“Problem: Autonomous Devices Are Stranded Without Trustable Comms
- Connectivity gaps: Drones, vehicles, and IoT devices often lose cell or Wi-Fi; cloud-first networks fail offline and internet vulnerabilities plague devices.
- Trust gaps: Even when connected, there’s no built-in way to prove that device actions or relays happened with blockchain verification and ZK proving — autonomy becomes a black box.
- Integration pain: IoT builders juggle VPNs, custom APIs, and separate AI stacks. Nothing gives them a simple “drop-in” autonomy + networking SDK.
- Security & compliance: Regulators and enterprises need cryptographic logs of autonomous device behavior, not just sensor readings.
Solution: OTR + DexI
- OTR (Over-the-Radio SDK):
- Multi-rail comms: MAC-first addressing over BLE, LoRa, Wi-Fi Direct, SDR.
- Offline-first: Works with or without internet, queues and syncs later.
- Provable networking: Every message carries Relay/Auth/Geo proofs, logged to IPFS/SafeSignal.
- DexI (Decentralized Intelligence):
- On-device AI brain: Autonomy runs locally (decisions, policies, ML).
- Trustable autonomy: Actions are cryptographically stamped by OTR → regulators, partners, or investors can verify.
- Composable SDK: Builders can use just OTR (for networking) or OTR + DexI (for full autonomy).
Bottom Line
Over-the-Radio network is comprised of an offline capable distributed Layer 1 (L1) blockchain built into a agentic native communication protocol (DACP). It ensures access to secure autonomous communication — even without internet.
“No DHCP Servers/ISP = Zero Infrastructure or Overhead. It’s freedom of communication, autonomous —relayed, anywhere, anytime You choose!”
OTA (Over the air) is the network’s backend reward token of the ‘Over the radio network’
“OTR is the verifiable network. DexI is the decentralized autonomous AI layer that plugs into it.”
What is the network about ?
- Simple Definition: An offline hybrid Layer 1 (L1) blockchain with relay validators, decentralized Ai agents, and smart devices connect using proof-of-work instances:
- POR (Proof of Relay): Verifies message and transaction relay from the sender to the intended receiver.
- HBD (Hardware-Based Authentication): Ensures device trust that the device is not compromised or operated by a bad actor to keep the network safer..attestation + ZK-ready
- POH (Proof of Humanity) – Proves the user is human.
- Dexi – the distributed agnetic intelligence: “Just as Cisco built the internet’s connective tissue, we are building the connective tissue for autonomous robotics.”
System Overview
Core Layer: Supercluster Mesh
Relay Protocols: BLE, P2P Wi-Fi, ,LiFi,Laser, LoRa, SDR
Encryption: XChaCha20-Poly1305 + MAC-authenticated routing
Audit Layer: IPFS + optional SafeSignal broadcast
Key Features
- The offline-capable device .
- Works offline without centralized infrastructure as a decentralized network should .
- Supports smart device control.and communication to your device.
- Cold-Sync Mode → Allows syncing mempool + balance updates via OTR nodes while offline..
- Institutional Key Handling → Allow hardware key integration (HSM / Ledger) for signing offline transactions.
- Fallback Priority Queue → When both internet and OTRnet are present, Can decide automatically whether to send via OTRnet or mainnet for efficiency.
- Security: Incorporates HSM/Ledger for key management, encrypt PoA data, and enforces strict MAC whitelisting. Scalability: Optimize LoRa traffic with a hierarchical validation model and IPFS caching. Compliance: Ensures GDPR/KYC compliance with auditable logs and revocable identities. Integration: Extend to institutional nodes (e.g., exchange validators) and existing SDK features.
- Global Reach:
- U.S.-compliant, optimized for worldwide validator deployment.
- Supports amateur radio communication, mesh/satellite relays, CID (Content Identifier) logging, and hybrid digital/analog communication.
- “OTR is fully U.S.-compliant but optimized for global validator deployment, including mesh/satellite relays.
