Roderich Groß; Andreas Kolling; Spring Berman; Emilio Frazzoli; Alcherio Martinoli; Fumitoshi Matsuno; Melvin Gauci Springer International Publishing AG (2018) Kovakantinen kirja
Richard Fischer; Andreas Spring; Rolf Gscheidle; Tobias Gscheidle; Uwe Heider; Berthold Hohmann; Wolfgang Keil; R Lohuis Europa Lehrmittel Verlag (2022) Pehmeäkantinen kirja
Rolf Gscheidle; Tobias Gscheidle; Wolfgang Keil; Rainer Lohuis; David Renz; Bernd Schlögl; Andreas Spring; Alois Wimmer Europa Lehrmittel Verlag (2023) Pehmeäkantinen kirja
Rolf Gscheidle; Tobias Gscheidle; Wolfgang Keil; Rainer Lohuis; David Renz; Bernd Schlögl; Andreas Spring; Alois Wimmer Europa Lehrmittel Verlag (2023) Pehmeäkantinen kirja
Richard Fischer; Andreas Spring; Rolf Gscheidle; Tobias Gscheidle; Uwe Heider; Berthold Hohmann; Wolfgang Keil; R Lohuis Europa Lehrmittel Verlag (2023) Pehmeäkantinen kirja
Uwe Heider; Tobias Gscheidle; David Renz; Andreas Spring; Rolf Gscheidle; Bernhard Steidle; Wolfgang Keil; Richa Fischer Europa Lehrmittel Verlag (2024) Pehmeäkantinen kirja
Uwe Heider; Tobias Gscheidle; David Renz; Andreas Spring; Rolf Gscheidle; Bernhard Steidle; Wolfgang Keil; Richa Fischer Europa Lehrmittel Verlag (2024) Pehmeäkantinen kirja
It took more than 15 years of research, standardization work, and develop ment with an enormous effort of manpower to bring third generation (3G) wireless communication systems to life. The first research work on 3G sys tems started around 1988 [1]. At this time the striking success of second generation (2G) systems, especially of GSM (Global System for Mobile Com munications), was not yet evident. A substantial part of these early research activities took place in Europe and was sponsored by the European Commis sion in the course of research programs such as: Research and Development of Advanced Communications Technologies in Europe (RACE-I, RACE-2) and Advanced Communications Technology and Services (ACTS) [2]. Even before these activities, 3G systems were considered in 1992 at the WARC (World Administrative Radio Conference), where 230 MHz of spectrum around 2 GHz was identified for 3G, and in standardization bodies like the ITU (Interna tional Telecommunications Union) from a global perspective and ETSI (Eu ropean Telecommunications Standards Institute) in Europe. At the present time 3G networks are deployed or are already operating (e. g. , in Japan the first commercial 3G system started its service in October 2001). Unfortu nately, the initial idea to create one single 3G standard to allow for seam less world-wide roaming could not be realized. However, three of the five members of the so-called IMT-2000 (International Mobile Telecommunica tions, the official acronym for 3G systems) family of standards are based on Wideband-CDMA (Code Division Multiple Access).