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515 results on '"Khamis, Mohamed"'

1. IFTT-PIN: A Self-Calibrating PIN-Entry Method

Author

McConkey, Kathryn, Ayranci, Talha Enes, Khamis, Mohamed, and Grizou, Jonathan

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Personalising an interface to the needs and preferences of a user often incurs additional interaction steps. In this paper, we demonstrate a novel method that enables the personalising of an interface without the need for explicit calibration procedures, via a process we call self-calibration. A second-order effect of self-calibration is that an outside observer cannot easily infer what a user is trying to achieve because they cannot interpret the user's actions. To explore this security angle, we developed IFTT-PIN (If This Then PIN) as the first self-calibrating PIN-entry method. When using IFTT-PIN, users are free to choose any button for any meaning without ever explicitly communicating their choice to the machine. IFTT-PIN infers both the user's PIN and their preferred button mapping at the same time. This paper presents the concept, implementation, and interactive demonstrations of IFTT-PIN, as well as an evaluation against shoulder surfing attacks. Our study (N=24) shows that by adding self-calibration to an existing PIN entry method, IFTT-PIN statistically significantly decreased PIN attack decoding rate by ca. 8.5 times (p=1.1e-9), while only decreasing the PIN entry encoding rate by ca. 1.4 times (p=0.02), leading to a positive security-usability trade-off. IFTT-PIN's entry rate significantly improved 21 days after first exposure (p=3.6e-6) to the method, suggesting self-calibrating interfaces are memorable despite using an initially undefined user interface. Self-calibration methods might lead to novel opportunities for interaction that are more inclusive and versatile, a potentially interesting challenge for the community. A short introductory video is available at https://youtu.be/pP5sfniNRns., Comment: arXiv admin note: text overlap with arXiv:2205.09534

Published
2024

4. An End-to-End Review of Gaze Estimation and its Interactive Applications on Handheld Mobile Devices

Author

Lei, Yaxiong, He, Shijing, Khamis, Mohamed, and Ye, Juan

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Computer Vision and Pattern Recognition, H.5
Abstract

In recent years we have witnessed an increasing number of interactive systems on handheld mobile devices which utilise gaze as a single or complementary interaction modality. This trend is driven by the enhanced computational power of these devices, higher resolution and capacity of their cameras, and improved gaze estimation accuracy obtained from advanced machine learning techniques, especially in deep learning. As the literature is fast progressing, there is a pressing need to review the state of the art, delineate the boundary, and identify the key research challenges and opportunities in gaze estimation and interaction. This paper aims to serve this purpose by presenting an end-to-end holistic view in this area, from gaze capturing sensors, to gaze estimation workflows, to deep learning techniques, and to gaze interactive applications., Comment: 37 Pages, Paper accepted by ACM Computing Surveys

Published
2023
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8. DynamicRead: Exploring Robust Gaze Interaction Methods for Reading on Handheld Mobile Devices under Dynamic Conditions

Author

Lei, Yaxiong, Wang, Yuheng, Caslin, Tyler, Wisowaty, Alexander, Zhu, Xu, Khamis, Mohamed, and Ye, Juan

Subjects
Computer Science - Human-Computer Interaction, H.5.2, D.2.2, H.1.2, I.3.6
Abstract

Enabling gaze interaction in real-time on handheld mobile devices has attracted significant attention in recent years. An increasing number of research projects have focused on sophisticated appearance-based deep learning models to enhance the precision of gaze estimation on smartphones. This inspires important research questions, including how the gaze can be used in a real-time application, and what type of gaze interaction methods are preferable under dynamic conditions in terms of both user acceptance and delivering reliable performance. To address these questions, we design four types of gaze scrolling techniques: three explicit technique based on Gaze Gesture, Dwell time, and Pursuit; and one implicit technique based on reading speed to support touch-free, page-scrolling on a reading application. We conduct a 20-participant user study under both sitting and walking settings and our results reveal that Gaze Gesture and Dwell time-based interfaces are more robust while walking and Gaze Gesture has achieved consistently good scores on usability while not causing high cognitive workload., Comment: Accepted by ETRA 2023 as Full paper, and as journal paper in Proceedings of the ACM on Human-Computer Interaction

Published
2023
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9. Understanding Dynamic Human-Robot Proxemics in the Case of Four-Legged Canine-Inspired Robots

Author

Xu, Xiangmin, Li, Emma Liying, Khamis, Mohamed, Zhao, Guodong, and Bretin, Robin

Subjects
Computer Science - Human-Computer Interaction
Abstract

Recently, quadruped robots have been well developed with potential applications in different areas, such as care homes, hospitals, and other social areas. To ensure their integration in such social contexts, it is essential to understand people's proxemic preferences around such robots. In this paper, we designed a human-quadruped-robot interaction study (N = 32) to investigate the effect of 1) different facing orientations and 2) the gaze of a moving robot on human proxemic distance. Our work covers both static and dynamic interaction scenarios. We found a statistically significant effect of both the robot's facing direction and its gaze on preferred personal distances. The distances humans established towards certain robot behavioral modes reflect their attitudes, thereby guiding the design of future autonomous robots.

