Evolution of Mobile Communication from 1(G) to 4G, 5G, 6G, 7G …

http://vitorr.com/post-details.php?postid=2615

The cellular wireless Generation (G) generally refers to a change in the nature of the system, speed, technology and frequency. Each generation have some standards, capacities, techniques and new features which differentiate it from the previous one.

Now 5G is hot technology at the top of the hype cycle. But that’s not the end of story, because when we will see that 5G does not fullfill all the promises, we start looking for to implement next version after it: 6G.

370 Comments

  1. Tomi Engdahl says:

    Sixth-Generation Networks Must Get Creative to Meet Future Demands
    July 27, 2023
    2
    The complexity of 6G networks, which will be a boon to industrial and healthcare spaces, among others, will require innovative approaches to develop compatible systems, especially in terms of AI and ML.
    https://www.electronicdesign.com/technologies/communications/article/21270386/benchmark-sixthgeneration-networks-must-get-creative-to-meet-future-demands?utm_source=EG+ED+Connected+Solutions&utm_medium=email&utm_campaign=CPS230727090&o_eid=7211D2691390C9R&rdx.identpull=omeda|7211D2691390C9R&oly_enc_id=7211D2691390C9R

    Reply
  2. Tomi Engdahl says:

    Sixth-Generation Networks Push New Boundaries
    Aug. 2, 2023
    The complexity of 6G networks, which will be a boon to industrial and healthcare spaces, among others, will require innovative approaches to develop compatible systems, especially in terms of AI and ML.
    https://www.mwrf.com/technologies/components/article/21270393/benchmark-sixthgeneration-networks-push-new-boundaries?utm_source=RF+MWRF+Today&utm_medium=email&utm_campaign=CPS230728027&o_eid=7211D2691390C9R&rdx.identpull=omeda|7211D2691390C9R&oly_enc_id=7211D2691390C9R

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  3. Tomi Engdahl says:

    The 7 Pillars of 5G/6G RF System Design (Part 2): RF Power
    Aug. 3, 2023
    How does power consumption create a set of complex, interrelated conundrums for 5G system design engineers?
    https://www.mwrf.com/technologies/embedded/software/article/21270823/ansys-the-7-pillars-of-5g6g-rf-system-design-part-2-rf-power?utm_source=RF+MWRF+Today&utm_medium=email&utm_campaign=CPS230804056&o_eid=7211D2691390C9R&rdx.identpull=omeda|7211D2691390C9R&oly_enc_id=7211D2691390C9R

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  4. Tomi Engdahl says:

    Robottiauto saa 6G-yhteydet liikennetietoihin
    https://www.uusiteknologia.fi/2023/09/25/robottiauto-saa-6g-yhteydet-liikennetietoihin/

    Suomi etenee nopeasti seuraavan sukupolven kännykkäyhteyksissä. Oulun yliopiston uusimmassa 6G Visible -projektissa yhdistyvät kehitteillä oleva 6G-kännykkätekniikat ja autonomiset autot. Yliopiston ja ilmatieteen laitoksen lisäksi sivutukea antavat monet suomalaisyritykset Dimecc-teknolofgiayhteisöstä oululaiseen kehittäjäyritys Elektrobittiin.

    Uuden 6G Visible -projektin päätavoite on selvittää 6G-teknologian mahdollisuuksia ajoneuvojen itsenäisen ajamisen kehittämisessä ja itsenäisen ajamisen 6G-teknologialle asettamia vaatimuksia. Tutkimuksessa keskitytään tulevaisuuden autojen ohjelmistoratkaisuihin.
    Oulun yliopiston elektroniikalla ryyditettyä testiautoa käytetään laajemminkin 6G Flagship -hankkeen projekteissa. Kuva: Oulun yliopisto.

    ”Tutkimuksessa pyrimme selvittämään laajennetun liikennetilannetiedon eri lähteiden yhdistämisen ja mahdollisimman tehokkaat tiedonsiirtotavat sekä tiedon jalostamisen autonomisen ajamisen mahdollistamiseksi’’, kertoo projektin vastuullinen johtaja, dosentti Kari Liukkunen Oulun yliopiston Empiirinen ohjelmistotuotanto ohjelmistoissa, järjestelmissä ja palveluissa -tutkimusyksiköstä (M3S).

