ESTOL: ESA Specifications for Terabit/sec Optical Links 

A joint endeavour between industry, research centres and universities across the Agency’s Member States. Coordinated by ESA’s directorates of Resilience, Navigation and Connectivity, and Operations, and Technology, Engineering and Quality. 

Background

Global telecommunication systems require networking and optical technologies in order to provide the appropriate tools to address the growing capacity needs of our society. Future telecom satellites are to be seamlessly integrated into the terrestrial high-capacity networks, to extend the network in space. This means that large coverage can be achieved, and latency and connection costs can be reduced to remote areas. 

Networking in space would benefit from interoperability because it allows the extension of the space network by adding new nodes in a progressive way. The first step of interoperability is compatibility between optical terminals, to make sure that free-space optical links can be established and used for data exchange and control and management purposes. 

In recent decades, optical satellite communication has been successfully achieved from different orbits, developing and demonstrating key technologies for high data-rate communications. Throughout this time, several initiatives have focused on the standardisation and specification of optical communications in space, aiming for Interoperability in various scenarios. 

The Consultative Committee for Space Data Systems (CCSDS) has been coordinating the initiatives of the space agencies around the world to define a set of standards to cover the main applications using optical communications in space. 

  • For high-data rate intersatellite links, in December 2018, CCSDS published as an orange book the experimental specification based on the experience achieved in the European Data Relay System (EDRS): “Optical High Data Rate Communication (HDR) – 1064 nm”.
  • For deep-space links, in August 2019, CCSDS published as a blue book the recommended standard for the communications physical layer, where high-photon efficiency is needed.
  • For direct downlinks, in July 2020, CCSDS published as pink sheets, the draft of a recommended standard aiming to low-complexity communication systems.

The USA Space Development Agency (SDA) published the “Optical Communications Terminal (OCT) Standard” specifying the main aspects of an optical terminal to achieve interoperability in free-space communications in a satellite constellation.

ESA welcomes this first step towards a global standard, and follows international stakeholders in the desire to extend it beyond the present <10 Gbit/s capabilities.

Overview of ESTOL 

The document shall address optical bidirectional inter-satellite and ground-to-satellite links and it is divided into two major chapters: the physical layer requirements and the data link layer requirements. 

The objective of ESTOL is to achieve an agnostic definition of requirements in terms of terminal design, to allow industry to develop its own solutions in the most flexible and efficient way. 

The physical layer requirements chapter defines: 

The pointing, acquisition, and tracking (PAT) 
The use of multiple wavelengths (WDM-wavelength division multiplexing) 
The requirements of the transmitted signal properties

For example, the wavelength plan is defined, as well as the modulation schemes and the expected signal levels at the aperture of the optical terminals. 

The data link layer requirements chapter defines: 

The data rates
The framing
The forward-error correction schemes for each communication mode

The different options for transmitting data over the air-interface are defined in the document, as well as the control and management approach. 

The specification of the air-interface includes requirements from the SDA OCT standard, as it is understood that commercial products have been developed following this standard. At the same time, OpenROADM has been also considered because commercial transceivers are implementing this standard for high-data rate fibre communications, allowing the use of both client signals OTN (Optical Transport Networking) and Ethernet. That enables the possibility of performing both circuit and packet switching. 

A high-throughput optical satellite network involves optical bidirectional inter-satellite and ground-to-satellite links. Achieving a flexible and scalable network, as addressed in terrestrial networks, requires inter-networking. A generic representation of an optical satellite network, as an extension of the optical terrestrial network is shown in Figure 1. 

Figure 1. Vision of a high throughput optical space network bringing high data rate terrestrial connectivity to multiple space users across different orbits (e.g. LEO, MEO, GEO) and to ground users located in remote areas with no available broadband access. Image credit: ESA

Inter-networking, i.e. interoperability between networks, must address many different aspects, including: 

Physical interfaces (air- and wired-interfaces)
Routing protocols
Addressing schemes
Naming resolution
Security mechanisms

Consequently, in view of the future development of high-capacity satellite networks, ESA has supported and coordinated discussions on the definition of the air-interface, specifying the free-space optical links among satellites and ground nodes. This specification shall guarantee compatibility and foster harmonisation of both the technology developments and future commercial products. This is seen as a first step to achieving inter-operability between satellite-based optical networks and terrestrial infrastructure. 

