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== XG ==
== XG ==


In the evolution of cellular networks, experts distinguish multiple "generations" of technological standards, spanning from 1G, the initial analog networks formulated in the 1980s, to the advent of 5G, supposed to facilitate high-speed ubiquitous internet connectivity since 2020. These generations are the product of continuous and complex processes of standard setting, which entail the collaboration of various transnational institutions (such as the International Telecommunication Union or the 3rd Generation Partnership Project). They bring together governmental and industrial stakeholders to negotiate technical consensuses on the global operation of mobile communication (1). The deployment of new "Gs" follows a pattern that is well-established in the development of digital technologies. It promises increasing bandwith, diminishing latencies and novel applications set to revolutionize the private and business use of technology.  
In the evolution of cellular networks, experts distinguish multiple "generations" of technological standards, spanning from 1G, the initial analog networks formulated in the 1980s, to the advent of 5G. These generations are the product of continuous technological developments and complex processes of standard setting, which entail the collaboration of various transnational institutions (such as the International Telecommunication Union or the 3rd Generation Partnership Project). They bring together governmental and industrial stakeholders to negotiate technical consensuses on the global operation of mobile communication <ref>Oever, Niels ten, and Stefania Milan. 2022. “The Making of International Communication Standards: Towards a Theory of Power in Standardization.” ''Journal of Standardisation'' 1.</ref>. The deployment of new “generations” of cellular telecommunication follows a pattern that is well-established in the development of digital technologies. It promises increasing bandwidth, diminishing latencies and novel applications set to revolutionize the private and business use of technology.


While designations like 4G, 5G or 6G attempt to define bundles of technologies and standards, "XG" ''captures the process of development, expansion and maintenance of infrastructures for the digital''. As media scholar Wendy Chun points out, this process is never finished and constantly gestures towards the next update. It is driven by crises, such as security risks, environmental imperatives, geopolitical struggles or armed conflicts (2). But while the expansion of technological capabilities appears inevitable, the infrastructures' subjects are suspended in a state of constant anticipation, waiting to adapt to the newest release. Such a temporal rhythm exceeds cellular networks. It represents an embodiment of "Moore's Law", the claim that computing power increases exponentially, that extends to the general trajectory of digital technological development. Increasing connectivity and computing power involves expanding the material infrastructures that make "the internet" possible. This includes erecting radio towers and antennae, laying optical fibre cables across continents and the ocean floors, building data centers, semiconductor fabrication plants or "Gigafactories" that produce lithium-ion batteries.
While designations like 4G, 5G or 6G attempt to define bundles of technologies and standards, "XG" is an industry term for anticipatory technological iteration, which we expand to capture the process of development, expansion, and maintenance of digital infrastructures, always directing attention to the next generation. As media scholar Wendy Chun points out, this process is never finished and constantly gestures towards the next update. It is driven by crises, such as security risks, environmental imperatives, geopolitical struggles, or armed conflicts <ref>Chun, Wendy Hui Kyong. 2016. ''Updating to Remain the Same. Habitual New Media''. Cambridge, MA: MIT Press, p. 69.</ref>. We acknowledge further that it is also simply capitalist growth that drives the constant regeneration of the network by enacting hopes and promises of a better future through new imaginaries and buzzwords such as “negative latency". But while the expansion of technological capabilities appears inevitable, the infrastructures' subjects – be they consumers or customers, users, or producers – are suspended in a state of constant anticipation, waiting to adapt to the newest release. Such a temporal rhythm exceeds cellular networks. Increasing connectivity and computing power involves expanding the material infrastructures that make "the internet" possible. This includes erecting radio towers and antennas, laying optical fibre cables across continents and the ocean floors, building data centers, semiconductor fabrication plants or "Gigafactories" that produce lithium-ion batteries.


