# Source Registry — Summary & Index

> Mode A Phase 2 — engine Step 2 (Source Tiering & Exhaustive Web Investigation).
> Critical-novelty sensitivity per Step 0.5 in `../00_question_decomposition.md`. Time windows applied:
> - **Lead-candidate / SOTA claims**: prefer sources within last 6 months; up to 18 months if older is the official authority.
> - **Library/SDK API behaviour**: must reflect the currently shipped version at search time (`context7` mandatory per lead candidate).
> - **Established baselines** (KLT, RANSAC, EKF, ORB, SIFT, GTSAM): no time window.
>
> Investigation order saved in `../00_question_decomposition.md` → "Next Step": SQ6 → SQ1 → SQ2 → SQ3+SQ4 per component (C1→C8) ✓ → C10 next → SQ5 interleaved → SQ8 → SQ9 synthesis at engine Step 8. **SQ7 (datasets / SITL / replay) deferred to Test Spec (greenfield Step 5) per 2026-05-08 C9 / SQ7 restructure** — see `../00_question_decomposition.md` → "C9 / SQ7 Restructure" section.
>
> This folder replaces the previous monolithic `01_source_registry.md`. The full per-source description for any source `#N` in the table below lives in the category file linked in its row.

## Category Index

| Category | File | Sources | Status |
|---|---|---|---|
| SQ6 — ArduPilot Plane vs iNav external positioning | [`SQ6_external_positioning.md`](SQ6_external_positioning.md) | #1–#24 | Saturated for protocol-level architectural decision |
| SQ1 — Existing GPS-denied UAV systems | [`SQ1_existing_systems.md`](SQ1_existing_systems.md) | #25–#37 | Saturated |
| SQ2 — Canonical pipeline decomposition | [`SQ2_canonical_pipeline.md`](SQ2_canonical_pipeline.md) | #38–#42 | Saturated |
| C1 — VIO candidates | [`C1_vio.md`](C1_vio.md) | #43–#56 | Closed at documentary level |
| C2 — VPR candidates | [`C2_vpr.md`](C2_vpr.md) | #57–#68 | Mandatory pre-screen complete (5/5) |
| C3 — Matcher candidates | [`C3_matchers.md`](C3_matchers.md) | #69–#81 | Closed at documentary level |
| C4 — Pose estimation candidates | [`C4_pose_estimation.md`](C4_pose_estimation.md) | #82–#87 | Closed at 3/N |
| C5 — State estimator / sensor fusion candidates | [`C5_state_estimator.md`](C5_state_estimator.md) | #88–#91 | Closed at 2/N (batch 1 closed) |
| C6 — Tile cache + spatial index candidates | [`C6_tile_cache_spatial_index.md`](C6_tile_cache_spatial_index.md) | #92–#98 | Closed at 2/N (batch 1 closed) — Cand 1 (mirror-suite-pattern) RECOMMENDED PRIMARY; Cand 2 (PostGIS+pgvector) DEFERRED secondary |
| C7 — On-Jetson inference runtime candidates | [`C7_inference_runtime.md`](C7_inference_runtime.md) | #99–#105 | Closed at 3/N (batch 1 closed 2026-05-08) — Cand 1 (TensorRT native) RECOMMENDED PRIMARY; Cand 2 (ONNX Runtime + TRT EP) modern-competitive-lead-cross-architecture-portability; Cand 3 (pure PyTorch FP16) mandatory simple-baseline |
| C8 — MAVLink / MSP2 FC adapter candidates | [`C8_fc_adapter.md`](C8_fc_adapter.md) | #106–#113 | Closed at 3/N (batch 1 closed 2026-05-08) — Cand 1 (pymavlink → MAVLink GPS_INPUT) RECOMMENDED PRIMARY for ArduPilot Plane; Cand 2 (MSP2_SENSOR_GPS via Python MSP V2) RECOMMENDED PRIMARY for iNav (locked SQ6 + AC-4.3 transport); Cand 3 (UBX impersonation via pyubx2 NAV-PVT) DEFERRED secondary for iNav after comparative-improvement verdict |