Since mid-2022, ESA (under the Strategic Programme Line on Optical and Quantum Technologies) and its stakeholders have also held a series of workshops to assess the interface specifications for next generation optical inter-satellite links and optical space-to-ground links on standards and interfaces. 

Stakeholders in these discussions also clearly indicated the need for common standards beyond the air interface. The “ESA Specifications for Terabit/sec Optical Links” (ESTOL) is the result of the contributions from industry, research centres and universities of ESA member-states, coordinated and aggregated by the Agency.  

ESTOL’s goal is to foster the development of interoperable commercial products implementing technologies for high data-rate optical links, connecting ground and space network nodes of optical high-capacity satellite networks. ESTOL aims to make use of available standards from space communications, but also from terrestrial networks, to maximise the re-use of commercially available products. 

The High thRoughput Optical Network (HydRON) project takes ESTOL as its point of reference to implement its specification in the development of future satellite networks and their related technologies and it sets as own goal the demonstration of the air-interface defined in ESTOL.  

Contributors

ESTOL’s development is driven by European and Canadian stakeholders in the satellite communications market. The contributors comprise the following industry partners, research centres and universities under the coordination of ESA (in alphabetical order): 

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ADTRAN
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Aerospacelab
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AEROSPAZIO Technologie s.r.l.
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Airbus Defence & Space
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Archangel Lightworks
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AROBS Polska
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Astrolight
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Bertin Technologies
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Celestia
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Coherent
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Creonic
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Deutches Zentrum für Luft und Raumfahrt
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FSO Instruments
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General Atomics Synopta GmbH
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GMV GmbH
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Gooch & Housego
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Honeywell
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IngeniArs
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Joanneum Research
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Kepler Communications
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mBryonics
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MPB Communications
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Mynaric
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Odysseus Space
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Officina Stellare
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Safran Data Systems
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SatEnlight
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Stellar Project
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Tesat Spacecom
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Thales Alenia Space
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Thales Alenia Space
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TNO
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WORK Microwave

ESTOL is being supported by members from Japan:

JAXA Japanese Aerospace Agency (contributor)
Mitsubishi Electric (contributor)
NEC (observer)
NTT Innovative Devices (contributor)
SpaceCompass (contributor)

Within ESA, the present document is a result of a cross-directorate effort with the support from the Directorate of Resilience, Navigation and Connectivity, Directorate of Operations and the Directorate of Technology, Engineering & Quality.

This list is being updated as new contributions from different entities are received.

Join ESTOL

ESTOL is defined by its “Terms and Conditions” and “Privacy Notice”.

The “Terms and Conditions” document (below) includes the ESTOL governance, which defines how ESTOL is organised and how decisions are taken. The document also includes how the generated intellectual property (IP) is managed and how background IP can be integrated in ESTOL.

The “Privacy Notice” specifies what personal data is collected, for what purposes and how it is managed.

You can download such documents here:

Do you have question about ESTOL or would you like to join the ESTOL group, please write us: join_ESTOL@esa.int

Download the last ESTOL-issued version

The outcome and conclusions of the latest ongoing discussions are collected in the latest issued version of the ESTOL specification: v3.1

VersionReason for changeDate
3.1Update of the Erasure Codes24/06/2026
3.0(Internal) Update of the numbering
First specification for time diversity
Update of the 10Gbps OOK specification
20/10/2025
2.2*PAT and sensitivity values update01/07/2024
2.1Wavelength plan and sensitivity values update (internal)22/03/2024
2.0Satellite-to-ground links included (internal)17/01/2024
1.1PAT update (internal)31/07/2023
1.0*New document on optical intersatellite links19/07/2023
0.1(internal) New document for discussion 05/07/2023

*Please contact us, in case you are interested in downloading the older issued versions at join_ESTOL@esa.int

Please note that this is a living document that will evolve with the inputs of the contributors.

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