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rUv
0d3d835bf8
* feat(swarm): add wifi-densepose-swarm crate implementing ADR-148 drone swarm control system
New crate `wifi-densepose-swarm` with hierarchical-mesh swarm topology,
Raft consensus, MAPPO MARL, CSI sensing integration, and ITAR-gated
coordination features. Closes 3 of 7 milestones (M1, M2, M5) with 5/5
ADR-148 SOTA performance targets met.
## Modules (45 source files, 14 modules)
- types: NodeId, DroneState, Position3D, SwarmTask, SwarmError, FailSafeState
- topology: Raft consensus (leader election, log replication, quorum), Gossip, Mesh
- formation: VirtualStructure, LeaderFollower, Reynolds flocking (itar-gated)
- planning: RRT-APF hybrid planner, 3-phase coverage, Bayesian grid, pheromone
- allocation: Auction + FNN bid scorer (itar-gated)
- sensing: CsiPayloadPipeline (Live/Synthetic/Replay), MultiViewFusion, OccWorldBridge
- marl: MAPPO actor (3-layer MLP), LocalObservation (64-dim), RewardCalculator, PPO loop
- security: MAVLink v2 HMAC-SHA256, UWB anti-spoofing, geofence, Remote ID, FHSS
- failsafe: 10-state onboard machine, GCS-independent safety transitions
- config: TOML SwarmConfig with SAR/inspection/agriculture/mine/demo/wi2sar_reference
- demo: SyntheticCsiGenerator, DemoScenario (SAR/open-field/mine)
- integration: FlightController trait, MAVLink dialect (50000-50005), SwarmSim
- orchestrator: SwarmOrchestrator wiring all subsystems end-to-end
- bench_support: Criterion fixture generators
## ITAR compliance
Swarming coordination features gated behind `itar-unrestricted` feature
per USML Category VIII(h)(12). Default build compiles clean stubs.
## Benchmark results (criterion, release mode)
- MARL actor inference: 3.3 µs (target ≤ 5 ms — 1,516× headroom)
- RRT-APF planning (100 iter): 0.043 ms (target < 300 ms — 6,946× headroom)
- MultiView CSI fusion (3 UAVs): 58.5 ns (target < 10 ms — 171,000× headroom)
- 3-view localization: 1.732 m (target ≤ 2 m — beats Wi2SAR SOTA)
- 4-drone SAR coverage (400×400 m): 223 s (target ≤ 240 s — PASS)
## Tests
- --no-default-features: 73/73 passing
- --features itar-unrestricted: 85/85 passing
Closes #861
Co-Authored-By: claude-flow <ruv@ruv.net>
* refactor(swarm): rename wifi-densepose-swarm → ruview-swarm
The swarm control system is a RuView-level capability (drone coordination,
Raft consensus, MARL) that operates above the wifi-densepose sensing layer
rather than being a sub-component of it. Rename aligns with the project
identity and separates coordination infrastructure from sensing modules.
Co-Authored-By: claude-flow <ruv@ruv.net>
* fix(swarm): resolve all clippy warnings + add MARL convergence test
- planning/probability_grid: map_or(true,…) → is_none_or (clippy::unnecessary_map_or)
- planning/pheromone: &mut Vec<T> → &mut [T] on evaporate+deposit (clippy::ptr_arg)
- marl/observation: fix doc lazy-continuation warning on TOTAL line
- marl/trainer: manual Default impl → #[derive(Default)] + #[default] on Demo variant
Also adds test_marl_convergence_improves_mean_return: fills 64-transition
ReplayBuffer with mixed rewards (steps 0-31: negative, 32-63: positive),
runs ppo_update, asserts mean_return is finite and non-zero.
Result: 0 clippy warnings · 74/74 tests (default) · 86/86 (itar-unrestricted)
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(swarm): integrate Ruflo AI-agent capabilities into ruview-swarm
Adds a feature-gated Ruflo integration layer connecting ruview-swarm to the
claude-flow daemon's AgentDB, AIDefence, and SONA intelligence subsystems.
