The history of propaganda
Thinking of propaganda some politicians' names are at once remembered, like  Caesar, Napoleon, Adolf Hitler, Joseph Stalin or Saddam Hussein.
The history of propaganda has to tell then merely mentioning those names:
|
 TEXTBLOCK 1/3 // URL: http://world-information.org/wio/infostructure/100437611661/100438658185
|
| |
The Romans
The Romans can be called the great inventors of myths with the purpose of propaganda. Think of Caesar, Augustus or Nero. Caesar wrote his war-documentation by using incredible (e.g. the numbers of hostile soldiers) but he also emphasized the barbarity of the foe, creating images of hatred. People back at home had to believe these manipulative stories.
Or Augustus: he reunited the Roman Empire; part of his power was due to huge efforts in propaganda, visible e.g. in the mass of coins showing his face, being sent all over the empire. He understood very well, that different cultures used different symbols - and he used them for his propaganda.
Politically the Roman army was an important factor. Propaganda in that case was used for the soldiers on the one hand, but on the other hand also for demonstrating the power of the army to the people, so they could trust in its strength. Even then security was an essential factor of politics. As long as the army functioned, the Roman Empire did as well (Taylor, Munitions of the Mind, p. 48).
|
|
TEXTBLOCK 2/3 // URL: http://world-information.org/wio/infostructure/100437611661/100438658320
|
| |
1940s - Early 1950s: First Generation Computers
Probably the most important contributor concerning the theoretical basis for the digital computers that were developed in the 1940s was Alan Turing, an English mathematician and logician. In 1936 he created the Turing machine, which was originally conceived as a mathematical tool that could infallibly recognize undecidable propositions. Although he instead proved that there cannot exist any universal method of determination, Turing's machine represented an idealized mathematical model that reduced the logical structure of any computing device to its essentials. His basic scheme of an input/output device, memory, and central processing unit became the basis for all subsequent digital computers.
The onset of the Second World War led to an increased funding for computer projects, which hastened technical progress, as governments sought to develop computers to exploit their potential strategic importance.
By 1941 the German engineer Konrad Zuse had developed a computer, the Z3, to design airplanes and missiles. Two years later the British completed a secret code-breaking computer called Colossus to decode German messages and by 1944 the Harvard engineer Howard H. Aiken had produced an all-electronic calculator, whose purpose was to create ballistic charts for the U.S. Navy.
Also spurred by the war the Electronic Numerical Integrator and Computer (ENIAC), a general-purpose computer, was produced by a partnership between the U.S. government and the University of Pennsylvania (1943). Consisting of 18.000 vacuum tubes, 70.000 resistors and 5 million soldered joints, the computer was such a massive piece of machinery (floor space: 1,000 square feet) that it consumed 160 kilowatts of electrical power, enough energy to dim lights in an entire section of a bigger town.
Concepts in computer design that remained central to computer engineering for the next 40 years were developed by the Hungarian-American mathematician John von Neumann in the mid-1940s. By 1945 he created the Electronic Discrete Variable Automatic Computer (EDVAC) with a memory to hold both a stored program as well as data. The key element of the Neumann architecture was the central processing unit (CPU), which allowed all computer functions to be coordinated through a single source. One of the first commercially available computers to take advantage of the development of the CPU was the UNIVAC I (1951). Both the U.S. Census bureau and General Electric owned UNIVACs (Universal Automatic Computer).
Characteristic for first generation computers was the fact, that instructions were made-to-order for the specific task for which the computer was to be used. Each computer had a different binary-coded program called a machine language that told it how to operate. Therefore computers were difficult to program and limited in versatility and speed. Another feature of early computers was that they used vacuum tubes and magnetic drums for storage.
|
|
TEXTBLOCK 3/3 // URL: http://world-information.org/wio/infostructure/100437611663/100438659338
|
| |
The Flesh Machine
This is the tile of a book by the  Critical Art Ensemble which puts the development of artifical life into a critical historical and political context, defining the power vectors which act as the driving force behind this development. The book is available in a print version (New York, Autonomedia 1998) and in an online version at http://www.critical-art.net/fles/book/index.html
|
 INDEXCARD, 1/7
|
| |
Seneca
Lucius Annaeus Seneca (~4 BC - 65 AD), originally coming from Spain, was a Roman philosopher, statesman, orator and playwright with a lot of influence on the Roman cultural life of his days. Involved into politics, his pupil Nero forced him to commit suicide. The French Renaissance brought his dramas back to stage.
|
|
INDEXCARD, 2/7
|
| |
Above.net
Headquartered in San Jose, USA, AboveNet Communications is a backbone service provider. Through its extensive peering relationships, the company has built a network with the largest aggregated bandwidth in the world.
http://www.above.net
|
|
INDEXCARD, 3/7
|
| |
Montage
Certain elements of two or more photographs can be put together, mixed, and the outcome is a new picture. Like this, people can appear in the same picture, even "sit at the same table" though they have never met in reality.
|
|
INDEXCARD, 4/7
|
| |
1896
1896
The Daily Mail was published in Great Britain. It was the first newspaper for the masses. With the emerging of newspapers the manner how politics was perceived by the public changed completely. It became more difficult to keep secrets, while at the same time there was suddenly a new and nearly perfect tool for manipulation.
|
|
INDEXCARD, 5/7
|
| |
Operating system
An operating system is software that controls the many different operations of a computer and directs and coordinates its processing of programs. It is a remarkably complex set of instructions that schedules the series of jobs (user applications) to be performed by the computer and allocates them to the computer's various hardware systems, such as the central processing unit, main memory, and peripheral systems. The operating system directs the central processor in the loading, storage, and execution of programs and in such particular tasks as accessing files, operating software applications, controlling monitors and memory storage devices, and interpreting keyboard commands. When a computer is executing several jobs simultaneously, the operating system acts to allocate the computer's time and resources in the most efficient manner, prioritizing some jobs over others in a process called time-sharing. An operating system also governs a computer's interactions with other computers in a network.
|
|
INDEXCARD, 6/7
|
| |
Terrestrial antennas
Microwave transmission systems based on terrestrial antennas are similar to satellite transmission system. Providing reliable high-speed access, they are used for cellular phone networks.
The implementation of the Wide Application Protocol (WAP) makes the wireless access to Internet services as E-Mail and even the World Wide Web via cellular phones convenient. Therefore microwave transmission systems become increasingly important.
|
|
INDEXCARD, 7/7
|
| |