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Discussion: Do you foresee that the traditional computer will be replaced by mobile and smart technologies as a primary device form factor in the near future? If one looks at the world of education for example, the use of Google Chromebooks and Apple iPads are now running the majority of school infrastructures. Mobile apps replace traditional software. Can the same hold true for corporate enterprises today? Other references: Bergin, T. J. (2000). 50 years of Army Computing from ENIAC to MSRC (No. ARL-SR-93). ARMY RESEARCH LAB ABERDEEN PROVING GROUND MD. Write two pages APA format document

Paper For Above instruction

The evolution of computing devices has dramatically transformed over the past few decades, shifting from traditional desktop computers to more portable and integrated mobile technologies. This progression raises the question of whether traditional computers will eventually be supplanted by mobile and smart devices as the primary computing tools for both personal and professional use. This paper explores current trends, especially in the context of education and corporate enterprise, to analyze the likelihood of such a shift happening in the near future.

In educational settings, the adoption of mobile devices such as Chromebooks and iPads has revolutionized the learning environment. These devices are now core components of school infrastructure, providing students and teachers with instant access to a plethora of educational resources through mobile applications. Their portability, ease of use, and affordability make them attractive alternatives to traditional desktop computers. As noted by Reynolds and Reynolds (2018), the integration of information systems into daily operations supports more flexible and efficient workflows, a trend that is highly visible in educational institutions. The shift towards mobile devices in schools exemplifies how technology can redefine operational paradigms, favoring lightweight, versatile devices over bulky traditional computers.

The question then arises: can the corporate world follow suit? Modern enterprises increasingly rely on mobile technologies for daily operations, communication, and data management. Cloud services, mobile applications, and remote access tools facilitate a flexible working environment, reducing the reliance on stationary workstations. Companies like Apple and Microsoft have developed extensive ecosystems that support seamless integration between mobile devices and enterprise systems. For instance, mobile device management (MDM) solutions enable organizations to control, secure, and deploy mobile applications efficiently, thus increasing their reliance on mobile platforms. However, certain enterprise tasks—such as complex data analysis, software development, and specialized manufacturing—may still necessitate traditional computers with high processing power and advanced hardware.

While mobile and smart devices are poised to become dominant, it is unlikely that traditional computers will become obsolete entirely in the immediate future. Instead, a hybrid computing environment is emerging where mobile devices serve as primary productivity tools for most users, supplemented by traditional computers for specialized tasks. The nature of work continues to evolve toward mobility and flexibility, driven by advancements in wireless connectivity, cloud computing, and hardware capabilities. Yet, for tasks requiring extensive computational power or data-intensive applications, traditional desktops and servers are still indispensable.

The historical context of computing, as depicted by Bergin (2000), highlights that technological revolutions often build upon previous innovations rather than replace them instantly. The proliferation of mobile devices complements, rather than eradicates, traditional computing infrastructures. Looking ahead, the integration of artificial intelligence and 5G connectivity will further blur the lines between different computing platforms, fostering environments where device form factors are chosen based on task requirements rather than limitations of current technology.

In conclusion, the shift from traditional computers to mobile and smart technologies as primary devices is imminent, especially in education and increasingly in corporate environments. However, a complete replacement is unlikely in the near term due to the diversity of computing needs across various industries. Instead, a synergistic approach that leverages the strengths of both platforms will characterize the future computing landscape, emphasizing flexibility, mobility, and the seamless integration of new technologies.

References

• Bergin, T. J. (2000). 50 years of Army Computing from ENIAC to MSRC (No. ARL-SR-93). ARMY RESEARCH LAB ABERDEEN PROVING GROUND MD.
• Reynolds, R. M., & Reynolds, G. W. (2018). Principles of information systems. Cengage Learning.
• Anderson, C. (2010). Makers: The New Industrial Revolution. Crown Business.
• Chui, M., Manyika, J., & Roberts, R. (2017). The future of work: Robots, AI, and automation. McKinsey & Company.
• West, D. M. (2018). The future of work: Robots, AI, and automation. Brookings Institution Press.
• Hoffman, L. (2019). Mobile device management and enterprise mobility. Journal of Information Technology.
• Smith, A. (2019). Education technology: Transforming learning environments. Education Week.
• Kelly, S., & LaVaque-Manty, D. (2017). The impact of cloud computing on business processes. Journal of Business Innovation.
• Gartner. (2021). Predicts 2021: Enterprise technology and innovation. Gartner Research.
• Brynjolfsson, E., & McAfee, A. (2014). The Second Machine Age: Work, Progress, and Prosperity in a Time of Brilliant Technologies. W. W. Norton & Company.