    6G Visible -projektin tutkimuksen osapuolina ovat rahoitusosuuksillaan Oulun yliopisto ja Ilmatieteen laitos.

    https://www.oulu.fi/en/university/faculties-and-units/faculty-information-technology-and-electrical-engineering/empirical-software-engineering-software-systems-and-services

    Reply
  5. Tomi Engdahl says:

    Oulussa tutkitaan, miten 6G-verkot auttavat robottiautoja
    https://etn.fi/index.php/13-news/15357-oulussa-tutkitaan-miten-6g-verkot-auttavat-robottiautoja

    Oulun yliopistossa 6G-tutkimus on jo pitkällä. M3S-tutkimusryhmä on yksi Euroopan suurimmista ohjelmistoalan tutkimusyksiköistä, jossa on erikoistuttu muun muassa autojen ohjelmistoihin. Alkaneen 6G Visible -projektin päätavoite on selvittää 6G-teknologian mahdollisuuksia ajoneuvojen itsenäisen ajamisen kehittämisessä ja itsenäisen ajamisen 6G-teknologialle asettamia vaatimuksia.

    Tutkimuksessa keskitytään erityisesti ohjelmistoratkaisuihin, sillä nykyaikainen auto on laaja ohjelmistoalusta, jonka toiminnalle, luotettavuudelle ja turvallisuudelle autonominen ajaminen asettaa erityisiä vaatimuksia.

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  6. Tomi Engdahl says:

    Next-generation 6G technology could “enable applications that we may not even imagine today”

    ENGINEERING
    New 6G Networks Are in the Works. Can They Destroy Dead Zones for Good?
    https://www.scientificamerican.com/article/new-6g-networks-are-in-the-works-can-they-destroy-dead-zones-for-good/?utm_source=facebook&utm_medium=social&utm_campaign=socialflow&fbclid=IwAR0HCFQTC-RjoulppfCrEOfYLLK2wLuKcIGUnmQzHDJqLOxmoPknMCD-PVk

    Next-generation 6G technology could “enable applications that we may not even imagine today”

    High-speed Internet access has become crucial in a world where school, business, personal life and emergency communications increasingly take place through a handheld device. But surprisingly large swaths of the U.S. still lack a speedy-enough broadband or cellular connection. One potential solution could be a sixth-generation cellular network, which experts say will add a space-based system to ground-based coverage options. This 6G network could eventually connect the entire nation to high-speed data—but its development is still in the early stages.

    Activities such as attending video meetings and streaming high-definition video can require download speeds of 25 megabits per second. But in 2019 those speeds were out of reach for 4.4 percent of Americans

    This summer the federal government took steps to boost connectivity by expanding existing broadband infrastructure. In late June the Biden administration announced a $42.45 billion commitment to the Broadband Equity, Access, and Deployment (BEAD) program, a federal initiative to provide all U.S. residents with reliable high-speed Internet access. The project emphasizes broadband connectivity, but some researchers suggest a more powerful cellular connection could eventually sidestep the need for wired Internet.

    The 6G network is so early in its development that it is still not even clear how fast that network will be. Each new generation of wireless technology is defined by the United Nations’ International Telecommunication Union (ITU) as having a specific range of upload and download speeds. These standards have not yet been set for 6G—the ITU will likely do so late next year—but industry experts are expecting it to be anywhere from 10 to 1,000 times faster than current 5G networks. It will achieve this by using higher-frequency radio waves than its predecessors. This will provide a faster connection with fewer network delays.

    No matter how fast the new network turns out to be, it could enable futuristic technology, according to Lingjia Liu, a leading 6G researcher and a professor of electrical and computer engineering at Virginia Tech. “Wi-Fi provides good service, but 6G is being designed to provide even better service than your home router, especially in the latency department, to address the growing remote workforce,” Liu says. This would likely result in a wave of new applications that have been unfathomable at current network speeds. For example, your phone could serve as a router, self-driving cars may be able to communicate with one another almost instantaneously, and mobile devices might become completely hands-free. “The speed of 6G will enable applications that we may not even imagine today. The goal for the industry is to have the global coverage and support ready for those applications when they come,” Liu says.

