📆Roadmap

The roadmap outlines a clear, phased strategy to build a robust, decentralized robotics simulation platform. Each phase represents a step closer to a fully open, scalable, and community-driven ecosystem.

Phase 1 – Foundation & MVP

1. Develop Digital Twin SDK Build the core framework for creating standardized digital twins of physical robots.

2. Physics-Based Simulation Engine Integrate a simulation layer that accounts for realistic physics and movement.

3. DApp Development Launch the decentralized app for submitting and executing tasks remotely.

4. API Standards for Deployment Define the API interfaces that bridge simulations to real-world robotics hardware.

5. Community Beta Testing Onboard early users, gather feedback, and iterate on the user experience.

Phase 2 – Expansion & Ecosystem Growth

1. Multi-robot Library Support Expand the number of supported digital twin models across various robot types and manufacturers.

2. Natural Language Processing Integration Enable NLP-powered input to allow task creation using natural language prompts.

3. Incentivized Contributor Ecosystem Reward developers for contributing robot models, simulations, or API integrations.

4. Simulation-to-Hardware Deployment (S2HD) Launch features to directly deploy tested code to physical robots via secure API endpoints.

5. Partnerships with Robotics Orgs & Universities Collaborate with institutions for research, education, and real-world testing.

Phase 3 – Decentralization & Marketplace

1. Full Decentralized Task Execution Protocol Transition simulation and execution backend to a fully decentralized compute network.

2. Token Economy & Task Bounties Introduce a native token to reward simulation tasks, model contributions, and community moderation.

3. User-Created Digital Twin Marketplace Allow users to upload, license, and monetize their own digital twin robot models.

4. Remote Robotics Task Bidding System Non-robot owners can submit tasks, and hardware owners can bid to execute them physically.

5. Global Access & Educational Portals Launch open-access educational tools for learners worldwide to explore robotics virtually.