Difference between revisions of "Mobile Communications/History and Development of Mobile Communication Systems"

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{{Header
|Untermenü=Mobilfunksysteme der 2. und 3. Generation – eine Übersicht
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|Untermenü=Mobile Radio Systems of the 2nd and 3rd Generation - an Overview 
|Vorherige Seite=Das GWSSUS–Kanalmodell
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|Vorherige Seite=The GWSSUS Channel Model
|Nächste Seite=Gemeinsamkeiten von GSM und UMTS
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|Nächste Seite=Similarities Between GSM and UMTS
 
}}
 
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== # ÜBERBLICK ZUM DRITTEN HAUPTKAPITEL # ==
+
== # OVERVIEW OF THE THIRD MAIN CHAPTER # ==
 
<br>
 
<br>
  
Nachfolgend werden die wichtigsten Vertreter der momentan (2011) aktuellen Mobilfunksysteme kurz vorgestellt:
+
In the following, the most important representatives of the mobile radio systems established in 2011 are briefly introduced:
  
*'''GSM''' – ''Global System for Mobile Communications'': zweite Mobilfunkgeneration (2G); ausführliche Beschreibung im dritten Kapitel des Buches [[Beispiele von Nachrichtensystemen]].
+
*$\rm GSM$&nbsp; &ndash; "Global System for Mobile Communications": &nbsp; Second generation of mobile communications&nbsp; $\rm (2G)$; <br>&nbsp; &nbsp; detailed description in the third chapter of the book&nbsp; [[Examples_of_Communication_Systems|"Examples of Communication Systems"]].
  
*'''UMTS''' – ''Universal Mobile Telecommunications System'': dritte Mobilfunkgeneration (3G); ausführliche Beschreibung im vierten Kapitel des Buches [[Beispiele von Nachrichtensystemen]].
+
*$\rm UMTS$&nbsp; &ndash; "Universal Mobile Telecommunications System": &nbsp; Third Mobile Generation&nbsp; $\rm (3G)$; <br>&nbsp; &nbsp; detailed description in the fourth chapter of the book&nbsp; [[Examples_of_Communication_Systems|"Examples of Communication Systems"]].
  
  
Im Einzelnen werden behandelt:
+
In detail are discussed:
  
*Charakteristika und Beispiele der verschiedenen Mobilfunkgenerationen (1G, 2G, 3G),
+
*Characteristics and examples of the different mobile radio generations&nbsp; $\rm (1G, 2G, 3G)$,
*einige Statistiken über die Steigerung der Teilnehmerzahlen im Mobilfunk,
+
*some statistics on the increase in the number of mobile users,
*grundlegende Gemeinsamkeiten und Unterschiede zwischen GSM und UMTS,
+
*basic similarities and differences between GSM and UMTS,
*wichtige Systemkomponenten: Sprach– und Kanalcodierung, Interleaving, Verschlüsselung,
+
*important system components: &nbsp; speech and channel coding, interleaving, encryption,
*die Vielfachzugriffsverfahren FDMA/TDMA (GSM) und CDMA (UMTS),
+
*the multiple access methods FDMA/TDMA (GSM) and CDMA (UMTS),
*die Modulationsverfahrenverfahren GMSK (GSM) und OFDM (UMTS),
+
*the modulation methods GMSK (GSM) and OFDM (UMTS),
*die Weiterentwicklungen HSCSD, GPRS, EDGE (GSM) sowie HSDPA, HSUPA (UMTS).
+
*further developments HSCSD, GPRS, EDGE (GSM) as well as HSDPA, HSUPA (UMTS).
  
  
== Vorläufer der heutigen Mobilfunknetze ==
+
Subsequently, the&nbsp; [[Mobile_Communications/General_Information_on_the_LTE_Mobile_Communications_Standard|"fourth chapter"]]&nbsp; the newer mobile radio system &nbsp;$\rm LTE$&nbsp; ("Long Term Evolution") is discussed.
 +
 
 +
 
 +
== Precursor of today's mobile radio networks ==
 
<br>
 
<br>
Heutzutage (2017) weiß jedes Kind, was Mobilfunk ist, und nur wenige Jugendliche können sich heute vorstellen, dass auch ein Leben ohne Handy, SMS und den unzähligen Mobilfunk&ndash;Features möglich ist. Noch vor zwanzig Jahren war das völlig anders: Nur einige wenige wussten von der Existenz solcher Systeme und noch weniger hatten jemals ein solches Gerät in der Hand.<br>
+
Today (2020) every child knows what mobile radio is, and only a few young people can imagine that life is possible without a smartphone, Facebook and the countless mobile phone features.&nbsp; Twenty years ago, things were completely different: &nbsp; Only a few people knew about the existence of such mobile communication systems and even fewer had ever held a mobile phone in their hands until then.<br>
  
Wichtige Voraussetzung für die Realisierung mobiler Kommunikationssysteme war die Theorie der elektromagnetischen Wellen, die [https://de.wikipedia.org/wiki/James_Clerk_Maxwell James Clerk Maxwell] 1864 entwickelt hat und von [https://de.wikipedia.org/wiki/Heinrich_Hertz Heinrich Hertz] entscheidend weiterentwickelt wurde. Ein weiterer großartiger Pionier der Funktechnik war [https://de.wikipedia.org/wiki/Guglielmo_Marconi Guglielmo Marconi], der 1896 die drahtlose Telegrafie erstmals öffentlich demonstrierte und dem 1901 die erste Transatlantik&ndash;Funkübertragung gelang. 1909 erhielt er für seine Erfindungen den Nobelpreis.<br>
+
An important prerequisite for the realization of mobile communication systems was the theory of electromagnetic waves, which&nbsp; [https://en.wikipedia.org/wiki/James_Clerk_Maxwell $\text{James Clerk Maxwell}$]&nbsp; developed in 1864 and was decisively further developed by&nbsp; [https://en.wikipedia.org/wiki/Heinrich_Hertz $\text{Heinrich Hertz}$].&nbsp; Another great pioneer of radio technology was&nbsp; [https://en.wikipedia.org/wiki/Guglielmo_Marconi $\text{Guglielmo Marconi}$], who in 1896 publicly demonstrated wireless telegraphy for the first time and in 1901 succeeded in making the first transatlantic&ndash;radio transmission.&nbsp; In 1909 he received the Nobel Prize for his inventions.
  
Da die Marconi&ndash;Technik auch in der Transatlantik&ndash;Schifffahrt intensive Anwendung fand und deren Nutzung nach dem Untergang der Titanic (1912) sogar vorgeschrieben wurde, kann man die Entstehung mobiler Kommunikationssysteme etwa auf den Beginn des 20. Jahrhunderts datieren.<br>
+
Since the technology of Marconi was also used intensively in transatlantic shipping and its use was even prescribed after the sinking of the Titanic (1912), the emergence of mobile communication systems can be dated to around the beginning of the 20th century.<br>
  
Das erste Mobilfunknetz in Deutschland war das 1958 in Betrieb genommene und 1977 stillgelegte '''A&ndash;Netz''', das im Frequenzbereich von 156 MHz bis 174 MHz mit analoger Frequenzmodulation (FM) arbeitete und bundesweit von bis zu 11000 Teilnehmern (aber sicher nicht gleichzeitig) genutzt wurde. Die Sendetechnik füllte den Kofferraum großer Limousinen.<br>
+
The first mobile radio network in Germany was the&nbsp; $\text{"A&ndash;Netz"}$, which was put into operation in 1958 and shut down in 1977.&nbsp; It operated in the frequency range from 156 MHz to 174 MHz with analogue frequency modulation (FM) and was used nationwide by up to 11000 subscribers (but certainly not simultaneously).&nbsp; The transmission technology filled the trunk of large limousines.<br>
  
Auch das von 1972 bis 1994 betriebene '''B&ndash;Netz''' basierte auf analoger FM um 150 MHz. Dieses wurde zu seiner Blütezeit um 1985 von 27000 Teilnehmern genutzt und stellte 850 Funkkanäle zur Verfügung, wobei die Wiederverwendung gleicher Frequenzen in genügend weit voneinander entfernten Funkzellen berücksichtigt ist. Das Volumen der Sende&ndash; und Empfangseinrichtungen war aufgrund der zwischenzeitlichen Fortschritte auf dem Gebiet der Mikroelektronik deutlich kleiner als beim A&ndash;Netz.<br>
+
The&nbsp; $\text{"B&ndash;Netz"}$&nbsp; operating from 1972 to 1994 was also based on analogue FM around 150 MHz.&nbsp; At its heyday around 1985, this was used by 27000 subscribers and provided 850 radio channels, already taking into account the reuse of the same frequencies in sufficiently distant radio cells.&nbsp; The volume of the transmitting and receiving equipment was significantly smaller than that of the "A network" due to the progress made in the meantime in the field of microelectronics.<br>
  