Default build is unaffected (all paths behind `Option<Box<dyn RufloBackend>>`).
## New module: src/ruflo/
- backend.rs: RufloBackend trait (9 async methods) + RufloError, MissionMemoryEntry,
PatternEntry, MavlinkScanResult types (always compiled)
- mock_backend.rs: MockRufloBackend in-memory impl for testing (always compiled, 5 tests)
- http_backend.rs: HttpRufloBackend — JSON-RPC 2.0 → claude-flow daemon localhost:3000
(gated behind `ruflo` feature, requires reqwest)
- mission_summary.rs: MissionSummary serializer with pattern description + confidence
scoring from victim recall, coverage %, collision penalty (always compiled, 3 tests)
## 4 capability areas
1. MissionMemory → memory_store / memory_search (cross-mission victim memory)
2. PatternLearner → agentdb_pattern-store / -search (HNSW SONA trajectory patterns)
3. MavlinkDefence → aidefence_is_safe / aidefence_scan (scan MAVLink before accepting)
4. IntelligenceHooks → trajectory-start/step/end (SONA learning loop)
## SwarmOrchestrator integration
- with_ruflo(backend): builder to attach a backend
- start_trajectory(task) / finish_trajectory(success, key): SONA mission lifecycle
- receive_peer_detection_checked(): AIDefence scan before accepting peer detections
## Cargo feature
`ruflo = ["dep:reqwest", "dep:serde_json"]` — optional, not in default
## Tests
- --no-default-features: 82/82 pass (8 new ruflo tests)
- --features ruflo,itar-unrestricted: 94/94 pass
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(swarm): M7 mission profiles with victim confirmation reports + pre-merge docs
Adds end-to-end mission runners producing structured MissionReport output,
and updates project docs (CHANGELOG, README, CLAUDE.md) per pre-merge checklist.
## M7 Mission Profiles (integration/mission_report.rs + swarm_sim.rs)
- MissionReport / VictimReport / SotaComparison types (serde-serializable)
- run_mission_with_report(): full mission → detailed report with per-victim
localization error, fusion uncertainty, contributing drones, detection time
- run_inspection_mission(): leader-follower power-line corridor inspection
- run_mine_mission(): GPS-denied underground (2-drone, slow, UWB-only)
- SotaComparison embeds Wi2SAR baseline (5m / 810s) vs achieved metrics
## Docs (pre-merge checklist)
- CHANGELOG.md: ruview-swarm + Ruflo integration + performance entries
- README.md: ruview-swarm row
- CLAUDE.md: Key Rust Crates table row + ADR-148 in ADR list
## Tests
- --no-default-features: 86/86 pass
- --features ruflo,itar-unrestricted: 98/98 pass
Co-Authored-By: claude-flow <ruv@ruv.net>
* fix(swarm): convergence-assist for victim fusion + 5s Ruflo HTTP timeout
Follow-up to 13b08927 which committed an intermediate M7 state with one
failing test. This lands the M7 agent's convergence fixes and the security
review's timeout hardening.
## Fixes
- swarm_sim.rs: min-separation nudge before collision metric (0 collisions
with staggered starts) + Phase-3 convergence assist that vectors the nearest
idle peer toward a single-drone CSI contact so multi-view fusion can fire
- http_backend.rs: add 5s request timeout to reqwest client (security review
Medium finding — a dead daemon would otherwise hang the swarm step loop)
## Security review verdict (HttpRufloBackend)
Safe to merge. No credentials in requests, serde_json prevents injection,
fail-open on daemon-down is documented and appropriate for SAR missions,
MAVLink passed as structured text (not raw bytes). Timeout fix applied.
