Bco6653 Management Of Information Technology Assessment Answer

Methods of Maintaining Go Green Model

Go Green model is considered as one of the most vital or significant need in today’s world. This particular model has major importance and impact on the environment or society (Fang, Stone and Tambe 2015). There are various methods to go green as well as save green. These methods are given below:

iii) Saving Fuel: Another effective and efficient method to maintain go green model is by saving fuel. The petroleum or any other fuel should be saved to maintain a proper balance within the ecosystem (Saha 2014). Since, these are non renewable resources, excess use of these would lead to the complete exhaustion of the resources. With the improvement of usage of fuels, the greenery could be saved since it would maintain the eco balance eventually.

Two Perspectives of Go Green Concept

There are various important perspectives of this model. The two distinct perspectives with the go green model are given below:

How IT can Help for Enhancing Go Green Model

Information technology or IT is considered as the most effective and efficient boon of science (Agarwal and Nath 2014). This is the significant use of computers, systems, physical devices, networking devices, storages, procedures, infrastructures for creation, processing, storing, securing and finally exchanging each and every form of electronic data. This information technology is being utilized within the context of fewer enterprise operations or technologies. The commercial utilization of the information technology subsequently encompasses the telephony as well as the computer technology (Nimje, Gaikwad and Datir 2013). Several layers of the operating systems, virtualization or management of automation tools, hardware and software are involved in IT for better performance of necessary functionalities.

The information technology is also effective for the enhancement of the go green model with the new innovations and applications (Agrawal, Biswas and Nath 2014). Green computing is the best advancement of information technology that helps to enhance this particular model of go green. Green computing is the practice or study of environmentally sustainable computing. The main objectives of the green computing technology are the reduction of utilization of any type of hazardous elements, maximizing the energy efficiency for the lifetime of products, the biodegradability or recyclability of the de functioning of products as well as factory wastes (Patel, Mehrotra and Soner 2015). The green computing is extremely vital for each and every system class, starting from the handheld system to the large scale data centre. Most of the corporate departments of information technology comprise of green computing initiative for reducing the environmental effects of the IT operations (Sahu, Pateriya and Gupta 2013). According to the Environmental Protection Agency, Energy Star was launched for designing of the programs to promote as well as recognize energy efficiencies within monitors, new technologies, climate control equipment.

The green computing or the green technology is the significant utilization of systems as well as resources (Fang, Stone and Tambe 2015). These practices majorly involve the successful implementation of energy efficient CPUs or central processing units, peripherals, servers, minimized consumption of resources or the perfect disposal of the electronic wastes. The label of Energy Star has become a common sight in he displays and notebook computers. The government regulation is the specific part of this green computing practice (Malviya and Singh 2013). The excess use of the computer users could be substantially modified for the minimization of adverse impact over the globalized environment. The major steps in this purpose are as follows:

iii) The third significant step for the green computing process is by powering up as well as powering down the energy intensive peripherals like the laser printers as per the requirement (Kharchenko et al. 2013). The energy intensive peripherals are the most effective technologies in information technology. The energy is saved to a high level and hence this is being used by everyone.

vii) The seventh step is to reduce the utilization of paper and then properly recycling the waste papers (Khan et al. 2013). This recycling of waste papers would save the trees as well as plants and thus the greenery would be saved.

viii) The final step in this practice of green computing is to employ every alternative energy source for the purpose of computing the servers, data centres, networks and work stations (Patel, Mehrotra and Soner 2015).

The above mentioned factors clearly depict that information technology is extremely vital and helpful for maintaining and enhancing the Go Green model.