Published
2023

11. The Dark Side of Perceptual Manipulations in Virtual Reality

Author

Tseng, Wen-Jie, Bonnail, Elise, McGill, Mark, Khamis, Mohamed, Lecolinet, Eric, Huron, Samuel, and Gugenheimer, Jan

Subjects
Computer Science - Human-Computer Interaction
Abstract

"Virtual-Physical Perceptual Manipulations" (VPPMs) such as redirected walking and haptics expand the user's capacity to interact with Virtual Reality (VR) beyond what would ordinarily physically be possible. VPPMs leverage knowledge of the limits of human perception to effect changes in the user's physical movements, becoming able to (perceptibly and imperceptibly) nudge their physical actions to enhance interactivity in VR. We explore the risks posed by the malicious use of VPPMs. First, we define, conceptualize and demonstrate the existence of VPPMs. Next, using speculative design workshops, we explore and characterize the threats/risks posed, proposing mitigations and preventative recommendations against the malicious use of VPPMs. Finally, we implement two sample applications to demonstrate how existing VPPMs could be trivially subverted to create the potential for physical harm. This paper aims to raise awareness that the current way we apply and publish VPPMs can lead to malicious exploits of our perceptual vulnerabilities., Comment: 15 pages, 7 figures

Published
2022
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14. State-of-the-Art in Smart Contact Lenses for Human Machine Interaction

Author

Xia, Yuanjie, Khamis, Mohamed, Fernandez, F. Anibal, Heidari, Hadi, Butt, Haider, Ahmed, Zubair, Wilkinson, Tim, and Ghannam, Rami

Subjects
Computer Science - Human-Computer Interaction
Abstract

Contact lenses have traditionally been used for vision correction applications. Recent advances in microelectronics and nanofabrication on flexible substrates have now enabled sensors, circuits and other essential components to be integrated on a small contact lens platform. This has opened up the possibility of using contact lenses for a range of human-machine interaction applications including vision assistance, eye tracking, displays and health care. In this article, we systematically review the range of smart contact lens materials, device architectures and components that facilitate this interaction for different applications. In fact, evidence from our systematic review demonstrates that these lenses can be used to display information, detect eye movements, restore vision and detect certain biomarkers in tear fluid. Consequently, whereas previous state-of the-art reviews in contact lenses focused exclusively on biosensing, our systematic review covers a wider range of smart contact lens applications in HMI. Moreover, we present a new method of classifying the literature on smart contact lenses according to their six constituent building blocks, which are the sensing, energy management, driver electronics, communications, substrate and the interfacing modules. Based on recent developments in each of these categories, we speculate the challenges and opportunities of smart contact lenses for human-machine interaction. Moreover, we propose a novel self-powered smart contact lens concept with integrated energy harvesters, sensors and communication modules to enable autonomous operation. Our review is therefore a critical evaluation of current data and is presented with the aim of guiding researchers to new research directions in smart contact lenses., Comment: This work has been submitted to the IEEE for possible publication

Published
2021
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20. Markov Switching Model for Driver Behavior Prediction: Use cases on Smartphones

Author

Zaky, Ahmed B., Khamis, Mohamed A., and Gomaa, Walid

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Several intelligent transportation systems focus on studying the various driver behaviors for numerous objectives. This includes the ability to analyze driver actions, sensitivity, distraction, and response time. As the data collection is one of the major concerns for learning and validating different driving situations, we present a driver behavior switching model validated by a low-cost data collection solution using smartphones. The proposed model is validated using a real dataset to predict the driver behavior in short duration periods. A literature survey on motion detection (specifically driving behavior detection using smartphones) is presented. Multiple Markov Switching Variable Auto-Regression (MSVAR) models are implemented to achieve a sophisticated fitting with the collected driver behavior data. This yields more accurate predictions not only for driver behavior but also for the entire driving situation. The performance of the presented models together with a suitable model selection criteria is also presented. The proposed driver behavior prediction framework can potentially be used in accident prediction and driver safety systems.

Published
2021

24. User-Centered Evaluation of Different Configurations of a Touchless Gestural Interface for Interactive Displays

Author

Gentile, Vito, Farzand, Habiba, Bonaccorso, Simona, Rocchesso, Davide, Malizia, Alessio, Khamis, Mohamed, Sorce, Salvatore, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Abdelnour Nocera, José, editor, Kristín Lárusdóttir, Marta, editor, Petrie, Helen, editor, Piccinno, Antonio, editor, and Winckler, Marco, editor

Published
2023
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25. 'Do I Run Away?': Proximity, Stress and Discomfort in Human-Drone Interaction in Real and Virtual Environments

Author

Bretin, Robin, Khamis, Mohamed, Cross, Emily, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Abdelnour Nocera, José, editor, Kristín Lárusdóttir, Marta, editor, Petrie, Helen, editor, Piccinno, Antonio, editor, and Winckler, Marco, editor