Als letztes Vorgängermodell der heutigen Systeme ist das noch ebenfalls analog aufgebaute '''C&ndash;Netz''' in einem Frequenzbereich um 450 MHz zu nennen, das in Deutschland in den Jahren zwischen 1986 und 2000 von der Deutschen Bundespost betrieben wurde. Es hatte 1993 seine maximale Teilnehmerzahl von 850000, bot eine Flächenabdeckung von immerhin 98% und stellte mit &bdquo;Handover&rdquo; und &bdquo;Roaming&rdquo; auch schon einige Features bereit, die bei den nachfolgenden Mobilfunkgenerationen zum Standard wurden.<br>
 
  
Das C&ndash;Netz rechnet man zur '''ersten Mobilfunkgeneration''' wie auch einige andere nahezu zeitgleich entstandene zellulare Systeme in anderen Ländern:
+
The last predecessor model of today's systems is the analogue&nbsp; $\text{"C&ndash;Netz"}$&nbsp; in the frequency range around 450 MHz, which was operated in Germany between 1986 and 2000 by the Deutsche Bundespost.&nbsp; In 1993 it had its maximum number of subscribers of 850000, offered a coverage of 98% and provided some features which became standard for the following generations of mobile phones, for instance "Handover" and "Roaming".<br>
*AMPS (<i><b>A</b>dvanced <b>M</b>obile <b>P</b>hone <b>S</b>ervice</i>), Bell Labs, USA, 1979,<br>
 
*ACS (<i><b>A</b>dvanced <b>C</b>ellular <b>S</b>ytem</i>), Fa. Comvik, Schweden, 1981,<br>
 
*NMT (<i><b>N</b>ordic <b>M</b>obile <b>T</b>elephone</i>), Schweden&ndash;Norwegen&ndash;Dänemark, 1981 und 1986,<br>
 
*TACS (<i><b>T</b>otal <b>A</b>ccess <b>C</b>ommunication <b>S</b>tandard</i>), Großbritanien, 1985,<br>
 
*RTMS (<i><b>R</b>adio <b>T</b>elephone <b>M</b>obile <b>S</b>ystem</i>), Italien, 1985,<br>
 
*RC 2000 (<i><b>R</b>adio <b>C</b>om 2000</i>), Frankreich, 1986.<br>
 
  
== Mobilfunksysteme der zweiten Generation ==
+
The "C network" is considered to be part of the&nbsp; &raquo;'''first generation of mobile communications'''&laquo; &nbsp; as well as some other cellular systems that emerged almost simultaneously in other countries:
 +
*AMPS&nbsp; (<b>A</b>dvanced <b>M</b>obile <b>P</b>hone <b>S</b>ervice), Bell Labs, USA, 1979,<br>
 +
*ACS&nbsp; (<b>A</b>dvanced <b>C</b>ellular <b>S</b>ystem), Comvik, Sweden, 1981,<br>
 +
*NMT&nbsp; (<b>N</b>ordic <b>M</b>obile <b>T</b>elephone), Sweden&ndash;Norway&ndash;Denmark, 1981 and 1986,<br>
 +
*TACS&nbsp; (<b>T</b>otal <b>A</b>ccess <b>C</b>ommunication <b>S</b>tandard), Great Britain, 1985,<br>
 +
*RTMS&nbsp; (<b>R</b>adio <b>T</b>elephones <b>M</b>obile <b>S</b>ystem), Italy, 1985,<br>
 +
*RC 2000&nbsp; (<b>R</b>adio <b>C</b>om 2000), France, 1986.<br>
 +
 
 +
== Second generation mobile radio systems ==
 
<br>
 
<br>
Alle vorne genannten Mobilfunksysteme der ersten Generation '''(1G)''' waren nationale Lösungen mit folgender Konsequenz:
+
All the first generation mobile systems mentioned above&nbsp; $\rm (1G)$&nbsp; were national solutions with the following consequence:
*Es war nicht möglich, zwischen den einzelnen Systemen zu kommunizieren.<br>
+
*It was not possible to communicate between the individual systems.<br>
*Die Endgeräte (von &bdquo;Handy&rdquo; sollte man noch nicht reden) ließen sich nur im jeweiligen Netz einsetzen, wodurch der Markt sehr eingeschränkt war und der wirtschaftliche Erfolg ausblieb.<br><br>
+
*The end devices (one should not talk yet of cellphones) could be used only in the respective network, whereby the market was very limited and the economic success failed to materialize.<br>
  
Anfang der 1980er Jahre gab es schon erste Bestrebungen zu einer Systemvereinheitlichung. Es entstand die zweite Generation '''(2G)''' von Mobilfunksystemen, gekennzeichnet durch
 
*eine durchgehend digitale Sprachübertragung,<br>
 
*die Bereitstellung von Datendiensten.<br><br>
 
  
Bei den Mobilfunksystemen der zweiten Generation war die Sprachübertragung die zentrale Aufgabe und die Datenübertragung eher sekundär, wohingegen ein Kennzeichen der dritten Generation &ndash; zum Beispiel von [[Mobile_Kommunikation/Die_Charakteristika_von_UMTS|UMTS]] &ndash; das so genannte &bdquo;mobile Internet&rdquo; wurde.<br>
+
At the beginning of the 1980s there were already initial efforts to unify the system.&nbsp; The second generation&nbsp; $\rm (2G)$&nbsp; of mobile radio systems was created, characterized by
 +
*a continuous digital voice transmission,<br>
 +
*the provision of data services.<br><br>
  
Der bedeutenste 2G&ndash;Mobilfunkstandard war <b>GSM</b> &ndash; <i><b>G</b>lobal <b>S</b>ystem for <b>M</b>obile Communications</i>. Dieses im Kapitel [[Mobile_Kommunikation/Die_Charakteristika_von_GSM#Systemarchitektur_und_Basiseinheiten_von_GSM|Systemarchitektur und Basiseinheiten von GSM]] vorgestellte System war nicht nur in Europa weit verbreitet, sondern es haben sich diesem Standard auch viele Regionen weltweit angeschlossen. GSM war die am schnellsten wachsende Kommunikationstechnologie aller Zeiten.<br>
+
In the second generation mobile radio systems, voice transmission was the central task and data transmission was rather secondary, whereas a characteristic of the third generation, for example of&nbsp; [[Mobile_Communications/Characteristics_of_UMTS|$\text{UMTS}$]]&nbsp;, was the so-called mobile Internet.<br>
  
Die verschiedenen GSM&ndash;Systeme waren
+
The most important 2G mobile communications standard was&nbsp; $\rm GSM$&nbsp; &ndash; $\rm G\hspace{-0.01cm}$lobal&nbsp; $\rm S\hspace{-0.01cm}$ystem for&nbsp; $\rm M\hspace{-0.01cm}$obile communications.&nbsp; This system presented in the chapter&nbsp; [[Mobile_Communications/Characteristics_of_GSM|"Characteristics of GSM"]]&nbsp; was not only widely used in Europe, but many regions worldwide have also adopted this standard.&nbsp; GSM was the fastest growing communication technology of all times until then.<br>
*<b>GSM 900</b>: Frequenzen um 900 MHz (D&ndash;Netze; in Deutschland TD1 und Vodafone D2),<br>
 
*<b>GSM/DCS 1800</b>: Frequenzbereich um 1.8 GHz (E&ndash;Netze; in Deutschland alle Betreiber),<br>
 
*<b>GSM/PCS 1900</b>: Frequenzbereich um 1.9 GHz (vorwiegend in den USA eingesetzt).<br><br>
 
  
Daneben werden zu den Mobilfunksystemen der zweiten Generation auch gezählt:
+
The different GSM systems were
*das 1993 in Japan in Betrieb gegangene <b>PDC</b>&ndash;Netz (<i><b>P</b>ersonal <b>D</b>igital <b>C</b>ellular</i>),<br>
+
*$\text{GSM 900}$: &nbsp; frequencies around 900 MHz ("D networks"; in Germany TD1 and Vodafone D2),<br>
*der &bdquo;Schnurlos&ndash;Standard&rdquo; <b>DECT</b> (<i><b>D</b>igital <b>E</b>nhanced <b>C</b>ordless <b>T</b>elecommunications</i>),<br>
+
*$\text{GSM/DCS 1800}$: &nbsp; frequency range around 1.8 GHz ("E networks"; in Germany all operators at that time),<br>
*die Satellitensystemstandards <b>LEO</b> (<i><b>L</b>ow <b>E</b>arth <b>O</b>rbit</i>) und <b>MEO</b>  (<i><b>M</b>edium <b>E</b>arth <b>O</b>rbit</i>),<br>
+
*$\text{GSM/PCS 1900}$: &nbsp; frequency range around 1.9 GHz (mainly used in the USA).
*terrestrische Flugfunknetze &nbsp;&#8658;&nbsp; <b>TFTS</b> (<i><b>T</b>errestrical <b>F</b>light <b>T</b>elephone <b>S</b>ystem</i>),<br>
 
