Digital Transformation
Converted fragile legacy media into searchable, structured digital archives
Converted fragile legacy media into searchable, structured digital archives
Ensured long-term access and safeguarding of irreplaceable historical records
Systematic multi-phase delivery at 15M+ images/month processing throughput
Structured outputs engineered for downstream analytics and machine learning workflows
Executive Summary
iBridge supported San Bernardino County in a multi-year digital transformation program, processing over 44 million records across 12 distinct phases from 2019 to 2025. Engaged through a prime contractor, we delivered highly accurate, structured outputs with 99.99% accuracy resolving complex defects across legacy rollfilm, bound books, and mixed-format media enabling long-term preservation, searchability, and AI-ready data architecture for one of California’s largest counties.
Multi-phase records digitization program
15M+ images per month
Land records, rollfilm & book digitization, QA, enhancement
44+ Million Images
Newspapers
Deeds
Books
Official Records
Official Records
Rollfilm
Official Records
Mining
Grantor / Grantee
Vital Records
Extraneous edges, frame artifacts, and irregular boundaries introduced during film capture were systematically removed, producing clean, uniform image boundaries suitable for indexing and downstream processing.
Frame-level review identified defects, polarity inversions, step misalignments, and other quality anomalies before they could propagate into the final dataset, enabling targeted intervention at the source.
Contrast imbalances, brightness variations, bleed-through, and film-specific degradation were corrected through a targeted enhancement pipeline, ensuring archival-quality output prior to final delivery.
Frames affected by step misalignment during scanning were isolated and reconverted using corrected parameters, restoring proper sequence and image integrity across the affected records.
Legacy film polarity inversions where document tones were reversed during original capture were detected and corrected to restore the true appearance of source documents.
Redundant frames introduced through scanning overlap or process error were identified and removed through systematic deduplication protocols applied across all processing phases.
Mixed and out-of-sequence image sets were identified, untangled, and remapped to their correct document structures, ensuring accurate record assembly and reliable database retrieval.
Linear defects caused by physical film damage were detected during inspection and corrected through the image enhancement pipeline, preventing scratch artifacts from appearing in the final digital record.