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Indoor + Outdoor. Four Anchors. One Square Kilometer.
Breakthrough VHF radio technology that penetrates concrete, covers indoor and outdoor spaces, and
delivers concrete penetrating RTLS coverage with minimal infrastructure.
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Technical Specifications
Engineered for performance, designed for reliability.
How Concrete Penetrating RTLS Works
Advanced engineering meets practical deployment.
Long-Wave Propagation
VHF frequencies travel through materials that block UWB and BLE signals.
Strategic Placement
Four anchors provide overlapping coverage across the entire square kilometer.
Hybrid Positioning
Combine VHF wide area with optional BLE/UWB zones for enhanced accuracy.
Measurable impact.
Real-world deployments.
See how leading organizations use RTLS + Digital Twin.
University Campuses
Track equipment and assets across multiple buildings and outdoor spaces.
Hospital Complexes
Monitor medical equipment across buildings without signal dead zones.
Industrial Parks
Unified tracking across warehouses, yards, and production facilities.
Corporate Campuses
Asset management across multiple office buildings and parking structures.
Airport Facilities
Track ground support equipment across terminals, hangars, and tarmac.
Ready to transform
your operations?
Discover how Campus-wide RTLS can deliver unprecedented accuracy and
efficiency for your business.
Frequently Asked Questions
Everything you need to know about Campus Wide RTLS Solutions.
Concrete Penetrating RTLS uses VHF radio frequencies that travel through concrete, walls, and floors to maintain connectivity between anchors and tags. This enables continuous tracking across indoor and outdoor spaces with high RTLS accuracy.
With advanced VHF propagation, just four anchors can cover up to one square kilometer, supporting campus wide RTLS coverage for large facilities like hospitals, universities, and industrial sites.
Unlike high-frequency systems like UWB or BLE, VHF-based RTLS can penetrate obstacles, equire minimal infrastructure, and support concrete penetrating location intelligence across indoor and outdoor environments.
It’s ideal for multi-building campuses, hospital complexes, industrial parks, airports, and other large facilities that need seamless concrete penetrating location mapping across concrete-heavy or mixed-use environments.
Yes, Wi-Fi signals can penetrate most walls, but their strength reduces significantly when passing through dense materials like concrete or metal. VHF signals, as used in Concrete Penetrating RTLS, travel farther through such barriers, enabling broader coverage in mixed indoor and outdoor environments.
No, ultrasonic waves cannot pass through solid walls or dense materials. They need a clear line of sight, unlike VHF-based Concrete Penetrating RTLS, which maintains connectivity through concrete and other barriers.