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I feel that we could also mention in one sentence, that "XG" as a term already implies a thinking-together of imagination and infrastructure? That would allow us to speak of "XG"-infrastructure or somethingt, that implies a socio-technical mix from the get-got. [[User:Berlin-SoLiXG|Berlin-SoLiXG]] ([[User talk:Berlin-SoLiXG|talk]]) 14:44, 7 February 2024 (UTC)


Notes from 26.1.24


(1) Oever, Niels ten, and Stefania Milan. 2022. “The Making of International Communication Standards: Towards a Theory of Power in Standardization.” ''Journal of Standardisation'' 1.
- should we talk about negative latency?
(2) Chun, Wendy Hui Kyong. 2016. ''Updating to Remain the Same. Habitual New Media''. Cambridge, MA: MIT Press, p. 69.
- is XG driven by crises, as Chun points out, or by necessary capitalist growth development
- By adding "promises", maybe we can avoid reproducing the BS
 
- Suggestion by Helen to capture the promisory aspect: "XG" is an industry term for anticipatory technological iteration which we expand to capture the promises process of development, expansion, and maintenance of digital infrastructures, always directing attention to the next generation."

Latest revision as of 05:59, 23 February 2024

XG

In the evolution of cellular networks, experts distinguish multiple "generations" of technological standards, spanning from 1G, the initial analog networks formulated in the 1980s, to the advent of 5G. These generations are the product of continuous technological developments and complex processes of standard setting, which entail the collaboration of various transnational institutions (such as the International Telecommunication Union or the 3rd Generation Partnership Project). They bring together governmental and industrial stakeholders to negotiate technical consensuses on the global operation of mobile communication [1]. The deployment of new “generations” of cellular telecommunication follows a pattern that is well-established in the development of digital technologies. It promises increasing bandwidth, diminishing latencies and novel applications set to revolutionize the private and business use of technology.

While designations like 4G, 5G or 6G attempt to define bundles of technologies and standards, "XG" is an industry term for anticipatory technological iteration, which we expand to capture the process of development, expansion, and maintenance of digital infrastructures, always directing attention to the next generation. As media scholar Wendy Chun points out, this process is never finished and constantly gestures towards the next update. It is driven by crises, such as security risks, environmental imperatives, geopolitical struggles, or armed conflicts [2]. We acknowledge further that it is also simply capitalist growth that drives the constant regeneration of the network by enacting hopes and promises of a better future through new imaginaries and buzzwords such as “negative latency". But while the expansion of technological capabilities appears inevitable, the infrastructures' subjects – be they consumers or customers, users, or producers – are suspended in a state of constant anticipation, waiting to adapt to the newest release. Such a temporal rhythm exceeds cellular networks. Increasing connectivity and computing power involves expanding the material infrastructures that make "the internet" possible. This includes erecting radio towers and antennas, laying optical fibre cables across continents and the ocean floors, building data centers, semiconductor fabrication plants or "Gigafactories" that produce lithium-ion batteries.


I feel that we could also mention in one sentence, that "XG" as a term already implies a thinking-together of imagination and infrastructure? That would allow us to speak of "XG"-infrastructure or somethingt, that implies a socio-technical mix from the get-got. Berlin-SoLiXG (talk) 14:44, 7 February 2024 (UTC)

Notes from 26.1.24

- should we talk about negative latency? - is XG driven by crises, as Chun points out, or by necessary capitalist growth development - By adding "promises", maybe we can avoid reproducing the BS

- Suggestion by Helen to capture the promisory aspect: "XG" is an industry term for anticipatory technological iteration which we expand to capture the promises process of development, expansion, and maintenance of digital infrastructures, always directing attention to the next generation."

  1. Oever, Niels ten, and Stefania Milan. 2022. “The Making of International Communication Standards: Towards a Theory of Power in Standardization.” Journal of Standardisation 1.
  2. Chun, Wendy Hui Kyong. 2016. Updating to Remain the Same. Habitual New Media. Cambridge, MA: MIT Press, p. 69.