In the space of flows constituted by today's global data networks the space of places is transcended. Visualizations of these global data flows show arches bridging seas and continents, thereby linking the world's centres of research and development, economics and politics. In the global "Network Society" (Manuel Castells) the traditional centres of power and domination are not discarded, in the opposite, they are strengthened and reinforced by the use of information and communication technologies. Political, economical and symbolical power becomes increasingly linked to the use of modern information and communication technologies. The most sensitive and advanced centres of information and communication technologies are the stock markets. Excluded from the network constituted by modern information and communication technologies, large parts of Africa, Asia and South America, but also the poor of industrialized countries, are ranking increasingly marginal to the world economy.
Cities are centres of communications, trade and power. The higher the percentage of urban population, the more it is likely that the telecommunications infrastructure is generally good to excellent. This goes hand in hand with lower telecommunications costs. Those parts of the world with the poorest infrastructure are also the world's poorhouse. In Bangladesh for most parts of the population a personal computer is as expensive as a limousine in European one-month's salary in Europe, they have to pay eight annual salaries. Therefore telecommunications infrastructure is concentrated on the highly industrialized world: Most telephone mainlines, mobile telephones, computers, Internet accounts and Internet hosts (computers connected to the global data networks) can be found here. The same applies to media: the daily circulation of newspapers and the use of TV sets and radios. - Telecommunication and media services affordable to most parts of the population are mostly restricted to industrialized countries.
This situation will not change in the foreseeable future: Most expenditure for telecommunications infrastructure will be restricted to the richest countries in the world. In 1998, the world's richest countries consumed 75% of all cables and wires.
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Supposedly the most famous British atrocity story concerning the Germans during World War I was the "Corpse-Conversion Factory"-rumor; it was said the Germans produced soap out of corpses. A story, which got so well believed that it was repeated for years - without a clear evidence of reality at that time. (
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In an increasingly technisised world where technology has also become a determinant of value-free values, mind and body are increasingly considered as "imperfect" compared to the brilliant designs of technology. While for centuries the "weakness" of the human flesh has been the object of lamentations, the 21st century seems set to transform the genre of tragedy into a sober technological project of improvement. Within this project, men and women receive the status of "risk factor" which potentially destabilises technological systems, a circumstance which calls for correction and control measures.
Two main ways of checking the risk of "human error", as well as inefficiency, irrationality, selfishness, emotional turbulence, and other weaknesses of human beings: by minimizing human participation in technological processes, and, to an increasing extent, by technically eliminating such risk factors in human beings themselves.
Human beings, once considering themselves as the "crown of creation" or the "masters of the world" are reducing themselves to the "human factor" in globally networked technical systems, that factor which still escapes reliable calculation and which, when interacting with fast and potent technical environments, is a source of imperfection. For the human mind and body to perfect itself - to adapt itself to the horizon of perfection of science and technology - takes long time periods of discipline, learning, even biological evolution.
In the calculating thinking required in highly technisised context, mind and body inevitably appear as deficient compared to a technology which, unlike the human organism, has the potential of fast and controlled "improvement". Surely, the human organism has always been prey to defects, to "illnesses" and "disablement". Disease has therefore been one of the main motivations behind the development of Bio-ITs: Bio-ITs are being developed to help the blind get their eyesight back, the deaf to hear, the lame to walk, the depressed to be happy. Such medical applications of Bio-ITs are nothing essentially new: Captain Silver's crunch, the wheelchair, a tooth filling save the same basic purpose of correcting a physical deficiency.
But there is a much wider scope to this new development, in which the "normal" biological condition of a human being, such as proneness to death, forgetfulness, aging, inefficiency, solitude, or boredom are understood as defects which can and should be corrected. The use of ITs to overcome such "biological" constraints is often seen as the "ultimate" technological advance, even if the history of utopian visions connected to technological innovation is as old as it is rife with surprise, disappointment, and disaster.
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Biometric technologies are not surveillance technologies in themselves, but as identification technologies they provide an input into surveillance which can make such as face recognition are combined with camera systems and criminal data banks in order to supervise public places and single out individuals.
Another example is the use of biometrics technologies is in the supervision of probationers, who in this way can carry their special hybrid status between imprisonment and freedom with them, so that they can be tracked down easily.
Unlike biometric applications in access control, where one is aware of the biometric data extraction process, what makes biometrics used in surveillance a particularly critical issue is the fact that biometric samples are extracted routinely, unnoticed by the individuals concerned.
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As laid down in the proposed EU Directive on copyright and related
The first of the great medieval universities was established at Bologna. At the beginning, universities predominantly offered a kind of do-it-yourself publishing service.
Books still had to be copied by hand and were so rare that a copy of a widely desired book qualified for being invited to a university. Holding a lecture equaled to reading a book aloud, like a priest read from the Bible during services. Attending a lecture equaled to copy a lecture word by word, so you had your own copy of a book, thus enabling you to hold a lecture, too.
For further details see History of the Idea of a University,
Intellectual property, very generally, relates to the output that result from intellectual activity in the industrial, scientific, literary and artistic fields. Traditionally intellectual property is divided into two branches: 1) industrial property (
Framing is the practice of creating a frame or window within a web page where the content of a different web page can be display. Usually when a link is clicked on, the new web page is presented with the reminders of the originating page.
A mark (trademark or service mark) is "... a sign, or a combination of signs, capable of distinguishing the goods or services of one undertaking from those of other undertakings. The sign may particularly consist of one or more distinctive words, letters, numbers, drawings or pictures, emblems, colors or combinations of colors, or may be three-dimensional..." (
The term refers to the separation of a work process into a number of tasks, with each task performed by a separate person or group of persons. It is most often applied to
The bandwidth of a transmitted communications signal is a measure of the range of frequencies the signal occupies. The term is also used in reference to the frequency-response characteristics of a communications receiving system. All transmitted signals, whether analog or digital, have a certain bandwidth. The same is true of receiving systems.
Generally speaking, bandwidth is directly proportional to the amount of data transmitted or received per unit time. In a qualitative sense, bandwidth is proportional to the complexity of the data for a given level of system performance. For example, it takes more bandwidth to download a photograph in one second than it takes to download a page of text in one second. Large sound files, computer programs, and animated videos require still more bandwidth for acceptable system performance. Virtual reality (VR) and full-length three-dimensional audio/visual presentations require the most bandwidth of all.
In digital systems, bandwidth is data speed in bits per second (bps).
Source: Whatis.com