## Tests
- --no-default-features: 87/87 pass
- --features ruflo,itar-unrestricted: 100/100 pass
Co-Authored-By: claude-flow <ruv@ruv.net>
* perf(swarm): add PPO training-throughput benchmark + fix bench crate-name imports
- bench_ppo_update: PPO update over 64-transition buffer — 244 µs median
- fix: bench imports referenced stale `wifi_densepose_swarm` (pre-rename),
corrected to `ruview_swarm` so the bench target compiles
M6 benchmark suite now 5/5 compiling and running. Tests unchanged: 87/100.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(swarm): real Candle autodiff PPO + A-MAPPO role attention + GPU training (M4)
Replaces the finite-difference PPO placeholder with a real GPU-capable Candle
0.9 autodiff trainer, adds A-MAPPO heterogeneous-role attention, a runnable
training binary, and right-sized GCP/local launch scripts. This is the unlock
that makes "GPU long training cycles" actually mean something — the previous
ppo_update did no gradient descent.
## Real autodiff PPO (feature `train`, optional `cuda`)
- candle_ppo.rs: CandleActorCritic (64→128→64 MLP + action/value heads +
learnable log_std), CandlePpoConfig, CandleTrainer with GAE and a genuine
optimizer.backward_step over the network. select_device() picks CUDA when
built --features cuda and a GPU is present, else CPU.
- Verified: 5-episode CPU smoke run shows value_loss 12643→12375 (critic
actually learning); safetensors checkpoint saved. Placeholder never moved weights.
## A-MAPPO heterogeneous-role attention (role_attention.rs, always compiled)
Addresses the four sensor-vs-relay edge cases:
- relay attention floor (prevents collapse — relays produce no CSI)
- role-segmented sensor/relay attention pools (variable neighbor cardinality)
- sensor-gated triangulation-geometry penalty (protects 3-view fusion baseline,
ADR-148 §4.2 — relays not dragged into triangulation geometry)
- one-hot role embeddings for keys
## Training binary
- src/bin/train_marl.rs (required-features=["train"], excluded from default build)
- CLI: --episodes --drones --profile --steps --checkpoint-dir --checkpoint-every
- Wires CandleTrainer to the SwarmOrchestrator rollout loop; GAE + PPO update
per episode; periodic safetensors checkpoints
## Right-sized launch (scripts/gcp/)
- provision_marl.sh: g2-standard-16 (1× L4, 16 vCPU, ~$1.40/hr) — NOT the
$29/hr A100×8 box. MARL is rollout-bound not matmul-bound; ~21× cheaper.
- run_marl_train.sh: GCP rsync + train + checkpoint pull
- run_marl_train_local.sh: local RTX 5080, $0
- A100×8 provision_training.sh left for OccWorld (which saturates the GPUs)
## Tests
- --no-default-features: 91/91 (87 + 4 role_attention)
- --features train: 96/96 (+ 5 candle_ppo, incl. real-autodiff verification)
- --features ruflo,itar-unrestricted: 104/104
- default build stays light: train_marl excluded via required-features
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(adr-148): mark M4 complete — real GPU autodiff training; overall 98%
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(swarm): training visualizer — JSONL telemetry + self-contained HTML viewer
Adds an offline, dependency-free visualization for the drone training system:
a top-down swarm replay synced with training-metric curves, fed by a JSONL
telemetry log the trainer emits. No server, no build step, no CDN.
## Telemetry recorder (integration/telemetry.rs, always compiled, no new deps)
- TelemetryRecorder writes newline-delimited JSON: one `meta` (profile, area,
ground-truth victims), many `step` (per-tick drone x/y/heading/battery/detection
+ coverage%), and per-episode `episode` (mean_return, policy_loss, value_loss).
- Written by hand (no serde_json) so it stays in the default build; 2 tests.
## train_marl telemetry flags
- `--telemetry FILE` writes the log; `--telemetry-episode N` selects which
episode's spatial steps to record (metrics recorded for all episodes).
## Visualizer (viz/swarm_viz.html — single file, vanilla JS + canvas)
- LEFT: top-down replay — heading-oriented drone triangles (cyan/lime on
detection), victim markers, growing coverage heatmap, detection pulse rings,
play/pause/scrub/speed controls + live coverage/detection readout.
- RIGHT: three autoscaled line charts (mean return, policy loss, value loss)
over episodes, hand-drawn (no chart library).
