Wireless Optical Communication Solutions for Space Missions
Oledcomm delivers wireless optical communication solutions built for the evolving demands of modern space missions. Using advanced LiFi and Laser communication technology, it provides secure, high-throughput connectivity beyond the limits of traditional RF-based architectures.
TRUSTED BY LEADING SPACE AGENCIES
The New Reality of Space Misions
Space missions are evolving rapidly. In scale, complexity, and ambition. What was once a handful of isolated satellites has become dense constellations, autonomous platforms, and data-intensive systems operating continuously in orbit.
Today’s space programs are defined by a few structural shifts:
Data Demands Are Rising
Data is no longer a support function in modern space missions, it is a core system capability. High-resolution payloads, networked constellations, and real-time operations demand sustained data exchange at high throughput and low latency.
Autonomous Operations Are Essential
Satellites must operate with minimal ground intervention to enable more resilient constellations. They need to coordinate with each other and autonomously perform in-orbit operations like rendezvous, docking, and servicing.
Security Is Mission-Critical
As space becomes more congested and contested, communication links are increasingly exposed to different forms of disruption. Communication systems must therefore be resilient to interception, jamming, and spoofing, with security built into the physical and architectural design of the link itself.
Legacy architectures are under pressure
Traditional RF-based links face limits in scalability and spectrum availability, while intra-satellite cabling increases mass, integration complexity, and long-term reliability. As space missions evolve, these architectures increasingly benefit from being complemented by advanced communication technologies.
Oledcomm: Enabling Next-Generation Space Communications
Oledcomm’s space-qualified optical communication solutions are designed to complement existing architectures and address the challenges of modern space missions. They enable high-throughput data exchange and secure communications, while remaining lightweight and wireless.
LUCI
LUCI is an ultra-compact and high-performance optical communication terminal designed for inter-satellite links in next-generation LEO missions. With ambidextrous terminals, advanced PAT mechanisms, and radiation-hardened electronics, LUCI sets a new standard for resilient, evolutive inter-satellite connectivity.
LEEOS
LEEOS is an innovative and compact optical communication solution designed for close-proximity space operations. Optimized for the last few hundred meters before docking,
LEEOS establishes a reliable link between two platforms in orbit without relying on electromagnetic waves.
SatelLiFe
SatelLiFe is a LiFi-based wireless communication solution designed for data transmission within a spacecraft. Qualified for space environments, SatelLiFe offers a flexible and reliable alternative to traditional wired architectures for satellites and launchers.
CERTIFIED FOR THE HIGHEST QUALITY STANDARDS
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LUCI Specifications
LUCI® is a high-performance optical communication terminal designed for next-generation LEO missions, combining ultra-lightweight design with robust, long-lifetime reliability. It delivers flexible data rates from 2.5 Gbps to 100 Gbps full-duplex, centimeter-level ranging, and beaconless acquisition, all while ensuring seamless operation across distances up to 7,800 km.
Evolutive Data Rate
Up to 100 GBPS
Ultra Light OHU
< 7 Kg
Ultra-compact
250 x 230 mm (OHU enveloppe)
Low Power Consumption
< 80 W
Intra & Inter Plan Communication
Up to 7 800km
ESTOL & SDA Compliant
LEEOS Specifications
LEEOS is an optical communication module designed for the final phases of orbital rendezvous. It enables data exchange between two spacecraft without relying on radio waves, providing a compact solution well-suited to the LEO environment. Optimized for the last few hundred meters before docking, LEEOS establishes a reliable optical link between two platforms in orbit, with a data rate of 1 Gbps and a range of 500 meters.
High speed Data transfer
100 Mbps at 500 m
Lightweight
1.2 kg (GEO Version)
Compact
122 x 122 x 90 mm
Minimal Power Consumption
< 15 W
Seamless CLOSE-Range Communication
50 cm to 500 m
High Radiation Tolerancen
Up to 30 krad
SatelLiFe Specifications
SatelLiFe is a LiFi-based optical wireless communication solution designed to replace intra-satellite data cabling. It enables high-speed, secure data transmission without radio frequencies, helping to reduce harness mass, integration complexity, and electromagnetic constraints. Tried and tested for space environments, SatelLiFe has emerged as a reliable alternative to traditional wired architectures for satellites and launchers.
Wireless Data transfer
1 Mbps
Extremely Lightweight
35 g (83 with casing)
Compact
40 x 60 x 16 mm
Low Power Consumption
< 10 mW (sleep) to 800 mW (peak)
Optimized For Enclosed Space Operations
0.2 – 8 m
Multi-protocal Communication
SpaceWire, CAN, SOCAN, 1553, I2C, UART and more…
Contact us
We would love to hear from you. Please fill out the contact form, and a member of our team will get back to you as soon as possible.
10 Avenue de l’Europe, 78140 Vélizy-Villacoublay, France
contact@oledcomm.net
+33 (0)139 254 757
Our Leadership Team
Dr. Evelyn Hayes
Dr. Evelyn Hayes
Evelyn spearheads strategic initiatives, bringing over 15 years of experience in optical wireless technology and executive leadership.
Raj Patel
Chief Technology Officer
Raj oversees technology development, applying his extensive background in LiFi systems and network architecture.
Lena Meyer
Chief Marketing Officer
Lena directs marketing strategies, focusing on enhancing brand awareness and driving market expansion.
Dr. Evelyn Hayes
Chief Executive Officer
Evelyn spearheads strategic initiatives, bringing over 15 years of experience in optical wireless technology and executive leadership.
Raj Patel
Chief Technology Officer
Raj oversees technology development, applying his extensive background in LiFi systems and network architecture.
Lena Meyer
Chief Marketing Officer
Lena directs marketing strategies, focusing on enhancing brand awareness and driving market expansion.