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"application development platform"
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Towards an Accessible Platform for Multimodal Extended Reality Smart Environments
This article presents the DEMOS prototype platform for creating and exploring multimodal extended-reality smart environments. Modular distributed event-driven applications are created with the help of visual codeless design tools for configuring and linking processing nodes in an oriented dataflow graph. We tested the conceptual logical templates by building two applications that tackle driver arousal state for safety and enhanced museum experiences for cultural purposes, and later by evaluating programmer and nonprogrammer students’ ability to use the design logic. The applications involve formula-based and decision-based processing of data coming from smart sensors, web services, and libraries. Interaction patterns within the distributed event-driven applications use elements of mixed reality and the Internet of Things, creating an intelligent environment based on near-field communication-triggering points. We discuss the platform as a solution to bridging the digital divide, analyzing novel technologies that support the development of a sustainable digital ecosystem.
Journal Article
Xamarin in action : creating native cross-platform mobile apps
Rewriting the same app for iOS and Android is tedious, error-prone, and expensive. Microsoft's Xamarin drastically reduces dev time by reusing most application code-- typically 70% or more. The core of your iOS and Android app is shared; you write platform-specific code only for the UI layer. And because Xamarin uses C#, your apps benefit from everything this modern language and the .NET ecosystem have to offer.
Book
State-of-the-Art Cross-Platform Mobile Application Development Frameworks: A Comparative Study of Market and Developer Trends
Cross-platform mobile application development has gained significant traction in recent years, driven by the growing demand for efficient, cost-effective solutions that cater to both iOS and Android platforms. This paper presents a state-of-the-art review of cross-platform mobile application development, emphasizing the industry trends, framework popularity, and adoption in the job market. By analyzing developer preferences, community engagement, and market demand, this study provides a comprehensive overview of how cross-platform mobile development frameworks shape the mobile development landscape. The research employs a data-driven methodology, drawing insights from three key categories: Developer Sentiment and Survey Data, Community Engagement and Usage Data, and Market Adoption and Job Market Data. By analyzing these factors, the study identifies the key challenges and emerging trends shaping cross-platform mobile application development. It assesses the most widely used frameworks, comparing their strengths and weaknesses in real-world applications. Furthermore, the research examines the industry adoption patterns and the presence of these frameworks in job market trends. Unlike earlier research, which included now-obsolete platforms like Windows Phone and frameworks such as Xamarin, this study is tailored to the current cross-platform mobile application development market landscape. The conclusions offer actionable insights for developers and researchers, equipping them with the knowledge needed to navigate the evolving cross-platform mobile application development ecosystem effectively.
Journal Article
A review on mobile operating systems and application development platforms
The previous existing mobile technologies were only limited to voice and short messages, organized between several network operators and service providers. However, recent advancements in technologies, introduction, and development of the smartphones added many features such: high-speed processors, huge memory, multitasking, screens with large-resolution, utile communication hardware, and so on. Mobile devices were evolving into general-purpose computers, which resulted in the development of various technological platforms, operating systems, and platforms for the development of the applications. All these results in the occurrence of various competitive offers on the market. The above-mentioned features, processing speed and applications available on mobile devices are affected by underlying operating systems. In this paper, there will be discussed the mobile operating systems and application development platforms.
Journal Article
Factors Influencing the Adoption of Mobile Application Development Platforms: A Qualitative Content Analysis of Developers' Online Reviews
Mobile application development platforms (MADPs) vary in terms of their development capabilities and competency to fulfill the specific needs of organizations. Therefore, acknowledging the most appropriate MADP to adopt remains a challenging task for many organizations. Aiming to investigate the key factors of MADPs adoption in organizations, this study analyzed 1200 online evaluation reviews for six widely used MADPs posted by mobile applications developers. Based on the content analysis of online reviews, 26 factors emerged as significant contributors to the adoption decision of MADPs from the standpoint of developers. These factors were integrated into a conceptual framework of MADPs adoption based on the technology-organization-environment (TOE) framework. The results of this study indicate that in addition to the technological capabilities, the adoption decision of MADPs depends on several organizational and environmental factors. These results provide not only a theoretical foundation for further research on MADPs adoption but also offers actionable guidance for practical implementation.
Journal Article
Smart Wireless Devices
This chapter contains sections titled:
- Introduction 3G Wireless Devices' Components Mobile Software Platform RF and Processors Signal Processing User Interface Power Supply Mobile Device Management Mobile Performance Enhancement Techniques Device Development Organizations Devices (3GPP, 3GPP2, and WiMAX) Industry Outlook Summary Insights References
Book Chapter