Ultra-Reliable Wireless for Industrial IoT Networks
Designed for factories, logistics hubs, energy sites, transportation systems, and large-scale industrial facilities.
Our Industrial Access Point
AI-driven Spectrum Slicing™ for real-time optimization
Multi-channel, multi-link Wi-Fi for high device density
Ultra-low latency for mission-critical applications
Standards-compliant and Wi-Fi 8 Ready
Designed for harsh, interference-heavy environments
High-Density Wireless for Transportation Hubs
Transportation hubs operate in high-mobility, high-density wireless environments where reliability is essential. Edgewater’s Industrial IoT solution delivers predictable performance across large-scale facilities by reducing contention and maintaining low latency.
Spectrum Slicing™ enables multiple simultaneous channels per radio, supporting critical infrastructure, automation, and real-time operations at scale.
Reliable Connectivity for Modern Mining Operations
Mining operations require continuous connectivity across remote, underground, and interference-heavy sites. Edgewater’s Industrial IoT solution delivers stable, low-latency Wi-Fi for critical systems—without performance degradation as device density increases.
AI-driven Spectrum Slicing™ intelligently distributes devices across multiple concurrent channels, ensuring reliable communications for operations, safety, and real-time monitoring.
Secure Multi-Channel Wireless for Autonomous & Military Drones
Autonomous and military drones require secure, low-latency wireless links to support command, control, and real-time payload data in spectrum-congested or contested environments.
Edgewater Wireless enables multi-channel communication by dynamically selecting, aggregating, and duplicating wireless channels in real time—ensuring resilient, predictable performance for control, telemetry, and high-bandwidth sensor data.
Bring Ultra High Reliability to Industrial Wireless Performance
Discover how AI-driven Spectrum Slicing™ delivers ultra-reliable connectivity in the world’s most demanding industrial environments.
