active assisted living sort by issue
Enhancing the health, quality of life and independence of older people has become a priority for many states as a fast ageing population presents them with a number of social and financial challenges. AAL (Active Assisted Living) is seen as offering opportunities to meet these challenges. IEC TC (Technical Committee) 100: Audio, video and multimedia systems and equipment, has created a TA (Technical Area) dedicated to the preparation of International Standards for AAL, accessibility and user interface.
We are more mobile today than ever before and expect to be able to carry out many daily activities outside the home or office. Having embraced the era of information overload, we want access to whatever information we need anytime and anywhere.
Traditionally, women have not been encouraged to participate in science, technology, engineering and mathematics (STEM). As a result, a low number has made it into this field. Standards are meant to improve the safety and quality of products and services used by everyone. However, to achieve this, they must include the significant physiological differences between men and women and their potential impact in daily situations.
From home heating systems, smart medical devices and fridges that automatically replenish food items, to connected cars that guide drivers to free parking spots, increasingly IoT is a part of our daily lives. However, this technology is not new. Industrial applications, power generation, digitization, connectivity and automation have been around for many years and IEC has been working in these areas for some time.
One of the emerging trends of the 21st century is the ageing of the world population.
Premises equipped with alarm and access control systems are often essential for people using facilities suited for Active Assisted Living (AAL). Some of these premises must be supervised and as such require special alarm systems. A series of International Standards addressing requirements for these systems is being developed. Two Standards in the series have been published recently.
Sensors provide information about objects, or people and their environment. Networks of sensors in the shape of wearable electronics and integrated into the living environment will support Active Assisted Living (AAL) into the future. Sensors and printed electronics will be increasingly integrated into smart wearable devices to facilitate the implementation of AAL.
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.
To deal with Active Assisted Living (AAL) issues, the IEC has established a Systems Committee, IEC SyC AAL. This SyC has the role of promoting safety, security, privacy and cross-vendor interoperability in the use of AAL systems and services, and of fostering standardization which boosts their usability and accessibility.
Why are home use medical and wellness devices drawing so much attention and growing at an explosive rate? It could be argued that this results from the nexus of the Internet of Things (IoT), the “super-aging” of societies around the world (which is directly tied to patients wanting to be comfortable in their home environments instead of in sterile impersonal clinical environments), the portability of devices, the growth of wearable technologies, the increasing costs of healthcare and the huge regulatory burden/costs of obtaining approval by national regulators. Also, there has been significant growth in the number of standards and regulations that apply to medical devices, especially around software, health informatics, privacy and security issues.
Multimedia content, particularly on TV, and information technology and communication (ICT) services have become central to our lives. Access to these for people suffering from visual or hearing impairment is very important and is an internationally-recognized right. The IEC, together with other organizations, works to develop International Standards that allow this access, which is also central to what is known as Active Assisted Living (AAL).
Paralympians successfully overcome physical, visual and intellectual impairments, but their equipment can impact their performance.
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.
What immediately comes to mind when evoking active assisted living (AAL) is that it is essential in helping senior citizens keep as good a quality of life as possible. The focus is obviously on the elderly in industrialized countries where the population is ageing rapidly. But AAL represents more than that – it is meant for all people who suffer from illnesses or physical, mental and social disabilities. The general concept is to ensure that they live their life independently and comfortably in their own environment for as long as they can manage.
It is with great sadness and regret that the IEC learnt of the passing of Alastair Ramsay, a member of the IEC Systems Committee Active Assisted Living (SyC AAL), on 28 January 2017, after a short battle with cancer.
Keeping individuals in need of certain levels of assistance active and living at home as independently and as long as possible is emerging as a major issue in many countries. This drives a significant growth in many alarm, access and remote alert systems. Standardization work from a number of IEC Technical Committees (TCs) and their Subcommittees (SCs) makes possible the development and widespread introduction of such systems.
While recent developments in home automation are bound to make anyone’s life easier, there are certain categories of the population for which it may be a life-changing experience: elderly and/or disabled people have very specific accessibility needs and can benefit fully from the technological advances associated with the Internet of Things (IoT) and the smart home.
The demands posed by a rapidly ageing global population are leading manufacturers of robots to develop technology for providing care and rehabilitation for elderly and impaired people in their own homes.
To deal with Active Assisted Living (AAL) issues, the IEC has established a Systems Committee, IEC SyC AAL. This SyC has the role of promoting safety, security, privacy and cross-vendor interoperability in the use of AAL systems and services, and of fostering standardization which boosts their usability and accessibility. Its role and scope are constantly being expanded.
Printed electronics as a manufacturing method has become established in a number of areas across the electrotechnical world. The connections that are made are emerging as particularly significant in the new generation of wearable electronic devices. Although some wearable applications can be realized using wholly conventional rigid electronics, many will require some element of flexibility. Standardization work by a number of IEC Technical Committees (TCs) and subcommittees (SCs) is central to this development.
The sparc-FMA International Lighting and Facilities event, organized by the Facility Management Association (FMA) took place from 30 May to 1 June, in Sydney. During the event, more than 60 exhibitors, including lighting manufacturers, suppliers and service providers, showcased the latest innovations in the two industries.
Our world is getting smarter by the minute. Voice recognition allows us to tell devices to do things, such as find a specific TV channel or remind us of all our appointments for the day. Smart agriculture uses sensors, connected machinery and smartphone apps to tell farmers when to water their fields, while intelligent road infrastructure is improving road safety and congestion and all in real time.