Housing has been a challenge faced by people from all walks of life in Hong Kong. Many have to turn to improper accommodation with poor living environment, including sub-divided flats, cage homes, bedspace apartment, partitioned rooms or rooftop slump.
Regarding inappropriate accommodation, the major concern is its poor living environment, In addition to cramped living space and unsatisfactory indoor air quality, the potential risks induced by building constructions or design must not be overlooked.
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出版物 & 研究
出版物 & 研究
我們為研究人員、災難管理人員、醫護人員及學生,提供一個專業交流、合作及政策討論的平台
出版物 & 研究
香港賽馬會災難防護應變教研中心的出版物涵蓋了教研中心跟合作夥伴、顯赫學術機構的研究項目,以及有關災難防護和應變的其他研究與開發。
指引列出了教研中心特別揀選的災難管理技術資訊、操作指引和有用工具。
博客提供了一個平台,讓持份者能分享與災難有關的最新動態、意見及經驗分享。
博客文章由作者以個人身份或代表所屬單位撰寫。內容表達的觀點、思維及意見純屬作者個人想法,並不代表香港賽馬會災難防護應變教研中心的立場。
公眾可在尊重知識產權情況下,使用所有資料,並必須適當引述出處。
2018
01/03/2018
Housing has been a challenge faced by people from all walks of life in Hong Kong. Many have to turn to improper accommodation with poor living environment, including sub-divided flats, cage homes, bedspace apartment, partitioned rooms or rooftop slump.
Regarding inappropriate accommodation, the major concern is its poor living environment, In addition to cramped living space and unsatisfactory indoor air quality, the potential risks induced by building constructions or design must not be overlooked.
HKJCDPRI collaborated with the Hong Kong Sheng Kung Hui Lady MacLehose Centre (HKSKHLMC) in 2017 to conduct a survey titled “Community Survey on Physical and Mental risks resulted from Inappropriate Living Environment”, which investigated the impact of four major factors, including fire safety, security, hygiene and risks in indoor environment on residents’ mental health conditions.
The survey was conducted between October and November in the form of purposive sampling. Ten residents living in sub-divided flats in Kwai Tsing district were invited to semi-structured interviews. For a more accurate understanding of the interviewees’ quality of life and mental health conditions, the survey was supplemented by two surveys, namely WHOQOL-BREF (HK) and Depression Anxiety Stress Scale 21 (DASS-21)).
Results showed that the ten respondents living in sub-divided flats are exposed to hidden risks, big and small, in fire safety, security and hygiene. As a result, their physical and mental well-being are constantly at stake. As far as mental health is concerned, seven of them showed symptoms of anxiety, depression and stress; nine experienced mental distress after moving into subdivided flats - two of whom were diagnosed with a mental disorder.
Survey report has suggested that in view of the environmental risks, the government could consider subsidizing residents living in fire-prone areas, the elderly or low-income households to acquire disaster preparedness equipment, such as smoke and gas leakage detectors, fire blankets and dry powder extinguishers. In addition, it could join hands with community organizations to conduct extensive education work on hygiene and fire safety, while launching education plans such as the “Fire Safety Ambassador Scheme” to strengthen residents’ disaster response capacities.
As for mental well-being, the government and community organizations could launch the "District Mental Health Ambassador Scheme” by means of diversified publicity campaigns and education work, so as to promote mental health and provide related resources to residents in improper accommodation. It is hoped that residents can identify their own issues early and build up a community support network to help people help themselves.
To view the survey result (Chinese version only):居危思安_不適切居所住戶的環境安全及精神健康調查報告.pdf
2017
30/09/2017
The Hong Kong Jockey Club Disaster Preparedness and Response Institute published a Scoping Study entitled "Disaster Preparedness in Hong Kong – A Scoping Study" in 2016.
Three pieces of publications have been published with the findings of the Scoping Study done in 2016.
The Hong Kong Jockey Club Disaster Preparedness and Response Institute published a Scoping Study entitled "Disaster Preparedness in Hong Kong – A Scoping Study" in 2016.
Three pieces of publications have been published with the findings of the Scoping Study done in 2016.
