This page has only limited features, please log in for full access.

Ms. Seoyoung Jung
Kwangwoon University

Basic Info


Research Keywords & Expertise

0 Automation
0 Construction Management
0 Deep Learning
0 OSC
0 Facility Management

Honors and Awards

The user has no records in this section


Career Timeline

The user has no records in this section.


Short Biography

Ph.D. Student, Department of Architecture Engineering, Kwangwoon University, South Korea

Following
Followers
Co Authors
The list of users this user is following is empty.
Following: 0 users

Feed

Journal article
Published: 09 August 2021 in Sustainability
Reads 0
Downloads 0

Many studies have been conducted to define the critical success factors (CSFs) for off-site construction (OSC) activation, but there has been a lack of identification of the relationship with the identified CSFs. However, it is necessary to clearly identify the hierarchy and relationships with the success factors in order to develop specific strategies for OSC activation. This work presents a study that was conducted to identify the CSFs for OSCs and establish the relationships of the identified CSFs for OSC. First, 20 CSFs for OSCs were identified through prior study reviews related to CSFs for OSC. Next, the interpretive structural modeling (ISM), which has advantages in developing an understanding of complex relationships, was leveraged in order to analyze the relationships between 20 CSFs for OSC to derive a hierarchical model consisting of seven levels. The CSFs for OSC were classified into four groups using MICMAC analysis, which is useful for classifying factors by the strength of the relationship with factors based on driving power and dependence power. This proposed model can be used as a basis for developing management measures for OSC project success.

ACS Style

SeoYoung Jung; Seulki Lee; Jungho Yu. Identification and Prioritization of Critical Success Factors for Off-Site Construction Using ISM and MICMAC Analysis. Sustainability 2021, 13, 8911 .

AMA Style

SeoYoung Jung, Seulki Lee, Jungho Yu. Identification and Prioritization of Critical Success Factors for Off-Site Construction Using ISM and MICMAC Analysis. Sustainability. 2021; 13 (16):8911.

Chicago/Turabian Style

SeoYoung Jung; Seulki Lee; Jungho Yu. 2021. "Identification and Prioritization of Critical Success Factors for Off-Site Construction Using ISM and MICMAC Analysis." Sustainability 13, no. 16: 8911.

Journal article
Published: 29 December 2020 in Applied Sciences
Reads 0
Downloads 0

The cause of cracks in concrete is traditionally estimated by analyzing information such as patterns and locations of the cracks and whether other defects are present, followed by aggregating the findings to estimate the cause. This method is highly dependent on the expert’s knowledge and experience in the process of identifying the cause of the cracks by compiling information related to the occurrence of the cracks, and it is likely that each expert will make a different diagnosis or an expert with insufficient knowledge and experience will make an inaccurate diagnosis. Therefore, we propose automated technology using the ontology to improve the consistency and accuracy of crack diagnosis results in this research. The proposed approach uses information on the crack patterns, locations, and penetration status, as well as the occurrence of other defects, to automatically infer the causes of cracks. We developed ontology that can infer the cause of cracks using the information on their appearance and applied actual cases of cracks to verify the ontological operation. In addition, the consistency and accuracy of the ontology were validated using eight actual cases of crack. The approach of this study can support expert decision-making in the crack diagnosis process, thereby reducing the possibility of various errors caused by the intervention of inaccurate judgments in the crack diagnosis process and improving the efficiency of the crack diagnosis tasks.

ACS Style

SeoYoung Jung; Seulki Lee; Jungho Yu. Ontological Approach for Automatic Inference of Concrete Crack Cause. Applied Sciences 2020, 11, 252 .

AMA Style

SeoYoung Jung, Seulki Lee, Jungho Yu. Ontological Approach for Automatic Inference of Concrete Crack Cause. Applied Sciences. 2020; 11 (1):252.

Chicago/Turabian Style

SeoYoung Jung; Seulki Lee; Jungho Yu. 2020. "Ontological Approach for Automatic Inference of Concrete Crack Cause." Applied Sciences 11, no. 1: 252.