Fullmoonfever
Top 20
Whilst not directly related to BRN, there is another potential driver for neuromorphic as BRN has alluded to...being 6G / telecoms.
ESA have project / tender and webinar around same coming up shortly.
Keen on neuromorphic just like NASA....wonder what these entities see as beneficial with this type of architecture![Unsure :unsure: :unsure:](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
![Wink ;) ;)](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)
artes.esa.int
ABOUT THE PROPOSED ACTIVITY
The objective of the 6G Satellite Precursor is to develop an in-orbit laboratory that allows for the R & D process to be realised early in 6G adoption so that the satellite industry can adapt their technologies, products, and use-cases to work side by side with terrestrial communication infrastructure. ESA views this laboratory as an open innovation opportunity, where researchers and industry experts can collaborate in space and on the ground to tackle the challenges of 6G at an early stage as early as possible.
At this early stage 6G is not fully defined but clear trends are emerging, such as:
ESA have project / tender and webinar around same coming up shortly.
Keen on neuromorphic just like NASA....wonder what these entities see as beneficial with this type of architecture
![artes.esa.int](/proxy.php?image=https%3A%2F%2Fartes.esa.int%2Fthemes%2Fcustom%2Fbootstrapartes%2Fimg%2FMain-Background-image--ESA_your_partner_in_orbit.jpg&hash=2e4b70a77715011155754e6fe53b03bc&return_error=1)
Opportunity: 6G Satellite Precursor - Sterling In-Orbit Laboratory
Our mission is to connect Europe. We join engineers, entrepreneurs and investors to forge strong links between institutions, industries, and businesses.
ABOUT THE PROPOSED ACTIVITY
The objective of the 6G Satellite Precursor is to develop an in-orbit laboratory that allows for the R & D process to be realised early in 6G adoption so that the satellite industry can adapt their technologies, products, and use-cases to work side by side with terrestrial communication infrastructure. ESA views this laboratory as an open innovation opportunity, where researchers and industry experts can collaborate in space and on the ground to tackle the challenges of 6G at an early stage as early as possible.
At this early stage 6G is not fully defined but clear trends are emerging, such as:
- the convergence of connectivity and computation
- end-to-end network orchestration (terrestrial and non-terrestrial networks)
- Artificial Intelligence and Machine Learning (AI/ML) everywhere - distributed intelligence - for network optimisation, as well as to support vertical use cases
- ultra-high levels of security
- AI-assisted dynamic spectrum allocation
- AI-assisted dynamic service-based resource management
- self-optimised air interfaces
- characterisation of sub-THz transmission performance
- multi-access edge computing
- the use of neuromorphic processors for AI/ML power and mass/volume optimisation
- sub-THz RF equipment and antennas
- cognitive radios
- software-defined radios
- software-defined payloads