Wk 5 Mobile Responses Download The Attachment and Message Me Please for Detailed Instructions Discussion Post 1
Getting Started Windows
Discuss Effective Use of Screen Real Estate
A quantity of space available on a screen is referred to as screen real estate. It is the space on the slides we create and employ to teach the subject that we consider to be so much more essential in e-learning, not the available space on the pc screen. A page may be made to seem more attractive and clean by using white space. White space, often known as negative space, is the vacant area on a page, like the margins and the space between paragraphs. White space, when used correctly, may declutter a page without making it appear barren (Hart, 2014). This is also true for e-learning presentations. Besides a printed page, e-learning slides are usually seen on a device and do not have the issue of content being cut off by the printer owing to thin margins. You may utilize the additional pixels to add more to the slides by narrowing the margins. It is a strategy to make good use of real space while still providing a good user experience.
Graphics are used in technical writing to support the text. Graphics should be modest and used exclusively to help users grasp the material due to the restricted real estate on e-learning presentations (Hart, 2014). Unlike a textbook, e-learning may make use of audio to help students learn more effectively. Using the audio capability to provide a voice-over on the slides provides a more personalized e-learning experience. This will not only free up room for additional data but will also make it more accessible.
How does the mobile user interface designs & websites reduce end-user self-efficacy?
In this revolutionary moment, mobile user interface (UI) development is on the rise. Apple’s iOS, which include iPhone, iPod Touch, and iPad), Google’s Android engineering, Blackberry’s operating system, and Microsoft’s Windows Phone 7 portable operating system provide alternative UI configurations. On an Android platform, shippers and gadget dealers must also acknowledge their products, resulting in substantially more variation (Ko et al., 2011). Although the following range of elements is necessary for real progress, it presents challenges to engineers and architects developing apps and websites for these devices.
Mobile user designers do not require to master different architectures for each phase, nor do developers require to redesign or migrate applications to every step. Clients will also benefit from web apps’ zero-introduction nature. You will not need to install updates from the web-based app store because you are using the most recent version of the program (Ko et al., 2011). Program firms benefit from not worrying about servicing clients who are using various versions of the same application. The use of a stage visual topic is far more than an excellent choice.
What are the challenges of integrating mobile applications with multiple databases?
Because mobile devices can hold fewer data compared to desktops, additional database queries are necessary. Besides, the program should be very rapid to load. Several databases provide an issue for caching schemes that prioritize server affinity (Unhelkar & Murugesan, 2010). Performance may experience some challenges as a result of this. Connectivity issues, too, can affect performance and the UX.
Hart, G. (2014). Redesigning to make better use of screen real estate. In Content and Complexity (pp. 349-362). Routledge.
Ko, A. J., Abraham, R., Beckwith, L., Blackwell, A., Burnett, M., Erwig, M., & Wiedenbeck, S. (2011). The state of the art in end-user software engineering. ACM Computing Surveys (CSUR), 43(3), 1-44. https://doi.org/10.1145/1922649.1922658
Unhelkar, B., & Murugesan, S. (2010). The enterprise mobile applications development framework. IT professional, 12(3), 33-39. https://doi.org/10.1109/MITP.2010.45
Discussion Post 2
Discuss effective use of screen real estate
Small screens and keyboards are common on devices where mobile applications display and receive data. With such limited amount of space available on screens, developers must make effective use of the asset. As a result, developers have to pay close attention to usability, such as providing one-touch navigation and eliminating some features and capabilities in order to show data properly. Voice activation, touch-sensitive screens, creative menus and styluses, and handwriting and gesture detection should all be considered when designing an interface (Unhelka & Murugesan, 2010). On smartphones, the right font sizes should be chosen to avoid users having to zoom in. San-serif fonts should be used to allow easy reading and sizing. Multiple photos and videos should be minimized on a screen or put in an orderly manner to avoid confusion for users. Photo and video galleries that allow users to click “Next” or scroll down are a few efficient way to use screen real estate.
How does mobile user interface designs & websites reduce end-user self-efficacy?
The way we use our cellphones has evolved as a result of mobile application development. Mobile platforms have called for attention from HCI practitioners, and, ever since 2007, touchscreens have completely changed mobile user interface and interaction design (Punchojit & Hongwarittorrn, 2017). We use our cellphones more because of the simplicity of use and convenience that mobile applications give. Socializing, working, gaming, and exercise behaviors are all influenced by mobile applications. In previously inconceivable ways, we have become increasingly reliant and dependent on our cellphones for facets of our lives. Mobile apps have altered the way we work and communicate. With social media apps, we interact with one another in numerous ways. Apps have hastened the adoption of traditional communication channels into the digital world. We may now communicate in real time by video and sound from practically anywhere on the planet. With the effective interface design of these apps, we spend more screen time on social media apps which reduces our ability to communicate in person. Besides communication, the efficient interface that incorporates dashboards and maps also result in lower end-user self efficacy. For example, Google Maps, its interactiveness and inclusion of multiple features such as gas stations, food reviews, hotel bookings cause users to become dependent on it for directions and choices.
