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The Role of Artificial Intelligence for Intelligent Mobile Apps
Published in Anirbid Sircar, Gautami Tripathi, Namrata Bist, Kashish Ara Shakil, Mithileysh Sathiyanarayanan, Emerging Technologies for Sustainable and Smart Energy, 2022
Mohamed Yousuff, Anusha, Vijayashree, Jayashree
React Native mobile application development framework is used to develop the user interface of the application. Dexcom, Inc provides the data required to train and test a model. The dataset contains glucose readings of a patient for 10 hours, containing values for all the possible states (normal, mild, critical and emergency) of oncoming hypoglycemic events. The glucose reading is measured using Dexcom consistent glucose monitor with a frequency-time of 5 minutes. The onset of the hypoglycemic case also results in a feel of palpitation and anxiousness in the patient. So, physiological data such as heart rate and galvanic skin response (GSR) are also utilized in prognostication. GSR is the measure of skin resistance to a particular stimulus and an indicator of stress. The aforementioned physiological data is provided by Shimmer sensing company (Pagiatakis et al., 2020).
User-Experience and Usability Review of a Smartphone Application
Published in Marcelo M. Soares, Francisco Rebelo, Tareq Z. Ahram, Handbook of Usability and User Experience, 2022
Marcello Silva e Santos, Sebastian Graubner, Linda Lemegne, Bernardo Bastos da Fonseca
The study case presented to contextualize this chapter shows that innovation and technology are not transforming and reshaping the social world as we know, but it is also transforming technological innovation itself. Maybe the software development life cycle is losing its importance as a development strategy tool, in the case of mobile apps. Some of the main observations found in this research are mobile app is not a tiny/simple piece of software anymore; mobile apps are continually growing in number, usage possibilities and complexity; instead of modern PM techniques, old process-oriented approaches and techniques are required to handle successful mobile application development in the shop floor.
New product design and implementation of aboleth: a mobile D&D character creator for enterprise mobile applications and metaverse
Published in Enterprise Information Systems, 2023
Victor Chang, Dan Lawrence, Le Minh Thao Doan, Ariel Qianwen Xu, Ben S.C. Liu
There are mainly three types of mobile application development: native, hybrid, and mobile web apps. The native mobile application is designed to run in a specific mobile operating system, i.e. Android, iOS, using a particular programming language and toolkit of the target platform, which leads to a device’s full capabilities that can be achieved and utilised (Nawrocki et al. 2021). As a result, it is more likely to optimise the UX to operate more quickly and perform better. However, developing two or more native apps corresponding to a cross-platform app increases development and maintenance costs as additional resources and expertise with the programming languages such as API (Application Programming Interfaces) and SDK (Software Development Kits) of each platform (Alsaid et al. 2021). Next, the second type is the hybrid one, where mobile apps are installed on the devices and run through web browsers. These applications can access the device hardware features but are not as reliable or fast as native mobile applications. The final type is a mobile web application that allows users to access via mobile web browsers. Although this approach is highly portable across multiple mobile platforms, which ultimately reduces development cost and time, it can not use the user’s device hardware features such as the camera and application stores.