- OTR is engineered for reliability and global reach, with support for offline validation, CID relay, and decentralized infrastructure bridging digital + analog communication for a hybrid approach.
Network Details
- Connection: Join the OTR mesh and connect to a node’s MAC-derived link-local IPv6 address.
- Ports: 26657 (HTTP RPC, WebSocket) or 9090 (gRPC).
- Example: http://[fe80::]:26657
- Consensus:
- CometBFT-based Proof of Authority (PoA) with optional validator rotation.
- POR Proof of Relay and POH Proof of Humanity.
Supercluster Layer
- Summary: A scalable, decentralized overlay enhancing the OTR network’s validator mesh. It coordinates global validator nodes into a supercluster, optimizing relay paths and resource sharing. This layer ensures high availability and fault tolerance, enabling seamless communication across all mesh relays even during outages. It leverages DexI to adaptively manage node behavior and prioritize offline resilience.
Tokens
- OTA: Native token for network access.
- WOTA (Wrapped OTA): ERC-20 version for cross-chain use on Base.
- Address: 0x1E55d390926789Faf255aad1e79Fdf608Cd
- Deployer: 0x16Bae3A998878Ebf1047FcF5ea90f13B7C49ec8d
- Verified on BaseScan.
- Utility: Enables validation, messaging, autonomous sessions connectivity , relays, and IPFS storage.
- Legal Note: Not securities; no profit guarantee. Users retain full custody and control.
Data Encryption
- Summary: Implements native XChaCha20 encryption with a zero-knowledge proof (ZKP)-like commitment for secure, private communication. Using the libsodium library, it generates session keys via Diffie-Hellman, encrypts messages with a recipient’s public key, and includes a CID-based commitment hash to verify sender authenticity without revealing identity. This ensures end-to-end confidentiality across P2P Wi-Fi, HF, BLE, 5G, and LoRa, with key exchange facilitated via BLE.
Functionality
- Fleet Management:
- Smart Devices: Connect and script hardware behavior offline.
- Audit & Compliance:
- Secure logging to IPFS.
- Export .enc bundles for audits or forensics.
- DexI + Blockchain Synergy
Provides autonomous validation, transaction routing, and threat detection — even in disconnected environments. - Offline-First Infrastructure
OTR Validators act as independent routers, capable of authenticating devices, relaying data, and securing local networks — no internet required. - Resilient by Design
From spectrum-to-spectrum relays to fallback IPFS broadcasting, OTR is built to route around outages and prevent compromise at the edge. - Composable & Modular
Easily extend OTR with modules for smart home automation, encrypted chat , device trust badges, and more.
On-Chain AI Agents
DEXI (Decentralized AI)
- Validator Mesh Intelligence API: Adaptive swarm optimization for relay paths.
- ‘DexI’-Driven Smart Home Scenes: Device learning from encrypted relay history.
- DexI + CID Replay API: Adjusts priorities and security based on CID history.
Decentralized Resilience
- No Uptime Dependency: Host your own validator and relay via air, light, RF, or local mesh.
- Community-Driven: No central management .
Decentralize Everything. Even the Outages.
Unlike traditional wallets that assume uptime and rely on third parties, OTA Wallet lets your node be the network.
Host your own validator.
Relay across air, light, RF, or local mesh..
We recognize the growing importance of autonomous devices on an secured blockchain ecosystem and the critical need for uninterrupted access, especially during internet outages or geopolitical disruptions.
The OTR platform is a Robotics Autonomous
AI Agentic Communication DePIN, positioning us precisely at the intersection of high growth
sectors.
“Just as Cisco built the internet’s connective tissue, we have built the connective tissue for autonomous robotics.”
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We are excited to announce that VC Michael Terpin of Transform Ventures has joined the Wota Network team !
Terms of Use
Participation is at your own risk, with no fiduciary relationship.
Tokens are tools for network features, not investments.