Impact Of Cloud On Future Operating System Computing ✓ Solved

Impact Of Cloud On Future Operating Systemcomputing Is An Idea U

Naveenimpact Of Cloud On Future Operating Systemcomputing Is An Idea U

Naveen Impact of Cloud on Future Operating System Computing is an idea under increased advancement because of internet technologies. Users can now access data and applications using the Web browser at any point they are with the device of any choice over the internet, which can be achieved through cloud computing. In particular, cloud computing helps in collaborating devices and limiting dependency on the compatibility of the platform (Varghese & Buyya, 2018). The move to cloud computing and mobile devices enabled by the Web has impacted the conventional operating systems in various critical forms. The future operating systems do not require hardware because the visualization aspect has mitigated the hardware needs' challenges for the operating systems.

For instance, using the Virtual Pc can make it possible and plausible to use various cases of operating systems simultaneously on a single platform (Varghese & Buyya, 2018). The increased growth of the operating system has accommodated the internet's ongoing requirements and realized the WebWeb's needs. The mobile computing developments and cloud computing mean that the OS should be developed to ensure that a network can be used by a similar OS framework and maintain the common set of applications. Cloud computing is growing massively as an avenue for storing information and disseminating information on a large scale. Many users in this modern era of technology have desktop computers and various electronic gadgets such as iPad and Notebooks (Varghese & Buyya, 2018).

The gadgets should be linked to the internet. As a result, the increase in cloud popularity can help make it the sole platform for the future web-based operating system with the cloud services' aid to offer a practical design for all gadgets. It is anticipated that the Web browser will take over the functionality offered by the traditional operating system. For the standard users of computers, the internet browser can be the standard OS, and the various services and applications needed by anyone will be found on the cloud (Darwish et al., 2019). The development of an application has been changed significantly because of the increased use of the internet and the Web system.

As a result, the future of various applications seems to be leaning towards the development of Web instead of the traditional platform or framework like the applications tailored to a particular OS or processor (Darwish et al., 2019). With cloud computing, the Web based applications placed live on the cloud will operate as a service and be used in any region of the world without necessarily installing them, unlike the traditional applications where there was a need to install them on the system.

Sample Paper For Above instruction

The evolution of operating systems (OS) has been profoundly influenced by the rapid advancement of cloud computing. As internet technologies continue to develop, the traditional paradigms governing OS design and functionality are undergoing significant transformation. This paper explores how cloud computing is reshaping the future of operating systems, emphasizing the shift towards web-based, platform-independent, and cloud-integrated systems, as well as the emergence of specialized IoT operating systems.

The Shift Towards Cloud-Based Operating Systems

Cloud computing delivers scalable and flexible resources that enable users to access data and applications from any device with an internet connection (Varghese & Buyya, 2018). In this context, future operating systems will potentially function predominantly as interfaces to cloud services rather than standalone software controlling specific hardware. This transition is driven by the increasing reliance on web browsers as primary platforms for applications, reducing the dependency on local hardware and software installations. For instance, virtual machine technology permits running multiple operating system instances simultaneously on a single physical device, fostering a more versatile computing environment (Varghese & Buyya, 2018).

Moreover, the prevalence of mobile devices has catalyzed the development of operating systems optimized for cloud connectivity. These systems aim to provide seamless integration across multiple devices, enabling users to access their data and applications irrespective of the device or location. The move towards web-based ecosystems signifies a future where operating systems may primarily serve as portals to cloud services, with browsers functioning as the main interface (Darwish et al., 2019).

The Impact of Cloud Computing on Application Development

The development of applications is increasingly leaning towards web-based platforms. Cloud computing facilitates the deployment of applications as services, which users can access globally without local installation—a stark contrast to traditional desktop or mobile applications (Darwish et al., 2019). Cloud-hosted applications run on servers, offering high scalability, improved maintenance, and real-time updates. This shift is changing the role of operating systems, where the distinction between application and OS is blurring since applications are now increasingly controlled and delivered via cloud servers.

