IEEE 802.11bb Compliant

Menawar
منوّر

The next generation of high-speed indoor connectivity. A complete ecosystem for Li-Fi network control, smart lighting, and spatial data transmission bridging the gap between visible light and gigabit communication.

Ultra-Low LatencyHigh BandwidthZero EMIInherently Secure

Performance Metrics

Breaking the boundaries of RF limitations.

1.2
Peak Throughput (Gbps)
< 1
Network Latency (ms)
2.5
Spatial Accuracy (cm)
+40
Power Efficiency (%)

How It Works

Data through illumination in three distinct phases.

1

Modulation

LEDs pulse at nanosecond intervals, imperceptible to the human eye, converting electrical signals into an optical bitstream.

2

Propagation

Intense, focused light waves construct a hyper-dense, interference-free cone of connectivity directly to the localized receiver.

3

Demodulation

Photodetectors instantly decode the photons back into standard network data packets with microsecond processing overhead.

Core Capabilities

Seamless synthesis of illumination and data.

Li-Fi Discovery

Scan and connect to nearby access points via visible light. Real-time SSID equivalents and modulation metrics.

Signal Monitor

Live SNR graphs, precise packet loss analysis, and room coverage heatmaps.

Smart Light Engine

Precision dimming down to 10% (Li-Fi modulation floor) and tunable color temperature.

Indoor Positioning

Physical layer trilateration via multiple APs. Determine user and asset positions with centimeter-level accuracy.

Inherent Security

Data strictly contained within physical walls. Impossible to intercept externally.

Target Sectors

Where RF fails, Li-Fi illuminates.

Healthcare

EMI-free environments for operating rooms and patient ward connectivity.

Enterprise

High-density secure meeting rooms and impenetrable trading floors.

Industry 4.0

Resilient M2M links amidst heavy RF machinery interference.

Education

Shared gigabit bandwidth without overlapping Wi-Fi channel congestion.

Development Sprint

From foundation to 802.11bb launch.

Q1

Core Protocol Integration

Establishing the base physical layer handshake and basic payload routing protocols.

Q2

Photodetector Bridge

Platform APIs to interface with native iOS/Android camera hardware for optical reception.

Q3

Mesh Networking

Multi-node handoff ensuring zero-packet-drop transitions between different light fixtures.

Q4

Positional Engine

Mathematical trilateration leveraging multi-AP signal arrays. Real-time rendering maps.