The mmWave connection that doesn't break.

V-Mesh™ enables nth-generation connectivity by maintaining a continuous mmWave link indoors and out — routing signals across multiple hops through coordinated RF-on-Glass™ repeaters when direct line of sight is blocked.

A network of energy-efficient glass NCRs that keep signals moving...

The link no longer depends
on a direct path.

V-Mesh builds a coordinated propagation layer across Visban's network-controlled repeaters (NCRs), connecting them in multiple hops rather than relying on a single direct path. The AI Orchestrator continuously monitors device location and real-time signal quality to route traffic along the best available path — keeping the mmWave link stable even as conditions change.
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Traditional network

Single path coverage

V-Mesh network

Multi-path mesh coverage

Coverage follows the environment,
not the other way around.

Adding base stations to close mmWave coverage gaps isn't practical at scale. With V-Mesh, coverage extends around corners, across streets, and into buildings — continuously, without falling back to lower frequencies.

Traditional network

Placement constrained by line-of-sight

V-Mesh network

Coverage follows the environment

V-Mesh Performs Where Other Networks Fail.

Built for environments where conventional mmWave deployment fails.

Campus & Private
Networks.

Seamless coverage without added infrastructure.
Extends mmWave across courtyards and entry points through coordinated multi-hop routing — eliminating the CAPEX of additional base stations.

Industrial & Logistics
Facilities.

Reliability in high-interference NLOS.
Dynamically routes around machinery and structural steel to maintain low-latency links for robotics and autonomous floor sensors.

Urban Streets &
Corridors.

Continuity across moving environments.
Orchestrates real-time path optimization across facades and moving vehicles to ensure mmWave throughput remains stable.

Venues & Mixed Indoor/Outdoor Spaces.

Bridging the indoor-outdoor gap.
Preserves mmWave link continuity as users move through glass entrances, reducing session failure and fallback to congested lower bands.

V-Mesh Deployment
Architecture.

Expanding mmWave reach without new base station infrastructure.

RF-on-Glass™ Repeaters

Compact nodes in flexible form factors for versatile deployment across any surface without heavy mounting hardware.

Network Orchestration

The Visban AI Orchestrator continuously evaluates signal conditions across the mesh, dynamically selecting the optimal multi-hop path in real time.

Infrastructure Integration

Rapid, cable-free installation that removes the need for trenching, core drilling, or dedicated indoor wiring.

Latest News.

July 5, 2025

Visban Featured in Growthstock Pulse: Powering the Next Generation of Wireless with Glass-Based Mesh Networks

Growthstock Pulse features Visban's innovative glass substrate technology that enables cost-effective millimeter-wave coverage expansion for 5G and 6G networks,

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June 13, 2025

Visban Technical Lead Dr. Jin Nakazato Wins Best Paper Award at SmartCom 2025

Dr. Jin Nakazato, Visban's V-Mesh Technical Lead and Tokyo University of Science Assistant Professor, won the Best Paper Award at SmartCom 2025 for his research on data-driven digital twins for mobility networks.

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June 2, 2025

Visban Selected for Tokyo’s Startup X University Innovation Program

Tokyo-based Visban has been selected for the Tokyo Metropolitan Government's Startup × University Collaboration Program to advance the validation and testing of its AI-guided millimeter wave wireless infrastructure technology, V-MESH.

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July 5, 2025

Visban Featured in Growthstock Pulse: Powering the Next Generation of Wireless with Glass-Based Mesh Networks

Growthstock Pulse features Visban's innovative glass substrate technology that enables cost-effective millimeter-wave coverage expansion for 5G and 6G networks,

READ MORE