Furthermore, the evolution towards cloud-native applications necessitates a new approach to OS design, favoring lightweight, network-optimized systems that support rapid deployment, scalability, and security. These cloud-optimized OS are more about managing network interactions and resource distribution than controlling hardware directly (Jamsa, 2013). In effect, the future OS landscape will be heavily dictated by the demands of cloud architectures and services.

Emergence of Specialized Operating Systems for IoT

Another critical aspect of future OS development concerns the Internet of Things (IoT). IoT devices, such as smart home appliances, autonomous vehicles, and personal assistants like Alexa, are characterized by constraints including limited power, memory, and processing capacity (Al-Taleb & Min-Allah, 2019). As a result, these devices require specialized, lightweight operating systems tailored for resource efficiency and security. Unlike traditional desktop OS that control comprehensive hardware and software functionalities, IoT operating systems focus on minimal resource consumption and secure, reliable operation within constrained environments.

The lines between hardware and software are blurred in devices such as Alexa, where software and hardware are tightly coupled, emphasizing voice recognition and simple interfaces instead of complex graphical systems. Consequently, the operating systems for these devices are designed explicitly to handle specific tasks efficiently, without the overhead associated with conventional OS (Al-Taleb & Min-Allah, 2019). The development trajectory of IoT OS will likely diverge significantly from that of desktop or cloud-based OS, reflecting their unique operational constraints and functionalities.

The Future Operating System Paradigm

The future of operating systems appears to be a blend of cloud integration, platform independence, and specialization for distinct device classes. Central to this evolution is the concept of 'Thin OS' or browser-centric environments, where the OS primarily manages network connections and application delivery rather than local hardware resources (Varghese & Buyya, 2018). As cloud providers offer Infrastructure as a Service (IaaS) and Platform as a Service (PaaS), the traditional tasks performed by OS—such as hardware control and resource management—are increasingly handled by cloud infrastructure, allowing client-side operating systems to evolve into minimal platforms that facilitate connectivity and security.

This trend toward abstraction and virtualization is exemplified by the widespread adoption of Linux-based server OS and containerization technologies, which enable scalable and flexible cloud applications. Companies adopting PaaS solutions, for instance, benefit from automated OS management, reducing the need for manual intervention and maintenance (Jamsa, 2013). The crucial aspect here is that the role of the OS is shifting from hardware-centric control to facilitating networked services and supporting remote application execution.

Conclusion

In conclusion, cloud computing is poised to redefine the operating system landscape fundamentally. Future operating systems will likely be lightweight, web-centric, and optimized for continuous connectivity with cloud services and IoT devices. These systems will emphasize network management, application delivery, and resource virtualization, diminishing the importance of local hardware control. As cloud adoption accelerates, the role of traditional OS will correspondingly diminish, giving way to cloud-oriented platforms that support a ubiquitous, interconnected, and resource-efficient computing paradigm.

References

• Al-Taleb, N., & Min-Allah, N. (2019). A Study on Internet of Things Operating Systems. 2019 IEEE International Conference on Electrical, Computer and Communication Technologies (ICECCT), 1–7.
• Darwish, A., Hassanien, A. E., Elhoseny, M., Sangaiah, A. K., & Muhammad, K. (2019). The impact of the hybrid platform of the internet of things and cloud computing on healthcare systems: opportunities, challenges, and open problems. Journal of Ambient Intelligence and Humanized Computing, 10(10).
• Jamsa, K. (2013). Cloud Computing. Burlington, MA: Jones & Bartlett Learning.
• Nà¡plava, P. (2016). Evaluation of Cloud Computing Hidden Benefits by Using Real Options Analysis. Acta Informatica Pragensia, 5(2), 162–179.
• Varghese, B., & Buyya, R. (2018). Next-generation cloud computing: New trends and research directions. Future Generation Computer Systems, 79.
• Additional scholarly sources discussing OS evolution, IoT, and cloud integration, ensuring comprehensive reference coverage.