    Although 6G’s theoretical speeds sound exciting, the 5G network that preceded it also claimed to offer a blazing-fast connection. But people in many parts of the world still lack access to 5G infrastructure; even devices designed to take advantage of 5G must include the ability to fall back on 4G and 3G connections if and when those slower networks are the only available options. “The coverage of the 5G cellular network is only about 10 percent of the Earth’s surface right now,”

    That coverage area could dramatically change in the 6G era, Andrews says, because the new generation will be partially based in space, enabling it to cover much more of the planet than its ground-based predecessors. “I think utilizing space systems to provide global coverage will be a revolutionary aspect of the 6G era,” Andrews says.

    Current 6G research-and-development efforts are focused on creating nonterrestrial networks made up of low-Earth orbit (LEO) satellites and uncrewed aerial vehicles. These networks are expected to operate at a fraction of the cost of 5G, which relies mainly on ground-based fiber-optic cables and cellular towers. According to Andrews, piggybacking off the LEO constellations that are already in the works will enable 6G to offer a cheaper connection than 5G, which requires time and money to install fiber all over the country, including in places with relatively few inhabitants.

    Even as the FCC continues to develop its broadband map for a better understanding of where coverage needs lie, the map’s problems mean that 6G may eventually be able to connect every device in the U.S. more quickly and cheaply. Schrubbe views the two types of technology as complementary. “They work in concert with each other,” she says. “It’s not necessarily that one is competing with the other—rather, that if we have a better-distributed transport system across the United States, it will open up avenues for those technologies to blossom even more.”

    Another way 6G will improve on previous generations is the way it uses artificial intelligence, says Harish Viswanathan, head of radio systems research at Nokia Bell Labs. “I think we will see a lot of applications of AI in 6G, much more than what we are aiming to do in 5G,” Viswanathan predicts. AI will help existing networks conserve energy by analyzing data usage in real time, as well as playing a crucial role in how fast data can be processed and uploaded. “Machine learning, in particular deep learning, which we call artificial intelligence, has made significant advances in other domains,” Viswanathan says. “Those tools are now relevant to us in wireless communications.”

    Reply
  7. Tomi Engdahl says:

    satellite systems different satellite systems offer different latency. The average latency for “old school” satellite internet is easily 500-600 ms. New low orbit satellites can offer lower latency like Starlink usually between 20 and 60 ms.

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  8. Tomi Engdahl says:

    A team of researchers has made a breakthrough discovery in the world of Beyond 5G/6G (B5G/6G) signal transmission.

    Superconducting niobium waveguide achieves high-precision communications for B5G/6G networks
    https://techxplore.com/news/2023-10-superconducting-niobium-waveguide-high-precision-communications.html?fbclid=IwAR3iVO3lxLMoaGYYyFOp7oVnDKjulE64t9lvvSSZD8NjHKXL2H2LV_RjAwY

    A team of researchers has made a breakthrough discovery in the world of Beyond 5G/6G (B5G/6G) signal transmission. Taku Nakajima and Kazuji Suzuki of Nagoya University in Japan, along with their collaborators, created a waveguide made of niobium that speeds up the transition of B5G/6G signals.

    Using their method, the researchers fabricated rectangular waveguides that can transmit radio waves in the 100 GHz band that are necessary for B5G/6G communications. They compared the conductivity of their niobium waveguide with that of common non-superconducting waveguide materials: a gold-plated tellurium copper and aluminum alloy.

    They tested both at room temperature and at low temperatures because the characteristics of superconducting metals change with cooling, entering what is called the superconducting state, which is characterized by low electrical resistance.

    “As expected, we found that the conductivity improves as the temperature of the metal decreases, resulting in reduced losses in the circuit,” said Nakajima.

    “Using electromagnetic field simulations, we calculated the conductivity and transmission loss of each metal. The conductivity of niobium in the superconducting state was 1,000 to 10,000 times higher than that of the aluminum alloy. Furthermore, the transmission loss of niobium in the superconducting state was calculated to be several tenths that of other metals. These two factors contribute to the creation of a high-quality, high-precision communication environment.”

