History

ruv 483bfa4660 feat(aether-arena): benchmark-first scorer + witness chain + repeatability (M2/M5/M7) Per direction "remove the initial number, optimize for benchmark first" + "include witness chain capabilities for proof and repeatability analysis": - Empty board, no seeded numbers: ledger seeds to genesis only. Every result is a real scoring-pipeline witness; RuView gets no hand-entered baseline. - Real model scoring: aa_score_runner now loads predictions + an eval split (--split/--pred) and scores them through the real ruview_metrics pose harness — not just a synthetic fixture. Committed public smoke split (fixtures/smoke_*.json). - Witness chain: each score emits a witness = inputs_sha256 (binds it to the exact inputs) + proof_sha256 (cross-platform-stable score hash) + harness_version. - Repeatability analysis: --repeat N runs the harness N× and fails if it ever yields >=2 distinct proof hashes (16/16 identical locally). - Witness ledger: ledger/ledger_tools.py — append-only, hash-chained, tamper- evident (seed/append/verify); editing any past row breaks the chain. - CI gate extended: determinism + repeatability(16) + real-scoring smoke + ledger chain verify on every PR. Co-Authored-By: claude-flow <ruv@ruv.net>		2026-05-30 16:59:11 -04:00
..
benches	fix(security): audit — fix RUSTSEC vulns, clippy warnings, dead code (#769 )	2026-05-23 05:36:13 -04:00
src	feat(aether-arena): benchmark-first scorer + witness chain + repeatability (M2/M5/M7)	2026-05-30 16:59:11 -04:00
tests	fix(security): audit — fix RUSTSEC vulns, clippy warnings, dead code (#769 )	2026-05-23 05:36:13 -04:00
Cargo.toml	feat(aether-arena): ADR-149 spatial-intelligence benchmark — scorer + CI harness gate (M1-M4)	2026-05-30 16:47:22 -04:00
README.md	chore(repo): rename rust-port/wifi-densepose-rs → v2/ (flatten to one level) (#427 )	2026-04-25 21:28:13 -04:00

README.md

wifi-densepose-train

Complete training pipeline for WiFi-DensePose, integrated with all five ruvector crates.

Overview

wifi-densepose-train provides everything needed to train the WiFi-to-DensePose model: dataset loading, subcarrier interpolation, loss functions, evaluation metrics, and the training loop orchestrator. It supports both the MM-Fi dataset (NeurIPS 2023) and deterministic synthetic data for reproducible experiments.

Without the tch-backend feature the crate still provides the dataset, configuration, and subcarrier interpolation APIs needed for data preprocessing and proof verification.

Features

MM-Fi dataset loader -- Reads the MM-Fi multimodal dataset (NeurIPS 2023) from disk with memory-mapped .npy files.
Synthetic dataset -- Deterministic, fixed-seed CSI generation for unit tests and proofs.
Subcarrier interpolation -- 114 -> 56 subcarrier compression via ruvector-solver sparse interpolation with variance-based selection.
Loss functions (tch-backend) -- Pose estimation losses including MSE, OKS, and combined multi-task loss.
Metrics (tch-backend) -- PCKh, OKS-AP, and per-keypoint evaluation with ruvector-mincut-based person matching.
Training orchestrator (tch-backend) -- Full training loop with learning rate scheduling, gradient clipping, checkpointing, and reproducible proofs.
All 5 ruvector crates -- ruvector-mincut, ruvector-attn-mincut, ruvector-temporal-tensor, ruvector-solver, and ruvector-attention integrated across dataset loading, metrics, and model attention.

Feature flags

Flag	Default	Description
`tch-backend`	no	Enable PyTorch training via `tch-rs`
`cuda`	no	CUDA GPU acceleration (implies `tch`)

Binaries

Binary	Description
`train`	Main training entry point
`verify-training`	Proof verification (requires `tch-backend`)

Quick Start

use wifi_densepose_train::config::TrainingConfig;
use wifi_densepose_train::dataset::{SyntheticCsiDataset, SyntheticConfig, CsiDataset};

// Build and validate config
let config = TrainingConfig::default();
config.validate().expect("config is valid");

// Create a synthetic dataset (deterministic, fixed-seed)
let syn_cfg = SyntheticConfig::default();
let dataset = SyntheticCsiDataset::new(200, syn_cfg);

// Load one sample
let sample = dataset.get(0).unwrap();
println!("amplitude shape: {:?}", sample.amplitude.shape());

Architecture

wifi-densepose-train/src/
  lib.rs            -- Re-exports, VERSION
  config.rs         -- TrainingConfig, hyperparameters, validation
  dataset.rs        -- CsiDataset trait, MmFiDataset, SyntheticCsiDataset, DataLoader
  error.rs          -- TrainError, ConfigError, DatasetError, SubcarrierError
  subcarrier.rs     -- interpolate_subcarriers (114->56), variance-based selection
  losses.rs         -- (tch) MSE, OKS, multi-task loss        [feature-gated]
  metrics.rs        -- (tch) PCKh, OKS-AP, person matching     [feature-gated]
  model.rs          -- (tch) Model definition with attention    [feature-gated]
  proof.rs          -- (tch) Deterministic training proofs      [feature-gated]
  trainer.rs        -- (tch) Training loop orchestrator         [feature-gated]

Crate	Role
`wifi-densepose-signal`	Signal preprocessing consumed by dataset loaders
`wifi-densepose-nn`	Inference engine that loads trained models
`ruvector-mincut`	Person matching in metrics
`ruvector-attn-mincut`	Attention-weighted graph cuts
`ruvector-temporal-tensor`	Compressed CSI buffering in datasets
`ruvector-solver`	Sparse subcarrier interpolation
`ruvector-attention`	Spatial attention in model

License

MIT OR Apache-2.0