| C10 — Pre-flight cache provisioning (CROSS-COUPLING MINIMAL scope per 2026-05-08 user choice C; D-C6-3 + D-C7-7 confirmation pipelines only, operator tooling deferred to Plan-phase) | [`C10_preflight_provisioning.md`](C10_preflight_provisioning.md) | #114–#121 | Closed at 2/N (batch 1 closed 2026-05-08) — D-C6-3 confirmation: direct `faiss.write_index`/`faiss.read_index` Python API + `python-atomicwrites` + content-hash verification gate at takeoff (FAISS MIT, atomicwrites MIT); D-C7-7 confirmation: hybrid Polygraphy CLI primary + `trtexec` for cache-reuse fast rebuilds + direct `IBuilderConfig` Python API escape hatch (Polygraphy + TensorRT 10.x Apache-2.0 throughout) |
| **Mode B addendum (2026-05-08)** — solution_draft01 assessment | [`MODEB_addendum.md`](MODEB_addendum.md) | **#122–#131** (10 sources) | New sources gathered for Mode B findings F1–F20: VINS-Mono GPL-3.0 LICENCE confirmation (#122), MegaLoc + UltraVPR + AirZoo aerial-VPR successor candidates (#123, #124, #125), CVE-2026-1579 MAVLink no-default-auth + CVE-2025-53644 OpenCV crafted-JPEG (#126, #127), ArduPilot MAVLink2 message-signing + iNav signing-gap (#128, #129), ArduPilot `MAV_CMD_SET_EKF_SOURCE_SET` no-deployed-GCS-implementer re-verification (#130), XoFTR + 2026 SAR-optical 24-matcher benchmark (#131). |

## Investigation Status

| Sub-question | Status | Notes |
|---|---|---|
| SQ6 — ArduPilot vs iNav external positioning | **Saturated for protocol-level architectural decision** (further detail deferred to SQ8 for spoofing-side fields and to design phase for SITL parameter tuning) | Major finding: iNav has no inbound external-positioning MAVLink handler; AC-4.3 wording must be revised. See `../02_fact_cards/SQ6_fc_external_positioning.md` "SQ6 Conclusions". |
| SQ1 — Existing GPS-denied UAV systems | **Saturated.** 13 sources logged across academic / open-source / commercial / defense-program / Ukraine-practitioner. Closest peer system: Twist Robotics OSCAR (deployed in Ukraine). Closest open-source pipeline-match: snktshrma/ngps_flight (NGPS, ArduPilot GSoC 2024 — LightGlue+SuperPoint+UKF+VISION_POSITION_ESTIMATE). Closest deployed commercial: Auterion Artemis (Skynode N + Visual Navigation, Ukraine-tested, 1000-mile range). | See `../02_fact_cards/SQ1_existing_systems.md` cluster + working summary. |
| SQ2 — Canonical pipeline decomposition | **Saturated.** 5 surveys/benchmarks logged (Skoltech aerial VPR, U.Maine cross-view, OrthoLoC 2.5D geodata, AnyVisLoc low-altitude multi-view, NUDT 2026 sciopen survey). All converge on **`retrieval → matching → pose-estimation`** hierarchical framework with VIO/IMU as auxiliary. Two new architectural facts added to C1–C10: (a) **AdHoP-style perspective-refinement loop** between matching and PnP (+63% translation accuracy, method-agnostic), (b) **DSM 2.5D dependency** for full 6-DoF on aerial-to-satellite (must be resolved with the Suite Sat Service or accepted as a 3-DoF degraded mode). Practitioner runtime evidence: AnyLoc on RTX 3090 = 0.63s/descriptor, SuperGlue re-rank = 17–25s; on Jetson Orin Nano these are non-viable for our 400 ms p95 budget — must restrict to lightweight VPR (e.g., MixVPR / SALAD class) + LightGlue/XFeat-class matchers. See `../02_fact_cards/SQ2_canonical_pipeline.md` "SQ2 Conclusions". |
