mirror of https://github.com/ruvnet/RuView synced 2026-06-20 12:03:19 +00:00

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ruv 8ff7c2c35a feat(plugins): RuView Claude Code + Codex marketplace plugin

Add `plugins/ruview` — an end-to-end toolkit for working with RuView
(WiFi-DensePose) from Claude Code, mirrored as Codex prompts.

Marketplace: `plugins/.claude-plugin/marketplace.json` (one plugin, `ruview`).

Skills (9): ruview-quickstart, ruview-hardware-setup, ruview-configure,
ruview-applications, ruview-model-training, ruview-advanced-sensing,
ruview-cli-api, ruview-mmwave, ruview-verify — shell-first (cargo / python /
idf.py / docker / node), no claude-flow MCP dependency.

Commands (7): /ruview-start, /ruview-flash, /ruview-provision, /ruview-app,
/ruview-train, /ruview-advanced, /ruview-verify.

Agents (3): ruview-onboarding-guide, ruview-config-engineer,
ruview-training-engineer.

Codex mirror: codex/AGENTS.md + codex/README.md + codex/prompts/*.md (full
command parity, enforced by scripts/smoke.sh).

Docs: docs/adrs/0001-ruview-plugin-contract.md (Proposed). Verification:
scripts/smoke.sh (13 structural checks). Provisioning docs reflect the full
`provision.py` flag set (TDM mesh, edge tiers, vitals, hop channels, Cognitum
Seed, swarm intervals) and the issue #391 NVS-namespace-replace gotcha.

Verified: `claude plugin validate` (plugin + marketplace), loads via
`claude --plugin-dir`, smoke 13/13, and confirmed against an attached ESP32-S3
on COM8 running the RuView CSI firmware (live adaptive_ctrl + csi_collector
serial output).

Co-Authored-By: claude-flow <ruv@ruv.net>

2026-05-11 17:39:16 -04:00

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/ruview-start — onboard onto RuView

Help me get started with RuView (WiFi-DensePose). Path: $ARGUMENTS (one of docker, build, hardware; if empty, ask which hardware I have).

docker (no hardware): docker pull ruvnet/wifi-densepose:latest && docker run -p 3000:3000 ruvnet/wifi-densepose:latest, then open http://localhost:3000 (simulated CSI, full UI).
build (from source): cd v2 && cargo test --workspace --no-default-features, then cd .. && python archive/v1/data/proof/verify.py (expect VERDICT: PASS). Single-crate sanity: cargo check -p wifi-densepose-train --no-default-features.
hardware (ESP32-S3/C6): use /ruview-flash then /ruview-provision, then cd v2 && cargo run -p wifi-densepose-sensing-server to consume the UDP CSI stream. Also: node scripts/rf-scan.js --port 5006, node scripts/snn-csi-processor.js --port 5006.

Warn me about: ESP32-C3 / original ESP32 are unsupported (single-core); one node = limited spatial resolution (use 2+ or add a Cognitum Seed); camera-free pose is modest — camera-supervised training reaches 92.9% PCK@20 (ADR-079); no cloud/cameras/internet needed.

Then point me at next steps: /ruview-app, /ruview-train, /ruview-verify, and the configuration workflow (sdkconfig variants, NVS provisioning, edge modules, mesh, Cognitum Seed). Reference README.md, docs/user-guide.md, docs/build-guide.md, docs/TROUBLESHOOTING.md, examples/.

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/ruview-start — onboard onto RuView

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