*Versuchsnetze in den USA wie <b>D&ndash;AMPS</b> und <b>Qualcomm&ndash;CDMA</b>.<br><br>
 
  
Schließlich zählt man zu den 2G&ndash;Mobilfunksystemen auch &bdquo;Drahtlose Teilnehmeranschlüsse&rdquo; mit sehr begrenzter Mobilität wie <b>WLL</b> (<i><b>W</b>ireless <b>L</b>ocal <b>L</b>oop</i>) und <b>RLL</b> (<i><b>R</b>adio in the <b>L</b>ocal <b>L</b>oop</i>).<br>
 
  
== Die Entstehungsgeschichte von GSM ==
+
In addition, second generation mobile communications systems are also included:
 +
*the&nbsp; $\rm PDC$&ndash;Netz&nbsp; (<b>P</b>ersonal <b>D</b>igital <b>C</b>ellular),<br>
 +
*the cordless standard&nbsp; &#8658; &nbsp; $\rm DECT$&nbsp; (<b>D</b>igital <b>E</b>nhanced <b>C</b>ordless <b>T</b>elecommunications),<br>
 +
*the satellite system standards&nbsp; $\rm LEO$&nbsp; (<b>L</b>ow <b>E</b>arth <b>O</b>rbit)&nbsp; and&nbsp; <b>MEO</b> (<b>M</b>edium <b>E</b>arth <b>O</b>rbit),<br>
 +
*the terrestrial aeronautical radio network&nbsp; &#8658; &nbsp; $\rm TFTS$ (<b>T</b>errestrial <b>F</b>light <b>T</b>elephones <b>S</b>ystem>),<br>
 +
*Test networks in the USA such as&nbsp; $\rm D&ndash;AMPS$&nbsp; and&nbsp; $\text{Qualcomm&ndash;CDMA}$.<br><br>
 +
 
 +
After all, 2G mobile radio systems also include wireless local loops  with very limited mobility such as&nbsp;
 +
*$\rm WLL$&nbsp; (<b>W</b>ireless <b>L</b>ocal <b>L</b>oop)&nbsp; and&nbsp;
 +
*$\rm RLL$&nbsp; (<b>R</b>adio in the <b>L</b>ocal <b>L</b>oop ).
 +
 
 +
 
 +
== The genesis of GSM ==
 
<br>
 
<br>
Der GSM&ndash;Standard wurde um 1990 mit dem Ziel eingeführt, ein einheitliches paneuropäisches mobiles Telefonsystem und &ndash;netz anbieten zu können. Die Nutzung zur Datenübertragung stand nicht im Mittelpunkt, wurde aber durch Zusatzspezifikationen hinsichtlich Datenrate stetig verbessert.<br>
+
The GSM standard was introduced around 1990 with the aim of providing a unified pan-European mobile telephone system and network.&nbsp; The use for data transmission was not the main focus, but was constantly improved by additional specifications regarding data rate.
  
Nachfolgend einige Daten zur historischen Entwicklung von GSM:
+
Below are some data on the historical development of GSM:
*'''1982'''&nbsp;&nbsp;Bei der &bdquo;Conférence Européenne des Postes et Télécommunications&rdquo; (CEPT) wird die <i>Groupe Sp&eacute;cial Mobile</i> &ndash; abgekürzt GSM &ndash; eingerichtet.
+
*'''1982'''&nbsp;&nbsp;At the&nbsp; "Conférence Européenne des Postes et Télécommunications"&nbsp; (CEPT) the&nbsp; "Groupe Sp&eacute;cial Mobile"&nbsp; &ndash; abbreviated GSM &ndash; is established.
*'''1987'''&nbsp;&nbsp;Es wird eine Kooperation zwischen 17 zukünftigen Betreibern aus 15 europäischen Ländern gebildet und mit der GSM&ndash;Spezifikation begonnen.
+
*'''1987'''&nbsp;&nbsp;Cooperation is formed between 17 future operators from fifteen European countries and work is begun on the GSM specification.
  
*'''1990'''&nbsp;&nbsp;Die Phase 1 der GSM 900-Spezifikation (für 900 MHz) wird abgeschlossen. Es beginnt die Anpassung für das System GSM/DCS 1800 (<i>Digital Cellular System</i>) um die Frequenz 1.8 GHz.
+
*'''1990'''&nbsp;&nbsp;Phase 1 of the GSM 900 specification (for 900 MHz) is completed.&nbsp; Matching for the GSM/DCS 1800 system ("Digital Cellular System") around 1.8 GHz begins.
  
*'''1992'''&nbsp;&nbsp;Die meisten europäischen GSM&ndash;Netzbetreiber beginnen den kommerziellen Betrieb  mit Sprachdiensten. Ende 1992 sind bereits dreizehn Netze in sieben Ländern &bdquo;on air&rdquo;.
+
*'''1992'''&nbsp;&nbsp;Most European GSM network operators start commercial operation with voice services.&nbsp; By the end of 1992, thirteen networks in seven countries were on air.
  
*'''1995'''&nbsp;&nbsp;Die Phase 2 der Standardisierung beginnt und beinhaltet Fax, Daten und SMS&ndash;Roaming sowie Anpassungen für GSM/PCS1900, das im selben Jahr in den USA in Betrieb geht.
+
*'''1995'''&nbsp;&nbsp;Phase 2 of standardization begins and includes fax, data and SMS roaming and adaptations for GSM/PCS1900, which goes into operation in the USA in the same year.
  
*'''1999'''&nbsp;&nbsp;Mit der Einführung von WAP (<i>Wireless Application Protocol</i>) wird es erstmals möglich, Inhalte des Internets und andere interaktive Dienstangebote auf Mobilgeräte zu übertragen.
+
*'''1999'''&nbsp;&nbsp;With the introduction of WAP ("Wireless Application Protocol"), it will be possible for the first time to transfer Internet content and other interactive service offerings to mobile devices.
  
*'''1999'''&nbsp;&nbsp;Durch die Einführung von HSCSD (<i>High Speed Circuit&ndash;Switched Data</i>) wird die Datenrate von 9.6 auf 14.4 kbit/s erhöht; durch Bündelung von vier TDMA&ndash;Kanälen weiter auf 57.6 kbit/s.
+
*The introduction of HSCSD ("High Speed Circuit&ndash;Switched Data") increases the data rate from 9.6 to 14.4 kbit/s and further to 57.6 kbit/s by bundling four TDMA&ndash;channels.
  
*'''2000'''&nbsp;&nbsp;Die Erweiterung GPRS (<i>General Packet Radio Service</i>) vereinfacht den drahtlosen Zugang zu paketvermittelten Datennetzen. Die maximale Datenrate beträgt (theoretisch) 171 kbit/s.
+
*'''2000'''&nbsp;&nbsp;The GPRS extension ("General Packet Radio Service") simplifies wireless access to packet-switched data networks.&nbsp; The (theoretically) data rate is 171 kbit/s.
 +
[[File:EN_Mob_T_3_1_S4_v1.png|right|frame|Data rate for GSM and its further developments|class=fit]]
  
*'''2000'''&nbsp;&nbsp;Mit der Phase 2+ wird EDGE (<i>Enhanced Data Rates for GSM Evolution</i>) definiert, womit die GPRS&ndash;Rate theoretisch verdreifacht werden könnte. Tatsächlich erreicht man nur 384 kbit/s.
+
*'''2000'''&nbsp;&nbsp;Phase 2+ defines EDGE ("Enhanced Data Rates for GSM Evolution"), which could theoretically triple the GPRS rate.&nbsp; In reality, however, only 384 kbit/s are actually reached.
  
*'''2006''' &nbsp;&nbsp;T&ndash;Mobile beginnt als erster deutscher Mobilfunkanbieter mit der Bereitstellung von EDGE. In den nächsten Jahren ziehen in Deutschland die Betreiber Vodafone, O2 und E&ndash;Plus nach.
+
*'''2006''' &nbsp;&nbsp;T&ndash;Mobile is the first German mobile phone provider to begin providing EDGE.&nbsp; In the next few years, the operators Vodafone, O2 and E&ndash;Plus will follow suit in Germany.
  