Published
2023
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26. Short Timescale Riverbank Erosion and Bank Stability of Sg. Bernam Using Bank Stability and Toe Erosion Model (BSTEM)

Author

Saadon, Azlinda, Ibrahim, Zulkiflee, Khamis, Mohamed Fuad Said, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Othman, Ilya Khairanis, editor, Mohd. Haniffah, Mohd. Ridza, editor, and Jamal, Mohamad Hidayat, editor

Published
2023
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29. 'Please enter your PIN' -- On the Risk of Bypass Attacks on Biometric Authentication on Mobile Devices

Author

Tiefenau, Christian, Häring, Maximilian, Khamis, Mohamed, and von Zezschwitz, Emanuel

Subjects
Computer Science - Human-Computer Interaction
Abstract

Nowadays, most mobile devices support biometric authentication schemes like fingerprint or face unlock. However, these probabilistic mechanisms can only be activated in combination with a second alternative factor, usually knowledge-based authentication. In this paper, we show that this aspect can be exploited in a bypass attack. In this bypass attack, the attacker forces the user to "bypass" the biometric authentication by, for example, resetting the phone. This forces the user to enter an easy-to-observe passcode instead. We present the threat model and provide preliminary results of an online survey. Based on our results, we discuss potential countermeasures. We conclude that better feedback design and security-optimized fallback mechanisms can help further improve the overall security of mobile unlock mechanisms while preserving usability., Comment: Poster Session SOUPS 2019

Published
2019

38. MARL-FWC: Optimal Coordination of Freeway Traffic Control Measures

Author

Fares, Ahmed, Gomaa, Walid, and Khamis, Mohamed A.

Subjects
Computer Science - Systems and Control, Computer Science - Artificial Intelligence
Abstract

The objective of this article is to optimize the overall traffic flow on freeways using multiple ramp metering controls plus its complementary Dynamic Speed Limits (DSLs). An optimal freeway operation can be reached when minimizing the difference between the freeway density and the critical ratio for maximum traffic flow. In this article, a Multi-Agent Reinforcement Learning for Freeways Control (MARL-FWC) system for ramps metering and DSLs is proposed. MARL-FWC introduces a new microscopic framework at the network level based on collaborative Markov Decision Process modeling (Markov game) and an associated cooperative Q-learning algorithm. The technique incorporates payoff propagation (Max-Plus algorithm) under the coordination graphs framework, particularly suited for optimal control purposes. MARL-FWC provides three control designs: fully independent, fully distributed, and centralized; suited for different network architectures. MARL-FWC was extensively tested in order to assess the proposed model of the joint payoff, as well as the global payoff. Experiments are conducted with heavy traffic flow under the renowned VISSIM traffic simulator to evaluate MARL-FWC. The experimental results show a significant decrease in the total travel time and an increase in the average speed (when compared with the base case) while maintaining an optimal traffic flow.

Published
2018

39. DialPlate: Enhancing the Detection of Smooth Pursuits Eye Movements Using Linear Regression

Author

Drewes, Heiko, Khamis, Mohamed, and Alt, Florian

Subjects
Computer Science - Human-Computer Interaction
Abstract

We introduce and evaluate a novel approach for detecting smooth pursuit eye movements that increases the number of distinguishable targets and is more robust against false positives. Being natural and calibration-free, Pursuits has been gaining popularity in the past years. At the same time, current implementations show poor performance when more than eight on-screen targets are being used, thus limiting its applicability. Our approach (1) leverages the slope of a regression line, and (2) introduces a minimum signal duration that improves both the new and the traditional detection method. After introducing the approach as well as the implementation, we compare it to the traditional correlation-based Pursuits detection method. We tested the approach up to 24 targets and show that, if accepting a similar error rate, nearly twice as many targets can be distinguished compared to state of the art. For fewer targets, accuracy increases significantly. We believe our approach will enable more robust pursuit-based user interfaces, thus making it valuable for both researchers and practitioners.

Published
2018

41. CAD-CAM custom healing abutments: A dental technique.

Author

El-Danasory, Muhammed B., Khamis, Mohamed Moataz, Abdel Hakim, Ahmed Adel, and Fahmy, Rania A.

Abstract

Custom healing abutments are important in establishing optimal esthetics for prosthesis-driven, implant-supported restorations. This report demonstrates a technique for constructing a custom healing abutment with computer-aided design and computer-aided manufacturing to save chairside time and provide predictable results. [ABSTRACT FROM AUTHOR]

Published
2024
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44. Passphrases Beat Thermal Attacks: Evaluating Text Input Characteristics Against Thermal Attacks on Laptops and Smartphones

Author

Abdrabou, Yasmeen, Hatem, Reem, Abdelrahman, Yomna, Elmougy, Amr, Khamis, Mohamed, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Ardito, Carmelo, editor, Lanzilotti, Rosa, editor, Malizia, Alessio, editor, Petrie, Helen, editor, Piccinno, Antonio, editor, Desolda, Giuseppe, editor, and Inkpen, Kori, editor

Published
2021
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