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A structured OCR pipeline designed for **layout-aware text extraction from complex documents**, combining preprocessing, column detection, region classification, and ordered OCR assembly.

Project description

Part of the Abstract Media Intelligence Platform

This module provides layout-aware OCR as part of a larger media processing system.

abstract_ocr focuses on extraction:

  • multi-engine OCR (Tesseract / EasyOCR / PaddleOCR)
  • column detection and region segmentation
  • structured, position-aware text output

Full system: https://github.com/AbstractEndeavors/abstract-media-intelligence


abstract_ocr / layout_ocr — Layout-Aware OCR Pipeline

A structured OCR pipeline designed for layout-aware text extraction from complex documents, combining preprocessing, column detection, region classification, and ordered OCR assembly.

Built to handle:

  • multi-column PDFs
  • mixed-content layouts (text, figures, captions)
  • noisy or scanned documents
  • large-scale document ingestion pipelines

🔹 What This System Is

This is not a simple OCR wrapper — it is a typed, multi-stage processing pipeline:

  • transforms raw images into structured page representations
  • detects document layout (columns, headers, regions)
  • classifies content blocks (text, figures, captions)
  • applies OCR at the region level
  • reconstructs output in correct reading order

The system is designed for deterministic, reproducible extraction rather than heuristic text scraping.


Pipeline Overview

PDF Input
    ↓
Slice / Decompose (images + text per page)
    ↓
OCR + Text Extraction (layout-aware engines)
    ↓
Metadata Generation
    ├─ summaries
    ├─ keywords
    └─ descriptions
    ↓
Manifest Creation (per-page + per-document)
    ↓
HTML Generation
    ├─ PDF viewer pages
    └─ gallery index pages
    ↓
Static Site Output (SEO-ready)
flowchart TD
    A[Input Image / Page Image]
    B[Preprocess\nDenoise + Binarize]
    C[Layout Detection\nColumns + Header Cutoff]
    D[Region Classification\nText / Figure / Caption]
    E[Region OCR\nCrop + Tesseract]
    F[Fallback OCR\nColumn-level OCR]
    G[Reading Order Assembly]
    H[Structured OCRResult\nBlocks + Raw Text + Layout]

    A --> B --> C --> D --> E --> G --> H
    D -->|No usable regions| F --> G

🔹 Core Capabilities

  • Layout Detection

    • Column detection via vertical projection valleys
    • Header segmentation via density scanning
    • Multi-column classification (single / dual / mixed)
  • Region Classification

    • Connected-component analysis
    • Density-based classification (text vs figure vs caption)
    • Column-aware region assignment
  • Region-Level OCR

    • OCR applied per detected block (not full-page)
    • Adaptive Tesseract configuration by region type
    • Automatic fallback to column-level OCR when detection fails
  • Reading Order Reconstruction

    • Column-aware ordering
    • Top-to-bottom sequencing within columns
    • Header/body/caption prioritization
  • Typed Pipeline Execution

    • All steps validated via explicit input/output types
    • Registry-driven execution model
    • No implicit coupling between pipeline stages

🔹 Architecture

The pipeline is built around a step registry + type-safe execution chain:

  • Each step declares:

    • input type
    • output type
  • The pipeline validates compatibility before execution

  • Execution is explicit, deterministic, and observable

Example chain:

["preprocess", "detect_layout", "ocr_regions"]

Each step is independently replaceable and composable.


🔹 Key Design Decisions

Typed Data Flow

All intermediate results are structured dataclasses:

  • PageImage
  • PreprocessedImage
  • LayoutDetection
  • OCRResult

No ad-hoc dictionaries — ensures:

  • traceability
  • consistency
  • debuggability

Layout-First OCR

OCR is applied after structure is understood, not before.

This prevents:

  • column interleaving
  • incorrect reading order
  • misclassification of content

Fallback Over Failure

If region detection fails:

  • system falls back to column-level OCR
  • ensures output is still usable

Determinism Over Heuristics

  • explicit thresholds (config-driven)
  • no hidden behavior
  • reproducible results across runs

🔹 Why This Exists

Traditional OCR pipelines:

  • ignore layout
  • operate on full pages
  • produce inconsistent reading order
  • fail silently on complex documents

This system:

  • understands document structure
  • isolates regions before OCR
  • enforces reading order
  • produces structured outputs suitable for downstream systems

🔹 Example Use Cases

  • PDF → structured text extraction
  • research document ingestion pipelines
  • financial filings parsing
  • multi-column article extraction
  • preprocessing for NLP / LLM pipelines
  • search indexing and document analysis

🔹 Integration Context

This module is designed to plug into:

  • document ingestion systems
  • OCR + NLP pipelines (e.g. abstract_hugpy)
  • search and indexing systems
  • large-scale document processing workflows

🔹 Design Philosophy

  • Structure before extraction
  • Determinism over convenience
  • Typed pipelines over implicit flows
  • Fallback over failure

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