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* docs: add ADR-052 Tauri desktop frontend with DDD bounded contexts Proposes a Tauri v2 desktop application as the primary UI for RuView, replacing 6+ CLI tools with a single cross-platform app. Covers hardware discovery, firmware flashing (espflash), OTA updates, WASM module management, sensing server control, and live visualization. Includes DDD domain model with 6 bounded contexts, aggregate definitions, domain events, and anti-corruption layers for ESP32 firmware APIs. Closes #177 Co-Authored-By: claude-flow <ruv@ruv.net> * docs: add persistent node registry, OTA safety gate, plugin architecture to ADR-052 Incorporates engineering review feedback: - Persistent node registry (~/.ruview/nodes.db) — discovery becomes reconciliation - BatchOtaSession aggregate with TdmSafe rolling update strategy - Plugin architecture section — control plane extensibility trajectory - Renumbered sections for new content (9-12 added, impl phases now section 13) Co-Authored-By: claude-flow <ruv@ruv.net> * docs: add ADR-053 UI design system — Foundation Book + Unity-inspired interface - Dark professional theme with rUv purple accent (#7c3aed) - Foundation Book typographic hierarchy (heading-xl through body-sm) - Unity Editor-inspired panel layout (sidebar + list/detail split + inspector) - 6 component specs: NodeCard, FlashProgress, MeshGraph, PropertyGrid, StatusBadge, LogViewer - Color system with status indicators (online/warning/error/info) - 4px base grid spacing system - Branding: splash screen, status bar, about dialog Refs #177 Co-Authored-By: claude-flow <ruv@ruv.net> * fix: rewrite ADR-053 UI design system with practical terminology Replace sci-fi themed language (Asimov Foundation references, Prime Radiant, Encyclopedia Galactica, Terminus, Seldon Crisis) with clear, practical terminology that engineers and operators can immediately understand. Co-Authored-By: claude-flow <ruv@ruv.net> * fix: specify Three.js for mesh topology visualization in ADR-053 Use Three.js for the mesh topology view, consistent with existing visualization patterns in ui/observatory/js/ and ui/components/. Includes implementation details: MeshPhongMaterial for node status, BufferGeometry for dynamic updates, OrbitControls, raycasting. Co-Authored-By: claude-flow <ruv@ruv.net> * feat: add Tauri v2 desktop crate with React frontend (Phase 1 skeleton) Rust backend (wifi-densepose-desktop): - 14 Tauri commands across 6 groups: discovery, flash, OTA, WASM, server, provision - Domain types: Node, NodeRegistry, FlashSession, OtaSession, BatchOtaSession - AppState with DiscoveryState and ServerState behind Mutex - Workspace Cargo.toml updated with new member - cargo check passes cleanly React/TypeScript frontend: - TypeScript types matching Rust domain model - Hooks: useNodes (discovery polling), useServer (start/stop/status) - Components: StatusBadge, NodeCard, Sidebar - Pages: Dashboard, Nodes (table + expandable details), FlashFirmware (3-step wizard with progress bar), Settings (server/security/discovery) - App.tsx with sidebar navigation routing - Vite 6 + React 18 + @tauri-apps/api v2 Implements ADR-052 Phase 1 skeleton. All commands return stub data. Co-Authored-By: claude-flow <ruv@ruv.net> * feat: implement ADR-053 design system across all frontend components Create design-system.css with all ADR-053 tokens: - CSS custom properties: colors, spacing, fonts, panel dimensions - Typography scale classes (heading-xl through data-lg) - Form control and button base styles - Custom scrollbar, selection highlight, animations Update all components to use design system tokens: - Replace hardcoded colors with var(--bg-surface), var(--border), etc. - Replace generic monospace with var(--font-mono) (JetBrains Mono) - Replace system font stack with var(--font-sans) (Inter) - Replace spacing values with var(--space-N) tokens - StatusBadge: use var(--status-online/warning/error/info) - Dashboard: add