What Is Flying Carpet?
Flying Carpet is a decentralized autonomous transparent network. It is a transportation system that everyone can use, no one can control or shut down the operation. The platform is powered by Ethereum Blockchain, fancy state channels, VR and AI.
The Minimum Viable Product (MVP) was developed in a mere 6 weeks time and tested in three different sectors of activity.
How Flying Carpet Autonomous Transportation Network Works
Flying carpet is powered by the AIR Network protocol, a decentralized network used to deploy IoT devices including drones to collect data in a timely and cost-efficient manner, especially when automating tasks that are otherwise expensive and labor intensive.
AIR Network protocol allows multiple different stakeholders to benefit, including drone and charging dock owners, developers who can be rewarded in tokens for building applications for the network, and businesses and communities that employ the protocol to enhance their operations and reduce their costs.
Who Benefits From Flying Carpet?
Flying Carpet Owner:
The first decentralized, charging and docking station for air space which uses blockchain and renewable energy. It can be connected to the AirAI network to generate an income stream.
Drone's owner can connect their drone to the network for generating an income stream when their drone is required by the AirAI network to accomplish a task.
Services on the AirAI.network are built by 3rd party developers via open source smart contracts leveraged by the airAI token. Black boxes (Machine learning algorithms) are pushed into the Virtual Reality engine for testing before being used by the network as autonomous tasks.
Businesses can use the AirAI.network app to have access to different services that require an autonomous drone: like inspection of coconut palm trees, rooftop analysis, thermal imaging for buildings and houses, transportation, biomass crops and etc.
The Papua New Guinea Experiment
In an experiment which was first of its kind, Flying Carpet used a drone with AI capabilities to calculate the yield of a coconut farm in Papua New Guinea.
Charged with renewable energy, the drone was able to help coconut farmer Namaliu Jr. count his yield across over 100 hectares using high definition video cameras, according to a statement. This operation would otherwise take several workers multiple days to complete and will allow Namaliu Jr. to better estimate his return on crop harvesting and prevent theft of his coconuts.
Flying Carpet Conclusion
The Air Network and the machines which operate within it has the potential to transform services across many industries, from the energy sector, infrastructure, logistics, as well as humanitarian efforts. This groundbreaking proof of concept demonstrates just a fraction of the potential that AI-powered drones with blockchain technology can do for improving the lives of people in emerging economies like Papua New Guinea, who typically do not have access to smartphones or the Internet.
More information about the company and the team can be found out on flyingcarpet.network/