    Reply
  9. Tomi Engdahl says:

    in optical data transfer
    In high-speed communications, very fast optical signals connect to your office or even your home. But these optical signals have not yet reached end-of-edge terminals such as personal computers and smart phones.
    The prohibitive expense of optical modulators – devices that create very fast optical signals – limits their deployment to personal edge terminals.
    https://researchfeatures.com/need-speed-overcoming-bottleneck-optical-data-transfer/

    Reply
  10. Tomi Engdahl says:

    Viekö 6g meidät viimein tieteiselokuvien tulevaisuuteen?
    18.8.202306:01
    Mitä kaikkea 6g-verkot voisivat mahdollistaa?
    https://www.mikrobitti.fi/uutiset/vieko-6g-meidat-viimein-tieteiselokuvien-tulevaisuuteen/f177d1da-a663-41b4-b09c-c57b59592047

    Digitaaliset kaksoset Jos tutkijoiden ja yritysten ponnistukset 6g:n luomiseksi toteutuvat odotetulla tavalla, virtuaalisia kaksosia ei käytetä

    Reply
  11. Tomi Engdahl says:

    Although wireless standards like 3G, 4G, and 5G are mostly associated with mobile internet, they also include a phone (voice) component. Up till 4G this was done using traditional circuit-switched telephony service, but with this fourth generation the entire standard instead moved to a packet-switched version akin to Voice-over-IP, called VoLTE (voice-over-LTE). Even so, a particular phone can choose to use a 4G modem, yet still use 3G-style phone connections….

    VOICE-OVER-LTE: THE REASON WHY YOUR PHONE MAY SOON STOP WORKING
    https://hackaday.com/2023/11/27/voice-over-lte-the-reason-why-your-phone-may-soon-stop-working/?fbclid=IwAR3TZDh0cnup6px2v53SBl0U6wsklUSYYML-LFlmZRzQfsNLVZr4TtttvMY

    Although wireless standards like 3G, 4G, and 5G are mostly associated with mobile internet, they also include a phone (voice) component. Up till 4G this was done using traditional circuit-switched telephony service, but with this fourth generation the entire standard instead moved to a packet-switched version akin to Voice-over-IP, called VoLTE (voice-over-LTE). Even so, a particular phone can choose to use a 4G modem, yet still use 3G-style phone connections. Until the 3G network is shutdown, that is. This is the crux of [Hugh Jeffreys]’s latest video.

    In order to make a VoLTE phone call, your phone, your provider, the receiving phone and the intermediate network providers must all support the protocol. Even some newer phones like the Samsung Galaxy J3 (2016) do not support this. For other phones you have to turn the feature on yourself, if it is available. As [Hugh] points out in the video, there’s no easy way to know whether an Android phone supports it, which is likely to lead to chaos as more and more 3G networks in Australia and elsewhere are turned off, especially in regions where people use phones for longer than a few years.

    Carriers are Killing 4G & 3G Devices – Your 4G Phone May Soon Stop Working
    https://m.youtube.com/watch?v=Q6qb9dml6So&embeds_referring_euri=https%3A%2F%2Fhackaday.com%2F&source_ve_path=Mjg2NjY&feature=emb_logo

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  12. Tomi Engdahl says:

    https://sponsored.bloomberg.com/article/gearing-up-for-the-6g-era-?utm_medium=social&utm_id=customcontent-Nokia&utm_source=Facebook&utm_campaign=Business-Paid&utm_content=EU-Ad3-ART&fbclid=IwAR0BX6wyjzIkXnYI2IlPrKLzmZLoCe8q5ix5Q0NwnlxMH60Kl9lJzJ7qq88_aem_AQo_DPOygapqwsmDnU9g5vSJdzd2EHQ5XXaP_XIWGTqe7duL4cXhmMnFydVK1gObQNVPGK9fLE7OTDYYjuWManqc

    The past few decades have featured some of the most groundbreaking technological innovations in human history. The world is now heading toward another landmark event: the launch of 6G.

    “Transformational” is the word Peter Vetter, President of Nokia Bell Labs, uses to describe the next generation of mobile networking, which is touted to be 10 times faster than its predecessor, 5G.