stat cards with data-lg class, use StatusBadge - FlashFirmware: pulse animation on progress bar during writes - Settings: default bind_address 127.0.0.1 (matches ADR-050) Add status bar footer with "Powered by rUv", node count, server status. Load Inter + JetBrains Mono from Google Fonts in index.html. Update ADR-053 status from Proposed to Accepted. Co-Authored-By: claude-flow <ruv@ruv.net> * fix: add missing @tauri-apps/plugin-dialog and plugin-shell dependencies Required for firmware file picker in FlashFirmware page and shell sidecar support. Fixes Vite build failure. Co-Authored-By: claude-flow <ruv@ruv.net> * fix: add defensive optional chaining for node.chip access Rust DiscoveredNode stub doesn't include chip field yet. Use optional chaining (node.chip?.toUpperCase()) to prevent TypeError at runtime. Co-Authored-By: claude-flow <ruv@ruv.net> * feat: add OTA, Edge Modules, Sensing, Mesh View pages with enhanced design system Implement all 4 remaining pages (OtaUpdate, EdgeModules, Sensing, MeshView) and enhance the design system with glassmorphism cards, count-up animations, page transitions, gradient accents, live status bar, and consistent status dot glows across the UI. Co-Authored-By: claude-flow <ruv@ruv.net> * docs: add desktop crate README and link from main README Co-Authored-By: claude-flow <ruv@ruv.net> * docs: add download/run instructions to desktop README Co-Authored-By: claude-flow <ruv@ruv.net>
Architecture Decision Records
This folder contains 44 Architecture Decision Records (ADRs) that document every significant technical choice in the RuView / WiFi-DensePose project.
Why ADRs?
Building a system that turns WiFi signals into human pose estimation involves hundreds of non-obvious decisions: which signal processing algorithms to use, how to bridge ESP32 firmware to a Rust pipeline, whether to run inference on-device or on a server, how to handle multi-person separation with limited subcarriers.
ADRs capture the context, options considered, decision made, and consequences for each of these choices. They serve three purposes:
-
Institutional memory — Six months from now, anyone (human or AI) can read why we chose IIR bandpass filters over FIR for vital sign extraction, not just see the code.
-
AI-assisted development — When an AI agent works on this codebase, ADRs give it the constraints and rationale it needs to make changes that align with the existing architecture. Without them, AI-generated code tends to drift — reinventing patterns that already exist, contradicting earlier decisions, or optimizing for the wrong tradeoffs.
-
Review checkpoints — Each ADR is a reviewable artifact. When a proposed change touches the architecture, the ADR forces the author to articulate tradeoffs before writing code, not after.
ADRs and Domain-Driven Design
The project uses Domain-Driven Design (DDD) to organize code into bounded contexts — each with its own language, types, and responsibilities. ADRs and DDD work together:
- ADRs define boundaries: ADR-029 (RuvSense) established multistatic sensing as a separate bounded context from single-node CSI. ADR-042 (CHCI) defined a new aggregate root for coherent channel imaging.
- DDD models define the language: The RuvSense domain model defines terms like "coherence gate", "dwell time", and "TDM slot" that ADRs reference precisely.
- Together they prevent drift: An AI agent reading ADR-039 knows that edge processing tiers are configured via NVS keys, not compile-time flags — because the ADR says so. The DDD model tells it which aggregate owns that configuration.
How ADRs are structured
Each ADR follows a consistent format:
- Context — What problem or gap prompted this decision
- Decision — What we chose to do and how
- Consequences — What improved, what got harder, and what risks remain
- References — Related ADRs, papers, and code paths
Statuses: Proposed (under discussion), Accepted (approved and/or implemented), Superseded (replaced by a later ADR).
