QRïS: A Preemptive Novel Method for Quishing Detection Through Structural Features of QR

• URL: http://arxiv.org/abs/2510.17175v1
• Date: Mon, 20 Oct 2025 05:30:47 GMT
• Title: QRïS: A Preemptive Novel Method for Quishing Detection Through Structural Features of QR
• Authors: Muhammad Wahid Akram, Keshav Sood, Muneeb Ul Hassan,
• Abstract summary: Cyberattackers embed falsify and misleading information in QR codes to launch various phishing attacks which termed as Quishing.<n>We propose QR"iS, the pioneer method to classify QR codes through the comprehensive structural analysis of a QR code.<n>Our method is clearly transparent which makes it reproducible, scalable, and easy to comprehend.
• Score: 3.1186758722870582
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Globally, individuals and organizations employ Quick Response (QR) codes for swift and convenient communication. Leveraging this, cybercriminals embed falsify and misleading information in QR codes to launch various phishing attacks which termed as Quishing. Many former studies have introduced defensive approaches to preclude Quishing such as by classifying the embedded content of QR codes and then label the QR codes accordingly, whereas other studies classify them using visual features (i.e., deep features, histogram density analysis features). However, these approaches mainly rely on black-box techniques which do not clearly provide interpretability and transparency to fully comprehend and reproduce the intrinsic decision process; therefore, having certain obvious limitations includes the approaches' trust, accountability, issues in bias detection, and many more. We proposed QR\"iS, the pioneer method to classify QR codes through the comprehensive structural analysis of a QR code which helps to identify phishing QR codes beforehand. Our classification method is clearly transparent which makes it reproducible, scalable, and easy to comprehend. First, we generated QR codes dataset (i.e. 400,000 samples) using recently published URLs datasets [1], [2]. Then, unlike black-box models, we developed a simple algorithm to extract 24 structural features from layout patterns present in QR codes. Later, we train the machine learning models on the harvested features and obtained accuracy of up to 83.18%. To further evaluate the effectiveness of our approach, we perform the comparative analysis of proposed method with relevant contemporary studies. Lastly, for real-world deployment and validation, we developed a mobile app which assures the feasibility of the proposed solution in real-world scenarios which eventually strengthen the applicability of the study.

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