The download rate of AI mobile health (mHealth) apps has increased rapidly, and there are many usability evaluation studies based on mobile apps, but few studies have been conducted on the usability of AI mHealth appl...
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ISBN:
(纸本)9783031613500;9783031613517
The download rate of AI mobile health (mHealth) apps has increased rapidly, and there are many usability evaluation studies based on mobile apps, but few studies have been conducted on the usability of AI mHealth applications. This study aims to develop a task-based usability checklist based on heuristic evaluation based on the opinions of AI mobile health app userinterface (UI) practitioners. This study was divided into two phases. The first phase of the study developed a hierarchical structure of graphical user interface design elements and usability principles related to AI mHealth applications, which used to develop the visual checklist for the usability evaluation. In order to demonstrate the practical effectiveness of the proposed checklist, the second phase of the study makes the usability evaluation with the checklist in AI m-Health application. Thirty userinterface practitioners were recruited for this test, and they will use a visual checklist to evaluate the usability of AI GUIs in mHealth applications. The results showed that this usability checklist identified most of the usability issues and considerations that should be taken into account when developing AI mHealth, especially the usability of conversational AI and chatbot. This facilitates the study of potential ways to standardize AI GUIs to enhance the user experience in AI mHealth applications. The usability checklist proposed in this study is expected to be used quickly and effectively by usability practitioners for userinterface evaluation during AI m-Health application development.
Electro Pneumatic Trainer for educational applications is developed as supporting tools towards the existing typical teaching and learning process. The main objective is to improve the learning outcome towards student...
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ISBN:
(纸本)9781509041862
Electro Pneumatic Trainer for educational applications is developed as supporting tools towards the existing typical teaching and learning process. The main objective is to improve the learning outcome towards student's cognitive knowledge and practical skill where the existing teaching and learning for electro pneumatic courses conducted in the classroom without emphasizing on simulation and complex practical aspect. Generally, computer graphic or simulation can reduce the unsuccessful of practical implementation during the practical session through installation error. Visual Basic (VB) was used as the platform for graphical user interface (GUI) and using Programmable Integrated Circuit (PIC) as the interface between the GUI and hardware of Electro Pneumatic Trainer. The development of Electro Pneumatic Trainer interfacing between PIC and VB has been designed and improved by involving various types of electro pneumatics instruments such as single acting cylinder, double acting cylinder, semi rotary motor, air motor, and linear drive. Newly developed Electro Pneumatic Trainer controller interface are able to be re-programme for numerous combination of tasks. Based on Practical Work Assessment Form evaluated by the lecturers, there is an average marks of 40% and 40% of improvement on teaching and learning (cognitive) and practical's skill respectively when newly developed Electro Pneumatic Trainer were used by students during the teaching and learning process. It is also user friendly and embedded with systematics graphical diagram inspiring students for conducting the practical session.
In this paper, the design of a graphical user interface for CAN data frame monitoring is presented. The GUI has been developed in the Qt Creator IDE. A touch screen for visualization and control is used, which in turn...
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In this paper, the design of a graphical user interface for CAN data frame monitoring is presented. The GUI has been developed in the Qt Creator IDE. A touch screen for visualization and control is used, which in turn is controlled by a development board with a SoC Cyclone V, through which a Linux operating system is executed.
Predicting the performance of a mixture is crucial to designing experiences in product development and formulation research. In this work, an application, MDesign, is proposed to construct models in a mixture design w...
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ISBN:
(纸本)9789893334362
Predicting the performance of a mixture is crucial to designing experiences in product development and formulation research. In this work, an application, MDesign, is proposed to construct models in a mixture design with a practical, educational, and intuitive approach. Developed in MATLAB software, the standalone application aims to contribute to the study of mixtures through the definition of multivariate models of different orders, enabling their statistical analysis to verify the robustness of each of those models. Compared to the obtained results from other applications using data experiments published in the literature, the proposed application presents accurate results and good execution. MDesign can be considered an automatic, robust, and valuable tool to support the mixture design in an industrial context.
The graphical user interface (GUI) for the supervision of Tore Supra is intended to supervise the start-up and the shut-down of the installation, to control general state (state of all diagnostics, state of the system...
