use that power to control devices remotely.
Historically, IT systems and their governing standards were based on well understood environments. Early approaches emphasized performance for a specific problem definition. For instance, going back a few decades, the communications world was focused on how quickly to get a bit of data from point A to point B. Understandably, the main aim was to overcome the technical challenges of transmission to achieve a target bandwidth.
IEC and ISO develop international standards for AI. SC 42, the joint committee of IEC and ISO tasked with this work, recently approved new standards projects in the areas of trustworthiness and computational methods.
This is an edited excerpt from a new OCEANIS (open community for ethics in autonomous and intelligent systems) think piece about the role of standards in developing the dependability and trustworthiness of AI-related technologies. IEC is a founder member of OCEANIS and contributed to the publication. Download Role of standards in facilitating innovation while addressing ethics and value in autonomous and intelligent systems here.
The medical profession is resorting to virtual reality, telemedecine and artificial intelligence (AI) to treat mental illness. These technologies improve the access to patients and the results are more than encouraging.
Over the last century, automation has advanced in many industries. More recently people must work with non-human entities, which increasingly use artificial intelligence (AI) technologies.
Women are still underrepresented in science, technology, engineering and mathematics (STEM). According to UNESCO, the United Nations Educational, Scientific and Cultural Organization, 29% of those in science research and development are women, with a low of 19% in South and West Asia and a high of 48% in Central Asia. Europe and North America are at 32%.
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.
There have been a lot of media reports recently about the failings of AI devices, from disappointing gadgets on show at the CES to malfunctioning hotel bots. Some of the stories are very funny, but all they tell us is that the technology is still in development and that some products are better designed than others.
Artificial intelligence (AI) is transforming cars into friendly robots. The Las Vegas tech fest, which took place in January, offered tantalizing glimpses into the future for automotive vehicles.
Ignore the recent media reports about the failings of AI devices, from disappointing gadgets on show at the CES to malfunctioning hotel bots. Some of the stories are very funny, but all they tell us is that the technology is still in development and that some products are better designed than others. They also conveniently ignore the successes and the giant strides that AI has made.
Today, for many, technology is an inextricable part of life and healthcare. Friendly robots administer daily medications; algorithms diagnose diseases more accurately than top specialists, and a doctor’s appointment can happen over skype.
Information technology has become an integral part of our lives whether it be in the consumer, industrial or commercial aspects. It is hard to imagine life, work or entertainment without it. Artificial intelligence (AI) presents the next digital frontier of the IT evolution.
New technology is revolutionizing the way we will consider transport in the near future. Flying cars are one of the options on the cards and a number of IEC Standards can help the various industries involved.
IHS Markit predicts that more than 70 million connected cars will be on the road by 2023. Connected cars enable drivers to receive updated traffic information, send messages or access personalized entertainment systems, but they are also vulnerable to sabotage.
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 beginning of the year is always a time for predictions and wild speculation about what the next 12 months have in store for humankind. This is particularly the case in the technology sector where shows such as the International Consumer Electronics Show (CES) in Las Vegas promise the next revolution in wearables or virtual reality or whatever the buzzword of that particular year is.
The Open Session of the 81st IEC General Meeting in Vladivostok focused on the geographical and climatic features that influence the requirements and reliability of electrical and electronic devices as well as on the technologies used in the transportation of people and goods within the Russian Federation.
Traditionally, the last issue of the year provides feedback on the IEC General Meeting (GM), held in 2017 in Vladivostok, Russia.
The market for smart home devices and systems is booming. The IEC is helping the various industries involved by publishing a number of Standards in the relevant sectors.
The internet of things (IoT) is now in sharp focus for the technology industry and for standards development organizations, such as IEC, which publishes consensus-based International Standards and manages conformity assessment systems for electric and electronic products, systems and services, collectively known as electrotechnology.
Take the 170 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.
In the next decade, cars will be well on the way to, or have reached the goal of becoming fully self-driving. As the industry continues to develop new levels of autonomous vehicles, the whole notion of personal transport is being turned on its head.
In our smart world, a huge number of devices are part of the internet of things (IoT), or becoming so, many of them integrated with our homes, cities, manufacturing or transport systems and infrastructures. Added to this, a growing number of connected consumer devices, appliances and systems are able to carry out many human daily tasks in the home or workplace, whether for healthcare or entertainment. Research by Gartner forecasts the number of connected things will reach 20,8 billion by 2020, of which 13,5 billion will be from the consumer sector.
For the first time in history, voice recognition has reached a level close to human understanding. This opens up new opportunities, notably in replacing the smartphone as a ubiquitous interface. The sensorization and digitization trends of previous years are now leading to adaptive automation and highly-specialized applications that fundamentally transform the user experience. Last but not least augmented (AR) and virtual reality (VR) are entering the real world of business.
The past year may not have seen significant breakthroughs in the tech world but 2017 is promising some interesting technological developments.