| SQ3+SQ4 — Per-component candidates (C1–C10) | **In progress** — C1 (VIO) **CLOSED** at documentary level (Sources #43–#56). C2 (VPR) — **mandatory pre-screen COMPLETE at documentary level (5 of 5 candidates)**: MixVPR (Sources #57+#58), SALAD (Sources #59+#60+#61), SelaVPR (Sources #62+#63), NetVLAD (Sources #64+#65+#66), **EigenPlaces (Sources #67+#68 — closure 2026-05-08)**. All five mandatory candidates have per-mode API capability verification ✅, per-numbered-Restriction × per-numbered-AC sub-matrix written, and `../06_component_fit_matrix/C2_vpr.md` rows populated. **Conditional pre-screen candidates (AnyLoc / BoQ / DINOv2-VLAD)** are GATED on a prerequisite **INT8 quantization survey** before they can be added to per-mode rows (per Fact #26 pre-screen rule). C3 closed at documentary level (Sources #69–#81). C4 closed at 3/N (Sources #82–#87). **C5 CLOSED at 2/N — batch 1 closed 2026-05-08** (mandatory simple-baseline = Manual ESKF Solà 2017 [Sources #88–#89]; modern-competitive-lead-factor-graph = GTSAM iSAM2 + ImuFactor + smart factors + Marginals [Sources #90–#91]). **C6 CLOSED at 2/N — batch 1 closed 2026-05-08** (Cand 1 RECOMMENDED PRIMARY = mirror-of-suite-satellite-provider pattern: PostgreSQL btree + bytea + FAISS HNSW + filesystem [Sources #92+#96+#97+#98]; Cand 2 DEFERRED secondary = PostGIS GiST + pgvector HNSW + filesystem [Sources #94+#95]; Source #93 = PostgreSQL btree multicolumn-indexes docs cross-cite). **C7 CLOSED at 3/N — batch 1 closed 2026-05-08** (Cand 1 RECOMMENDED PRIMARY = TensorRT native [Sources #99+#104+#105]; Cand 2 modern-competitive-lead-cross-architecture-portability = ONNX Runtime + TRT EP [Source #100 + #103]; Cand 3 mandatory simple-baseline = pure PyTorch FP16 [Source #101]; Source #102 = YOLO26 Jetson Orin Nano Super benchmark; Source #103 = LightGlue+TRT+FP8 quantization-sensitivity finding driving D-C7-6 cross-component precision policy). **C8 CLOSED at 3/N — batch 1 closed 2026-05-08** (Cand 1 RECOMMENDED PRIMARY for ArduPilot = pymavlink → MAVLink GPS_INPUT msg 232 cooperative-path [Sources #106+#107 + cross-cite SQ6 Source #4 AP_GPS_MAV.cpp ingestion-path]; Cand 2 RECOMMENDED PRIMARY for iNav = MSP2_SENSOR_GPS id 7939 / 0x1F03 via Python MSP V2 implementation [Sources #111+#112+#113 + cross-cite SQ6 Source #12+#13]; Cand 3 DEFERRED secondary for iNav = UBX impersonation via pyubx2 NAV-PVT [Sources #108+#109+#110 + cross-cite SQ6 Fact #10] with comparative-improvement verdict that does NOT clear user's "significant-improvement-only" bar over Cand 2; mid-batch correction via c8_inav_recovery=B preserved locked SQ6 + AC-4.3 + restrictions.md verdicts). **C9 DROPPED** from research scope per 2026-05-08 SQ7/C9 restructure (datasets/SITL/replay deferred to Test Spec greenfield Step 5). **C10 CLOSED at 2/N — batch 1 closed 2026-05-08** under