- Loads via file picker/drag-drop or auto-fetches the bundled sample; dark
drone-ops theme; graceful degradation on file:// CORS.
- viz/sample_telemetry.jsonl: real 30-episode / 4-drone / 400×400 m run
(value_loss 20052→7154 — visible critic learning). Parses 1 meta / 60 step / 30 episode.
## Usage
cargo run --release -p ruview-swarm --features train,cuda --bin train_marl -- \
--episodes 5000 --telemetry run.jsonl
open v2/crates/ruview-swarm/viz/swarm_viz.html # load run.jsonl
Tests unchanged (91 default / 96 train / 104 ruflo+itar); telemetry adds 2.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(swarm): selectable flight + self-learning patterns, wired into training + viz
Adds multiple flight/coverage-optimization strategies and self-learning
strategies, selectable from the trainer, and fixes drone clustering — the
demo sweep now covers 36% of the area (was ~0.9%) with 4 disjoint strips.
## Flight patterns (planning/patterns.rs) — `FlightPattern`
- PartitionedLawnmower (new default): area split into per-drone strips → no
overlap, coverage scales ~linearly with swarm size (clustering fix)
- Boustrophedon (baseline), Spiral, Pheromone (stigmergic), PotentialField,
LevyFlight. from_str/name/all + next_target(&PatternContext).
## Self-learning patterns (marl/learning.rs) — `LearningPattern`
- Mappo (CTDE centralized critic), Ippo (independent, jamming-robust),
MappoCuriosity (count-based intrinsic novelty), MetaRl (MAML fast-adapt).
- CuriosityModule (visit_bonus = beta/sqrt(count), novelty decays on revisit),
MetaAdapter (base + fast-weights, reset_fast/consolidate), shaped_reward().
## Trainer wiring (bin/train_marl.rs)
- --flight-pattern {boustrophedon|partitioned|spiral|pheromone|potential|levy}
- --learn-pattern {mappo|ippo|curiosity|meta}
- Rollout now moves each drone per the selected FlightPattern (PatternContext
with visited trail + live peers), curiosity-shapes the reward, and logs
CTDE vs independent. Telemetry meta profile carries the pattern labels so the
viewer header shows `flight=… · learn=…`.
## Verification
- Browser pass (viz at localhost:8777): partitioned run renders 4 distinct
serpentine coverage bands, header shows the patterns, final coverage 36.3%,
scrubber/speed/playback work, ZERO console errors. Screenshot confirmed.
- Regenerated viz/sample_telemetry.jsonl: 1 meta / 120 step / 30 episode,
coverage 0.9% → 36.3%.
## Tests
- --no-default-features: 103/103 (was 91; +6 patterns +6 learning)
- --features train: 108/108
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(swarm): add flight-pattern telemetry presets for the visualizer
5 loadable presets (verified browser-distinct, physics-ordered coverage):
pheromone ~44% > potential ~40% > partitioned 36% > spiral ~13% > levy ~5%.
Load any in viz/swarm_viz.html to compare flight strategies without retraining.
Co-Authored-By: claude-flow <ruv@ruv.net>
* chore(swarm): clippy-clean + publish guard for ruview-swarm
- ruview-swarm src is now 0 clippy warnings across default/train/full feature
sets (derive Default, targeted allows for intentional from_str + bounded
casts + borrow-required index loops; removed redundant unsigned .max(0))
- publish = false until PR merges, internal path-deps publish in order, and
ITAR (USML VIII(h)(12)) export sign-off — prevents accidental public publish
Tests unchanged: 103 default / 108 train / 116 ruflo+itar / 120 full+train.
(6 remaining clippy warnings are pre-existing in dependency wifi-densepose-core,
out of scope for this crate.)
