Exploring deep learning models for handwritten Bengali compound character classification: a comparative study
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BRAC University
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Abstract
Recognizing isolated juktoborno in Bangla script, which consists of 334 unique compound
characters, remains a challenging problem in Optical Character Recognition
(OCR). This research explores the efficacy of deep learning-based approaches by
comprehensively evaluating nine state-of-the-art architectures: EfficientNet-B0,
MobileNet V3, DenseNet-121, ConvNeXt V2 Tiny, ViT-Small-DINOv3,
Custom CNN, ResNet-50, VGG-16, and SqueezeNet.
We employed transfer learning using ImageNet pre-trained weights, fine-tuning all
models on the MatriVasha Dataset containing 120 compound character classes
with 306,461 grayscale images at 128×128 resolution. The dataset was partitioned
into 70
All models were trained using AdamW optimizer with cosine annealing learning rate
schedule, data augmentation (RandomAffine, RandomPerspective, RandomErasing),
and early stopping on high-performance hardware (dual RTX 5090 GPUs).
EfficientNet-B0 achieved the highest accuracy of 97.68% with only 4.16M parameters,
demonstrating superior efficiency. MobileNet V3 secured second place at
97.01% while being the fastest to train (5.7 minutes), and DenseNet-121 achieved
96.40% with effective feature reuse.
This study contributes to advancing Bangla OCR technology through comprehensive
architecture comparison and establishes new performance benchmarks for compound
character recognition. The findings will help in practical applications like
document digitization, automated translation, text-to-speech conversion,
and search-based text retrieval, with EfficientNetB0 recommended for maximum
accuracy and MobileNet V3 for optimal speed-accuracy balance in production
deployment.
Description
Cataloged from PDF version of thesis.
Includes bibliographical references (pages 51-54).
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science, 2025.
Includes bibliographical references (pages 51-54).
This thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Science in Computer Science, 2025.
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Thesis