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DTSTART:20251026T020000
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DTSTAMP:20260325T173209Z
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DTSTART;TZID=Europe/Berlin:20260325T170000
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DESCRIPTION:Mobile communications developed in the last decades from narrow
 band analog voice-oriented systems to very broadband digital systems for a
  wide range of services and applications. The first to the fourth generati
 ons of mobile communication systems were designed for communication purpos
 es\, mainly for human beings. The transmitted data volume via mobile commu
 nication systems has been growing exponentially for many years\, while tod
 ay the growth rate is declining.\n\n5G systems provided a paradigm shift t
 o support many vertical sectors in society and economy by additional commu
 nication purposes between machines and between humans and machines. This r
 esults in challenging requirements in terms of throughput\, latency\, capa
 city\, reliability\, connection density\, energy efficiency\, etc. Exempla
 ry vertical application domains are factories\, energy\, health\, automoti
 ve and media and entertainment. Autonomous driving is an important applica
 tion domain. Studies predict a huge economic impact on the GDP by applying
  5G in vertical sectors. 5G is integrating different communication systems
 \, including non-terrestrial systems (satellite systems)\, to support full
  area coverage and the required high system capacity where needed. With re
 spect to the challenging requirements\, additional frequency spectrum\, ad
 vanced antenna concepts and cloud technologies for the necessary computing
  power are applied.\n\nDrivers for 6G are megatrends\, including the digit
 alization of society and economy and advanced applications like the consum
 er\, enterprise and industrial metaverse. Compared to 5G this requires eve
 n more challenging requirements\, which are currently discussed and agreed
  at the global level in ITU-R (International Telecommunication Union – R
 adiocommunication Sector). It is bringing together the physical world (har
 dware systems)\, the digital world (software systems) and the human world.
  With increasing computing power in centralized and edge clouds and AI/ML 
 (artificial intelligence / machine learning) algorithms the network intell
 igence is significantly increased for many new applications like digital t
 wins and networks as a sensor. Terrestrial and non-terrestrial networks ar
 e integrated in the sense of three-dimensional networks including planes\,
  drones\, balloons\, and satellite systems in different LEO (low earth)\, 
 MEO (medium earth) and GEO (geostationary) orbits.\n\nResearch and develop
 ment of these systems is supported in Europe by collaborative research pro
 grams for system concepts\, the global regulatory process towards the iden
 tification of additional frequency spectrum in ITU WRCs (World Radiocommun
 ication Conferences) and the global specification process in 3GPP. The fir
 st commercial deployment of 6G systems is expected around 2030.\n\nSpeaker
 (s): Dr. Werner Mohr\n\nVirtual: https://events.vtools.ieee.org/m/542575
LOCATION:Virtual: https://events.vtools.ieee.org/m/542575
ORGANIZER:heracletus@hotmail.com
SEQUENCE:27
SUMMARY:Webinar: &quot;5G and 6G mobile communications&quot;
URL;VALUE=URI:https://events.vtools.ieee.org/m/542575
X-ALT-DESC:Description: &lt;br /&gt;&lt;p&gt;Mobile communications developed in the las
 t decades from narrowband analog voice-oriented systems to very broadband 
 digital systems for a wide range of services and applications. The first t
 o the fourth generations of mobile communication systems were designed for
  communication purposes\, mainly for human beings. The transmitted data vo
 lume via mobile communication systems has been growing exponentially for m
 any years\, while today the growth rate is declining.&lt;/p&gt;\n&lt;p&gt;5G systems p
 rovided a paradigm shift to support many vertical sectors in society and e
 conomy by additional communication purposes between machines and between h
 umans and machines. This results in challenging requirements in terms of t
 hroughput\, latency\, capacity\, reliability\, connection density\, energy
  efficiency\, etc. Exemplary vertical application domains are factories\, 
 energy\, health\, automotive and media and entertainment. Autonomous drivi
 ng is an important application domain. Studies predict a huge economic imp
 act on the GDP by applying 5G in vertical sectors. 5G is integrating diffe
 rent communication systems\, including non-terrestrial systems (satellite 
 systems)\, to support full area coverage and the required high system capa
 city where needed. With respect to the challenging requirements\, addition
 al frequency spectrum\, advanced antenna concepts and cloud technologies f
 or the necessary computing power are applied.&lt;/p&gt;\n&lt;p&gt;Drivers for 6G are m
 egatrends\, including the digitalization of society and economy and advanc
 ed applications like the consumer\, enterprise and industrial metaverse. C
 ompared to 5G this requires even more challenging requirements\, which are
  currently discussed and agreed at the global level in ITU-R (Internationa
 l Telecommunication Union &amp;ndash\; Radiocommunication Sector). It is bring
 ing together the physical world (hardware systems)\, the digital world (so
 ftware systems) and the human world. With increasing computing power in ce
 ntralized and edge clouds and AI/ML (artificial intelligence / machine lea
 rning) algorithms the network intelligence is significantly increased for 
 many new applications like digital twins and networks as a sensor. Terrest
 rial and non-terrestrial networks are integrated in the sense of three-dim
 ensional networks including planes\, drones\, balloons\, and satellite sys
 tems in different LEO (low earth)\, MEO (medium earth) and GEO (geostation
 ary) orbits.&lt;/p&gt;\n&lt;p&gt;Research and development of these systems is supporte
 d in Europe by collaborative research programs for system concepts\, the g
 lobal regulatory process towards the identification of additional frequenc
 y spectrum in ITU WRCs (World Radiocommunication Conferences) and the glob
 al specification process in 3GPP. The first commercial deployment of 6G sy
 stems is expected around 2030.&lt;/p&gt;
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