AvioLog

Aviolog’s innovative system for reliable aircraft information management, prioritizing green, scalable, and sustainable Distributed Ledger Technology (DLT) solutions. By harnessing crowd-sourced air band data—such as ADS-B and ACARS signals—Aviolog creates an immutable blockchain of verified, high-integrity aircraft information. This blockchain is accessible via intuitive platforms, including web applications, ensuring transparency and ease of use.
The system employs a decentralized network of strategically distributed, ground-based IoT nodes operated by authenticated collaborators – feeders. These nodes collect air band data within their reception range and transmit it safely encrypted for processing using a robust consensus mechanism. Advanced verification processes—including geolocation validation and feeder identity authentication—ensure that only trusted data is stored in the blockchain. This results in a uniquely secure, transparent, and trustworthy platform for end users.
Aviolog incorporates self-sovereign identity techniques to enhance node registration and authentication, bolstering the system’s security and trustworthiness. Additionally, a reputation mechanism evaluates the accuracy of node contributions, fostering reliability and reducing misinformation.

- Motivation for the project: Pilot to showcase a scalable, eco-conscious transportation data ecosystem and provides basis of any similar real-time DePIN/PRN in maritime, road and railway use case to be developed on this open source SDK.
- Generic use case description: Proposing a combination of air band data receivers (DePIN), a decentralised blockchain infrastructure, and user-friendly professional and consumer applications.
- Essential functionalities: Green, scalable DLT fed by geographically distributed DePIN, with SSID and onchain consensus records and offchain data retention.
- How these functionalities can be integrated within the software ecosystem: Green, scalable DLT powered by distributed DePIN integrates with TrustChain via modular interfaces, supporting SSID, on-chain consensus, and off-chain data. Standards-based and energy-efficient, it enhances decentralization, trust, and data sovereignty.
- Gap being addressed: This approach connects traditional aviation data with green, scalable, and secure systems. By combining crowd-sourced data, blockchain validation, and energy-efficient DePIN, it offers a unique and innovative solution.
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Expected benefits achieved with the novel technology building blocks: Following benefits are expected to different stakeholders, spanning from:
- flight fuel conservation
- CO2 emissions reductions, monitoring, reporting and verification
- increased regulators trust and collaborations. - Potential demonstration scenario: Aviation sensor data is collected via DePIN receivers on the ground, verified on-chain, and linked to SSIDs for trust. The demo shows real-time validation of aircraft events, enabling secure sharing with stakeholders through TrustChain-compatible tools and off-chain data access..
Team

Djordje Zekavica

Boban Bogojević

Marko Ekmedžić
Entity

Aerrozz Consulting doo
Aeronautical consultancy

Innovapp
IT development