What are the challenges of integrating mobile applications with multiple databases?
The first challenge of integrating mobile applications with multiple databases is creating a uniform data structure with several data formats. Mobile apps have several data formats, like offline apps store data on smartphones, while online apps store the data on servers or the cloud. Synchronized apps are also an option where the apps are online but data can be stored on smartphones. Another challenge is modeling the data from multiple databases in a structured order. With the high volume of data in multiple databases, companies have to make choices that align with their priorities. Data size can also post a challenge to integrating mobile applications with multiple databases. There is a high probability that the data size will keep increasing in the future, so companies have to choose the right databases which are highly compatible and flexible. Lastly, the most pressing worry throughout and after mobile development is data security. Databases hold a variety of sensitive and private data that must be protected against hacking and malware. Having multiple databases increases the risk of data security breach.
Punchoojit, L., & Hongwarittorrn, N. (2017, November 9). Usability studies on Mobile User Interface Design Patterns: A Systematic Literature Review. Advances in Human-Computer Interaction. Retrieved November 16, 2021, from https://www.hindawi.com/journals/ahci/2017/6787504/.
Unhelkar, B., & Murugesan, S. (2010). The enterprise mobile applications development framework. IT professional, 12(3), 33-39.
Discussion Post 3
Effective use of screen real estate is utilizing the hardware and software resources available in the environment. Screen real estate allows providing users with an environment for them to work. Screen real estate can be very beneficial in many different situations. It eliminates the need to maintain individual screens. It gives users a quick and easy way to switch between environments. Allows the user to work from a single device and allows the user to browse and create documents, spreadsheets, or other files via the Web or file services. Allows users to store data in several locations using a variety of different protocols. It allows file sharing among users with a wide variety of standards (Lee et al., 2020). File sharing is available via FTP, FTP servers, SMB, Secure FTP, and Secure Shell. Files can be transferred between devices, stored on a shared storage device, or transferred across a network. Access the System or Software page for an application to find out which version it is running on. Windows 7 includes some built-in tools that are not accessible through the GUI or tools included with the operating system. The Windows Device Manager displays a list of installed devices and allows to con which devices want to manage. It can use Device Manager to monitor devices that create. Devices that are already installed on the machine can be monitored by adding them to the Devices applet. When they add one of the devices to the Manage Device Policies, they should specify whether they want to add the devices to the wireless network. It can use the new device properties option of the Wi-Fi category on the Network tab in the Control Panel to add or remove a wireless device (Lee et al., 2020).
Mobile user interface designs are essential on the Internet, with an increasing number of Internet-connected devices allowing for easy user interaction over a network. Mobile users must be able to access information and interact with it efficiently and comfortably easily. The design of user interfaces must also meet the needs of different applications to accommodate and facilitate different needs. It requires the use of different levels of technology, such as Hardware or software, User interface technology, Hardware acceleration, Software acceleration. In order to successfully achieve the cloud-first model, IT professionals must be able to understand the underlying computing architectures, the computing processes that drive them, and their role in supporting the rest of the infrastructure (Balapour et al., 2020). Mobile website users tend to be less motivated when compared to end-user computer users. They are less likely to engage in activities that make them feel productive and spend less time on activities to get their job done. Mobile website users have lower awareness of the user-centric and interactive nature of websites. They are less likely to be aware of the interface, search function, and navigation. They have fewer contacts with other web users. Most of all, Mobile User Interface-focused websites have no incentive for users, and therefore it may have a similar impact on performance (Balapour et al., 2020).
Mobile application developers need to have the ability to move between databases and customize their applications to match their business requirements. Mobile application developers need to be aware that there are multiple databases they need to integrate with, and they must be able to easily and quickly deploy their applications to these databases. While many infrastructure providers provide many tools and packages for building mobile applications, the underlying infrastructure is a lot more complicated to build, maintain, and manage than a lot of smaller developers are used. It is also much harder to get support from any team responsible for building it, maintaining, and managing software-specific runtime infrastructure. The process is identifying all of the systems that have been installed and Cond in one way or another. Once the data center has identified the critical systems to its operations, it is now time to identify the infrastructure to be upgraded or improved (Balapour et al., 2020).
Balapour, A., Nikkhah, H. R., & Sabherwal, R. (2020). Mobile application security: Role of perceived privacy as the predictor of security perceptions. International Journal of Information Management, 52, 102063.
Lee, L. H., Braud, T., Lam, K. Y., Yau, Y. P., & Hui, P. (2020). From seen to unseen: Designing keyboard-less interfaces for text entry on the constrained screen real estate of Augmented Reality headsets. Pervasive and Mobile Computing, 64, 101148.