Design and Implementation of a Computerized Recycling System for Protecting the Green Environment
CHAPTER ONE
AIMS AND OBJECTIVE OF THE STUDY
The aim of the study is design and implement a computerized recycling system for protecting the green environment with the following objectives:
- Achieving part of the United Nations vision 2020 which aims to achieve environmental sustainability.
- Reducing environmental pollution caused by plastics materials, paper and cans.
- Reduce the human damages caused by pollution of ground and surface water and also soil pollution.
CHAPTER TWO
LITERATURE REVIEW
INTRODUCTION
This chapter will discuss about article review of the proposed project. Literature review is the summary of article that are sourced from reliable articles. This article review is important because it is used to help the developer to build the system, so the developer get some knowledge of the strengths and limitation of the system. All of these helps the developer to choose the best way to develop the system. Researches and analysis an existing system or current system to be done in order to build a good system. For this project, literature review serves the purpose of gathering information related to the development of a computerized recycling system for protecting the environment. This review will focus on the current existing system. The result of the review will serve to better equip the developer with knowledge relevant or essential in the design and planning of the system. It will also discuss the approach that will be used for this project and related research and information about the approach, methodology and tools that will be used to develop this project. Besides that, literature review serves the purpose of gathering information related to the development of a computerized recycling system for protecting the environment. This review will focus on the method how the system will operate by implementing some technologies.
CHAPTER THREE
SYSTEM ANALYSIS AND DESIGN
INTRODUCTION
This chapter discusses the methodology used for developing a computerized recycling system. This chapter also informs and describe about the System Development Life Cycle, software and hardware specification that are needed for implementation and develop the system.
CHAPTER FOUR
DESIGN AND IMPLEMENTATION
INTRODUCTION
This chapter focuses, on the requirements for this automated system’s implementation. Information about the installation is also discussed, moreover, the automated system is described in UML (Unified Modeling Language) and the use case diagram is given.
An automated system that is not implemental or is not successful implemented cannot be used to perform well as the case may be. “Even after the development phase is over, the system project isn’t complete. The new system must be implemented or installed” (said Stella C.C. and Franca A.E, (2006)).
CHAPTER FIVE
SUMMARY AND CONCLUSION
SUMMARY
The computerized recycling system for protecting the green environment is a major and important system to save our precious planet from climate change activities. The current system that has been in existence is not automated and cannot handle the current challenges facing our planet, in which also has many defects as mentioned earlier in section 3.3 of this research. The merits of this automated system over the existing one are as follows:
- Save our planet from climate change caused by not recycling used plastics can, paper, wears, burning of fossil fuel and many more.
- Accuracy
- Reliability
- Reduced paper work
- Speed in processing time
- It cannot be manipulated
- Simple process
- User’s friendliness with GUI
RECOMMENDATION
This work should not put a stop to research on making our planet earth a better place to live using technology as artificial intelligence, recycle machines at major stations across cities over the globe can be integrated to the technology used in this system.
Despite the fact that the system is a web based system, it can be re-developed into a mobile application running on android and IOS phones to easily make it available for anyone across the world to access and recycle their old properties recyclable. Also security measures should be put in place to avert web hackers and theft.
Also, we strongly recommend this software for anyone interested in recycling old or used properties into reusable items across the world.
CONCLUSION
The results of this study show the importance of recycling and its impact on the environment and the extent of community interest in this issue and their support. We have analyzed the use of a web based recycling system to help. We also designed the pages for the site (Home, Login, Registration, Products, etc.) for the computerized system, this site combines the recycler and the recycling institution through several specifications. The web based system will improve waste and plastics disposal in an environmentally positive manner.
REFERENCES
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- Saikia and J. De Brito, “Use of plastic waste as aggregate in cement mortar and concrete preparation: A review,” Construction and Building Materials, vol. 34, pp. 385-401, 2012.
- A. Kamaruddin, M. S. Yusoff, N. Ibrahim, and M. H. Zawawi, “Resource recovery from municipal solid waste by mechanical heat treatment: An opportunity,” in AIP Conference Proceedings, 2017, p. 020031
- Silva, J. De Brito, and R. Dhir, “Properties and composition of recycled aggregates from construction and demolition waste suitable for concrete production, “Construction and Building Materials, 2015, pp 543-548
- Kamaruddin, M. Abdullah, M. Zawawi, and M. Zainol, “Potential use of Plastic Waste as Construction Materials: Recent Progress and Future Prospect,” in IOP Conference Series: Materials Science and Engineering, 2017, p. 012011. [8] Tadweer, “https://tadweer.org.sa/,” 2018.
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