CROSS-COUPLING MINIMAL scope per 2026-05-08 user choice C (operator CLI/desktop tooling, sector classification, freshness pipeline deferred to Plan-phase): D-C6-3 confirmation = direct `faiss.write_index`/`faiss.read_index` Python API + `python-atomicwrites` + content-hash (SHA-256) verification gate at takeoff load + `IO_FLAG_MMAP_IFC` mmap [Sources #114+#115+#116]; D-C7-7 confirmation = hybrid Polygraphy CLI primary for INT8-calibrating builds + `trtexec` for cache-reuse fast rebuilds + direct `IBuilderConfig` Python API escape hatch [Sources #117+#118+#119+#120+#121]; **no further C10 batches required at the research layer** — operator tooling design enters at Plan-phase. | See `../02_fact_cards/C1_vio.md` + `../02_fact_cards/C2_vpr.md` + `../02_fact_cards/C3_matchers.md` + `../02_fact_cards/C4_pose_estimation.md` + `../02_fact_cards/C5_state_estimator.md` + `../02_fact_cards/C6_tile_cache_spatial_index.md` + `../02_fact_cards/C7_inference_runtime.md` clusters; `../06_component_fit_matrix/C{1..7}_*.md` rows. |
| SQ5 — Failure modes / deployment lessons | Not started (interleaved with SQ3/SQ4) | |
| SQ7 — Datasets, SITL, replay environments | **Deferred to Test Spec (greenfield Step 5)** per 2026-05-08 C9 / SQ7 restructure | Fixture-class / test-infra-class — not researched in this Mode A run. Carryforward payload preserved in `../00_question_decomposition.md` → "C9 / SQ7 Restructure" section. |
| SQ8 — Safety considerations (AC-NEW-4 / AC-NEW-7) | Not started | Carries the AP_GPS spoofing-signal probe deferred from SQ6. |
| SQ9 — End-to-end synthesis | Step 8 of engine (deferred) | |

---

## Source Summary Table

Compact one-line index across all 121 sources. For full per-source description, follow the **File** link.

| # | Title | Tier | File |
|---|---|---|---|
| 1 | Non-GPS Navigation — Plane documentation | L1 | [SQ6](SQ6_external_positioning.md) |
| 2 | GPS / Non-GPS Transitions — Plane documentation | L1 | [SQ6](SQ6_external_positioning.md) |
| 3 | EKF Source Selection and Switching — Plane documentation | L1 | [SQ6](SQ6_external_positioning.md) |
| 4 | ArduPilot AP_GPS_MAV.cpp (master) | L1 | [SQ6](SQ6_external_positioning.md) |
| 5 | ArduPilot PR #28750 — AP_NavEKF3 EK3_OPTION bits (GPS-denied testing) | L2 | [SQ6](SQ6_external_positioning.md) |
| 6 | ArduPilot Issue #15859 — EKF3 source switching (GPS↔NonGPS) | L4 | [SQ6](SQ6_external_positioning.md) |
| 7 | ArduPilot Issue #27193 — EK3 Source Switching wrong frame for GUIDED | L4 | [SQ6](SQ6_external_positioning.md) |
| 8 | ArduPilot Issue #23485 — fuse only External Nav Velocities | L4 | [SQ6](SQ6_external_positioning.md) |
| 9 | iNavFlight/inav telemetry/mavlink.c (master inbound switch) | L1 | [SQ6](SQ6_external_positioning.md) |
| 10 | iNav Wiki — MAVLink (frogmane edited 2025-12-11) | L1 | [SQ6](SQ6_external_positioning.md) |
| 11 | iNav Wiki — GPS and Compass setup | L1 | [SQ6](SQ6_external_positioning.md) |
| 12 | iNavFlight/inav docs/development/msp/README.md (MSP message reference) | L1 | [SQ6](SQ6_external_positioning.md) |
| 13 | iNavFlight/inav src/main/io/gps.c + target/common.h (master) | L1 | [SQ6](SQ6_external_positioning.md) |