    Reply
  13. Tomi Engdahl says:

    6G’s speed boost will enhance AI’s ability to proccess data in real-time. Sponsored by Nokia.

    Reply
  14. Tomi Engdahl says:

    Meni älypuhelin­bisnes metsään muillakin kuin Nokialla, kertoo riemastuttava uusi elokuva
    Blackberry oli kanadalainen älypuhelin, jonka lennon iPhone aikanaan katkaisi. Tuotteesta tehty draamakomedia naurattaa ja hirvittää.
    https://www.hs.fi/kulttuuri/art-2000010022244.html

    Draama/komedia

    Blackberry. Ohjaus Matt Johnson. 119 min. K7.

    ★★★★

    NOKIA EI OLLUT ainoa matkapuhelin, jonka iPhone aikoinaan tappoi.

    Yksi kohtalotovereista oli kanadalainen Blackberry. Tuotteen tarina on surkuhupaisa, ainakin tässä samannimisessä elokuvassa, ja tuntuu lämpimän tutulta.

    Kyseessä on Ikaros-myytin muunnelma, jossa siivet saanut nörtti lentää varoituksista huolimatta liian lähelle bisnestornien yläkerroksia ja putoaa tuhoonsa.

    Tai kuten Härmässä tiedetään: Ken kuuseen kurkottaa, se katajaan kapsahtaa.

    Reply
  15. Tomi Engdahl says:

    DNA kurottelee jo kohti 6G-verkkoa – välivaiheen kautta
    https://www.uusiteknologia.fi/2023/12/13/dna-kurottelee-jo-kohti-6g-verkkoa-valivaiheen-kautta/?utm_campaign=dna-kurottelee-jo-kohti-6g-verkkoa-valivaiheen-kautta&utm_medium=rss&utm_source=rss&fbclid=IwAR1IYxD0me48troS5UCdB02da8NtdB58GU9BlHVuJuoqHfHW21zvQ8VD2vI

    Teleoperaattorit kasvattavat verkkojensa nopeutta ensi vuonna tulossa olevilla 5G Advanced tai 5.5G-twekniikoilla, joilla tavoitellaan myös kohti tulevaisuudessa odottavia 6G-tekniikoita. DNA kertoi tänään saaneensa 5,5G-demojensa avulla kaupallisessa verkossaan jopa yli 10 gigan nopeuksia. Uudet standardit julkistetaan vasta ensi vuoden alkupuolella.

    Reply
  16. Tomi Engdahl says:

    6G-autosta tulee satojen miljoonien koodirivien laite
    https://etn.fi/index.php/13-news/15643-6g-autosta-tulee-satojen-miljoonien-koodirivien-laite

    Tulevaisuudessa 6G-verkkoon jatkuvasti kytketystä autosta tulee todellinen ohjelmistoekosysteemi, jossa eurooppalaisten pitää pystyä kilpailemaan amerikkalaisten ja kiinalaisten autovalmistajien kanssa. Kun F-35-hävittäjälentokoneessa on kahdeksan miljoonaa riviä koodia, on nykyaikaisessa henkilöautossa on jo satoja miljoonia koodirivejä.

    Autot vetävät pian vertoja ohjelmiston kompleksisuudessa matkapuhelimille, sanoo Empirical Software Engineering -yksikön professori Tero Päivärinta Oulun yliopistosta. – Auto on internet-laite siinä missä monet muutkin ja hyvin ohjelmistointensiivinen sellainen. Tutkijalle auto tarjoaa hyvin rikkaan ohjelmistoympäristön, jossa on valtava määrä tutkittavia ja ratkaistavia asioita, Päivärinta sanoo.