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The graphical user interface (GUI) for the supervision of Tore Supra is intended to supervise the start-up and the shut-down of the installation, to control general state (state of all diagnostics, state of the system and network) and to follow the pulse sequence. Implementation of a new multi-platform, modular GUI for Tore Supra is in progress. This provides not only a simpler, more structured view for the non-specialist user, but also is open-ended and adaptable to a wide variety of uses. The actual implementation of a GUI is a question of user-ergonomics. Hence, a user-directed study in 2000 produced a specification for the interface. The information is treated with a hierarchical order. At the top level, only the global state of the supervised elements appears, i.e. the general state of every diagnostics, the pulse sequence, the safety systems. If a problem occurs, the operator has access to the lower level detailed state of the concerned element, simply with a double-click. An event log also helps the operator to analyse the chronology of the alarms arising during the pulse. Although the GUI is mainly used in the control room on X terminals under Unix, it should also be accessible via a portable PC for the purpose of maintenance, or directly from any office to see how the physics program is progressing. The choice of Java, multi-platform object programming language was thus adopted with access via any web browser. The modularity of the GUI is made possible by a distributed architecture (remote method invocation) between the graphic client and different servers: one for the diagnostics and the sequence, one for the system and the network and one for the configuration database. All the components interact with each other in a very simple and standard way. This distributed architecture allows the progressive set up of the new interface. The first step, being produced for mid-2001 is the GUI for the supervision of diagnostics. This prototype will help us to validat
The modern home appliances are designed with energy efficiency considerations. This paper presents the use of a permanent magnet synchronous motor (PMSM) in a washing machine and field-oriented control (FOC) for it. T...
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ISBN:
(纸本)9781665418782
The modern home appliances are designed with energy efficiency considerations. This paper presents the use of a permanent magnet synchronous motor (PMSM) in a washing machine and field-oriented control (FOC) for it. The main focus of this work is creating a graphical user interface (GUI) that provides an interactive set of input parameters and data output so that the user can find the optimal parameters for the system. The proposed model is verified by numerical simulation and can be generalized to a wide range of motor types and control strategies.
This paper builds on the PySD project, which seeks to bring together System Dynamics and Data Science by migrating models into a programming environment in Python. The authors develop an interactive tool, built on top...
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ISBN:
(纸本)9781665439923
This paper builds on the PySD project, which seeks to bring together System Dynamics and Data Science by migrating models into a programming environment in Python. The authors develop an interactive tool, built on top of the PySD module as a step toward accessibility, which helps further the ability of (1) simulation to be intuitive for non-experts and (2) Data Science to facilitate model structure understanding. This tool is meant to serve as a conduit through which Data Science can be leveraged in Systems Dynamics modeling efforts.
The technical advances in the automation system has affected not only engineering fields, but various interdisciplinary fields including performing art. In the field of the performing art, the automation system enable...
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ISBN:
(纸本)9781479965410
The technical advances in the automation system has affected not only engineering fields, but various interdisciplinary fields including performing art. In the field of the performing art, the automation system enables to control various stage devices at the same time. An authoring tool is one of the important components for the stage automation. In this paper, the virtual environment based authoring tool is proposed. The proposed tool provides the virtual scene and graph interface for the management of the stage performance. The proposed tool was tested with robot actors and showed its usefulness.
This paper presents a graphical user interface (GUI) for modeling ultrasonic guided wave propagation in elastic solids. The software exploits the semi-analytical finite element (SAFE) method for the calculation of wav...
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ISBN:
(纸本)9781510640160
This paper presents a graphical user interface (GUI) for modeling ultrasonic guided wave propagation in elastic solids. The software exploits the semi-analytical finite element (SAFE) method for the calculation of wave-propagation characteristics. The interface allows for the modeling of piezoelectric effects in plate-like and arbitrary cross-sectional waveguides. The isotropic and anisotropic materials with damping effects are also considered. For anisotropic composite material cases, directivity plots can be extracted, containing the phase-velocities, group velocities, and slowness curves. The frequency-dependent mode shapes can also be obtained, including displacement, strain, stress, and other electric components for piezoelectric materials. The corresponding mode shapes for arbitrary cross-sectional waveguides are presented in the form of vivid animations, demonstrating the cross-sectional harmonic motions. All the computational outcomes are compared with commercial finite element (FE) codes via the Bloch-Floquet boundary conditions. The paper finishes with discussion, concluding remarks, and suggestions for future work.
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