| 14 | iNav Issue #10141 — dual GPS support | L4 | [SQ6](SQ6_external_positioning.md) |
| 15 | iNav docs/GPS_fix_estimation.md (master) | L1 | [SQ6](SQ6_external_positioning.md) |
| 16 | iNav docs/Settings.md (master) | L1 | [SQ6](SQ6_external_positioning.md) |
| 17 | iNav Issue #10588 — DeadReckoning weird behaviour during GPS outage | L4 | [SQ6](SQ6_external_positioning.md) |
| 18 | iNav Release 8.0.0 (highlights, Dec 2024) | L1 | [SQ6](SQ6_external_positioning.md) |
| 19 | iNav Release 9.0.0 / 9.0.1 + Release Notes wiki | L1 | [SQ6](SQ6_external_positioning.md) |
| 20 | MAVLink common message set — GPS_RAW_INT (24) | L1 | [SQ6](SQ6_external_positioning.md) |
| 21 | MAVLink PR #2110 — gps: add status and integrity information | L2 | [SQ6](SQ6_external_positioning.md) |
| 22 | AirDroper — GNSS Spoofing Filter companion device | L3 | [SQ6](SQ6_external_positioning.md) |
| 23 | ArduPilot PR #24135 — EKF3 robust to bad IMU and lane-switching | L2 | [SQ6](SQ6_external_positioning.md) |
| 24 | ArduPilot AP_NavEKF3 — VehicleStatus.cpp + AP_NavEKF3.cpp (master) | L1 | [SQ6](SQ6_external_positioning.md) |
| 25 | Twist Robotics OSCAR — visual navigation system (Ukraine deployment) | L2 | [SQ1](SQ1_existing_systems.md) |
| 26 | Ukraine Drones with Vision-Based Navigation Past Heavy Jamming (TWZ) | L2 | [SQ1](SQ1_existing_systems.md) |
| 27 | Ukraine's Ruta Missile Drone EW-Immune Navigation (Defense Express) | L2 | [SQ1](SQ1_existing_systems.md) |
| 28 | Kilometer-Scale GNSS-Denied UAV Navigation via Heightmap Gradients | L1 | [SQ1](SQ1_existing_systems.md) |
| 29 | Hierarchical Image Matching for UAV Absolute Visual Localization | L1 | [SQ1](SQ1_existing_systems.md) |
| 30 | Raptor — GPS-Denied UAV Navigation & Coordinate Extraction (Vantor) | L2 | [SQ1](SQ1_existing_systems.md) |
| 31 | Auterion Artemis program — long-range deep-strike completion | L1 | [SQ1](SQ1_existing_systems.md) |
| 32 | Auterion Skynode N — AI/CV for small autonomous systems | L2 | [SQ1](SQ1_existing_systems.md) |
| 33 | snktshrma/ngps_flight — NGPS for ArduPilot (GSoC 2024) | L1 | [SQ1](SQ1_existing_systems.md) |
| 34 | AerialExtreMatch — benchmark for extreme-view image matching/localization | L1 | [SQ1](SQ1_existing_systems.md) |
| 35 | DARPA Fast Lightweight Autonomy (FLA) program page + T&E review | L1 | [SQ1](SQ1_existing_systems.md) |
| 36 | DSMAC / TERCOM lineage — DTIC ADA315439 | L1 | [SQ1](SQ1_existing_systems.md) |
| 37 | Electronic Warfare in Ukraine — Ukraine War Analytics | L3 | [SQ1](SQ1_existing_systems.md) |
| 38 | VPR for Aerial Imagery: A Survey (Skoltech, Moskalenko et al.) | L1 | [SQ2](SQ2_canonical_pipeline.md) |
| 39 | Cross-View Geo-Localization: A Survey (U. Maine) | L1 | [SQ2](SQ2_canonical_pipeline.md) |
| 40 | OrthoLoC: UAV 6-DoF Localization with Orthographic Geodata | L1 | [SQ2](SQ2_canonical_pipeline.md) |
| 41 | AnyVisLoc — UAV visual localization, low-altitude multi-view | L1 | [SQ2](SQ2_canonical_pipeline.md) |
| 42 | NUDT 2026 — survey on absolute visual localization for low-altitude UAV | L1 | [SQ2](SQ2_canonical_pipeline.md) |
