MobileMRZNet: Efficient and Lightweight MRZ Detection for Mobile Devices

Authors : Necmettin Bayar, Kubra Guzel, Deniz Kumlu
Pages : 160-169
Doi:10.17694/bajece.1416404
View : 102 | Download : 227
Publication Date : 2024-08-30
Article Type : Research Paper
Abstract :The Machine Readable Zone (MRZ) is a standardized section found on identification documents (IDs) that adhere to the International Civil Aviation Association (ICAO) Document 9303. The MRZ region contains sensitive personal information about the document holder, and a portion of this information is utilized to establish communication between the passive chip within the ID and a mobile device via Near Field Communication (NFC) protocol. This communication is crucial as the data retrieved from the ID\\\'s chip is subsequently used in authentication steps such as face or fingerprint recognition. Thus, accurate detection of the personal information within the MRZ region is vital. In this research study, we propose a fast and lightweight approach for MRZ region detection called MobileMRZNet, which is based on the BlazeFace model. The MobileMRZNet architecture is specifically designed for mobile Graphical Processing Units (GPUs) and enables rapid and precise detection of MRZ regions. To train and evaluate the model, a dataset consisting of both simulated and real data was created using Turkish national IDs. The BlazeFace model was reconfigured and trained specifically for MRZ region detection. The detector, based on BlazeFace and trained on augmented real and simulated data, demonstrates excellent generalization capabilities for deployment with real IDs. Both qualitative and quantitative results confirm the superiority of our proposed method. The mean Intersection over Union (IoU) for the first frame, without utilizing any layout alignment for IDs, achieves an accuracy of approximately 81%. For character recognition, the method achieves 100% accuracy after three consecutive frames. The model operates in less than 10 milliseconds on a mobile device, and its size is around 400 KB, making it significantly fast, lightweight, and robust compared to any existing MRZ detection methods.
Keywords : MRZ detection, travel documents, ID cards, BlazeFace model, biometric identification

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