RESEARCH
OPTICAL WIRELESS TECHNOLOGIES
Optical Wireless Technology (OWT) is an advanced method of wireless communication and power delivery that enables ultra-fast, interference-free, and license-free data connectivity while also supporting simultaneous wireless energy transmission.
OWC - OPTICAL WIRELESS COMMUNICATIONS
LiFi | FSO with Integrated AI & Machine Learning
Nav Wireless Technologies is advancing LiFi and Free Space Optics (FSO) by integrating Artificial Intelligence (AI) and Machine Learning (ML) to create smarter, adaptive optical communication systems. These AI-driven solutions dynamically optimize network performance, predict link disruptions, and enhance security through real-time data analysis.
Ideal for defence, autonomous systems, smart infrastructure, and high-reliability environments, this next-gen approach ensures resilient, self-optimizing, and secure optical wireless connectivity—even in complex or rapidly changing conditions.
QKD
Quantum-Secured Communications
QKD-Enabled Optical Wireless Systems combine the speed and flexibility of LiFi and FSO with the unbreakable security of Quantum Key Distribution (QKD). This revolutionary approach ensures that any attempt to intercept or eavesdrop on communications is immediately detected.
Perfect for critical infrastructure, defence networks, financial systems, and strategic communications where absolute security is paramount. These systems provide quantum-level protection for the most sensitive data transmissions.
OWP - OPTICAL WIRELESS POWER
Wireless Electricity Transmission
Optical Wireless Power enables the wireless delivery of energy using focused beams of light, such as lasers or LEDs, to power electronic devices at a distance. This technology eliminates the need for physical cables and enables power transmission in challenging environments.
Applications include powering IoT sensors, extending drone flight times, charging medical implants safely, and providing electricity to remote locations where traditional power infrastructure is impractical or impossible.
POF
Optical Power & Data Transmission
Advanced research and development of Power over Fiber (PoF) systems—enabling the simultaneous transmission of optical power and data over optical fiber. This technology provides electrical isolation and immunity to electromagnetic interference.
Ideal for hazardous environments, industrial applications, and situations requiring complete electrical isolation. PoF systems are explosion-proof and provide reliable power and data transmission in the most demanding conditions.
SPACE COMMUNICATION
Laser Communication for Space
Advanced laser communication systems for space applications enable high-bandwidth, secure data transmission between satellites, ground stations, and space platforms. These systems provide significantly higher data rates than traditional radio frequency communications.
Supporting satellite communications, deep space missions, ground-to-space links, and secure space communications. Our laser communication systems enable the next generation of space exploration and satellite networks.
SEMICONDUCTOR
Next-Gen Chip-Level Optics
Programmable Photonic Integrated Circuits (PPICs) leverage semiconductor materials to enable ultra-fast, low-power data transmission at the chip level. These circuits represent the future of high-speed computing and communications.
Applications span data centers, IoT devices, 6G networks, and edge computing platforms. PPICs offer unprecedented speed and efficiency for next-generation digital infrastructure and distributed computing systems.
PAT
Precision Optical Alignment
Advanced Pointing, Acquisition, and Tracking (PAT) systems ensure stable and accurate alignment in Free Space Optical (FSO) and laser communication links. These systems provide real-time feedback and intelligent control for optimal performance.
Featuring microsecond response times, precision beam steering, AI-powered tracking, and motion compensation capabilities. PAT systems enable reliable optical communications even in challenging environmental conditions.
