本研究旨在探討小型不斷電系統產品的操作介面研究之改善，在日常生活中對用電產品的需求過度依賴以及物聯網的時代來臨，全球的電子資料迅速的倍數成長，所帶來的龐大電腦資料相對資料流失風險也隨之提升，加上維持各類精密儀器與實驗設備之穩定運作，由此可知，不斷電系統產品之重要性，因此其產品重要性更直接訴說了在控制產品運行的操作介面上更是不容忽視，如何讓使用者能夠更直覺式的操作，便成為重要的議題了，現有的產品介面操作上是否產生出不夠親近使用者的操作，或是介面上未能盡善盡美，依個案的方式進行探討現有小型不斷電系統產品控制介面的美中不足，而以小型不斷電系統產品操作介面為研究對象，探討小型不斷電系統產品操作介面的配置以及使用者對現有介面配置的看法，因此首先採用個案研究的方式進行任務測試與觀察專家們對於指定之小型不斷電系統產品的熟悉度與操作上的心得，並透過質性訪談，針對專家們所提供建議進行整理並與文獻理論作為融合與探討之，接著帶引出使用者之人機介面的關係，分別對於介面操作、介面判讀、介面配置做為改善之面向，除此之外，也參考相關符合使用者介面設計原則作為新介面配置之依據基礎，最後設計出排列式介面，其中又以排列式介面為基礎，再修正發展出並列式介面，根據研究結果顯示排列式介面與並列式介面在客觀性的操作績效與主觀性的滿意度調查都有呈現顯著差異，具獲得改善支持。

This study aims to investigate the improvement of the operating interface of Uninterruptible Power System（UPS）products. The need for over-reliance on the demand for electricity products in daily life is coming with the Internet of Things. The rapid growth of electronic data in the world has brought about an increase in the risk of data loss relative to the huge amount of computer data, and the s表 operation of various types of precision instruments and experimental equipment. It can be seen that the importance of UPS products, so the importance of its products directly tells us that the interface operation to control product operation can not be ignored. How to make users more intuitive operation becomes an important topic. Whether the existing product interface operation is not close enough to the user, or the interface is not perfect. The shortcomings of the existing small uninterruptible power system product interface will be discussed on a case-by-case.
In the daily life, the demand for electricity products is over-reliant and the era of the Internet of Things is coming. The global electronic data is rapidly multiplying, and the risk of data loss due to the huge computer data is also increasing. The uns表 power quality is enough to affect the life and stability of the product's electrical appliances. The uninterruptible power system is usually used to maintain the continuous operation of key commercial equipment such as servers or precision instruments, to prevent computer data loss and communication network interruption. Or the laboratory, medical equipment and instruments lose connection control, the application range is from small personal equipment, to the machine data center, laboratory or medical precision equipment. According to the full forecast of the World UPS market survey report on the Forst & Sullivan website, the classification of the uninterruptible power system: less than 15KVA can be distinguished as Micro & Mini Power UPS, more than 15KVA can be distinguished Medium & High Power UPS. The use of uninterruptible power systems and their importance have also attracted attention.
It can be seen that the importance of the UPS system, the key product is neglected in the interface operation, and even the phenomenon of not being close to the user, or the intuitive setting is not easy to use. It is quite different, and the average life expectancy of the replacement rate of the uninterruptible power system products is 7-8 years. Today, with the ever-changing technology, the interface equivalent to a product spans multiple generations.
User-Centered Design（UCD）has a pivotal focus on product development. Today, with the ever-changing demand for use, if the operation and use of the product still keeps its self-styled situation, it will not meet the needs of users. The product should not allow the user to adapt to the unintuitive operation, but instead let the product meet the needs of the user.
From this point of view, the product has operational motivations and reasons that should be more in line with the user's operational needs and more intuitive operations. Therefore, in order to be more perfect in the operation of the continuous power system interface, this study hopes to further organize and integrate the existing users' experience and experience in the operation of the small power system interface to provide follow-up designers. Time reference.
The purpose of this study is to explore the control interface operation of the small-scale UPS system itself, to explore the relationship between user interface operation and usability evaluation, and to use the user test experiment to conduct usability evaluation and expert interview to find out the case. Interface design issues, and improve the design of the operational elements of its impact, hope that the results of this study can provide reference for the control interface operation of small uninterruptible power system products
Therefore, the case study method is used to design the operation interface of the specified small-scale uninterruptible power system products, and the interface operation, interface interpretation, and interface configuration are improved. Research results are as follows（1）Summarize the operation interface of existing products to achieve the core goal of understanding the user's problem with the operation interface. （2）Through qualitative interviews, we will sort out the suggestions provided by the experts and integrate them with the collection of literature theories, in an attempt to explore the user interface that is in line with the user's mind. （3）Propose an improved new interface and evaluate and verify it, submit its research results and analysis for reference in subsequent research.

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網站部分
台灣區電機電子工業同業公會-系統不斷電的雲端浪潮 (2018/04/15)。
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ISO 9241-11:2018（en） Ergonomics of human-system interaction (2018/09/15)。
取自https://www.iso.org/obp/ui/#iso:std:iso:9241:-11:en
Power Capacity Trends for UPS Systems -Dynamics of the UPS Market (2018/04/15)。
取自https://www.frost.com/prod/servlet/market-insight-print.pag?docid=17716257