Here is a detailed map of the features and concepts for the "SIMbiogenesis" simulation software: ![[PXL_20231008_020156342 (1).jpg]] 1. Real-time Data Integration - Display real-time data from the physical structure - Provide a live view of the system's performance - Allow real-time control of switches, actions, and scenes - Visualize energy and material flows through the systems - Monitor real-time environmental conditions ![[Untitled video - Made with Clipchamp (1) (2) 1.mp4]] 2. Future Data Simulation - Pull local climate data from a weather API, such as Meteo - Use historical and forecasted data to predict future system behavior - Generate simulated timelapse of the system's performance over days, months, or years ![[Sequence 01_1.gif]] 3. Timelapse Generation - Create timelapse videos of actual system performance - Sync solar data with the timelapse for data correlation - Compare recorded timelapse with simulated predicted "climelapse" ![[Nov 23.gif]] 4. Energy Consumption Simulation - Create "loops" to simulate component energy consumption - Playback recorded energy consumption data or use functions for simulation - Simulate power draw of devices based on user-defined rules ![[Sequence 01_2.gif]] 5. Automation Creation - Develop automations based on system conditions (e.g., battery levels) - Simulate the effect of automations on overall energy consumption - Execute automations through home assistant for seamless integration ![[Climlapse Short (1).mp4]] 6. Documentation Integration - Link devices to relevant documentation or Bill of Materials (BOM) resources - Include documentation for every part in saved in a system - Facilitate sharing and improvement of designs 7. Leaderboard System - Track and display top-performing runs in various categories, both real and theoretical - Encourage adoption and improvement of high-performing designs - Foster global collaboration and iterative design optimization 8. Educational Aspect - Teach users about the functionality, cost, and performance of each component - Enable cost estimation for budgeting and planning - Encourage hands-on learning through simulation and real-world application 9. Collaborative Design - Allow users to open and modify existing project files from the leaderboard - Enable users to suggest improvements to project owners - Facilitate integration of optimized designs into subsequent runs Relation to Previous Conversations: 1. Gamification of Sustainable Living - The simulation software gamifies the process of designing and optimizing sustainable living systems - Users can "play" the game to learn about and improve real-world structures 2. Open-Source Collaboration - The leaderboard and collaborative design features align with the principles of open-source knowledge sharing - Users worldwide can contribute to the improvement of sustainable living designs 3. Iterative Design and Continuous Improvement - The software enables rapid iteration and optimization of designs through simulation and real-world testing - The cyclical nature of simulation, real-world application, and design refinement aligns with the principles of continuous improvement 4. Data-Driven Decision Making - The integration of real-time data and future simulations supports data-driven decision making - Users can make informed design choices based on actual performance data and predictive simulations 5. Accessibility and Scalability - The educational aspect and cost estimation features make sustainable living design more accessible to a wider audience - The collaborative nature of the platform allows for the rapid scaling and dissemination of successful designs The "SIMbiogenesis" simulation software serves as a powerful tool for designing, optimizing, and sharing sustainable living systems. By integrating real-world data, predictive simulations, and collaborative design features, the software supports the development and widespread adoption of effective sustainable living solutions.