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Main Authors: Sarveswarasarma, P., Sathulakjan, T., Godfrey, V. J. V., Ambegoda, Thanuja D.
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.10868
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author Sarveswarasarma, P.
Sathulakjan, T.
Godfrey, V. J. V.
Ambegoda, Thanuja D.
author_facet Sarveswarasarma, P.
Sathulakjan, T.
Godfrey, V. J. V.
Ambegoda, Thanuja D.
contents This paper presents a novel approach to the digital signing of electronic documents through the use of a camera-based interaction system, single-finger tracking for sign recognition, and multi commands executing hand gestures. The proposed solution, referred to as "Air Signature," involves writing the signature in front of the camera, rather than relying on traditional methods such as mouse drawing or physically signing on paper and showing it to a web camera. The goal is to develop a state-of-the-art method for detecting and tracking gestures and objects in real-time. The proposed methods include applying existing gesture recognition and object tracking systems, improving accuracy through smoothing and line drawing, and maintaining continuity during fast finger movements. An evaluation of the fingertip detection, sketching, and overall signing process is performed to assess the effectiveness of the proposed solution. The secondary objective of this research is to develop a model that can effectively recognize the unique signature of a user. This type of signature can be verified by neural cores that analyze the movement, speed, and stroke pixels of the signing in real time. The neural cores use machine learning algorithms to match air signatures to the individual's stored signatures, providing a secure and efficient method of verification. Our proposed System does not require sensors or any hardware other than the camera.
format Preprint
id arxiv_https___arxiv_org_abs_2405_10868
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Air Signing and Privacy-Preserving Signature Verification for Digital Documents
Sarveswarasarma, P.
Sathulakjan, T.
Godfrey, V. J. V.
Ambegoda, Thanuja D.
Computer Vision and Pattern Recognition
Human-Computer Interaction
This paper presents a novel approach to the digital signing of electronic documents through the use of a camera-based interaction system, single-finger tracking for sign recognition, and multi commands executing hand gestures. The proposed solution, referred to as "Air Signature," involves writing the signature in front of the camera, rather than relying on traditional methods such as mouse drawing or physically signing on paper and showing it to a web camera. The goal is to develop a state-of-the-art method for detecting and tracking gestures and objects in real-time. The proposed methods include applying existing gesture recognition and object tracking systems, improving accuracy through smoothing and line drawing, and maintaining continuity during fast finger movements. An evaluation of the fingertip detection, sketching, and overall signing process is performed to assess the effectiveness of the proposed solution. The secondary objective of this research is to develop a model that can effectively recognize the unique signature of a user. This type of signature can be verified by neural cores that analyze the movement, speed, and stroke pixels of the signing in real time. The neural cores use machine learning algorithms to match air signatures to the individual's stored signatures, providing a secure and efficient method of verification. Our proposed System does not require sensors or any hardware other than the camera.
title Air Signing and Privacy-Preserving Signature Verification for Digital Documents
topic Computer Vision and Pattern Recognition
Human-Computer Interaction
url https://arxiv.org/abs/2405.10868