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IndicSTR12: A Comprehensive Dataset for Indic Scene Text Recognition


Konsep Inti
The author presents the creation of IndicSTR12, a dataset addressing the lack of comprehensive datasets for Indian languages, aiming to catalyze the development of robust text detection and recognition models.
Abstrak

The importance of Scene Text Recognition (STR) in today's digital world is highlighted, with a focus on the lack of datasets for Indian languages. The creation of IndicSTR12, comprising real and synthetic data for 13 Indian languages, aims to advance STR solutions. The dataset covers various challenges like blur, illumination changes, occlusion, and more realistic conditions. Three models - PARSeq, CRNN, and STARNet - are benchmarked on the dataset. The study emphasizes the need for more data to enhance STR models for complex Indian scripts.

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Statistik
Over 27,000 word-images in IndicSTR12 dataset. 1000+ word-images per language in IndicSTR12. 3 million synthetic word-images generated for 13 Indian languages. PARSeq outperformed other models in WRR and CRR on synthetic data. Performance comparison of CRNN, STARNet, and PARSeq on real datasets.
Kutipan
"The dataset contains over 27,000 word-images gathered from various natural scenes." "Our Dataset has been curated with the goal of catering to both regular and irregular samples." "PARSeq model outperforms in almost all cases where the real dataset is large enough."

Wawasan Utama Disaring Dari

by Harsh Lunia,... pada arxiv.org 03-14-2024

https://arxiv.org/pdf/2403.08007.pdf
IndicSTR12

Pertanyaan yang Lebih Dalam

How can the findings from this study impact advancements in multi-lingual scene text recognition?

The findings from this study, particularly the creation of the IndicSTR12 dataset and benchmarking STR performance on 12 major Indian languages, can significantly impact advancements in multi-lingual scene text recognition. By proposing a comprehensive real dataset and synthetic dataset for multiple languages, researchers and developers now have access to a rich resource that can facilitate training and testing of models across diverse linguistic backgrounds. This will enable the development of more robust and accurate multi-lingual STR models that can effectively recognize text in various scripts and languages. Moreover, by comparing the performance of different models on both synthetic and real datasets, valuable insights are gained into which approaches work best for specific language groups or scenarios. This knowledge can guide future research efforts towards optimizing model architectures, training strategies, and data augmentation techniques tailored to multi-lingual settings. Overall, these findings lay a solid foundation for advancing the field of multi-lingual scene text recognition by providing standardized benchmarks and datasets for evaluation.

How might challenges arise when applying these models to real-world scenarios outside controlled environments?

While the models developed in this study show promising results on synthetic and curated real datasets like IndicSTR12, challenges may arise when applying them to real-world scenarios outside controlled environments. Some potential challenges include: Variability in Text Conditions: Real-world scenes often contain text with varying fonts, sizes, orientations, lighting conditions, backgrounds, distortions (e.g., perspective effects), occlusions, etc. Models trained on curated datasets may struggle to generalize well to such diverse conditions. Limited Generalization: Models optimized for specific languages or scripts may face difficulties when encountering new languages or unfamiliar scripts not present in their training data. Data Annotation Issues: Ensuring high-quality annotations for large-scale real-world datasets is labor-intensive and prone to errors or inconsistencies which could affect model performance. Resource Constraints: Deploying complex deep learning models in resource-constrained environments such as mobile devices may pose computational challenges due to high memory requirements or processing power demands. Addressing these challenges requires further research into domain adaptation techniques, data augmentation strategies specifically designed for realistic scenarios, and continuous model refinement through iterative testing on diverse real-world data sets.

How can the development of robust text detection models benefit other fields beyond STR?

The development of robust text detection models has far-reaching implications beyond Scene Text Recognition (STR) applications: Document Analysis: Robust text detection capabilities are essential components of document analysis systems used in digitizing printed documents, extracting information from forms, analyzing handwritten notes, enabling efficient search functionalities within documents. Augmented Reality (AR) & Virtual Reality (VR): Accurate text detection is crucial for overlaying digital information onto physical objects in AR/VR applications, enhancing user experiences through interactive content display based on detected texts. Autonomous Vehicles: Text detection plays a vital role in autonomous vehicles by recognizing traffic signs, road markings, navigation instructions displayed along roadsides. 4 .Accessibility Technologies: Developing robust text detection models benefits accessibility technologies like screen readers aiding visually impaired individuals by converting textual information from images into audio output. 5 .Medical Imaging: In medical imaging applications,text detection helps extract critical information from radiology reports,image captions,prescriptions,enabling faster diagnosis,treatment planning,and patient care management By improving accuracy,reliability,and speedof detecting texts across various domains,the advancementofrobusttextdetectionmodels enhances efficiency,functionality,and innovationin numerous industriesbeyond just STR
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