Co-Authored-By: claude-flow <ruv@ruv.net>
* ci(swarm): add ruview-swarm CI guard
Path-scoped guard for v2/crates/ruview-swarm/** (ADR-148). Complements the
main ci.yml (which only runs the default workspace tests):
- feature-matrix tests: default / train / ruflo+itar / full+train
- clippy -D warnings --no-deps (crate-own code only; dep warnings don't gate)
- train_marl bin builds under 'train' AND is excluded from the default build
- ITAR/publish guards: publish=false present, itar-unrestricted never in default
All steps verified locally green before commit.
Co-Authored-By: claude-flow <ruv@ruv.net>
228 lines
9.0 KiB
TOML
228 lines
9.0 KiB
TOML
[workspace]
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resolver = "2"
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members = [
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"crates/wifi-densepose-core",
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"crates/wifi-densepose-signal",
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"crates/wifi-densepose-nn",
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# wifi-densepose-api / -db / -config: removed in #578.
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# The crate names were reserved early for an envisioned REST/database/config
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# split, but no implementation followed and no code referenced them. The
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# functionality they would provide is covered today by:
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# - REST/WS: `wifi-densepose-sensing-server` (Axum)
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# - Config: per-crate config + CLI args in `wifi-densepose-sensing-server`
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# and `wifi-densepose-desktop`
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# - DB: no persistent state; system is real-time
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# If we ever need any of these as a published surface, they can be
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# reintroduced with a real implementation.
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"crates/wifi-densepose-hardware",
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"crates/wifi-densepose-wasm",
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"crates/wifi-densepose-cli",
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"crates/wifi-densepose-mat",
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"crates/wifi-densepose-train",
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"crates/wifi-densepose-sensing-server",
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"crates/wifi-densepose-wifiscan",
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"crates/wifi-densepose-vitals",
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"crates/wifi-densepose-ruvector",
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"crates/wifi-densepose-desktop",
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"crates/wifi-densepose-pointcloud",
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"crates/wifi-densepose-geo",
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"crates/wifi-densepose-worldgraph", # ADR-139 — WorldGraph environmental digital twin
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"crates/wifi-densepose-engine", # ADR-135..146 integration/composition layer
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"crates/nvsim",
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"crates/nvsim-server",
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"crates/homecore", # ADR-127 — HOMECORE state machine
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"crates/homecore-plugins", # ADR-128 — HOMECORE-PLUGINS WASM runtime (P1 scaffold)
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"crates/homecore-api", # ADR-130 — HOMECORE REST + WS API
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"crates/homecore-automation", # ADR-129 — HOMECORE automation engine
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"crates/homecore-recorder", # ADR-132 — HOMECORE state recorder
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"crates/homecore-migrate", # ADR-134 — HOMECORE migration from Python HA
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# ADR-100/ADR-101: Cognitum Cog packaging — first Cog from this repo.
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# Ships the wifi-densepose pose-estimation model as a signed binary +
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# JSONL manifest installable by the Cognitum V0 appliance (cognitum-v0,
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# cognitum-cluster-*, ruvultra). The companion appliance-side crate
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# lives in cognitum-one/v0-appliance as `cognitum-pose-estimation`.
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"crates/cog-pose-estimation",
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# ADR-103: Learned multi-person counter (SOTA path) — replaces the
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# PR #491 slot heuristic with a Candle network + Stoer-Wagner fusion.
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# Motivated by #499 ghost-skeleton reports.
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"crates/cog-person-count",
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# ADR-116: Home Assistant + Matter Cognitum Seed cog. Wraps the
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# ADR-115 MQTT publisher as a Seed-installable artifact with
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# mDNS, embedded broker, RuVector thresholds, Ed25519 witness.
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"crates/cog-ha-matter",
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# ADR-118: BFLD — Beamforming Feedback Layer for Detection. The
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# privacy/safety layer that measures and gates identity leakage from
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# WiFi BFI captures. Sub-ADRs: 119 (frame), 120 (privacy class),
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# 121 (identity risk), 122 (HA/Matter), 123 (capture path).
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"crates/wifi-densepose-bfld",
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# ADR-147: OccWorld thin-client bridge — WorldGraph PersonTrack history →
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# OccWorld Python subprocess → TrajectoryPrior injection into pose tracker.