  
Die Grafik zeigt die Entwicklung der GSM&ndash;Datenübertragungsrate in linearem Maßstab. Die Abszisse bezeichnet das Jahr der Markteinführung (in Deutschland), nicht das der Standardisierung. Dazwischen lagen stets etliche Jahre.<br>
 
  
[[File:P ID2193 Mob T 3 1 S4 v1.png|center|frame|Datenrate bei GSM und seinen Weiterentwicklungen|class=fit]]
+
The graph shows the development of the GSMdata transmission rate on a linear scale.&nbsp; The abscissa indicates the year of market launch (in Germany), not the year of standardization.&nbsp; There were always several years in between.
 +
<br clear=all>
  
== Mobilfunksysteme der dritten Generation==
+
== Third generation mobile radio systems==
 
<br>
 
<br>
Schon kurz nach der GSM&ndash;Standardisierung zeigte sich, dass damit der Bandbreitenbedarf zur Nutzung multimedialer Dienste nicht gedeckt werden kann. Die nächste, dritte Generation von Mobilfunksystemen sollte auf dem [[Modulationsverfahren/Aufgaben_und_Klassifizierung#FDMA.2C_TDMA_und_CDMA_.281.29| CDMA&ndash;Prinzip]] (<i>Code Division Multiple Access</i>) basieren. <br>
+
Shortly after the GSM standardization it became apparent that the bandwidth requirements for the use of multimedia services could not be covered.&nbsp; The next, third generation of mobile radio systems should be based on the&nbsp; [[Modulation_Methods/Tasks_and_Classification#FDMA.2C_TDMA.2C_and_CDMA|$\text{CDMA principle}$]]&nbsp; ("Code Division Multiple Access"). <br>
 +
 
 +
Essential preparatory work was:
 +
*'''1949''' &nbsp; First ideas about the CDMA principle by&nbsp; [https://en.wikipedia.org/wiki/Claude_Shannon $\text{Claude Elwood Shannon}$]&nbsp; and&nbsp; [https://en.wikipedia.org/wiki/John_R._Pierce $\text{John Robinson Pierce}$].<br>
 +
 
 +
*'''1970''' &nbsp; Various CDMA developments for military systems, for example&nbsp; [https://en.wikipedia.org/wiki/Global_Positioning_System $\text{GPS}$]&nbsp; ("Global Positioning System").<br>
  
Wesentliche Vorarbeiten waren:
+
*'''1989''' &ndash;'''1992''' &nbsp; Basic research on the characteristics of future mobile radio systems within the framework of the EU programme "RACE&ndash;1"  <br>("Research, Analysis, Communication, Evaluation").<br>
*1949 Erste Ideen zum CDMA&ndash;Verfahren durch Claude E. Shannon und John R. Pierce.<br>
 
  
*1970 Verschiedene CDMA&ndash;Entwicklungen für militärische Systeme, beispielsweise GPS.<br>
+
*'''1992''' &ndash;'''1995''' &nbsp; EU programme "RACE&ndash;2" with focus "Development of system concepts", based on the results of "RACE&ndash;1".<br><br>
  
*1989&ndash;1992 Grundlagenforschung zu den  Eigenschaften zukünftiger Mobilfunksysteme im Rahmen des EU&ndash;Programms RACE&ndash;1 (<i>Research, Analysis, Communication, Evaluation</i>).<br>
+
First considerations on the standard&nbsp; [[Mobile_Communications/Characteristics_of_UMTS#The_IMT-2000_standard|$\text{IMT&ndash;2000}$]]&nbsp; ("International Mobile Telecommunications at 2000 MHz") were made by the ITU in '''1992'''.&nbsp; From this, with&nbsp; [[Mobile_Communications/Characteristics_of_UMTS#System_architecture_and_basic_units_for_UMTS|$\text{UMTS}$]]&nbsp; ("Universal Mobile Telecommunications Systems") the best known mobile radio system of the third generation (3G) developed.&nbsp; However, a number of intermediate steps were still necessary before it could be launched in Germany ('''2004'''):
 +
*'''1996''' &nbsp; Foundation of the UMTS Forum in Zurich &ndash; renaming of the planned European standard "W&ndash;CDMA" to "UMTS".
  
*1992&ndash;1995 EU&ndash;Programm RACE&ndash;2. Schwerpunkt &bdquo;Entwicklung von Systemkonzepten&rdquo;, basierend auf den Ergebnissen von RACE&ndash;1.<br><br>
+
*'''1998''' &nbsp; Adoption of the modes "W&ndash;CDMA" and "TD&ndash;CDMA" into UMTS standard at the ETSI&ndash;SMG meeting in Paris.
  
Erste Überlegungen zum Standard IMT&ndash;2000 (<i>International Mobile Telecommunications at 2000 MHz</i>) wurden von der ITU 1992 angestellt. Daraus entwickelte sich mit UMTS (<i>Universal Mobile Telecommunications Systems</i>) das bekannteste Mobilfunksystem der dritten Generation (3G). Bis zur Markteinführung in Deutschland (2004) waren aber noch einige Zwischenschritte nötig:
+
*'''1998''' &nbsp; Foundation of the 3gpp&ndash;Forum ("3rd Generation Partnership Project") by the committees ETSI&ndash;SMG, T1P1, ARIB TTC and TTA.
*1996 Gründung des UMTS&ndash;Forums in Zürich &ndash; Umbenennung des geplanten europäischen Standards &bdquo;W&ndash;CDMA&rdquo; in &bdquo;UMTS&rdquo;.
 
  
*1998 Übernahme der Modi &bdquo;W&ndash;CDMA&rdquo; und &bdquo;TD&ndash;CDMA&rdquo; in den UMTS&ndash;Standard auf der ETSI&ndash;SMG&ndash;Sitzung in Paris.
+
*'''1999''' &nbsp; Adoption of the UMTS&ndash;R99 standard (Release 1999) by ETSI.&nbsp; This standard is considered the basis for the first available UMTS terminals.
  
*1998 Gründung des 3gpp&ndash;Forums (<i>3rd Generation Partnership Project</i>) durch die Gremien ETSI&ndash;SMG, T1P1, ARIB TTC und TTA.
+
*'''2001''' &nbsp; UMTS Release 4 as a further development of UMTS&ndash;R99:&nbsp; Quality of Service (QoS) is now supported not only on the radio interface but also in the fixed network.
  
*1999 Verabschiedung des Standards UMTS&ndash;R99 (Release 1999) durch die ETSI. Dieser gilt als Basis für die ersten verfügbaren UMTS&ndash;Endgeräte.
+
*'''2001''' &nbsp; First commercial UMTS network of the Norwegian company TELENOR.
  
*2001 UMTS Release 4 als Weiterentwicklung von UMTS&ndash;R99: <i>Quality of Service</i> (QoS) wird nun nicht nur an der Funkschnittstelle, sondern auch im Festnetz unterstützt.
+
*'''2002''' &nbsp; UMTS Release 5:&nbsp; The architecture based on the GSM fixed network is replaced by a completely IP based network.&nbsp; In addition, HSDPA is defined.
  
*2001 Erstes kommerzielle UMTS&ndash;Netz des norwegischen Unternehmens TELENOR.
+
*'''2002''' &nbsp; First voice  and data connection from Nortel Networks and Qualcomm.&nbsp; These companies are considered pioneers in the implementation of UMTS technology.
  
*2002 UMTS Release 5: Die an das GSM&ndash;Festnetz angelehnte Architektur wird durch ein vollständig IP&ndash;basiertes Netz ersetzt. Zusätzlich erfolgt die Definition von HSDPA.
+
*'''2005''' &nbsp; UMTS Release 6, offering users improved QoS and providers more effective resource management.&nbsp; Besides definition of HSUPA.
  
*2002 Erste UMTS&ndash;Sprach&ndash; und Datenverbindung von Nortel Networks und Qualcomm. Damit gelten diese beiden Firmen als Vorreiter bei der Umsetzung der UMTS&ndash;Technologie.
+
*'''2007''' &nbsp; UMTS Release 7:&nbsp; Consideration of real-time applications such as VoIP ("Voice over IP") and "Evolved EDGE", only shortly after the market launch of 2G&ndash;EDGE.
  
*2005 UMTS Release 6, womit dem Nutzer ein verbesserter QoS und dem Anbieter eine effektivere Ressourcenverwaltung geboten wird. Daneben Definition von HSUPA.
 
