Youmei Zhou scite author profile

Youmei Zhou

3Publications

8Citation Statements Received

94Citation Statements Given

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101

Affiliations

Beijing Forestry University, Tongji University, Shanghai Tongji Urban Planning and Design Institute

Publications

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Conducting Heritage Tourism-Led Urban Renewal in Chinese Historical and Cultural Urban Spaces: A Case Study of Datong

Lei

Zhou

2022

Land

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Heritage tourism-led urban renewal and regeneration has recently become a critical way of creating a city brand, designing tourism destinations, and attracting property developers and investors to cities. However, current practice points to a lack of proper understanding and consideration in preserving and interpreting elements of authentic identity in the Chinese historic urban landscape. In this study, we used the ancient city of Datong, China, under urban regeneration as a case study to explore how urban history and cultural resources are manifested in preserving and reconstructing historic urban landscapes. The methods included in-depth interviews with multiple stakeholders and groups, integrated with the analysis of planning documents and field observations. By categorising and evaluating the research data, we developed a new conceptual framework with applicable measures, contributing to heritage-tourism urban regeneration and shaping place identity in both theoretical and practical aspects. The conceptual framework and its corresponding concepts and measures developed from this research could provide guidelines for academics and practitioners to explore more potential aspects and concepts that focus on the research and development of Chinese cities with historic urban landscapes.

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Building Surface Crack Detection Using Deep Learning Technology

et al. 2023

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Cracks in building facades are inevitable due to the age of the building. Cracks found in the building facade may be further exacerbated if not corrected immediately. Considering the extensive size of some buildings, there is definitely a need to automate the inspection routine to facilitate the inspection process. The incorporation of deep learning technology for the classification of images has proven to be an effective method in many past civil infrastructures like pavements and bridges. There is, however, limited research in the built environment sector. In order to align with the Smart Nation goals of the country, the use of Smart technologies is necessary in the building and construction industry. The focus of the study is to identify the effectiveness of deep learning technology for image classification. Deep learning technology, such as Convolutional Neural Networks (CNN), requires a large amount of data in order to obtain good performance. It is, however, difficult to collect the images manually. This study will cover the transfer learning approach, where image classification can be carried out even with limited data. Using the CNN method achieved an accuracy level of about 89%, while using the transfer learning model achieved an accuracy of 94%. Based on this, it can be concluded that the transfer learning method achieves better performance as compared to the CNN method with the same amount of data input.

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Research on the Application of Artificial Intelligence in Public Health Management: Leveraging Artificial Intelligence to Improve COVID-19 CT Image Diagnosis

Liu

Zhang

et al. 2023

IJERPH

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Since the start of 2020, the outbreak of the Coronavirus disease (COVID-19) has been a global public health emergency, and it has caused unprecedented economic and social disaster. In order to improve the diagnosis efficiency of COVID-19 patients, a number of researchers have conducted extensive studies on applying artificial intelligence techniques to the analysis of COVID-19-related medical images. The automatic segmentation of lesions from computed tomography (CT) images using deep learning provides an important basis for the quantification and diagnosis of COVID-19 cases. For a deep learning-based CT diagnostic method, a few of accurate pixel-level labels are essential for the training process of a model. However, the translucent ground-glass area of the lesion usually leads to mislabeling while performing the manual labeling operation, which weakens the accuracy of the model. In this work, we propose a method for correcting rough labels; that is, to hierarchize these rough labels into precise ones by performing an analysis on the pixel distribution of the infected and normal areas in the lung. The proposed method corrects the incorrectly labeled pixels and enables the deep learning model to learn the infected degree of each infected pixel, with which an aiding system (named DLShelper) for COVID-19 CT image diagnosis using the hierarchical labels is also proposed. The DLShelper targets lesion segmentation from CT images, as well as the severity grading. The DLShelper assists medical staff in efficient diagnosis by providing rich auxiliary diagnostic information (including the severity grade, the proportions of the lesion and the visualization of the lesion area). A comprehensive experiment based on a public COVID-19 CT image dataset is also conducted, and the experimental results show that the DLShelper significantly improves the accuracy of segmentation for the lesion areas and also achieves a promising accuracy for the severity grading task.

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Youmei Zhou

Conducting Heritage Tourism-Led Urban Renewal in Chinese Historical and Cultural Urban Spaces: A Case Study of Datong

Building Surface Crack Detection Using Deep Learning Technology

Research on the Application of Artificial Intelligence in Public Health Management: Leveraging Artificial Intelligence to Improve COVID-19 CT Image Diagnosis

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