The convergence of biology and technology is not an entirely new phenomenon but and has its origin in the concept of modern technology itself. This concept understands technology as something bigger, stronger, and more reliable than ourselves. But, unlike human beings, technologies are always tied to specific men-defined purposes. In so far as men define purposes and build the technology to achieve those purposes, technology is smaller than ourselves. The understanding of technology as a man-controlled tool has been called the instrumental and anthropological understanding of technology.
However, this understanding is becoming insufficient when technologies become fast and interdependent, i.e. when fast technologies form systems and global networks. Powerful modern technologies, especially in the field of informatics, have long ceased to be mere instruments and have created constraints for human action which act to predetermine activity and predefine purposes.
As a consequence, the metaphysical distinction between subject and object has become blurred. In the 1950s Heidegger already speaks of modern technology not as the negation but as the culmination of metaphysical thought which provokes men to "overcome" metaphysics. The weakening of metaphysical determinations which occurs in the project of modern technology has also meant that it become impossible to clearly define what being human is, and to determine the line that separates non-human from human being. These changes are not progressing at a controllable rate, but they are undergoing constant acceleration. The very efficiency and power of calculation of modern technologies means that acceleration itself is being accelerated. Every new technological development produces new shortcuts in socio-technical systems and in communication.
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Following the invention of the first
Also, ensuing the introduction of the minicomputer in the mid 1970s by the early 1980s a market for personal computers (PC) was established. As computers had become easier to use and cheaper they were no longer mainly utilized in offices and manufacturing, but also by the average consumer. Therefore the number of personal computers in use more than doubled from 2 million in 1981 to 5.5 million in 1982. Ten years later, 65 million PCs were being used.
Further developments included the creation of mobile computers (laptops and palmtops) and especially networking technology. While mainframes shared time with many terminals for many applications, networking allowed individual computers to form electronic co-operations.
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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 (
b. July 1, 1646, Leipzig
d. November 14, 1716, Hannover, Hanover
German philosopher, mathematician, and political adviser, important both as a metaphysician and as a logician and distinguished also for his independent invention of the differential and integral calculus. 1661, he entered the University of Leipzig as a law student; there he came into contact with the thought of men who had revolutionized science and philosophy--men such as