  
*2007 UMTS Release 7. Berücksichtigung von Realzeitapplikationen wie VoIP (<i>Voice over IP</i>) und <i>Evolved EDGE</i> (nur kurz nach der Markteinführung von 2G&ndash;EDGE).
+
The years in this list refer in each case to the specification.&nbsp; It usually took another two to four years before a further development was actually used.<br>
  
== Mobilfunksysteme der dritten Generation (2) ==
+
Let us briefly summarize the list so far, whereby we refer mainly to the situation in Europe and especially in Germany around the year 2011:<br>
<br>
+
 
Die Jahreszahlen auf der letzten Seite beziehen sich jeweils auf die Spezifizierung. Bis zur tatsächlichen Nutzung einer Weiterentwicklung hat es meist noch zwei bis vier Jahre gedauert.<br>
+
{{BlaueBox|TEXT=
 +
$\text{Definition:}$&nbsp; The&nbsp; &raquo;'''Third generation mobile communications systems'''&laquo;&nbsp; $\rm (3G)$&nbsp; include
 +
*[[Examples_of_Communication_Systems/General_Description_of_UMTS#Frequency_allocation_for_UMTS|$\text{UTRA-FDD}$]]&nbsp; ("UMTS Terrestrial Radio Access&ndash;Frequency Division Duplex") according to the UMTS specifications up to and including Release 7.<br>
  
Fassen wir die bisherige Aufzählung kurz zusammen, wobei wir uns vorwiegend auf die Situation in Europa und insbesondere in Deutschland zum jetzigen Zeitpunkt (2011) beziehen:<br>
+
*This includes&nbsp; [[Examples_of_Communication_Systems/Further_Developments_of_UMTS#High.E2.80.93Speed_Downlink_Packet_Access |$\rm HSDPA$]]&nbsp; ("High Speed Downlink Packet Access") according to Release 5 and&nbsp; [[Examples_of_Communication_Systems/Further_Developments_of_UMTS#High.E2.80.93Speed_Uplink_Packet_Access|$\rm  HSUPA$]]&nbsp; ("High Speed Uplink Packet Access") according to Release 6.<br>
  
Zu den Mobilfunksystemen der dritten Generation (3G) zählt man:
+
*The further development&nbsp; [[Examples_of_Communication_Systems/Further_Developments_of_the_GSM#Enhanced_Data_Rates_for_GSM_Evolution|$\rm  EDGE$]]&nbsp; from GSM (in higher modes with 8&ndash;PSK modulation) is assigned to&nbsp; $\rm 3G$&nbsp; whereas &nbsp; [[Examples_of_Communication_Systems/Further_Developments_of_the_GSM#General_Packet_Radio_Service_.28GPRS.29 | $\rm GPRS$]]&nbsp; still belongs to the&nbsp; $\rm 2G$&nbsp; systems.}}
*[http://en.lntwww.de/Beispiele_von_Nachrichtensystemen/Allgemeine_Beschreibung_von_UMTS#Frequenzspektren_f.C3.BCr_UMTS UTRA&ndash;FDD] (UMTS <i>Terrestrial Radio Access&ndash;Frequency Division Duplex</i>) nach den UMTS&ndash;Spezifikationen bis einschließlich Release 7.<br>
 
  
*Hierin enthalten sind [http://en.lntwww.de/Beispiele_von_Nachrichtensystemen/Weiterentwicklungen_von_UMTS#High.E2.80.93Speed_Downlink_Packet_Access HSDPA] (<i>High Speed Downlink Packet Access</i>) gemäß UMTS Release 5 und [http://en.lntwww.de/Beispiele_von_Nachrichtensystemen/Weiterentwicklungen_von_UMTS#High.E2.80.93Speed_Uplink_Packet_Access HSUPA] (<i>High&ndash;Speed Uplink Packet Access</i>) nach UMTS Release 6.<br>
 
  
*[http://en.lntwww.de/Beispiele_von_Nachrichtensystemen/Weiterentwicklungen_des_GSM#Enhanced_Data_Rates_for_GSM_Evolution EDGE:] Diese GSM&ndash;Weiterentwicklung (in höheren Modi mit 8&ndash;PSK&ndash;Modulation) wird &bdquo;3G&rdquo; zugeordnet, während man zum Beispiel [http://en.lntwww.de/Beispiele_von_Nachrichtensystemen/Weiterentwicklungen_des_GSM#General_Packet_Radio_Service_.28GPRS.29 GPRS] zu den 2G&ndash;Systemen zählt.<br><br>
+
The development of UMTS is far from being completed with the standards mentioned above:
 +
*In December 2008, Release 8 specified, among other things, the variant&nbsp; $\rm E-UTRA$&nbsp; (evolved UTRA), better known as&nbsp; [[Mobile_Communications/General_Information_on_the_LTE_Mobile_Communications_Standard#Essential_properties_of_LTE|$\text{LTE}$]]&nbsp; ("Long Term Evolution").<br>
  
Mit den genannten Standards ist  die Entwicklung von UMTS noch lange nicht abgeschlossen:
+
*Already in March 2011 with the UMTS Release 10, LTE, which had not yet been introduced at all, was then further developed into&nbsp; [[Mobile_Communications/LTE-Advanced_-_a_Further_Development_of_LTE|$\rm LTE-A$]]&nbsp; ("LTE Advanced").<br><br>
*Im Dezember 2008 wurde mit der Release 8 unter anderem die Variante E&ndash;UTRA (<i>evolved UTRA</i>) spezifiziert,  besser bekannt als Long Term Evolution (LTE).<br>
 
  
*Bereits im März 2011 wurde dann mit der UMTS Release 10 das bis dahin noch gar nicht eingeführte LTE zu LTE Advanced (LTE&ndash;A) weiterentwickelt.<br><br>
+
These mobile communications standards, which will be the latest in 2011, are discussed in detail in the fourth main chapter of this book&nbsp; [[Mobile_Communications|"Mobile Communications"]].&nbsp; They belong to the fourth generation of mobile communications systems&nbsp; $\rm (4G)$.&nbsp; Already at this time it was foreseeable that further generations would follow.<br>
  
Diese derzeit (2011) neuesten Mobilfunkstandards werden im Kapitel 4 des Buches ausführlich behandelt. Man zählt sie zur <i>vierten Generation</i> der Mobilfunksysteme (4G). Bereits jetzt ist absehbar, dass noch weitere Generationen folgen werden.<br>
+
But before that, we will deal in a highly compressed form with the following topics (details can be found in the book "Examples of Communication Systems")
 +
*the&nbsp; [[Mobile_Communications/Similarities between_GSM_and_UMTS| $\text{similarities between GSM and UMTS}$]],<br>
  
Vorher beschäftigen wir uns aber in stark komprimierter Form mit
+
*the&nbsp; [[Mobile_Communications/Characteristics_of_GSM#System_architecture_and_basic_units_of_GSM|$\text{characteristics of GSM}$]], and<br>
*den Gemeinsamkeiten zwischen GSM und UMTS [http://en.lntwww.de/Mobile_Kommunikation/Gemeinsamkeiten_von_GSM_und_UMTS#Zellulare_Architektur (Kapitel 3.2),]<br>
 
  
*den Charakteristika von GSM [http://en.lntwww.de/Mobile_Kommunikation/Die_Charakteristika_von_GSM#Systemarchitektur_und_Basiseinheiten_von_GSM (Kapitel 3.3),] sowie<br>
+
*the&nbsp; [[Mobile_Communications/Characteristics_of_UMTS#Requirements_for_third_generation_mobile_radio_systems|$\text{characteristics of UMTS}$]].<br><br>
  
*den Charakteristika von UMTS [http://en.lntwww.de/Mobile_Kommunikation/Die_Charakteristika_von_UMTS#Anforderungen_an_Mobilfunksysteme_der_dritten_Generation (Kapitel 3.4).]<br><br>
+
In the next section, we present some figures published on the Internet to illustrate the success of digital mobile communications in the years up to 2009, with a decline in GSM and a disproportionate increase in UMTS and LTE.
  
