自2019年底以來，全球各國受到COVID-19疫情的影響，從出入境限制到封城狀態，人們的生活方式和模式都發生了巨大變化。住宅空間成為人們的避難所，用於休憩、工作和防疫(Naglaa A. Megahed et al.,2020)。在這樣的情況下，我們的住宅是否能在疫情時代中發揮輔助作用呢？
因此本研究探討後疫情時代下對於各年齡層而言防疫住宅的設計要素及魅力因子，以Kano model和Refined Kano model之問卷進行，經由研究我們不只能更加深入的了解各年齡層中防疫住宅的設計要素及魅力因子，也能得知不同年齡層對於防疫住宅是否有不同之需求。其中問項主要來自2020年WELL所提出的對抗COVID-19之策略(STRATEGIES FROM THE WELL BUILDING STANDARD TO SUPPORT IN THE FIGHT AGAINST COVID-19)，並加入案例分析及文獻研究，共計得出23個問項，問卷分析結論指出各年齡層對於23個問項存在差異，經由訪談後得出差異之原因，並整理出10項在各年齡層中都受到高度重視與吸引力的項目，建議未來政府規畫與建商設計住宅時能加入這些項目，以達到輔助居住者健康的作用。

Since the end of 2019, countries worldwide have been impacted by the COVID-19 pandemic, leading to significant changes in people's lifestyles and patterns, from travel restrictions to lockdown measures. Residential spaces have become sanctuaries for individuals, serving as places for rest, work, and epidemic prevention (Naglaa A. Megahed et al., 2020). In such circumstances, can our homes play a supportive role in the era of the pandemic?
Therefore, this study explores the design elements and attractive factors of epidemic prevention housing for different age groups in the post-pandemic era, using questionnaires based on the Kano model and Refined Kano model. Through this research, we aim not only to gain deeper insights into the attractive factors of epidemic prevention housing for different age groups but also to understand potential variations in needs among them. The questionnaire items are primarily derived from the strategies proposed by the WELL Building Standard in 2020 to combat COVID-19. Additionally, case studies and literature research are incorporated, resulting in a total of 23 questionnaire items.
The analysis of the questionnaires indicates variations in preferences among age groups for the 23 items, and through interviews, we identify the reasons for these differences. Furthermore, we identify ten items that are highly valued and attractive across all age groups. It is recommended that future government planning and housing developers incorporate these items to promote the health and well-being of residents.

1.鄭泰昇、沈芷蓀、劉舜仁(2020)「後疫情時代的建築新挑戰」，臺灣建築學會會刊雜誌，第100期，p6~19。
2.張年君(2021)「防疫住宅—在肺炎疫情下居住空間需求的轉變之探討」，國立金門大學碩士論文。
3.康健雜誌(2021)「新冠病毒到底能傳多遠？不同物體上能活多久？」，
4.衛生福利部疾病管制署(2021)「落實「持續營運指引」，降低疫情對企業之衝擊」。
5.蘇喻哲(2021)「韌性城市：歷久彌新的基本生存」，臺灣建築雜誌，第315期，p.53~56。
6.蔡憶禎(2021)「新冠肺炎(CIOVID-19)對住宅購買選擇之影響-以新建集合住宅為例」，國立屏東大學碩士論文。
7.衛生福利部(2023)「COVID-19 防疫關鍵決策網」，https://covid19.mohw.gov.tw/ch/mp-205.html
8.國家高速網路與計算中心，「COVID-19全球疫情地圖」，https://covid-19.nchc.org.tw/2023_city_confirmed.php
9.P.E.Watson,I.D.Watson,R.D.Batt(1980), Total body water volumes for adult males and females estimated from simple anthropometric measurements, The American Journal of Clinical Nutrition 33,p.27-39.
10.KANO N. (1984), Attractive Quality and Must-Be Quality, Journal of the Japanese Society for Quality Control 31, p.147-156.
11.Kurt Matzler, H. Hinterhuber(1998), How to make product development projects more successful by integrating Kano's model of customer satisfaction into quality function deployment, Technovation 18,p.25-38.
12.Yang, C. C. (2005), The refined Kano’s model and its application, Total Quality Management & Business Excellence 16,p.1127-1137.
13.David Ormandy , Véronique Ezratty(2012), Health and thermal comfort: From WHO guidance to housing strategies, Energy Policy 49,p.116-121.
14.International WELL Building Institute IWBI(2018),WELL Building Standard v.2
15.Naglaa A. Megahed, Ehab M. Ghoneim(2020), Antivirus-built environment: Lessons learned from Covid-19 pandemic, Sustainable Cities and Society 61.
16.Lidia Morawska, Junji Cao(2020), Airborne transmission of SARS-CoV-2: The world should face the reality, Environment International139.
17.World Health Organization(2020), Handwashing an effective tool to prevent COVID-19, other diseases.
18.Ana Maria BuenoORCID,Antonio Augusto de Paula Xavier andEvandro Eduardo Broday(2021), Evaluating the Connection between Thermal Comfort and Productivity in Buildings: A Systematic Literature Review,Buildings 244.
19.Yanqing Xu ,Yi-Kai Juan(2021), Design Strategies for Multi-Unit Residential Buildings During the Post-pandemic Era in China, Public Health, Environmental health and Exposome 9.
20.Ashraf Mimi Elsaid , M. Salem Ahmed(2021), Indoor Air Quality Strategies for Air-Conditioning and Ventilation Systems with the Spread of the Global Coronavirus (COVID-19) Epidemic: Improvements and Recommendations, Environmental Research199.
21.Mahsa Zarrabi, Seyed-Abbas Yazdanfar, Seyed-Bagher Hosseini(2021), COVID-19 and healthy home preferences: The case of apartment residents in Tehran, Journal of Building Engineering35.
22.Mohamad Awada , Burçin Becerik-Gerber , Elizabeth White , Simi Hoque , Zheng O'Neill , Giulia Pedrielli , Jin Wen , Teresa Wu(2022) ,Occupant health in buildings: Impact of the COVID-19 pandemic on the opinions of building professionals and implications on research , Building and Environment 207 .
23.World Health Organization
SARS(2003), https://www.who.int/health-topics/severe-acute-respiratory-syndrome#tab=tab_1
H1N1(2009), https://www.who.int/emergencies/situations/influenza-a-(h1n1)-outbreak
COVID-19(2020), https://www.who.int/emergencies/diseases/novel-coronavirus-2019
24.World Health Organization(WTO), 健康專題：COVID-19https://www.who.int/health-topics/coronavirus#tab=tab_1