KORUZA is built with a future-proof architecture, ensuring long-term adaptability and scalability. At its core, it leverages open-source libraries, allowing seamless upgrades and full integration with evolving network technologies. Unlike proprietary solutions, KORUZA’s open design ensures flexibility for customization and long-term support without vendor lock-in.
As SFP transceiver technology advances, KORUZA can scale to higher data throughputs, unlocking even greater performance without requiring hardware replacements. This modular approach allows for a cost-effective upgrade path, ensuring that as new optical components emerge, KORUZA remains at the forefront of high-speed, interference-free communication. By combining an open development ecosystem with scalable hardware, KORUZA delivers a solution designed to evolve alongside the future of free-space optical communication.
KORUZA is optimized for short- to mid-range connectivity up to 150 m, making it an ideal solution for urban networking, industrial automation, and RF-sensitive applications. This range aligns with 5G base station deployments, where cell towers are typically spaced at similar distances. By integrating KORUZA, operators can establish high-speed backhaul links without the complexity and cost of fibre trenching.
To ensure long-term link stability, KORUZA features automatic alignment technology, continuously adjusting for thermal expansion, structural shifts, and environmental changes in buildings and towers. This guarantees consistent performance even in dynamic conditions, reducing downtime and maintenance needs. With its self-correcting optics and precision tracking, KORUZA offers a robust alternative to fibre for dense urban environments and mission-critical infrastructure.
Wireless optical communications can be influenced by ambient effects that limit the optical visibility. KORUZA has been engineered with sufficient link margin to provide stable connectivity in reasonable weather conditions.
The attenuation on an FSO link arises from scattering of light by particles suspended in air. The closer the particle diameter is to the wavelength of the light, the more significant the effect is.
Rain consists of large droplets and the optical link even in most dense downpours does not get significantly attenuated.
Snow like rain consists of large particles and as such rarely presents significant link attenuation. With correct installation we ensure the snow build-up does not create an obstacle for the beam of light.
Fog/mist is potentially the most significant attenuation source for wireless optical communications due to particles size in the wavelength range. KORUZA has been extensively tested in such scenarios and a number of scientific studies have been created.
Ice can coat units in the right conditions and disrupt many communication technologies. KORUZA can optionally include a heating element to prevent build-up on the lens and assure reliable operation.
KORUZA offers fundamentally more secure alternative to RF-based communication by leveraging a collimated, infrared laser beam for data transmission. Unlike traditional wireless signals that propagate in all directions and can be intercepted or jammed, KORUZA’s line-of-sight transmission ensures that only the intended receiver can access the data.
This eliminates the risks of packet sniffing, man-in-the-middle attacks, and RF eavesdropping. Additionally, KORUZA operates in environments where RF interference, congestion, or regulatory limitations make conventional wireless technologies unreliable. Its high-bandwidth, air-gapped transmission is ideal for military, aerospace, and other critical infrastructure applications that demand the highest level of data security.