Auf den beiden nächsten Seiten belegen wir mit einigen im Internet veröffentlichten Zahlen den Erfolg des digitalen Mobilfunks in den Jahren bis 2009. Für die Zeit danach wird es sicher einen Rückgang hinsichtlich GSM und einen überproportionalen Anstieg bei UMTS und LTE geben.<br>
 
  
== Die Erfolgsgeschichte des digitalen Mobilfunks (1) ==
+
== The success story of digital mobile radio==
 
<br>
 
<br>
Die folgenden Angaben stammen aus verschiedenen im Internet gefundenen Artikeln, zum Beispiel aus [Göt08]<ref>Götze, J.: ''Methoden der Informationstechnik I – Digitale Mobilfunksysteme''.  
+
The following information is taken from the lecture notes&nbsp; [Hin08]<ref name='Hin08'>Hindelang, T.:&nbsp; Mobile Communications.&nbsp;
Vorlesungsmanuskript, Fakultät für Elektrotechnik, Universität Dortmund, 2008.</ref>, [Hin08]<ref>Hindelang, T.: ''Mobile Communications.''
+
Lecture notes. Institute for Communications Engineering. Munich: Technical University of Munich, 2008.</ref>&nbsp; as well as from various articles found on the Internet, for example from&nbsp; [Göt08]<ref name='Göt08'>Götze, J.:&nbsp; Methoden der Informationstechnik I – Digitale Mobilfunksysteme.&nbsp;
Vorlesungsmanuskript. Lehrstuhl für Nachrichtentechnik, Technische Universität München, 2008.</ref> und [Waa10]<ref>Waadt, A.: ''Mobilkommunikation – Mobile Communications. Vorlesungsmanuskript'', Lehrstuhl für Kommunikationstechnik, Universität Duisburg–Essen, 2010.</ref>. Kein einziger Eintrag in den nun folgenden Tabellen geht auf eigene Recherchen der LNTwww&ndash;Autoren zurück.<br>
+
Vorlesungsmanuskript, Fakultät für Elektrotechnik, Universität Dortmund, 2008.</ref>&nbsp;  and&nbsp; [Waa10]<ref name='Waa10'>Waadt, A.: &nbsp;Mobilkommunikation – Mobile Communications.&nbsp; Vorlesungsmanuskript, Lehrstuhl für Kommunikationstechnik, Universität Duisburg–Essen, 2010.</ref>.&nbsp; Not a single entry in any of the tables is based on own research of the LNTww authors.<br>
 +
 
 +
 
 +
&raquo;'''Growth rates of German mobile networks'''&laquo;&nbsp; (as the sum of the four German providers)
 +
 +
[[File:EN_Mob_T_3_1_S5a.png|right|frame|German mobile networks from 1992 to 2008|class=fit]]
 +
*In the years from 1992 to 2008, the number of registered mobile end devices rose from one million to more than 100 million (first line). Since the end of 2005, the number of mobile subscriber lines has already exceeded the population of Germany.<br>
 +
 
 +
*The highest growth rates were in 1992, directly after the introduction of GSM (although still at a low level) and around the turn of the millennium (darker background in line 2).  
 +
*We remember the euphoria of that time shortly before "bursting of the Internet bubble" when the auction of the German UMTS licenses for a total of 20 years duration and 120 MHz bandwidth brought in more than 100,000,000,000 DM (&asymp; 50.8 billion Euro).<br>
 +
 
 +
*But also the growth rates in the new millennium (between 5% and 10%) were remarkable when one considers that in 2008 every person living in Germany, including babies and old people, already owned 1.3 mobile phones on average.
 +
 
 +
*A very special success story was the introduction of short message services&nbsp; $\rm (SMS)$.&nbsp; In 2008, for example, almost 30 billion such short messages were sent in German mobile networks (darker background in line 4).<br>
 +
 
  
[[File:P ID2194 Mob T 3 1 S5a.png|Steigerungsraten der deutschen Mobilfunknetze|class=fit]]<br>
 
  
Die Zahlen der obigen Tabelle mit den Steigerungsraten der deutschen Mobilfunknetze (als die Summe aller Anbieter) werden von den Autoren wie folgt interpretiert:
+
&raquo;'''Development of mobile communications worldwide'''&laquo;&nbsp; (based on the URL&ndash;page of&nbsp; [http://www.gsmworld.com/newsroom/GSMworld])
*In den Jahren von 1992 bis 2008 stieg die Anzahl der registrierten mobilen Endgeräte von einer Million auf mehr als 100 Millionen (erste Zeile). Seit Ende 2005 übersteigt die Anzahl der mobilen Teilnehmeranschlüsse bereits die Einwohnerzahl Deutschlands.<br>
 
  
*Die größten Zuwachsraten gab es 1992 direkt nach der GSM&ndash;Einführung (allerdings noch auf niedrigem Niveau) sowie um die Jahrtausendwende (dunklere Hinterlegungen in der Zeile 2). Wir erinnern uns an die Euphorie dieser Zeit kurz vor &bdquo;Platzen der Internetblase&rdquo;, als die Versteigerung der deutschen UMTS&ndash;Lizenzen für insgesamt 20 Jahre Laufzeit und 120 MHz Bandbreite mehr als 100.000.000.000 DM (&asymp; 50.8 Milliarden Euro) einbrachte.<br>
+
[[File:EN_Mob_T_3_1_S5b.png|right|frame|Mobile subscriber lines worldwide 2007 &ndash; 2009 (GSM and UMTS)|class=fit]]
  
*Aber auch die Zuwachsraten im neuen Jahrtausend (zwischen 5% und 10%) waren beachtlich, wenn man berücksichtigt, dass 2008 jeder in Deutschland Lebende inklusive Säuglingen und Greisen im Mittel schon 1.3 Mobiltelefone besessen hat.<br>
+
*In 2009 there were more than 4.3 billion mobile subscribers worldwide.&nbsp; For comparison: &nbsp; The number of fixed network connections has been just under one billion since 2005 (probably also because a telephone system only counts as one connection), and since then has declined slightly but steadily.<br>
  
*Eine ganz besondere Erfolgsgeschichte war die Einführung der Kurzmitteilungen (englisch: <i>Short Message Services</i>, SMS). Beispielsweise wurden 2008 in deutschen Mobilfunknetzen fast 30 Milliarden solcher Kurznachrichten verschickt (dunklere Hinterlegung in Zeile 4).<br><br>
+
*The annual growth rates worldwide have recently been well over 20% and thus above the figure for Germany.&nbsp; This can certainly be explained by the fact that in some countries in 2009 there was not yet as much saturation as in Central Europe.<br>
  
== Die Erfolgsgeschichte des digitalen Mobilfunks (2) ==
+
*The GSM share was stable at around 80% between 2006 and 2009.&nbsp; The UMTS share (including HSDPA) increased from 4% to 9% from 2007 to 2009, mainly at the expense of the Japanese "PDC" and the American "cdma2000" systems.
<br>
 
Betrachten wir nun die Entwicklung der Mobilkommunikation weltweit. Die Tabellen auf dieser Seite sind meist der URL&ndash;Seite von [http://www.gsmworld.com/newsroom/ GSMworld] entnommen.<br>
 
  
[[File:P ID2195 Mob T 3 1 S5b.png|Mobile Teilnehmeranschlüsse weltweit (GSM und UMTS)|class=fit]]<br>
 
  
Die Aussagen der oberen Tabelle lassen sich wie folgt zusammenfassen:
 
*2009 gab es weltweit mehr als 4.3 Milliarden mobile Teilnehmer. Zum Vergleich: Die Anzahl der Festnetzanschlüsse lag seit 2005 jeweils knapp unter einer Milliarde (wohl auch, weil eine Telefonanlage nur als ein Anschluss zählt), und nahm seitdem geringfügig, aber stetig ab.<br>
 
  
*Die jährlichen Steigerungsraten weltweit lagen zuletzt durchaus über 20% und damit über dem für Deutschland geltenden Wert. Dies lässt sich sicher damit erklären, dass in manchen Ländern 2009 noch keine solche Sättigung festzustellen war wie in Mitteleuropa.<br>
+
&raquo;'''Distribution of mobile local loops on the individual continents'''&laquo;&nbsp; (figures from 2008 and 2009)
  
*Der GSM&ndash;Anteil lag zwischen 2006 und 2009 stabil bei etwa 80%. Der UMTS&ndash;Anteil (inkl. HSDPA) stieg von 2007 bis 2009 von 4% auf 9%, im wesentlichen auf Kosten des japanischen &bdquo;PDC&rdquo; und des amerikanischen Systems &bdquo;cdma2000&rdquo;.<br><br>
+
[[File:EN_Mob_T_3_1_S5c_v3.png|right|frame|Mobile subscriber lines (2008/2009) in the different continents|class=fit]]
  
[[File:P ID2196 Mob T 3 1 S5c.png|Mobile Teilnehmeranschlüsse in den einzelnen Kontinenten|class=fit]]<br>
+
*The most interesting market for mobile communication systems is clearly Asia. In 2009, 44% of all participants were already registered there and the percentage has certainly risen further in the meantime.<br>
  
Aus der unteren Tabelle geht hervor, wie sich die Anzahl mobiler Teilnehmeranschlüsse auf die einzelnen Kontinente verteilt. Diese Zahlen aus den Jahren 2008 und 2009 lassen sich nach unserer Auffassung wie folgt zusammenfassen:
+
*It should also be noted that the percentage increase in Asia's share from 42.2% (2008) to 44% (2009) meant an increase of 350 million lines in absolute terms.<br>
*Der interessanteste Markt für mobile Kommunikationssysteme ist eindeutig Asien. 2009 waren bereits 44% aller Teilnehmer dort registriert und der prozentuale Anteil wird weiter zunehmen.<br>
 
