Halbrügge, M., Quade, M. & Engelbrecht, K.-P. (2015). A Predictive Model of Human Error based on User Interface Development Models and a Cognitive Architecture. In Taatgen, N. A., van Vugt, M. K., Borst, J. P. & Mehlhorn, K. (Eds.), Proceedings of the 13th International Conference on Cognitive Modeling (pp. 238-243). Groningen, the Netherlands: University of Groningen. Abstract: The concept of device- vs. task-orientation allows to identify subtasks that are especially prone to errors. Device-oriented tasks occur whenever a user interface requires additional steps that do not directly contribute to the users' goals. They comprise, but are not limited to, initialization errors and postcompletion errors (e.g., removing a bank card after havi...
typing Cognitive modeling can provide important insights about the usability of software or hardware...
Background: Human-centric software engineering activities, such as requirements engineering, are pro...
Capturing the distinction between task and device errors in a formal model of user behaviou
We present a user error model that simulates a user's errors using an eyes and hands extension to co...
In any complex interactive human-computer system, people are likely to make errors during its operat...
Cognitive modeling can provide important insights about the usability of software or hard-ware produ...
Understanding the cognitive aspects of human error will increase the usability of user interfaces. I...
This paper describes a method of assessing the implications for human error on user interface design...
Not yet publishedNot yet publishedNot yet publishedNot yet publishedWe overview our research on the ...
Human error is a significant contributor to product failure. However, it is uncommon for designers t...
This paper reports a method of assessing the implications for human error on system requirements, a ...
Cognitive models allow predicting some aspects of utility and usability of human machine interfaces ...
We describe a method of assessing the implications for human error on user interface design of safet...
This paper presents an approach to the assessment of 'intelligent' consumer products. We assume that...
Halbrügge, M., Quade, M. and Engelbrecht, K.-P. (2015). How can Cognitive Modeling Benefit from Onto...
typing Cognitive modeling can provide important insights about the usability of software or hardware...
Background: Human-centric software engineering activities, such as requirements engineering, are pro...
Capturing the distinction between task and device errors in a formal model of user behaviou
We present a user error model that simulates a user's errors using an eyes and hands extension to co...
In any complex interactive human-computer system, people are likely to make errors during its operat...
Cognitive modeling can provide important insights about the usability of software or hard-ware produ...
Understanding the cognitive aspects of human error will increase the usability of user interfaces. I...
This paper describes a method of assessing the implications for human error on user interface design...
Not yet publishedNot yet publishedNot yet publishedNot yet publishedWe overview our research on the ...
Human error is a significant contributor to product failure. However, it is uncommon for designers t...
This paper reports a method of assessing the implications for human error on system requirements, a ...
Cognitive models allow predicting some aspects of utility and usability of human machine interfaces ...
We describe a method of assessing the implications for human error on user interface design of safet...
This paper presents an approach to the assessment of 'intelligent' consumer products. We assume that...
Halbrügge, M., Quade, M. and Engelbrecht, K.-P. (2015). How can Cognitive Modeling Benefit from Onto...
typing Cognitive modeling can provide important insights about the usability of software or hardware...
Background: Human-centric software engineering activities, such as requirements engineering, are pro...
Capturing the distinction between task and device errors in a formal model of user behaviou