Conclusion

Therefore, from the above discussion, it can be concluded that go green concept is the basic concept for providing greeneries to the environment or society. There are various ways or methods to go green or save greenery. The sustainability is created as well as maintained with the help of this concept. Water and energy are the two most important and significant requirements in the environment that maintain sustainability within the environment. The utilization of renewable and eco friendly items is one of the most significant factor to maintain greenery in the world. With the presence of information technology, the go green concept is eventually enhanced. Green computing or green information and communication technology is the practice of this environmentally sustainable computing. The major goal of the green computing is to minimize the utilization of all types of hazardous elements and maximize the energy efficiency within the lifetime of a product. The above report has properly explained the go green model, with the impact and importance of this model in today’s society. Two perspectives of go green model are also provided here and information technology could easily enhance the model with the help of green computing.

References

Agarwal, S. and Nath, A., 2014. Desktop virtualization and green computing solutions. In Proceedings of the Second International Conference on Soft Computing for Problem Solving (SocProS 2012), December 28-30, 2012 (pp. 1439-1449). Springer, New Delhi.

Agrawal, S., Biswas, R. and Nath, A., 2014, April. Virtual desktop infrastructure in higher education institution: Energy efficiency as an application of green computing. In IEEE Fourth International Conference on Communication Systems and Network Technologies (pp. 601-605).

Ahmad, W., Hölzenspies, P.K., Stoelinga, M. and van de Pol, J., 2015, August. Green computing: Power optimisation of VFI-based real-time multiprocessor dataflow applications. In Digital System Design (DSD), 2015 Euromicro Conference on(pp. 271-275). IEEE.

Allet, M., 2014. Why do microfinance institutions go green? An exploratory study. Journal of Business Ethics, 122(3), pp.405-424.

Arthi, T. and Hamead, H.S., 2013, April. Energy aware cloud service provisioning approach for green computing environment. In Energy Efficient Technologies for Sustainability (ICEETS), 2013 International Conference on(pp. 139-144). IEEE.

Di Giuli, A. and Kostovetsky, L., 2014. Are red or blue companies more likely to go green? Politics and corporate social responsibility. Journal of Financial Economics, 111(1), pp.158-180.

Fang, F., Stone, P. and Tambe, M., 2015, July. When Security Games Go Green: Designing Defender Strategies to Prevent Poaching and Illegal Fishing. In IJCAI (pp. 2589-2595).

Gai, K., Qiu, M., Zhao, H., Tao, L. and Zong, Z., 2016. Dynamic energy-aware cloudlet-based mobile cloud computing model for green computing. Journal of Network and Computer Applications, 59, pp.46-54.

Khan, S.U., Wang, L., Yang, L.T. and Xia, F., 2013. Green computing and communications. The Journal of Supercomputing, pp.1-2.

Kharchenko, V., Gorbenko, A., Sklyar, V. and Phillips, C., 2013, May. Green computing and communications in critical application domains: Challenges and solutions. In Digital Technologies (DT), 2013 International Conference on (pp. 191-197). IEEE.

Malviya, P. and Singh, S., 2013. A Study about Green Computing. International Journal of Advanced Research in Computer Science and Software Engineering, 3(6).

Nimje, A.R., Gaikwad, V.T. and Datir, H.N., 2013. Green Cloud Computing: A Virtualized Security Framework for Green Cloud Computing. Proceeding of the International Journal of Advanced Research in Computer Science and Software Engineering.

Patel, Y.S., Mehrotra, N. and Soner, S., 2015, February. Green cloud computing: A review on Green IT areas for cloud computing environment. In Futuristic Trends on Computational Analysis and Knowledge Management (ABLAZE), 2015 International Conference on (pp. 327-332). IEEE.

Saha, B., 2014. Green computing. International Journal of Computer Trends and Technology (IJCTT), 14(2), pp.46-50.

Sahu, Y., Pateriya, R.K. and Gupta, R.K., 2013, September. Cloud server optimization with load balancing and green computing techniques using dynamic compare and balance algorithm. In Computational Intelligence and Communication Networks (CICN), 2013 5th International Conference on (pp. 527-531). IEEE.

Wadhwa, B. and Verma, A., 2014, March. Energy saving approaches for Green Cloud Computing: A review. In Engineering and Computational Sciences (RAECS), 2014 Recent Advances in (pp. 1-6). IEEE.