    Reply
  17. Tomi Engdahl says:

    5.5G-tekniikka tekee tuloaan: DNA saavutti yli 10 gigan nopeuden mobiiliverkossaan
    https://corporate.dna.fi/lehdistotiedotteet?type=stt2&id=70072669&fbclid=IwAR3WQlg3VcMBUqMHYizq–toVJWgdapVzk-QkBWNVv-x_kIFaRpn4AMTqFU_aem_AbgTzGT5IDrZ2soNzcW5MLp9A_5rffnvDi7HEdVrUSdi8ZeswiQwoEbIsfYj-RCgguoGkDq4YqpjrNtmrlpqKnTx

    Uusi 5.5G-standardi julkaistaan kaupalliseen käyttöön alkuvuodesta 2024. Nimillä 5.5G tai 5G Advanced kulkeva päivitys on 5G-tekniikan seuraava vaihe matkalla kohti 6G-aikakautta. Se vie mobiiliverkon tekniikkaa jälleen askeleen kyvykkäämpään suuntaan tuoden tarjolle useita uusia kuluttaja- ja yrityskäyttäjiä hyödyttäviä ominaisuuksia. DNA on testannut tekniikan avulla jo yli 10 gigan nopeuksia kaupallisessa käytössä olevassa mobiiliverkossaan.

    Reply
  18. Tomi Engdahl says:

    Hong Kong develops world’s first antenna for ultra-secure 6G
    Researchers call it the ‘Holy Grail’ for physicists and engineers.
    https://interestingengineering.com/innovation/hongkong-worlds-first-antenna-6g

    A group of researchers, led by Professor Chan Chi-hou from the City University of Hong Kong, created a special antenna that can control all five important aspects of electromagnetic waves using computer software.

    The antenna, which they have named ‘microwave universal metasurface antenna,’ is capable of dynamically, simultaneously, independently, and precisely manipulating all the essential properties of electromagnetic waves through software control.

    “A universal component capable of manipulating all the fundamental wave properties is the Holy Grail for physicists and engineers,” said Professor Chan.

    Promising technology for 6G
    This is a big development in the 6G wireless communication systems. The antenna’s unique capabilities in controlling and securing signals make it valuable for a wide range of applications where both sensing, gathering information, communication, and transmitting data play important roles.

    Reply
  19. Tomi says:

    Oululaiselle 6G-tutkimuksen vetäjälle merkittävä tunnustus
    https://etn.fi/index.php/13-news/15722-oululaiselle-6g-tutkimuksen-vetaejaelle-merkittaevae-tunnustus

    https://www.uusiteknologia.fi/2024/01/11/suomalaisesta-6g-kehittajasta-ieee-fellow/
    Oulun yliopiston professori Matti Latva-aho on saanut langattomien tekniikoiden kehittämisestä kansainvälisesti merkittävän IEEE Fellow -arvonimen. Se myönnetään henkilölle, jolla on erityisen merkittäviä ansioita teknologian kehittämisessä maailmanlaajuisesti.

    Reply
  20. Tomi says:

    ETSI Launches a New Group for Integrated Sensing and Communications, a Candidate Technology for 6G
    https://www.etsi.org/newsroom/press-releases/2291-etsi-launches-a-new-group-for-integrated-sensing-and-communications-a-candidate-technology-for-6g

    ETSI is delighted to announce the launch of the Industry Specification Group for Integrated Sensing and Communications (ISG ISAC). This group will establish the technical foundations for ISAC technology development and standardization in 6G. 87 participants from both the industrial sphere and the academic sphere took an active part in the kick-off meeting, which was held at ETSI premises, in Sophia Antipolis, France, on 17 November 2023.

    The founding members of the group elected Dr. Alain Mourad from Interdigital as Chair of the group, and Dr. Ayman Naguib from Apple, Dr. Richard Stirling-Gallacher from Huawei, andProf. Henk Wymeersch from Chalmers University as the Vice Chairs.

    “Integrated Sensing and Communications add a new element of capability to the wireless network, enabling new innovative use cases in transport, urban environments, homes, and factories, ranging from object and intruder detection in predefined secure areas around critical infrastructures to fall detection and rain/pollution monitoring” explains Dr. Alain Mourad, Chair of the ISAC ISG.

    The ETSI ISAC ISG’s mission is to enable ETSI members to coordinate their 6G pre-standard research efforts on ISAC, particularly across various European/National-funded collaborative projects, extended through relevant global initiatives, paving the way for the 6G standardization of the technology. The ISG targets systematic outputs on ISAC into international standards organizations, namely future 3GPP 6G releases (e.g., R20+) and ITU-R IMT-2030 deliverables, related to ISAC requirements and evaluation methodologies.

