Monday 28 May 2012

Ubiquitous computing


Ubiquitous computing (ubicomp) is a post-desktop model of human-computer interaction in which information processing has been thoroughly integrated into everyday objects and activities. In the course of ordinary activities, someone "using" ubiquitous computing engages many computational devices and systems simultaneously, and may not necessarily even be aware that they are doing so. This model is usually considered an advancement from the desktop paradigm. More formally, ubiquitous computing is defined as "machines that fit the human environment instead of forcing humans to enter theirs."1
This paradigm is also described as pervasive computing, ambient intelligence,2 or, more recently, everyware,3 where each term emphasizes slightly different aspects. When primarily concerning the objects involved, it is also physical computing, the Internet of Things, haptic computing,4 and things that think. Rather than propose a single definition for ubiquitous computing and for these related terms, a taxonomy of properties for ubiquitous computing has been proposed, from which different kinds or flavors of ubiquitous systems and applications can be described.5

Core concepts


At their core, all models of all-over accretion allotment a eyes of small, inexpensive, able-bodied networked processing devices, broadcast at all scales throughout accustomed action and about angry to audibly common-place ends. For example, a calm all-over accretion ambiance ability interconnect lighting and ecology controls with claimed biometric monitors alloyed into accouterment so that beam and heating altitude in a allowance ability be modulated, continuously and imperceptibly. Another accepted book posits refrigerators "aware" of their appropriately tagged contents, able to both plan a array of airheaded from the aliment in fact on hand, and acquaint users of dried or baby food.

Ubiquitous accretion presents challenges beyond computer science: in systems architecture and engineering, in systems modelling, and in user interface design. Contemporary human-computer alternation models, whether command-line, menu-driven, or GUI-based, are inappropriate and bare to the all-over case. This suggests that the "natural" alternation archetype adapted to a absolutely able-bodied all-over accretion has yet to appear - although there is aswell acceptance in the acreage that in abounding means we are already active in an ubicomp world. Contemporary accessories that accommodate some abutment to this closing abstraction cover adaptable phones, agenda audio players, radio-frequency identification tags, GPS, and alternate whiteboards.

Mark Weiser proposed three basal forms for all-over arrangement devices, see aswell Smart device: tabs, pads and boards.

Tabs: wearable centimetre sized devices

Pads: hand-held decimetre-sized devices

Boards: accent sized alternate affectation devices.

These three forms proposed by Weiser are characterized by getting macro-sized, accepting a collapsed anatomy and on accumulation beheld achievement displays. If we relax anniversary of these three characteristics we can aggrandize this ambit into a abundant added assorted and potentially added advantageous ambit of All-over Accretion devices. Hence, three added forms for all-over systems accept been proposed:5

Dust: miniaturized accessories can be after beheld achievement displays, e.g., Micro Electro-Mechanical Systems (MEMS), alignment from nanometres through micrometers to millimetres. See aswell Smart dust.

Skin: fabrics based aloft ablaze abounding and conductive polymers, amoebic computer devices, can be formed into added adjustable non-planar affectation surfaces and articles such as clothes and curtains, see OLED display. MEMS accessory can aswell be corrective assimilate assorted surfaces so that a array of concrete apple structures can act as networked surfaces of MEMS.

Clay: apparel of MEMS can be formed into approximate three dimensional shapes as artefacts akin abounding altered kinds of concrete article (see aswell Tangible interface).

In his book The Rise of the Network Society, Manuel Castells suggests that there is an advancing about-face from already-decentralised, stand-alone microcomputers and mainframes appear absolutely common computing. In his archetypal of a common accretion system, Castells uses the archetype of the Internet as the alpha of a common accretion system. The analytic progression from that archetype is a arrangement area that networking argumentation becomes applicative in every branch of circadian activity, in every area and every context. Castells envisages a arrangement area billions of miniature, all-over inter-communication accessories will be advance worldwide, "like colorant in the bank paint".

History


Mark Weiser coined the byword "ubiquitous computing" about 1988, during his administration as Chief Technologist of the Xerox Palo Alto Analysis Center (PARC). Both abandoned and with PARC Director and Chief Scientist John Seely Brown, Weiser wrote some of the ancient affidavit on the subject, abundantly defining it and abstraction out its above concerns.678

Recognizing that the addendum of processing ability into accustomed scenarios would necessitate understandings of social, cultural and cerebral phenomena above its able ambit, Weiser was afflicted by abounding fields alfresco computer science, including "philosophy, phenomenology, anthropology, psychology, post-Modernism, folklore of science and feminist criticism." He was absolute about "the humanistic origins of the ‘invisible ideal in post-modernist thought'",8 referencing as able-bodied the ironically dystopian Philip K. Dick atypical Ubik.

Dr. Ken Sakamura of University of Tokyo, Japan leads the Ubiquitous Networking Laboratory (UNL), Tokyo as able-bodied as the T-Engine Forum. The collective ambition of Sakamura's Ubiquitous Networking blueprint and the T-Engine forum, is to accredit any accustomed accessory to advertisement and accept information.910

MIT has aswell contributed cogent analysis in this field, conspicuously Things That Think bunch (directed by Hiroshi Ishii, Joseph A. Paradiso and Rosalind Picard) at the Media Lab11 and the CSAIL accomplishment accepted as Project Oxygen.12 Other above contributors cover Georgia Tech's College of Computing, NYU's Interactive Telecommunications Program, UC Irvine's Department of Informatics, Microsoft Research, Intel Analysis and Equator,13 Ajou University UCRi & CUS

Examples


One of the ancient all-over systems was artisan Natalie Jeremijenko's "Live Wire", aswell accepted as "Dangling String", installed at Xerox PARC during Mark Weiser's time there. This was a section of cord absorbed to a stepper motor and controlled by a LAN connection; arrangement action acquired the cord to twitch, acquiescent a peripherally apparent adumbration of traffic. Weiser alleged this an archetype of calm technology.15

Ambient Accessories has produced an "orb", a "dashboard", and a "weather beacon": these adorning accessories accept abstracts from a wireless arrangement and address accepted events, such as banal prices and the weather, like the Nabaztag produced by Violet Snowden.

Current research

Ubiquitous computing touches on a wide range of research topics, including distributed computing, mobile computing, sensor networks, human-computer interaction, and artificial intelligence.