| 43 | VINS-Mono — robust monocular visual-inertial state estimator | L1 | [C1](C1_vio.md) |
| 44 | VINS-Fusion — optimization-based multi-sensor state estimator | L1 | [C1](C1_vio.md) |
| 45 | OpenVINS — open-source VI navigation research platform | L1 | [C1](C1_vio.md) |
| 46 | Run VIO on NVIDIA Jetson — KAIST benchmark | L1 | [C1](C1_vio.md) |
| 47 | OKVIS2 — realtime scalable VI-SLAM with loop closure | L1 | [C1](C1_vio.md) |
| 48 | OKVIS2-X — open keyframe VI-SLAM with dense depth | L1 | [C1](C1_vio.md) |
| 49 | Kimera-VIO — VIO with SLAM + 3D mesh (MIT-SPARK, BSD) | L1 | [C1](C1_vio.md) |
| 50 | DROID-SLAM — deep visual SLAM (princeton-vl) | L1 | [C1](C1_vio.md) |
| 51 | DPVO / DPV-SLAM — deep patch visual odometry | L1 | [C1](C1_vio.md) |
| 52 | DPVO-QAT++ — heterogeneous QAT + CUDA kernel fusion for DPVO | L2 | [C1](C1_vio.md) |
| 53 | Pure-VO baseline — KLT optical flow + 5-point/homography RANSAC (OpenCV) | L1 | [C1](C1_vio.md) |
| 54 | OpenVINS — context7 per-mode capability lookup (`/rpng/open_vins`) | L1 | [C1](C1_vio.md) |
| 55 | VINS-Mono README + VINS-Fusion context7 per-mode lookup | L1 | [C1](C1_vio.md) |
| 56 | OKVIS2 — official README (`smartroboticslab/okvis2`, main) | L1 | [C1](C1_vio.md) |
| 57 | OpenVPRLab — open-source VPR framework (MixVPR / BoQ / NetVLAD / GeM) | L1 | [C2](C2_vpr.md) |
| 58 | MixVPR canonical paper (WACV 2023, arXiv:2303.02190) | L1 | [C2](C2_vpr.md) |
| 59 | SALAD canonical implementation (`serizba/salad`, GPL-3.0) | L1 | [C2](C2_vpr.md) |
| 60 | SALAD canonical paper — Optimal Transport Aggregation (CVPR 2024) | L1 | [C2](C2_vpr.md) |
| 61 | OpenVPRLab DinoV2 backbone — context7 cross-source for ViT-B/14 | L1 | [C2](C2_vpr.md) |
| 62 | SelaVPR canonical implementation (`Lu-Feng/SelaVPR`, MIT) | L1 | [C2](C2_vpr.md) |
| 63 | SelaVPR canonical paper (ICLR 2024, arXiv:2402.14505) | L1 | [C2](C2_vpr.md) |
| 64 | NetVLAD canonical implementation `Relja/netvlad` v1.03 (MIT) | L1 | [C2](C2_vpr.md) |
| 65 | NetVLAD modern PyTorch reproduction `Nanne/pytorch-NetVlad` | L2 | [C2](C2_vpr.md) |
| 66 | NetVLAD canonical paper (CVPR 2016 / TPAMI 2018, arXiv:1511.07247) | L1 | [C2](C2_vpr.md) |
| 67 | EigenPlaces canonical implementation (`gmberton/EigenPlaces`, MIT) | L1 | [C2](C2_vpr.md) |
| 68 | EigenPlaces canonical paper (ICCV 2023, arXiv:2308.10832) | L1 | [C2](C2_vpr.md) |
| 69 | LightGlue — context7 per-mode capability lookup (`/cvg/lightglue`) | L1 | [C3](C3_matchers.md) |
| 70 | LightGlue canonical implementation (`cvg/LightGlue`) | L1 | [C3](C3_matchers.md) |
| 71 | LightGlue canonical paper (ICCV 2023, arXiv:2306.13643) | L1 | [C3](C3_matchers.md) |
| 72 | LightGlue HuggingFace Transformers integration | L1 | [C3](C3_matchers.md) |
| 73 | LightGlue-ONNX — `fabio-sim/LightGlue-ONNX` (Jetson TensorRT path) | L2 | [C3](C3_matchers.md) |
| 74 | ALIKED canonical implementation (`Shiaoming/ALIKED`) | L1 | [C3](C3_matchers.md) |
| 75 | ALIKED canonical paper (TIM 2023, arXiv:2304.03608) | L1 | [C3](C3_matchers.md) |
| 76 | DISK canonical implementation (`cvlab-epfl/disk`, Apache-2.0) | L1 | [C3](C3_matchers.md) |