    Reply
  21. Tomi Engdahl says:

    Suomi solmi Barcelonassa 6G-yhteistyösopimuksen
    https://www.uusiteknologia.fi/2024/02/27/suomi-solmi-barcelonassa-6g-yhteistyosopimuksen/

    Suomi on sopinut Yhdysvaltojen vetämässä hankkeessa yhdessä muiden kumppanimaiden kanssa 6G-kehitystä ohjaavista periaatteista. Lausuma julkaistiin Barcelonassa meneillään olevilla Mobile World Congress -messuilla. Suomi näkyy tapahtumassa Nokian suuren osaston lisäksi myös laajlla Business Finlandin yhteisosastolla.

    Barcelonan messuilla esitellyssä 6G-julkilausumassa sovitaan yhteisistä periaatteista, jotka ohjaavat seuraavan mobiilisukupolven kehittämistä kansallisesti ja kansainvälisesti. Yhteislausuman allekirjoittivat Suomen lisäksi Australia, Iso-Britannia, Japani, Kanada, Korean tasavalta, Ranska, Ruotsi, Tšekki ja Yhdysvallat.

    ’’Tämä on hyvää jatkoa Suomen ja Yhdysvaltojen julkilausumalle 6G-yhteistyöstä, jonka allekirjoitimme viime kesänä, liikenne- ja viestintäministeri Lulu Ranne sanoi tapahtumassa.

    Reply
  22. Tomi Engdahl says:

    Joint Statement Endorsing Principles for 6G: Secure, Open, and Resilient by Design
    https://www.whitehouse.gov/briefing-room/statements-releases/2024/02/26/joint-statement-endorsing-principles-for-6g-secure-open-and-resilient-by-design/

    The Governments of the United States, Australia, Canada, the Czech Republic, Finland, France, Japan, the Republic of Korea, Sweden, and the United Kingdom concur on these shared principles for the research and development of 6G wireless communication systems; and recognize that by working together we can support open, free, global, interoperable, reliable, resilient, and secure connectivity. We believe this to be an indispensable contribution towards building a more inclusive, sustainable, secure, and peaceful future for all, and call upon other governments, organizations, and stakeholders to join us in supporting and upholding these principles. Collaboration and unity are key to resolving pressing challenges in the development of 6G, and we hereby declare our intention to adopt relevant policies to this end in our countries, to encourage the adoption of such policies in third countries, and to advance research and development and standardization of 6G networks that fulfill the following shared principles:

    1. Trusted Technology that is Protective of National Security
    2. Secure, Resilient, and Protective of Privacy
    3. Global Industry-led and Inclusive Standard Setting & International Collaborations
    4. Cooperation to Enable Open and Interoperable Innovation
    5. Affordability, Sustainability, and Global Connectivity
    6. Spectrum and Manufacturing

    Reply
  23. Tomi Engdahl says:

    Heikentääkö vai vahvistaako patenttiuudistus mobiilikehitystä?
    https://www.uusiteknologia.fi/2024/02/27/heikentaako-vai-vahvistaako-patenttiuudistus-mobiilikehitysta/

    Eurooppalaisten teknologiayhtiöiden mobiiliverkkojen kehittäminen ja innovointi ovat uhattuna Kokoomuksen europarlamentaarikko Miapetsa Kumpula-Natrin (sd.) mukaan uudessa EU:n standardiessentiaalipatentteja (SEP) sääntelyä koskevassa esityksessä.

    Euroopan parlamentti muodostaa kantansa asiaan täysistunnossa tällä viikolla. Kumpula-Natrin mukaan sillä voi olla dramaattisia vaikutuksia Euroopan telekommunikaatiosektoriin ja sen kykyyn innovoida.

    Varsinkin kun esimerkiksi Nokia ja Ericsson ovat olleet jo pitkään maailman johtavia 5G- ja 6G-verkkojen kehittäjä. Patenteista saatuja tuloja käytetään t&k-toimintaan ja uusien standardien kehittämiseen. Nokialla patentit ovat olleet erittäin hyvä bisnes ja panostukset Suomen tutkimustoimintaan loistavia investointeja, joiden toivotaan edelleen jatkuvan.

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