en.Wedoany.com Reported - Greenerwave, a French deep-tech company, is dedicated to controlling and optimizing electromagnetic waves through reconfigurable intelligent surface technology to enhance performance in communications, connectivity, and sensing. Co-founded in 2015 by CNRS researcher Geoffroy Lerosey and ESPCI Paris professor Mathias Fink, its core technology originates from academic research on wave physics, wavefront shaping, and smart materials at the Institute Langevin and ESPCI Paris. Since its inception, the company has continuously translated research outcomes into practical solutions for telecommunications, satellite communications, radar, and detection systems.

Greenerwave's core technology is its proprietary Reconfigurable Intelligent Surface (RIS). This technology utilizes electronically controlled metasurfaces combined with physics-inspired advanced algorithms to dynamically guide, redirect, and optimize electromagnetic waves in real time. Unlike traditional antenna systems that rely on complex hardware and semiconductor-intensive architectures, the company shifts most signal processing complexity to the software layer, thereby reducing power consumption, minimizing semiconductor dependency, and enabling more cost-effective deployment. The company integrates its intelligent reconfigurable materials with "deep physics" algorithms derived from decades of research in wave control and wavefront shaping, aiming to optimize signal propagation across various environments and frequency bands, allowing wireless networks and sensing systems to dynamically adapt to changing conditions. This approach positions it as one of the early pioneers in the RIS field, a technology increasingly regarded as a key enabler for advanced 5G, future 6G, and Non-Terrestrial Network (NTN) architectures.

In terms of products, Greenerwave primarily focuses on satellite communications and intelligent surfaces. Its flagship satellite communication products include a series of Ku-band user terminals (covering Ku GEO, Ku LEO, and multi-orbit GEO/LEO terminals), as well as Ka-band user terminals designed for next-generation satellite connectivity. These electronically steerable terminals leverage RIS technology to provide multi-orbit connectivity without relying on traditional mechanically steered antennas. The company has also developed RIS platforms compatible with FR1, FR2, and FR3 frequency bands to support R&D efforts in advanced wireless communications. Beyond satellite communications, its technology is applied in telecommunications infrastructure, private wireless networks, radar systems, RFID applications, and non-terrestrial network architectures. Concurrently, the company is developing beamforming antenna technologies aimed at supporting advanced 5G and future 6G deployments, where efficient signal steering and network coverage optimization are critical.

Through software-driven wave management and energy-efficient hardware architectures, the company seeks to meet growing connectivity demands while reducing infrastructure complexity, energy consumption, and reliance on scarce semiconductor resources. Its long-term vision is to build a more accessible, sustainable, and resilient wireless ecosystem, positioning RIS technology as a foundational element of future communication networks, supporting diverse applications from satellite broadband and mobile communications to sensing and autonomous systems.

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