By Yoanna, 20/08/2023
Did you know that Optical Phased Arrays (OPA) represent a groundbreaking advancement in robotic technologies, especially for space applications? At SAT4SPACE, we are proud to participate to this technological revolution. Our latest project, OPALID (Optical Phased Array-Based LIDARs for Robotics and In-Orbit Servicing), showcases how photonics can unlock new possibilities for distance sensing and robotic systems in both industrial and space environments.
Recently submitted to the HORIZON-CL4-2023-DIGITAL-EMERGING-01 call, OPALID has brought together a strong consortium of 10 partners from across Europe. Each partner brings expertise in different aspects of photonics, LIDAR systems, and space technology, ensuring that this project represents the cutting edge of emerging technologies in Europe.
Meet the OPALID Consortium
The OPALID project is being led by SAT4SPACE, alongside a prestigious group of European partners, including:
- ASSOCIATION LASER PHOTONIQUE HYPERFREQUENCES (France) – Project Coordinator
- ARGOTECH AS (Czech Republic)
- BEAMAGINE S.L (Spain)
- COMMISSARIAT A L’ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (France)
- CENTRE D’INGENIERIE DES SYSTEMES DE TELECOMMUNICATION (France)
- LZH LASERZENTRUM HANNOVER EV (Germany)
- ETHNICON METSOVION POLYTECHNION (Greece)
- STEERLIGHT (France)
- UNIVERSITAT POLITECNICA DE CATALUNYA (Spain)
This collaborative network of companies, research institutions, and technological innovators demonstrates our capability to form large-scale, cross-disciplinary consortia.
With 5 innovative SMEs, 4 leading research groups, and 1 photonic and deep technologies cluster, the OPALID consortium represents the perfect blend of technical expertise and industry-driven innovation to push the boundaries of optical phased arrays and LIDAR systems.
What Are Optical Phased Arrays (OPA)?
Optical Phased Arrays are a cutting-edge advancement in Photonics Integrated Circuits (PICs). Through the integration of optical antennas within silicon processes, OPAs enable a scanning beam function at the microchip scale without requiring mechanical components. This capability significantly enhances the functionality and precision of systems that rely on distance sensing, including LIDARs.
By utilizing this novel OPA technology, the OPALID project aims to create next-generation LIDAR systems that surpass the limitations of current mechanical solutions. The integration of a laser source and detection scheme at the chip level will allow for important gain in terms of reliability, mass and power consumption , making OPALID a game changer for various industries, particularly robotics and space.
During the course of the OPALID project, two LIDAR demonstrators will be designed, manufactured, and tested. These demonstrators will be based on OPA technology and will highlight its potential for two major applications:
- Space LIDARs for In-Orbit Servicing and Docking: LIDAR technology is critical for in-orbit servicing operations, including satellite docking, debris removal, and station maintenance. The OPALID LIDAR system will enable more precise and reliable distance measurements, improving the safety and efficiency of space missions.
- Robotic LIDARs for Industrial Applications: Robotics in manufacturing and other industrial settings requires precise distance sensing to ensure smooth operations. The OPALID project’s LIDAR technology will enhance the capabilities of robots, enabling them to navigate and operate more efficiently in complex environments.
These demonstrators will not only validate the feasibility of the technology but will also position Europe at the forefront of OPA and LIDAR technology development.
Driving European Technological Leadership
The OPALID project seeks to advance Europe’s leadership in Key Enabling Technologies by pushing the boundaries of photonic chip multi-integration capabilities and LIDAR systems. Our consortium’s strength lies in its ability to provide world-class silicon photonic integration while also advancing system-level applications and developing effective valorization and dissemination strategies.
By combining the expertise of SMEs and leading research institutes, we ensure that the technology developed in OPALID will not only be cutting-edge but also commercially viable. Our commitment to high-level innovation will enable the wide deployment of this technology across sectors, from aerospace to robotics, thereby providing European industries with a competitive edge in the global market.
SAT4SPACE: Leading the Way in Space Tech and Photonics
As a leader in space technology and photonics innovation, SAT4SPACE is committed to driving the advancement of technologies that have the potential to revolutionize industries. Through OPALID, we are contributing to Europe’s growing capabilities in space-based LIDAR systems, ensuring that the continent remains at the forefront of technological innovation in space and robotics.
We hope that the European Commission will recognize the immense potential of this project, and we eagerly await the decision regarding funding. The OPALID project not only represents an opportunity to advance key technologies but also reflects SAT4SPACE’s dedication to building large-scale, impactful consortia that can address the challenges of tomorrow.
Contact SAT4SPACE to Collaborate
At SAT4SPACE, we are always eager to engage with new partners and collaborators who share our vision for the future of space technology, photonics, and robotic systems. With our extensive network of partners and our proven ability to lead innovative projects like OPALID, we are uniquely positioned to deliver solutions that address the most pressing challenges in these fields.
Interested in collaborating or learning more about OPALID? Reach out to our team today to explore how we can work together to bring cutting-edge technologies to your industry. Together, we can push the boundaries of LIDAR, photonics, and space technology to create a more advanced and interconnected world.