14/07/2017
A prototype mobile App for the Landslide Information System (LIS)
The Hong Kong Jockey Club Disaster Preparedness and Response Institute (HKJCDPRI) Research Grant 2016 was awarded to the Hong Kong University of Science and Technology (HKUST). The research aims at developing a new smart Landslide Information System (LIS) that can improve the planning of access and evacuation routes for emergency responders during intense rainstorms. Furthermore, the LIS aims to provide easily accessible real-time landslide information to the public and to enhance landslide incident reporting in Hong Kong via smart technology.
A prototype mobile App for the Landslide Information System (LIS)
The Hong Kong Jockey Club Disaster Preparedness and Response Institute (HKJCDPRI) Research Grant 2016 was awarded to the Hong Kong University of Science and Technology (HKUST). The research aims at developing a new smart Landslide Information System (LIS) that can improve the planning of access and evacuation routes for emergency responders during intense rainstorms. Furthermore, the LIS aims to provide easily accessible real-time landslide information to the public and to enhance landslide incident reporting in Hong Kong via smart technology.
The HKUST Research Team has characterised relationships between landslide failure mechanisms and rainfall. Landslide hazard mapping was adopted to verify correlations between rainfall and landslide occurrence. The hazard map will be incorporated into the LIS mobile App which is currently under development (see Figs. 1 and 2 below for snapshots of the mobile App). It is envisioned that the final product will display and disseminate real-time landslide information, provide emergency routing information to emergency responders and identify high-risk landslide areas with the application of the landslide susceptibility model.
Later in October 2017, the HKUST Research Team will attend an international geotechnical conference in Canada (GEO Ottawa 2017) to share their research findings on the LIS mobile application.
This research demonstrates how innovative smart technology can be used as an early warning system and play a major role in reducing risk associated with landslides. More findings and progress on this research will be shared in the coming half year.
For more information, please contact us at [email protected] or (852) 2871 8507.
Prof. Clarence Choi, in-charge of the research project.
HKUST Research Team (left to right)
Back: Mr. George Goodwin (PhD Student); Prof Clarence Choi; Mr. Haiming Liu (PhD Student)
Front: Mr. Luis Liu (PhD Student); Mr. Desmond Cheung (PhD Student); Mr. Chao Wang (PhD Student)
14/07/2017
Aiming at providing accessible real-time landslide information to the public and leverage smart technology to enhance landslide incident reporting in Hong Kong, the Hong Kong University of Science and Technology is developing a new smart Landslide Information System (LIS), which will be supported by the Hong Kong Jockey Club Disaster Preparedness and Response Institute Research Grant 2016.
The research team consisted of three prominent scholars including Prof Clarence Choi, Research Assistant Professor from the Department of Civil and Environmental Engineering (Principal Investigator), Prof Qian Zhang, Chair Professor from the Department of Computer Science and Engineering and Prof Charles Ng, Chair Professor from the Department of Civil and Environmental Engineering.
Aiming at providing accessible real-time landslide information to the public and leverage smart technology to enhance landslide incident reporting in Hong Kong, the Hong Kong University of Science and Technology is developing a new smart Landslide Information System (LIS), which will be supported by the Hong Kong Jockey Club Disaster Preparedness and Response Institute Research Grant 2016.
The research team consisted of three prominent scholars including Prof Clarence Choi, Research Assistant Professor from the Department of Civil and Environmental Engineering (Principal Investigator), Prof Qian Zhang, Chair Professor from the Department of Computer Science and Engineering and Prof Charles Ng, Chair Professor from the Department of Civil and Environmental Engineering.
It is hoped that the development of the system will improve planning of access and evacuation routes for emergency responders during intense storms when transportation lines are obstructed by landslides, enhance characterisation of landslide failure mechanism to better inform and protect emergency responders and the public of areas susceptible to landslide failures. The system also intends to enrich landslide incident database, in terms of scale, responsiveness, and communication of information to geotechnical engineers during intense storms.
For more information, please contact us at [email protected] or at (852) 2871 8507.
Keung Shan Road landslides, Tai O, Hong Kong, 2008
