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EUROPEAN SPACE RESEARCH AND TECHNOLOGY CENTRE has floated a tender for Demonstrator for Coherent Free-Space Optical Links with High Spectral Efficiency. The project location is Netherlands and the tender is closing on 24 Oct 2024. The tender notice number is 1-11951, while the TOT Ref Number is 104485612. Bidders can have further information about the Tender and can request the complete Tender document by Registering on the site.
Procurement Summary
Country : Netherlands
Summary : Demonstrator for Coherent Free-Space Optical Links with High Spectral Efficiency
Deadline : 24 Oct 2024
Other Information
Notice Type : Tender
TOT Ref.No.: 104485612
Document Ref. No. : 1-11951
Financier : Other Funding Agencies
Purchaser Ownership : Public
Tender Value : Refer Document
Purchaser's Detail
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Login to see detailsTender Details
Tenders are invited for Demonstrator for Coherent Free-Space Optical Links with High Spectral Efficiency (Artes 4.0 Sl Spl 5g.035) (Re-Issue).
Open Date: 17/07/2024 15:04 CET
Closing Date: 24/10/2024 13:00 CET
Price Range: 500 KEURO
The objective of this activity is to develop and test a high data rate transceiver (Tx-Rx) demonstrator for coherent optical space-to-ground feeder links, with a high spectral efficiency. The demonstrator shall support coherent optical links with a data rate exceeding tens of Gbps. It shall demonstrate the increased spectral efficiency achieved by using advanced digital signal processing (DSP) techniques at both transmitter and receiver. Targeted Improvements: Improvement of 1.5 times of the spectral efficiencycompared to coherent FSO links with no advanced DSP, and a times four (x4) increase compared to non-coherent links. The target spectral efficiency shall exceed 5 bits/s/Hz. Description:So far, the technological development of free-space optical (FSO) communications has followed the developments of optical fibre communications with some years of delay. Hence, existing techniques already usedin coherent terrestrial optical networks may be used to anticipate future system criticalities in optical satellite systems, like the spectrum scarcity in extremely high throughput feeder links. Nowadays, the available optical C-band may not offer enough channelsfor downlink with a suitable separation. Atmospheric effects may be particularly severe at certain wavelengths, and dense wavelength division multiplexing may become impractical because of the high power required onboard. Therefore, a spectral efficiency increasewill soon be necessary in the next generation of optical satellite networks. This activity shall consider coherent space-to-ground FSO links supporting a data throughput of tens of Gbps. The transmitter and receiver used for the demonstrator shall therefore implement all the DSP required by coherent transmission schemes. On top of that, other advanced DSP techniques used in coherent terrestrial optical fibre networks shall be identified and adapted, aiming at increasing the throughput and the spectral efficiency of the link. As a minimum, the following techniques shall be tested: wavelength diversity, time-frequency packing, probabilistic constellation shaping. The implementation complexity shall also be taken into account, limiting as much as possible the complexity increase required on board the satellite
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