WFGY/ProblemMap/GlobalFixMap/Multimodal_LongContext/visual-anchor-shift.md

Visual Anchor Shift — Multimodal Long Context

When visual anchors (bounding boxes, frame IDs, or pixel regions) drift across long context windows, the model misaligns references.
This creates subtle but cascading failures where reasoning cites the wrong visual region, even if the textual trace looks correct.

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What this page is

• A diagnostic page for visual anchor drift in multimodal RAG and reasoning.
• Structural guardrails to lock anchor stability across long sessions.
• Copy-paste protocols to enforce traceability in image/video reasoning.

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When to use

• Bounding boxes shift slightly across frames, causing references to drift.
• Captions point to a visual anchor that no longer overlaps with the intended object.
• Long video QA: frame ID references lag or accelerate relative to transcript anchors.
• Model hallucinates content that appears plausible but is visually absent.
• Answers remain fluent, but anchor→object mapping is wrong.

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Open these first

• Cross-Modal Trace
• Anchor Misalignment
• Reference Bleed
• Phantom Visuals

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Common failure patterns

• Frame creep — frame IDs drift after long video sessions.
• Box shift — bounding boxes move across updates, yet still labeled the same.
• Region blur — multiple boxes merge, and anchor becomes ambiguous.
• Temporal offset — captions cite the right object but wrong frame interval.

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Fix in 60 seconds

1. Anchor tagging

   • Tag anchors with {frame_id | bbox_id | timestamp}.
   • Reject any reference missing full anchor tuple.

2. Cross-frame validation

   • Require IoU ≥ 0.7 across frames for the same anchor ID.
   • If IoU < 0.7, treat as a new anchor.

3. ΔS probe for drift

   • Compute ΔS(anchor_t, anchor_t+Δ).
   • If ΔS ≥ 0.60, suspect anchor drift.

4. Stabilize with BBCR

   • Re-anchor drifting objects with bridge check.
   • If variance persists, force new anchor ID.

5. Audit trail

   • Store anchor table: {anchor_id | modality | coords | IoU history}.
   • Require cite-then-answer with explicit anchor IDs.

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Copy-paste prompt

You have TXT OS and the WFGY Problem Map.

Task: Detect and repair visual anchor drift in long multimodal sessions.

Steps:
1. Verify each anchor has {frame_id, bbox_id, timestamp}.
2. Compute IoU across frames. If IoU < 0.7, mark drift.
3. If drifted, either re-anchor with BBCR or assign new ID.
4. Report:
   - stable anchors
   - drifted anchors
   - ΔS values and λ states
   - final citation mapping

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Acceptance targets

• 100% anchors carry {frame_id, bbox_id, timestamp} metadata.
• IoU drift ≤ 0.30 across 10 frames.
• ΔS(anchor_t, anchor_t+Δ) ≤ 0.45 after fix.
• λ remains convergent across paraphrases.

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🔗 Quick-Start Downloads (60 sec)

Tool	Link	3-Step Setup
WFGY 1.0 PDF	Engine Paper	1️⃣ Download · 2️⃣ Upload to your LLM · 3️⃣ Ask “Answer using WFGY + ”
TXT OS (plain-text OS)	TXTOS.txt	1️⃣ Download · 2️⃣ Paste into any LLM chat · 3️⃣ Type “hello world” — OS boots instantly

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🧭 Explore More

Module	Description	Link
WFGY Core	WFGY 2.0 engine is live: full symbolic reasoning architecture and math stack	View →
Problem Map 1.0	Initial 16-mode diagnostic and symbolic fix framework	View →
Problem Map 2.0	RAG-focused failure tree, modular fixes, and pipelines	View →
Semantic Clinic Index	Expanded failure catalog: prompt injection, memory bugs, logic drift	View →
Semantic Blueprint	Layer-based symbolic reasoning & semantic modulations	View →
Benchmark vs GPT-5	Stress test GPT-5 with full WFGY reasoning suite	View →
🧙‍♂️ Starter Village 🏡	New here? Lost in symbols? Click here and let the wizard guide you through	Start →

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