Summary
C3PO: advanced Concept for laser uplink/ downlink CommuniCation with sPace Objects represents a radical improvement in performance of existing ground to low earth orbit communication systems in terms of weight reduction, on-board power consumption, data rate and communication security & confidentiality. C3PO in figures:
- Mass reduction by a factor 14
- On-board power consumption reduction by a factor 100
- Data rate increase by a factor 2
The project's objectives are to
- Design a solution to improve actual downlink and uplink communication systems based on a non-space disruptive technology
- Improve enabling Space Surveillance & Tracking technologies performances to meet the final system needs
- Increase the Multiple Quantum Well Technology Readiness Level from 2 to 4
- Improve the overall perfromance of space communication systems
- Identify the C3PO system market and Business Model
- Increase the system safety (including regulation and governance issues)
This is achieved through an operational analysis of the final system, the validation of major system parameters through 2 experiments, the consolidation of the system architecturen the elaboration of the associated development roadmap and the definition of the system Business Model.
The Multiple Quantum Well retro-reflector technology, derived from non-space domain, is incorporated into the current state of the art as a high-rate lightweight communication device. Its development in the space sector has a disruptive impact on the satellites and satellite imagery markets, enabling new missions such as CubeSat earth observations.
The proposed project serve the Union's Common Security & Defence Policy by increasing the satellite communications security.
C3PO mobilises traditional space actors and non-space actors such as TEMATYS (SME) and ACREO (Research).
- Mass reduction by a factor 14
- On-board power consumption reduction by a factor 100
- Data rate increase by a factor 2
The project's objectives are to
- Design a solution to improve actual downlink and uplink communication systems based on a non-space disruptive technology
- Improve enabling Space Surveillance & Tracking technologies performances to meet the final system needs
- Increase the Multiple Quantum Well Technology Readiness Level from 2 to 4
- Improve the overall perfromance of space communication systems
- Identify the C3PO system market and Business Model
- Increase the system safety (including regulation and governance issues)
This is achieved through an operational analysis of the final system, the validation of major system parameters through 2 experiments, the consolidation of the system architecturen the elaboration of the associated development roadmap and the definition of the system Business Model.
The Multiple Quantum Well retro-reflector technology, derived from non-space domain, is incorporated into the current state of the art as a high-rate lightweight communication device. Its development in the space sector has a disruptive impact on the satellites and satellite imagery markets, enabling new missions such as CubeSat earth observations.
The proposed project serve the Union's Common Security & Defence Policy by increasing the satellite communications security.
C3PO mobilises traditional space actors and non-space actors such as TEMATYS (SME) and ACREO (Research).
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| Web resources: | https://cordis.europa.eu/project/id/637595 |
| Start date: | 01-06-2015 |
| End date: | 30-09-2017 |
| Total budget - Public funding: | 1 133 017,50 Euro - 999 998,00 Euro |
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Original description
C3PO: advanced Concept for laser uplink/ downlink CommuniCation with sPace Objects represents a radical improvement in performance of existing ground to low earth orbit communication systems in terms of weight reduction, on-board power consumption, data rate and communication security & confidentiality. C3PO in figures:- Mass reduction by a factor 14
- On-board power consumption reduction by a factor 100
- Data rate increase by a factor 2
The project's objectives are to
- Design a solution to improve actual downlink and uplink communication systems based on a non-space disruptive technology
- Improve enabling Space Surveillance & Tracking technologies performances to meet the final system needs
- Increase the Multiple Quantum Well Technology Readiness Level from 2 to 4
- Improve the overall perfromance of space communication systems
- Identify the C3PO system market and Business Model
- Increase the system safety (including regulation and governance issues)
This is achieved through an operational analysis of the final system, the validation of major system parameters through 2 experiments, the consolidation of the system architecturen the elaboration of the associated development roadmap and the definition of the system Business Model.
The Multiple Quantum Well retro-reflector technology, derived from non-space domain, is incorporated into the current state of the art as a high-rate lightweight communication device. Its development in the space sector has a disruptive impact on the satellites and satellite imagery markets, enabling new missions such as CubeSat earth observations.
The proposed project serve the Union's Common Security & Defence Policy by increasing the satellite communications security.
C3PO mobilises traditional space actors and non-space actors such as TEMATYS (SME) and ACREO (Research).
Status
CLOSEDCall topic
COMPET-06-2014Update Date
26-10-2022
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