Integrating DePIN (Decentralized Physical Infrastructure Networks) into TenzaOne's solutions delivers significant benefits for certifications, offsets, and value creation through unmatched transparency and data immutability. By leveraging decentralized networks, TenzaOne ensures 100% data integrity, essential for certifications like carbon credits, energy efficiency ratings, and sustainability benchmarks.
DePIN's blockchain-based immutability guarantees that all data — from IoT devices, BMS, and AI processing — is tamper-proof and independently verifiable, eliminating fraud and building trust.
Carbon offset projects prove impact with immutable, real-time data — increasing market value. Energy efficiency certifications gain credibility, supporting premium pricing and regulatory compliance.
DePIN replaces centralized infrastructure and intermediaries. Scalability handles growing data demands while tokenized incentives reward IoT device owners for contributing data.
All data is cryptographically hashed, blockchain-recorded, and independently verifiable. No single entity can manipulate records.
Every step (collection, transmission, storage, processing) is secured with cryptographic hashes and signatures.
Multiple nodes in the DePIN network validate data transactions, eliminating single points of failure.
Redundancy and continuous monitoring ensure that corrupted or lost data is automatically repaired.
Smart contracts and automated processes handle all verification and validation tasks.
TenzaOne DePIN provides a fully automated, tamper-proof system that ensures 100% data integrity without human intervention. Our platform is designed to suit our client projects as well as flexible to enable DePIN for external projects.
Data is signed and hashed at the source.
Data is verified using cryptographic proofs.
Data is stored and processed on decentralized networks with immutable records.
Consensus mechanisms, smart contracts, and redundancy ensure data integrity.
The integration of built environment and building management systems with blockchain via DePIN creates a secure, automated pipeline where operational data flows from physical sensors through decentralised networks to immutable storage. This process eliminates human intervention while ensuring data integrity and auditability — a digital assembly line from sensor to blockchain.
Streamr has been selected as the leading protocol for enterprise-grade DePIN data management, having achieved feature-complete 1.0 Mainnet status. The protocol delivers decentralised data pipelines designed for real-time processing, built-in scalability for large data volumes, and robust security with granular access control.
Publish/subscribe messaging with tamper-proof signing and message chaining
Peer coordination with end-to-end encryption and automated key exchange
Automatic scaling architecture with cross-chain compatibility (Ethereum, Polygon, Gnosis)
Native low-level client SDK for device integration with composable smart contract access control
The protocol's blockchain-agnostic architecture ensures future flexibility. Ethereum secures and verifies data streams; Polygon provides speed, scalability, and access control; Gnosis Chain hosts Data Unions for data monetisation. Future expansion includes EVM-compatible chains and independent deployments on Optimism and Base.
Standardised contract deployment across projects
Protocol upgradability without data migration
Lifecycle management of certifications and data flows
The DePIN integration captures comprehensive datasets from both platforms. Climatenza records solar thermal specs, energy generation, temperatures, flow rates, environmental impact (CO₂, NOx, SOx avoided), and P2P energy trading including REC and EEC generation. Net0Link captures building energy models, equipment monitoring, occupant feedback, optimisation outputs, and financial impact — all continuously recorded on the DePIN blockchain ledger for auditing, verification, and tradable certificate issuance.
TenzaOne's DePIN infrastructure enables verified Scope 3 emissions data export for corporate sustainability reporting. Data flows from project-level IoT monitoring through cryptographic verification to standardised export formats compatible with GHG Protocol, CDP, and TCFD frameworks.
Project-level cards with real-time metrics, methodology references, and blockchain-anchored verification proofs. Machine-readable for direct import into corporate ESG systems.
Standardised data packages combining project certificates, emissions calculations, monitoring data, and DePIN verification proofs in a single auditable bundle.
REST API endpoints for automated Scope 3 data retrieval. Supports JSON, CSV, and XBRL formats for seamless integration with corporate sustainability platforms.
The first authenticated API surface on the platform. Per-project API keys, four REST endpoints, and a read-only MCP server exposing five tools to any MCP-compatible agent. Full documentation at /developer-api/.
Create keys in the TenzaOne admin. Per-key scopes: read:project · read:assessment · read:prices · write:telemetry · mcp. Keys are bcrypt-hashed at rest; secrets are shown once.
POST /wp-json/tenza/v1/ingest/telemetry accepts raw DePIN rows (timestamp, readings object, meter_id, source, signature). Rows land in wp_tenza_telemetry; latest aggregate mirrors to project meta for fast reads.
Read the 10-agent assessment JSON, readiness score, evidence tier — and the Phase 2 Progression panel state (current phase, blockers, next step) — for any allow-listed project.
Five read tools: tenza_get_project, tenza_get_assessment, tenza_get_progression, tenza_get_telemetry, tenza_get_prices. Plug into Claude Desktop / Cursor via a 30-line Node.js stdio bridge (recipe in docs).
Roadmap: on-chain evidence-chain anchoring (sha-256 payloads already emitted by the Evidence Chain agent), full Scope 3 export delivery, Streamr Network subscription, self-serve key issuance via WP profile.