  
*Zu berücksichtigen ist auch, dass der prozentuale Anstieg des Asien&ndash;Anteils von 42.2% (2008) auf 44% (2009) in absoluten Zahlen einen Anstieg um 350 Millionen Anschlüsse bedeutet hat.<br>
+
*The relative market share of Western Europe fell from 13.4% (2008) to 11.8% (2009), although the absolute figure rose from 493 million to 510 million.&nbsp; The same tendency could be seen in other "first&ndash;world regions" like USA and Canada.<br>
  
*Der relative Marktanteil von Westeuropa ist von 13.4% (2008) auf 11.8% (2009) gesunken, obwohl die absolute Zahl von 493 Millionen auf 510 Millionen gestiegen ist. Die gleiche Tendenz lässt sich auch bei anderen &bdquo;Erste&ndash;Welt&ndash;Regionen&rdquo; wie USA/Kanada ablesen.<br>
 
  
== Aufgaben ==
+
== Exercices for the chapter==
 
<br>
 
<br>
[[Aufgaben:3.1 Entwicklungen des Mobilfunks|A3.1 Entwicklungen des Mobilfunks]]
+
[[Aufgaben:Exercise 3.1: Development of the Mobile Network]]
  
==Quellenverzeichnis==
+
==Bibliography==
  
 
<references/>
 
<references/>
  
 
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{{Display}}

Latest revision as of 14:35, 20 February 2023

# OVERVIEW OF THE THIRD MAIN CHAPTER #


In the following, the most important representatives of the mobile radio systems established in 2011 are briefly introduced:

  • $\rm GSM$  – "Global System for Mobile Communications":   Second generation of mobile communications  $\rm (2G)$;
        detailed description in the third chapter of the book  "Examples of Communication Systems".
  • $\rm UMTS$  – "Universal Mobile Telecommunications System":   Third Mobile Generation  $\rm (3G)$;
        detailed description in the fourth chapter of the book  "Examples of Communication Systems".


In detail are discussed:

  • Characteristics and examples of the different mobile radio generations  $\rm (1G, 2G, 3G)$,
  • some statistics on the increase in the number of mobile users,
  • basic similarities and differences between GSM and UMTS,
  • important system components:   speech and channel coding, interleaving, encryption,
  • the multiple access methods FDMA/TDMA (GSM) and CDMA (UMTS),
  • the modulation methods GMSK (GSM) and OFDM (UMTS),
  • further developments HSCSD, GPRS, EDGE (GSM) as well as HSDPA, HSUPA (UMTS).


Subsequently, the  "fourth chapter"  the newer mobile radio system  $\rm LTE$  ("Long Term Evolution") is discussed.


Precursor of today's mobile radio networks


Today (2020) every child knows what mobile radio is, and only a few young people can imagine that life is possible without a smartphone, Facebook and the countless mobile phone features.  Twenty years ago, things were completely different:   Only a few people knew about the existence of such mobile communication systems and even fewer had ever held a mobile phone in their hands until then.

An important prerequisite for the realization of mobile communication systems was the theory of electromagnetic waves, which  $\text{James Clerk Maxwell}$  developed in 1864 and was decisively further developed by  $\text{Heinrich Hertz}$.  Another great pioneer of radio technology was  $\text{Guglielmo Marconi}$, who in 1896 publicly demonstrated wireless telegraphy for the first time and in 1901 succeeded in making the first transatlantic–radio transmission.  In 1909 he received the Nobel Prize for his inventions.

Since the technology of Marconi was also used intensively in transatlantic shipping and its use was even prescribed after the sinking of the Titanic (1912), the emergence of mobile communication systems can be dated to around the beginning of the 20th century.

The first mobile radio network in Germany was the  $\text{"A–Netz"}$, which was put into operation in 1958 and shut down in 1977.  It operated in the frequency range from 156 MHz to 174 MHz with analogue frequency modulation (FM) and was used nationwide by up to 11000 subscribers (but certainly not simultaneously).  The transmission technology filled the trunk of large limousines.

The  $\text{"B–Netz"}$  operating from 1972 to 1994 was also based on analogue FM around 150 MHz.  At its heyday around 1985, this was used by 27000 subscribers and provided 850 radio channels, already taking into account the reuse of the same frequencies in sufficiently distant radio cells.  The volume of the transmitting and receiving equipment was significantly smaller than that of the "A network" due to the progress made in the meantime in the field of microelectronics.


The last predecessor model of today's systems is the analogue  $\text{"C–Netz"}$  in the frequency range around 450 MHz, which was operated in Germany between 1986 and 2000 by the Deutsche Bundespost.  In 1993 it had its maximum number of subscribers of 850000, offered a coverage of 98% and provided some features which became standard for the following generations of mobile phones, for instance "Handover" and "Roaming".

The "C network" is considered to be part of the  »first generation of mobile communications«   as well as some other cellular systems that emerged almost simultaneously in other countries:

  • AMPS  (Advanced Mobile Phone Service), Bell Labs, USA, 1979,
  • ACS  (Advanced Cellular System), Comvik, Sweden, 1981,
  • NMT  (Nordic Mobile Telephone), Sweden–Norway–Denmark, 1981 and 1986,
  • TACS  (Total Access Communication Standard), Great Britain, 1985,
  • RTMS  (Radio Telephones Mobile System), Italy, 1985,
  • RC 2000  (Radio Com 2000), France, 1986.

Second generation mobile radio systems


All the first generation mobile systems mentioned above  $\rm (1G)$  were national solutions with the following consequence:

  • It was not possible to communicate between the individual systems.
  • The end devices (one should not talk yet of cellphones) could be used only in the respective network, whereby the market was very limited and the economic success failed to materialize.


At the beginning of the 1980s there were already initial efforts to unify the system.  The second generation  $\rm (2G)$  of mobile radio systems was created, characterized by

  • a continuous digital voice transmission,
  • the provision of data services.

In the second generation mobile radio systems, voice transmission was the central task and data transmission was rather secondary, whereas a characteristic of the third generation, for example of  $\text{UMTS}$ , was the so-called mobile Internet.

The most important 2G mobile communications standard was  $\rm GSM$  – $\rm G\hspace{-0.01cm}$lobal  $\rm S\hspace{-0.01cm}$ystem for  $\rm M\hspace{-0.01cm}$obile communications.  This system presented in the chapter  "Characteristics of GSM"  was not only widely used in Europe, but many regions worldwide have also adopted this standard.  GSM was the fastest growing communication technology of all times until then.

The different GSM systems were

  • $\text{GSM 900}$:   frequencies around 900 MHz ("D networks"; in Germany TD1 and Vodafone D2),
  • $\text{GSM/DCS 1800}$:   frequency range around 1.8 GHz ("E networks"; in Germany all operators at that time),
  • $\text{GSM/PCS 1900}$:   frequency range around 1.9 GHz (mainly used in the USA).


In addition, second generation mobile communications systems are also included:

  • the  $\rm PDC$–Netz  (Personal Digital Cellular),
  • the cordless standard  ⇒   $\rm DECT$  (Digital Enhanced Cordless Telecommunications),
  • the satellite system standards  $\rm LEO$  (Low Earth Orbit)  and  MEO (Medium Earth Orbit),
  • the terrestrial aeronautical radio network  ⇒   $\rm TFTS$ (Terrestrial Flight Telephones System>),
  • Test networks in the USA such as  $\rm D–AMPS$  and  $\text{Qualcomm–CDMA}$.

After all, 2G mobile radio systems also include wireless local loops with very limited mobility such as 

  • $\rm WLL$  (Wireless Local Loop)  and 
  • $\rm RLL$  (Radio in the Local Loop ).


The genesis of GSM


The GSM standard was introduced around 1990 with the aim of providing a unified pan-European mobile telephone system and network.  The use for data transmission was not the main focus, but was constantly improved by additional specifications regarding data rate.

