Cutting edge technology

General

The word cutting-edge technology is a loan translation ( English high technology, high-tech ). It is therefore used synonymously with the Anglicism "high-tech". The top technology stands in contrast to the basic technology ( English low-tech ); Adapted technologies are sometimes the areas in between, but in the real sense it means "adapting" knowledge .

“Killer technologies” are technologies that, when they are ready for the market, replace the existing technologies and key technologies as substitutes . Cutting-edge technologies can be new developments or existing technologies that are used in new areas of application.

species

The cutting-edge technology is particularly represented in the following branches of industry:

• Automotive industry : exhaust gas cleaning , drive technology , autonomous land vehicle ;
• Biotechnology : Green Biotechnology, Industrial Biotechnology, Red Biotechnology, Environmental Biotechnology ;
• Computer technology : software , hardware ;
• Digitization : digitization in healthcare ;
• Energy technology : thermodynamics , heat technology ;
• Augmented Reality : Applications ;
• Fusion research : nuclear fusion ;
• Semiconductor technology : for all semiconductor materials ;
• Information and communication technology : areas of application ;
• Artificial Intelligence : Areas of Application ;
• Aerospace technology : rocket technology , satellite technology ;
• Material technology : areas of application ;
• Medical technology : areas of application ;
• Nanotechnology : areas of application ;
• Pharmacy : areas of application ;
• Photonics : areas of application ;
• Robotics : areas of application ;
• Environmental technology .

For the purposes of official statistics , Eurostat has defined cutting-edge technology in terms of the related economic sectors.

economic aspects

The development of innovations in the field of cutting-edge technology places new demands on innovation management . The young companies in this branch typically have only limited resources, such as B. liquid funds , are under time and success pressure and are equipped with very specialized know-how . Therefore, lead user approaches and open innovation methods are becoming more and more important, especially in this area, to ensure success in innovation.

In the case of cutting-edge technologies, research and development costs amount to at least 8.5% of sales revenue , and in the case of high-quality technologies, 3.5% to 8.5%. Due to these high development costs , the primary task is to identify promising trends and bring products to market quickly. Anyone who uses cutting-edge technology commercially is a technology leader .

literature

• Literature on cutting-edge technology in the catalog of the German National Library

Individual evidence

1. ↑ Jörn Albrecht / Johannes Gutenberg University, Department of Applied Linguistics (Ed.), Translation and Intercultural Communication , 1987, p. 232
2. ↑ Tom Sommerlatte / Jean-Philippe Deschamps, The strategic use of technologies , in: Arthur D. Little International (ed.), Management in the Age of Strategic Leadership, 1986, p. 50 f.
3. ↑ Martin K. Welge, planning: processes - strategies - measures , 1992, p. 270
4. ↑ Jörg Horstmann, operationalization of corporate flexibility , 2007, p. 147 FN 484
5. ↑ Oliver Everling, Rating - Chance for SMEs according to Basel II , 2001, p. 467 f.
6. ↑ Eurostat, Regions - Statistical Yearbook 2005
7. ↑ Alexander Sänn, class instead of mass , in: Innovationsmanager , Vol. 16, 2011, pp. 66–67
8. ↑ Vinit Parida / Mats Westerberg / Johan Frishammar: Inbound Open Innovation Activities in High-Tech SMEs: The Impact on Innovation Performance , in: Journal of Small Business Management , 50 (2), 2012, pp. 283–309
9. ↑ Federal Ministry for Research and Technology, BMFT-Journal , 1990, p. 5