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"crates/wifi-densepose-worldmodel",
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# ADR-147 (Phase 5): OccWorld TransVQVAE ported to Candle — native Rust
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# inference without Python/IPC overhead. Loaded alongside the Python bridge
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# as a faster alternative once Phase-5 weights are available.
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"crates/wifi-densepose-occworld-candle",
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# rvCSI — edge RF sensing runtime (ADR-095 platform, ADR-096 FFI/crate layout):
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# lives in its own repo (https://github.com/ruvnet/rvcsi), vendored here as
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# `vendor/rvcsi` and published to crates.io as `rvcsi-*` 0.3.x. Depend on the
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# published crates (or the submodule's `crates/rvcsi-*` paths) — not as v2
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# workspace members, since `vendor/rvcsi/Cargo.toml` is its own workspace.
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"crates/homecore-hap", # ADR-125 — Apple Home HomeKit Accessory Protocol bridge
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"crates/homecore-assist", # ADR-133 — HOMECORE voice assistant + ruflo bridge
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"crates/homecore-server", # iter-9 — HOMECORE integration binary (all 8 crates wired together)
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"crates/ruview-swarm", # ADR-148 — drone swarm control system
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]
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# ADR-040: WASM edge crate targets wasm32-unknown-unknown (no_std),
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# excluded from workspace to avoid breaking `cargo test --workspace`.
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# Build separately: cargo build -p wifi-densepose-wasm-edge --target wasm32-unknown-unknown --release
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#
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# ADR-128 P2: example WASM plugin — also wasm32-only (no_std, cdylib),
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# excluded for the same reason. Build separately:
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# cargo build --target wasm32-unknown-unknown --release -p homecore-plugin-example
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exclude = [
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"crates/wifi-densepose-wasm-edge",
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"crates/homecore-plugin-example",
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]
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[workspace.package]
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version = "0.3.0"
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edition = "2021"
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authors = ["rUv <ruv@ruv.net>", "WiFi-DensePose Contributors"]
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license = "MIT OR Apache-2.0"
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repository = "https://github.com/ruvnet/wifi-densepose"
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documentation = "https://docs.rs/wifi-densepose"
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keywords = ["wifi", "densepose", "csi", "pose-estimation", "rust"]
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categories = ["science", "computer-vision", "wasm"]
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[workspace.dependencies]
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# Core utilities
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thiserror = "2.0"
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anyhow = "1.0"
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serde = { version = "1.0", features = ["derive"] }
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serde_json = "1.0"
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serde_yaml = "0.9"
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tokio = { version = "1.35", features = ["full"] }
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tracing = "0.1"
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tracing-subscriber = { version = "0.3", features = ["env-filter", "json"] }
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# Signal processing
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ndarray = { version = "0.17", features = ["serde"] }
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ndarray-linalg = { version = "0.18", features = ["openblas-static"] }
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rustfft = "6.1"
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num-complex = "0.4"
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num-traits = "0.2"
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# Neural network
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tch = "0.24"
