A decentralized and distributed ledger is used to record all transactions, interactions, and decisions of humanoid robots, which is maintained by a network of validator nodes, combining elements of Proof of Stake (PoS) and Byzantine Fault Tolerance (BFT) to achieve high throughput, low latency, and resistance to malicious actors.
Blockchain-based smart contracts power the autonomous decision-making capabilities of humanoid robots, automatically execute protocols, encode the robot's operating logic, task allocation, and conflict resolution protocols, and ensure that operations are transparent and auditable.
The blockchain architecture serves as a secure and immutable data management system for humanoid robots, recording all sensor data, environmental information, and operation logs to ensure the integrity and traceability of key information.
In the industrial and manufacturing sectors, humanoid robots can be used to perform tasks such as material handling, assembly, and quality inspection. They can autonomously perform tasks through blockchain control systems and smart contracts, coordinate with human workers, manage production workflows, and improve production efficiency and quality.
AutoSynapse uses robots equipped with high-precision sensors and cameras to conduct regular inspections of key equipment such as nuclear reactors, pipelines, and valves. In the event of a nuclear accident (such as a leak or explosion), the AutoSynapse intelligent robot can enter the accident site for preliminary assessment and emergency response.
Conduct inspections around tanks, pipelines, reactors and other equipment in chemical plants to detect leaks, corrosion or abnormal conditions. In the event of a chemical leak or accident, the robot can enter the scene to perform preliminary treatment, such as plugging leaks, absorbing leaks, etc.
AutoSynapse plans to send humanoid robots to other planets and moons to collect data and conduct scientific experiments, and to perform space missions that are difficult or impossible for humans to complete, such as satellite repair, space station assembly and maintenance, etc. This application can promote the progress of space exploration and expand human cognition and understanding of the universe.
The application of AutoSynapse intelligent robots in automated production and assembly is the core of modern manufacturing, which can significantly improve production efficiency, reduce costs and ensure product quality.
Token distribution includes:
STO issuance + circulation share 40%
Development team 30% (locked for 5 years, then released 2% each year)
Team operation 10% (audited by the foundation, issued irregularly)
Foundation 10% (locked for 4 years, then released 1% every quarter)
Marketing airdrop 10%
John has over 15 years of experience in the robotics and automation industry, with a deep understanding of humanoid technology and its integration with emerging technologies. He has led the development of multiple successful robotics projects and is a recognized thought leader in the field.
Jane is a well-known blockchain technology expert with extensive experience in building scalable and secure decentralized systems. She pioneered the development of the project’s core blockchain architecture and has extensive experience in implementing decentralized governance and smart contract frameworks.
Michael is an experienced mechanical engineer specializing in humanoid robotics. He led the design and development of the project’s modular and flexible hardware platform, ensuring seamless integration of blockchain-driven software and control systems.
Sarah is an expert in artificial intelligence and distributed systems. She oversees the project’s development of blockchain-based decision-making algorithms, sensor fusion, and autonomous control systems, enabling humanoid robots to operate with enhanced intelligence and autonomy.
