Databody economy and the surveillance state
| Databody economy |
Surveillance state |
| Promise |
Reality |
Promise |
Reality |
| universal prosperity |
universal commercialisation |
total security |
total control |
| frictionless market |
pacified society |
political harmony |
death of democracy |
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The glamour of the data body economy clouds economic practices which are much less than glamorous. Through the seizure of the data body, practices that in the real political arena were common in the feudal age and in the early industrial age are being reconstructed. The data body economy digitally reconstructs exploitative practices such as slavery and wage labour. However, culturally the data body is still a very new phenomenon: mostly, people think if it does not hurt, it cannot be my body. Exploitation of data bodies is painless and fast. Nevertheless, this can be expected to change once the awareness of the political nature of the data body becomes more widespread. As more and more people routinely move in digitised environments, it is to be expected that more critical questions will be asked and claims to autonomy, at present restricted to some artistic and civil society groups trying to get heard amidst the deafening noise of the commercial ICT propaganda, will be articulated on a more general level.
The more problematic aspect of this development may be something else: the practices of the data body economy, themselves a reconstruction of old techniques of seizure, have begun to re-colonise real political space. Simon Davis, Director of the London-based privacy campaigners  Privacy International, one of the foremost critics of modern-day technologies of surveillance and data capturing, has warned against the dangers of a loss of autonomy and undermining of civic rights that are being generated when workplaces are clogged with digital equipment allowing the constant monitoring and surveillance of workers. Unless current trends towards data capturing remain unchecked, the workplace of the future will have many features of the sinister Victorian workhouses that appear Charles Dickens novels, where any claims for autonomy were silenced with references to economic efficiency, and the required discipline imposed by a hierarchy of punishments.
The constant adaptation process required from the modern individual has anonymised and structuralized punishment, which now appears in the guise of error messages and the privatisation of risk.
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Late 1950s - Early 1960s: Second Generation Computers
An important change in the development of computers occurred in 1948 with the invention of the  transistor. It replaced the large, unwieldy vacuum tube and as a result led to a shrinking in size of electronic machinery. The transistor was first applied to a computer in 1956. Combined with the advances in magnetic-core memory, the use of transistors resulted in computers that were smaller, faster, more reliable and more energy-efficient than their predecessors.
Stretch by IBM and LARC by Sperry-Rand (1959) were the first large-scale machines to take advantage of the transistor technology (and also used assembly language instead of the difficult machine language). Both developed for atomic energy laboratories could handle enormous amounts of data, but still were costly and too powerful for the business sector's needs. Therefore only two LARC's were ever installed.
Throughout the early 1960s there were a number of commercially successful computers (for example the IBM 1401) used in business, universities, and government and by 1965 most large firms routinely processed financial information by using computers. Decisive for the success of computers in business was the stored program concept and the development of sophisticated high-level programming languages like FORTRAN (Formular Translator), 1956, and COBOL (Common Business-Oriented Language), 1960, that gave them the flexibility to be cost effective and productive. The invention of second generation computers also marked the beginning of an entire branch, the software industry, and the birth of a wide range of new types of careers.
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Transistor
A transistor is a solid-state device for amplifying, controlling, and generating electrical signals. Transistors are used in a wide array of electronic equipment, ranging from pocket calculators and radios to industrial robots and communications satellites.
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 INDEXCARD, 1/2
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Vladimir Putin
Vladimir Putin is Russian President, Boris Yeltsin's. Until his appointment as Prime Minister in August 1999, he was nearly unknown. He had been working for the Soviet Security Service, the KGB. In July 1998 he took charge of the Federal Security Service, FSB. In March 1999 he became secretary of the Security Council. He has no experience in being at all. Where he demonstrated power until now is the Chechnya War. Soon after the beginning of this 2nd war in the region his popularity rose.
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INDEXCARD, 2/2
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