Below are some data on the historical development of GSM:

  • 1982  At the  "Conférence Européenne des Postes et Télécommunications"  (CEPT) the  "Groupe Spécial Mobile"  – abbreviated GSM – is established.
  • 1987  Cooperation is formed between 17 future operators from fifteen European countries and work is begun on the GSM specification.
  • 1990  Phase 1 of the GSM 900 specification (for 900 MHz) is completed.  Matching for the GSM/DCS 1800 system ("Digital Cellular System") around 1.8 GHz begins.
  • 1992  Most European GSM network operators start commercial operation with voice services.  By the end of 1992, thirteen networks in seven countries were on air.
  • 1995  Phase 2 of standardization begins and includes fax, data and SMS roaming and adaptations for GSM/PCS1900, which goes into operation in the USA in the same year.
  • 1999  With the introduction of WAP ("Wireless Application Protocol"), it will be possible for the first time to transfer Internet content and other interactive service offerings to mobile devices.
  • The introduction of HSCSD ("High Speed Circuit–Switched Data") increases the data rate from 9.6 to 14.4 kbit/s and further to 57.6 kbit/s by bundling four TDMA–channels.
  • 2000  The GPRS extension ("General Packet Radio Service") simplifies wireless access to packet-switched data networks.  The (theoretically) data rate is 171 kbit/s.
Data rate for GSM and its further developments
  • 2000  Phase 2+ defines EDGE ("Enhanced Data Rates for GSM Evolution"), which could theoretically triple the GPRS rate.  In reality, however, only 384 kbit/s are actually reached.
  • 2006   T–Mobile is the first German mobile phone provider to begin providing EDGE.  In the next few years, the operators Vodafone, O2 and E–Plus will follow suit in Germany.


The graph shows the development of the GSMdata transmission rate on a linear scale.  The abscissa indicates the year of market launch (in Germany), not the year of standardization.  There were always several years in between.

Third generation mobile radio systems


Shortly after the GSM standardization it became apparent that the bandwidth requirements for the use of multimedia services could not be covered.  The next, third generation of mobile radio systems should be based on the  $\text{CDMA principle}$  ("Code Division Multiple Access").

Essential preparatory work was:

  • 1970   Various CDMA developments for military systems, for example  $\text{GPS}$  ("Global Positioning System").
  • 19891992   Basic research on the characteristics of future mobile radio systems within the framework of the EU programme "RACE–1"
    ("Research, Analysis, Communication, Evaluation").
  • 19921995   EU programme "RACE–2" with focus "Development of system concepts", based on the results of "RACE–1".

First considerations on the standard  $\text{IMT–2000}$  ("International Mobile Telecommunications at 2000 MHz") were made by the ITU in 1992.  From this, with  $\text{UMTS}$  ("Universal Mobile Telecommunications Systems") the best known mobile radio system of the third generation (3G) developed.  However, a number of intermediate steps were still necessary before it could be launched in Germany (2004):

  • 1996   Foundation of the UMTS Forum in Zurich – renaming of the planned European standard "W–CDMA" to "UMTS".
  • 1998   Adoption of the modes "W–CDMA" and "TD–CDMA" into UMTS standard at the ETSI–SMG meeting in Paris.
  • 1998   Foundation of the 3gpp–Forum ("3rd Generation Partnership Project") by the committees ETSI–SMG, T1P1, ARIB TTC and TTA.
  • 1999   Adoption of the UMTS–R99 standard (Release 1999) by ETSI.  This standard is considered the basis for the first available UMTS terminals.
  • 2001   UMTS Release 4 as a further development of UMTS–R99:  Quality of Service (QoS) is now supported not only on the radio interface but also in the fixed network.
  • 2001   First commercial UMTS network of the Norwegian company TELENOR.
  • 2002   UMTS Release 5:  The architecture based on the GSM fixed network is replaced by a completely IP based network.  In addition, HSDPA is defined.
  • 2002   First voice and data connection from Nortel Networks and Qualcomm.  These companies are considered pioneers in the implementation of UMTS technology.
  • 2005   UMTS Release 6, offering users improved QoS and providers more effective resource management.  Besides definition of HSUPA.
  • 2007   UMTS Release 7:  Consideration of real-time applications such as VoIP ("Voice over IP") and "Evolved EDGE", only shortly after the market launch of 2G–EDGE.


The years in this list refer in each case to the specification.  It usually took another two to four years before a further development was actually used.

Let us briefly summarize the list so far, whereby we refer mainly to the situation in Europe and especially in Germany around the year 2011:

$\text{Definition:}$  The  »Third generation mobile communications systems«  $\rm (3G)$  include

  • $\text{UTRA-FDD}$  ("UMTS Terrestrial Radio Access–Frequency Division Duplex") according to the UMTS specifications up to and including Release 7.
  • This includes  $\rm HSDPA$  ("High Speed Downlink Packet Access") according to Release 5 and  $\rm HSUPA$  ("High Speed Uplink Packet Access") according to Release 6.
  • The further development  $\rm EDGE$  from GSM (in higher modes with 8–PSK modulation) is assigned to  $\rm 3G$  whereas   $\rm GPRS$  still belongs to the  $\rm 2G$  systems.


The development of UMTS is far from being completed with the standards mentioned above:

  • In December 2008, Release 8 specified, among other things, the variant  $\rm E-UTRA$  (evolved UTRA), better known as  $\text{LTE}$  ("Long Term Evolution").
  • Already in March 2011 with the UMTS Release 10, LTE, which had not yet been introduced at all, was then further developed into  $\rm LTE-A$  ("LTE Advanced").

These mobile communications standards, which will be the latest in 2011, are discussed in detail in the fourth main chapter of this book  "Mobile Communications".  They belong to the fourth generation of mobile communications systems  $\rm (4G)$.  Already at this time it was foreseeable that further generations would follow.

But before that, we will deal in a highly compressed form with the following topics (details can be found in the book "Examples of Communication Systems")

In the next section, we present some figures published on the Internet to illustrate the success of digital mobile communications in the years up to 2009, with a decline in GSM and a disproportionate increase in UMTS and LTE.


The success story of digital mobile radio


The following information is taken from the lecture notes  [Hin08][1]  as well as from various articles found on the Internet, for example from  [Göt08][2]  and  [Waa10][3].  Not a single entry in any of the tables is based on own research of the LNTww authors.


»Growth rates of German mobile networks«  (as the sum of the four German providers)

German mobile networks from 1992 to 2008
  • In the years from 1992 to 2008, the number of registered mobile end devices rose from one million to more than 100 million (first line). Since the end of 2005, the number of mobile subscriber lines has already exceeded the population of Germany.
  • The highest growth rates were in 1992, directly after the introduction of GSM (although still at a low level) and around the turn of the millennium (darker background in line 2).
  • We remember the euphoria of that time shortly before "bursting of the Internet bubble" when the auction of the German UMTS licenses for a total of 20 years duration and 120 MHz bandwidth brought in more than 100,000,000,000 DM (≈ 50.8 billion Euro).
  • But also the growth rates in the new millennium (between 5% and 10%) were remarkable when one considers that in 2008 every person living in Germany, including babies and old people, already owned 1.3 mobile phones on average.
  • A very special success story was the introduction of short message services  $\rm (SMS)$.  In 2008, for example, almost 30 billion such short messages were sent in German mobile networks (darker background in line 4).


»Development of mobile communications worldwide«  (based on the URL–page of  [1])

Mobile subscriber lines worldwide 2007 – 2009 (GSM and UMTS)
  • In 2009 there were more than 4.3 billion mobile subscribers worldwide.  For comparison:   The number of fixed network connections has been just under one billion since 2005 (probably also because a telephone system only counts as one connection), and since then has declined slightly but steadily.
  • The annual growth rates worldwide have recently been well over 20% and thus above the figure for Germany.  This can certainly be explained by the fact that in some countries in 2009 there was not yet as much saturation as in Central Europe.
  • The GSM share was stable at around 80% between 2006 and 2009.  The UMTS share (including HSDPA) increased from 4% to 9% from 2007 to 2009, mainly at the expense of the Japanese "PDC" and the American "cdma2000" systems.


»Distribution of mobile local loops on the individual continents«  (figures from 2008 and 2009)

Mobile subscriber lines (2008/2009) in the different continents
  • The most interesting market for mobile communication systems is clearly Asia. In 2009, 44% of all participants were already registered there and the percentage has certainly risen further in the meantime.
  • It should also be noted that the percentage increase in Asia's share from 42.2% (2008) to 44% (2009) meant an increase of 350 million lines in absolute terms.
  • The relative market share of Western Europe fell from 13.4% (2008) to 11.8% (2009), although the absolute figure rose from 493 million to 510 million.  The same tendency could be seen in other "first–world regions" like USA and Canada.


Exercices for the chapter


Exercise 3.1: Development of the Mobile Network

Bibliography

  1. Hindelang, T.:  Mobile Communications.  Lecture notes. Institute for Communications Engineering. Munich: Technical University of Munich, 2008.
  2. Götze, J.:  Methoden der Informationstechnik I – Digitale Mobilfunksysteme.  Vorlesungsmanuskript, Fakultät für Elektrotechnik, Universität Dortmund, 2008.
  3. Waadt, A.:  Mobilkommunikation – Mobile Communications.  Vorlesungsmanuskript, Lehrstuhl für Kommunikationstechnik, Universität Duisburg–Essen, 2010.