ADR Index
Hardware and firmware
| ADR | Title | Status |
|---|---|---|
| ADR-012 | ESP32 CSI Sensor Mesh for Distributed Sensing | Accepted (partial) |
| ADR-018 | ESP32 Development Implementation Path | Proposed |
| ADR-028 | ESP32 Capability Audit and Witness Record | Accepted |
| ADR-029 | RuvSense Multistatic Sensing Mode (TDM, channel hopping) | Proposed |
| ADR-032 | Multistatic Mesh Security Hardening | Accepted |
| ADR-039 | ESP32-S3 Edge Intelligence Pipeline (on-device vitals) | Accepted (hardware-validated) |
| ADR-040 | WASM Programmable Sensing (Tier 3) | Accepted |
| ADR-041 | WASM Module Collection (65 edge modules) | Accepted (hardware-validated) |
| ADR-044 | Provisioning Tool Enhancements | Proposed |
Signal processing and sensing
| ADR | Title | Status |
|---|---|---|
| ADR-013 | Feature-Level Sensing on Commodity Gear | Accepted |
| ADR-014 | SOTA Signal Processing Algorithms | Accepted |
| ADR-021 | Vital Sign Detection (breathing, heart rate) | Partial |
| ADR-030 | Persistent Field Model and Drift Detection | Proposed |
| ADR-033 | CRV Signal Line Sensing Integration | Proposed |
| ADR-037 | Multi-Person Pose Detection from Single ESP32 | Proposed |
| ADR-042 | Coherent Human Channel Imaging (beyond CSI) | Proposed |
Machine learning and training
| ADR | Title | Status |
|---|---|---|
| ADR-005 | SONA Self-Learning for Pose Estimation | Partial |
| ADR-006 | GNN-Enhanced CSI Pattern Recognition | Partial |
| ADR-015 | Public Dataset Strategy (MM-Fi, Wi-Pose) | Accepted |
| ADR-016 | RuVector Training Pipeline Integration | Accepted |
| ADR-017 | RuVector Signal + MAT Integration | Proposed |
| ADR-020 | Migrate AI Inference to Rust (ONNX Runtime) | Accepted |
| ADR-023 | Trained DensePose Model with RuVector Pipeline | Proposed |
| ADR-024 | Project AETHER: Contrastive CSI Embeddings | Required |
| ADR-027 | Project MERIDIAN: Cross-Environment Generalization | Proposed |
Platform and UI
| ADR | Title | Status |
|---|---|---|
| ADR-019 | Sensing-Only UI with Gaussian Splats | Accepted |
| ADR-022 | Windows WiFi Enhanced Fidelity (multi-BSSID) | Partial |
| ADR-025 | macOS CoreWLAN WiFi Sensing | Proposed |
| ADR-031 | RuView Sensing-First RF Mode | Proposed |
| ADR-034 | Expo React Native Mobile App | Accepted |
| ADR-035 | Live Sensing UI Accuracy and Data Transparency | Accepted |
| ADR-036 | Training Pipeline UI Integration | Proposed |
| ADR-043 | Sensing Server UI API Completion (14 endpoints) | Accepted |
Architecture and infrastructure
| ADR | Title | Status |
|---|---|---|
| ADR-001 | WiFi-Mat Disaster Detection Architecture | Accepted |
| ADR-002 | RuVector RVF Integration Strategy | Superseded |
| ADR-003 | RVF Cognitive Containers for CSI | Proposed |
| ADR-004 | HNSW Vector Search for Fingerprinting | Partial |
| ADR-007 | Post-Quantum Cryptography for Sensing | Proposed |
| ADR-008 | Distributed Consensus for Multi-AP | Proposed |
| ADR-009 | RVF WASM Runtime for Edge Deployment | Proposed |
| ADR-010 | Witness Chains for Audit Trail Integrity | Proposed |
| ADR-011 | Proof-of-Reality and Mock Elimination | Proposed |
| ADR-026 | Survivor Track Lifecycle (MAT crate) | Accepted |
| ADR-038 | Sublinear GOAP for Roadmap Optimization | Proposed |
Related
- DDD Domain Models — Bounded context definitions, aggregate roots, and ubiquitous language
- User Guide — Setup, API reference, and hardware instructions
- Build Guide — Building from source