2.3 KiB
2.3 KiB
PROJECT: Modular Home Appliances (Universal Literate Note)
- Overview
- Phase A: Demand (PRD)
- Phase B: Blueprint (PROTOCOL)
- Phase D: Build (Implementation)
- Phase E: Chaos (Verification)
Overview
The Modular Home Appliances project focuses on developing open-source, sustainable designs for major home appliances (washers, fridges, etc.). It utilizes a modular physical architecture coupled with ESP32-based smart interfaces for AI-driven control and seamless Home Assistant integration.
Phase A: Demand (PRD)
1. Purpose
Define the requirements for modular, open-source, and intelligent home hardware.
2. User Needs
- Physical Modularity: Easy replacement and upgrade of mechanical and electrical components.
- Smart Interfacing: ESP32-based control boards for connectivity.
- Multimodal Control: Support for smartphone apps, physical modular controllers, and direct `opencortex` AI interaction.
- Sustainability: Design for longevity, repairability, and efficient power management (inspired by Slate principles).
3. Success Criteria
TODO Washer/Dryer modular chassis design (draft)
TODO ESP32 firmware specification for appliance state machines
TODO Home Assistant MQTT discovery protocol implementation
TODO Lesson extraction from Slate electric truck architecture
Phase B: Blueprint (PROTOCOL)
1. Architectural Intent
Interfaces for appliance telemetry and remote actuation. Source of truth is the physical sensors and the Home Assistant state machine.
2. Semantic Interfaces
(defun appliance-get-telemetry (appliance-id)
"Queries the MQTT broker for real-time appliance state.")
(defun appliance-actuate-program (appliance-id program-id)
"Sends a command to the ESP32 controller to start a specific cycle.")Phase D: Build (Implementation)
Implementation involves 3D CAD models, circuit designs, and ESP32 firmware (C++/ESP-IDF).
Firmware Logic (Software Component)
// Placeholder for ESP-IDF control logic
Phase E: Chaos (Verification)
Verification involves automated cycle testing, Wi-Fi reconnection resilience, and MQTT latency audits.