| 77 | DISK canonical paper — RL-trained local features (NeurIPS 2020) | L1 | [C3](C3_matchers.md) |
| 78 | SuperGlue canonical implementation (`magicleap/SuperGluePretrainedNetwork`) | L1 | [C3](C3_matchers.md) |
| 79 | SuperGlue canonical paper — graph-NN feature matching (CVPR 2020) | L1 | [C3](C3_matchers.md) |
| 80 | XFeat canonical implementation (`verlab/accelerated_features`, Apache-2.0) | L1 | [C3](C3_matchers.md) |
| 81 | XFeat canonical paper — accelerated features (CVPR 2024) | L1 | [C3](C3_matchers.md) |
| 82 | OpenCV canonical implementation — `opencv/opencv` (calib3d module) | L1 | [C4](C4_pose_estimation.md) |
| 83 | OpenCV 4.x calib3d module canonical documentation | L1 | [C4](C4_pose_estimation.md) |
| 84 | OpenGV canonical implementation (`laurentkneip/opengv`) | L1 | [C4](C4_pose_estimation.md) |
| 85 | OpenGV canonical Doxygen documentation portal | L1 | [C4](C4_pose_estimation.md) |
| 86 | GTSAM canonical implementation (`borglab/gtsam`, BSD-3) | L1 | [C4](C4_pose_estimation.md) |
| 87 | GTSAM canonical Python documentation via context7 | L1 | [C4](C4_pose_estimation.md) |
| 88 | Solà 2017 — "Quaternion kinematics for the error-state Kalman filter" (arXiv:1711.02508) | L1 | [C5](C5_state_estimator.md) |
| 89 | Reference open-source ESKF implementations (canonical-paper-derived) | L2 | [C5](C5_state_estimator.md) |
| 90 | GTSAM `ImuFactor` / `CombinedImuFactor` / `PreintegratedImuMeasurements` / `PreintegratedCombinedMeasurements` (context7 indexed) | L1 | [C5](C5_state_estimator.md) |
| 91 | GTSAM `ISAM2` / `IncrementalFixedLagSmoother` / `Marginals` with iSAM2 results (context7 indexed) | L1 | [C5](C5_state_estimator.md) |
| 92 | Parent-suite `satellite-provider` existing pattern (PostgreSQL + Dapper + filesystem tile storage; verified directly) | L1 | [C6](C6_tile_cache_spatial_index.md) |
| 93 | PostgreSQL 16 official documentation — Multicolumn Indexes + btree access method | L1 | [C6](C6_tile_cache_spatial_index.md) |
| 94 | PostGIS official documentation — GiST + KNN distance ordering + ST_DWithin | L1 | [C6](C6_tile_cache_spatial_index.md) |
| 95 | pgvector official documentation — HNSW index API (context7 + canonical README) | L1 | [C6](C6_tile_cache_spatial_index.md) |
| 96 | FAISS official documentation — IndexFlatL2 / IndexHNSWFlat / IndexIVFFlat (context7 indexed) | L1 | [C6](C6_tile_cache_spatial_index.md) |
| 97 | Postgres on NVIDIA Jetson Orin Nano — March 2026 Medium article + Coding Steve minimal-config guide | L2 | [C6](C6_tile_cache_spatial_index.md) |
| 98 | Slippy Map Tilenames — OpenStreetMap canonical specification (Web Mercator XYZ) | L1 | [C6](C6_tile_cache_spatial_index.md) |
| 99 | NVIDIA TensorRT 10.x official documentation portal (context7-indexed `/nvidia/tensorrt`) | L1 | [C7](C7_inference_runtime.md) |
| 100 | Microsoft ONNX Runtime official documentation (context7-indexed `/microsoft/onnxruntime`) + Jetson AI Lab community wheel index | L1 | [C7](C7_inference_runtime.md) |
| 101 | PyTorch official documentation (context7-indexed `/pytorch/pytorch`) + Jetson AI Lab PyTorch wheel availability for JetPack 6 | L1 | [C7](C7_inference_runtime.md) |