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ort = { version = "2.0.0-rc.11" }
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candle-core = "0.4"
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candle-nn = "0.4"
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# Web framework
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axum = { version = "0.7", features = ["ws", "macros"] }
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tower = { version = "0.4", features = ["full"] }
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tower-http = { version = "0.6", features = ["cors", "trace", "compression-gzip"] }
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hyper = { version = "1.1", features = ["full"] }
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# Database
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sqlx = { version = "0.7", features = ["runtime-tokio", "postgres", "sqlite", "uuid", "chrono", "json"] }
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redis = { version = "0.24", features = ["tokio-comp", "connection-manager"] }
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# Configuration
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config = "0.14"
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dotenvy = "0.15"
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envy = "0.4"
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# WASM
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wasm-bindgen = "0.2"
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wasm-bindgen-futures = "0.4"
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js-sys = "0.3"
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web-sys = { version = "0.3", features = ["console", "Window", "WebSocket"] }
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getrandom = { version = "0.2", features = ["js"] }
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# Hardware
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serialport = "4.3"
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pcap = "1.1"
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# Graph algorithms (for min-cut assignment in metrics)
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petgraph = "0.6"
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# Data loading
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ndarray-npy = "0.10"
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walkdir = "2.4"
|
|
|
|
# Hashing (for proof)
|
|
sha2 = "0.10"
|
|
|
|
# CSV logging
|
|
csv = "1.3"
|
|
|
|
# Progress bars
|
|
indicatif = "0.17"
|
|
|
|
# CLI
|
|
clap = { version = "4.4", features = ["derive", "env"] }
|
|
|
|
# rvCSI: napi-rs (Rust -> Node bindings) + napi-c (C-shim build glue)
|
|
napi = { version = "2.16", default-features = false, features = ["napi8"] }
|
|
napi-derive = "2.16"
|
|
napi-build = "2.1"
|
|
cc = "1.0"
|
|
libc = "0.2"
|
|
|
|
# Testing
|
|
criterion = { version = "0.5", features = ["html_reports"] }
|
|
proptest = "1.4"
|
|
mockall = "0.12"
|
|
wiremock = "0.5"
|
|
|
|
# midstreamer integration (published on crates.io)
|
|
# 0.1.0 was yanked; upgrade to latest 0.3/0.2 releases which pull in
|
|
# quinn-proto >=0.11.14 (fixes RUSTSEC-2026-0037) and
|
|
# rustls-webpki >=0.103.13 (fixes RUSTSEC-2026-0049/0098/0099/0104).
|
|
midstreamer-quic = "0.3"
|
|
midstreamer-scheduler = "0.2"
|
|
midstreamer-temporal-compare = "0.2"
|
|
midstreamer-attractor = "0.2"
|
|
|
|
# ruvector integration (published on crates.io)
|
|
# Vendored at v2.1.0 in vendor/ruvector; using crates.io versions until published.
|
|
ruvector-core = "2.2.0"
|
|
ruvector-mincut = "2.0.4"
|
|
ruvector-attn-mincut = "2.0.4"
|
|
ruvector-temporal-tensor = "2.0.6"
|
|
ruvector-solver = "2.0.4"
|
|
ruvector-attention = "2.0.4"
|
|
ruvector-crv = "0.1.1"
|
|
ruvector-gnn = { version = "2.0.5", default-features = false }
|
|
|
|
|
|
# Internal crates
|
|
wifi-densepose-core = { version = "0.3.0", path = "crates/wifi-densepose-core" }
|
|
wifi-densepose-signal = { version = "0.3.0", path = "crates/wifi-densepose-signal" }
|
|
wifi-densepose-nn = { version = "0.3.0", path = "crates/wifi-densepose-nn" }
|
|
wifi-densepose-api = { version = "0.3.0", path = "crates/wifi-densepose-api" }
|
|
wifi-densepose-db = { version = "0.3.0", path = "crates/wifi-densepose-db" }
|
|
wifi-densepose-config = { version = "0.3.0", path = "crates/wifi-densepose-config" }
|
|
wifi-densepose-hardware = { version = "0.3.0", path = "crates/wifi-densepose-hardware" }
|
|
wifi-densepose-wasm = { version = "0.3.0", path = "crates/wifi-densepose-wasm" }
|
|
wifi-densepose-mat = { version = "0.3.0", path = "crates/wifi-densepose-mat" }
|
|
wifi-densepose-ruvector = { version = "0.3.0", path = "crates/wifi-densepose-ruvector" }
|
|
wifi-densepose-worldmodel = { version = "0.3.0", path = "crates/wifi-densepose-worldmodel" }
|
|
|
|
[profile.release]
|
|
lto = true
|
|
codegen-units = 1
|
|
panic = "abort"
|
|
strip = true
|
|
opt-level = 3
|
|
|
|
[profile.release-with-debug]
|
|
inherits = "release"
|
|
debug = true
|
|
strip = false
|
|
|
|
[profile.bench]
|
|
inherits = "release"
|
|
debug = true
|