The Future of Off-Grid Communications
Decentralized, autonomous PTT routing designed for the harshest environments.
KITH 2.0 solves the fundamental problem of modern group riding and convoy operations: cellular dead zones. Through our proprietary Bridge Proxy Architecture, KITH seamlessly transitions users from global 5G Cloud connectivity into decentralized, offline mesh networks without dropping a single packet of audio.
The "Bridge Proxy" Architecture
Why rely on expensive uplinks?
Traditional mesh networks fracture when some users have 5G and others don't. KITH 2.0 introduces the Bridge Proxy.
- As trailing riders lose cell service, the Cloud Server detects the socket drops.
- The Cloud alerts the Ringleader to silently spin up a localized Wi-Fi Direct Hotspot and a lightweight Kotlin Ktor server.
- Offline trailing riders automatically connect to the Ringleader's Hotspot.
- The Ringleader's device acts as an upstream proxy, bridging the offline local mesh to the global 5G Cloud.
Simulation Proven
10,000 Node Stress Test
Our Bridge Proxy logic was stress-tested in a massive 10,000-user off-grid simulation in a dense 75m forest.
Advanced Resilience & Edge Cases
To ensure the system is indestructible in real-world scenarios, we implemented three autonomous safety nets designed to handle the most volatile network environments.
Smart Client Deferral
The OS Fracture Fix: KITH 2.0 clients evaluate their own cell signal before connecting to the offline mesh. If they have 5G, they stay on the Cloud, preventing the convoy from fracturing along Android/iOS boundaries.
Dynamic Sub-Meshes
The Highway Fix: Riders isolated for >10 seconds automatically promote themselves to "Sub-Hosts." They spin up rescue hotspots to support stragglers, creating autonomous islands that auto-merge when catching up.
3-Minute Mesh Cooldown
The Subway Fix: In highly fragmented areas, jumping between 5G and Local Mesh destroys battery life. KITH implements a strict 3-minute cooldown timer before tearing down a mesh, eliminating battery thrashing.