| 102 | Ultralytics YOLO26 benchmark suite on Jetson Orin Nano Super (April 2026) | L2 | [C7](C7_inference_runtime.md) |
| 103 | LightGlue ONNX Runtime + TensorRT acceleration + FP8 ModelOpt quantization findings (Fabio Sim's Journal) | L2 | [C7](C7_inference_runtime.md) |
| 104 | JetPack SDK release notes (NVIDIA official) — JetPack 6.0 / 6.1 / 6.2 version matrix | L1 | [C7](C7_inference_runtime.md) |
| 105 | TensorRT-on-Jetson canonical install constraints (Ultralytics issue reports + NVIDIA forum) | L2 | [C7](C7_inference_runtime.md) |
| 106 | ArduPilot Pymavlink (context7-indexed `/ardupilot/pymavlink`) — canonical Python MAVLink stack | L1 | [C8](C8_fc_adapter.md) |
| 107 | ArduPilot Plane Non-GPS Position Estimation + MAVProxy GPS Input module dev docs (`GPS1_TYPE=14`, `EK3_SRC1_POSXY=3`) | L1 | [C8](C8_fc_adapter.md) |
| 108 | pyubx2 (context7-indexed `/semuconsulting/pyubx2`) — canonical Python UBX/NMEA/RTCM3 parser | L1 | [C8](C8_fc_adapter.md) |
| 109 | u-blox NEO-M9N Integration Manual (UBX-19014286) + u-blox 8/M8 Receiver Description (UBX-13003221) — UBX-NAV-PVT canonical specification | L1 | [C8](C8_fc_adapter.md) |
| 110 | iNav `gps_ublox.c` source (master) — UBX validation gates `gpsMapFixType()` requires `flags & 0x01 = 1` AND `fixType ∈ {2,3}` | L1 | [C8](C8_fc_adapter.md) |
| 111 | iNav `docs/development/msp/README.md` (master) — `MSP2_SENSOR_GPS (7939 / 0x1F03)` canonical 36-byte payload spec | L1 | [C8](C8_fc_adapter.md) |
| 112 | Python MSP2 implementations: YAMSPy + INAV-Toolkit `inav_msp.py` (MSP V2 `msp_v2_encode` with CRC-8 DVB-S2) | L2 | [C8](C8_fc_adapter.md) |
| 113 | iNav `src/main/msp/msp_protocol_v2_sensor.h` (master) — MSP V2 sensor command-ID range (0x1F00-0x1FFF) | L1 | [C8](C8_fc_adapter.md) |
| 114 | FAISS `write_index` / `read_index` Python API + on-disk format + security warning (canonical wiki + context7) | L1 | [C10](C10_preflight_provisioning.md) |
| 115 | FAISS IndexHNSWFlat per-vector memory + on-disk file size formula (Discussions #3953 + C++ API docs) | L2 | [C10](C10_preflight_provisioning.md) |
| 116 | Python atomic file write pattern (gocept blog + python-atomicwrites docs + Python Issue 8604) | L2 | [C10](C10_preflight_provisioning.md) |
| 117 | Polygraphy `polygraphy convert` CLI for TensorRT INT8 engine build with calibration cache reuse (NVIDIA TensorRT repo + context7) | L1 | [C10](C10_preflight_provisioning.md) |
| 118 | Polygraphy `Calibrator` class API — algo defaults + dynamic-shapes calibration profile + warning behavior (NVIDIA TRT/Polygraphy SDK docs) | L1 | [C10](C10_preflight_provisioning.md) |
| 119 | `trtexec` CLI for one-off engine builds — INT8/FP16 flags + calibration cache support (NVIDIA TRT SDK docs) | L1 | [C10](C10_preflight_provisioning.md) |
| 120 | TensorRT INT8 calibration corpus size guidance (~500-1000 images) — Jetson AGX Orin (vendor engineering guide) | L2 | [C10](C10_preflight_provisioning.md) |
| 121 | Direct TensorRT `IBuilderConfig` + `IInt8EntropyCalibrator2` Python API (NVIDIA TRT Python API docs, cross-cite from C7 #105) | L1 | [C10](C10_preflight_provisioning.md) |