실감형 콘텐츠 관련 연구가 활발히 진행되고 있다. AR을 중심으로 한 실감형 콘텐츠의 발전은 스마트 폰을 이용하여 실세계에 3D 가상 콘텐츠를 추가하는 것을 넘어, 대형 건축물에 Projection Mapping을 하는 Media Facade 콘텐츠로 발전되었다. 최근 Projection Mapping을 이용한 Media Facade를 활용한 광고 콘텐츠의 수요가 증가하면서 Projection Mapping콘텐츠에 대한 교육과 시스템개발이 요구 되고 있다. Projection Mapping을 처음 배우는 교육생의 경우, 투사할 사물 및 건축물을 만드는 것부터 큰 어려움으로 작용된다. 사물 및 건축물을 구축하기 위해서는 그만한 자원과 재원이 요구되며, 한번 만들고 나면 다시 자원 을 활용하여 바꾸기 쉽지 않다. 본 논문에서는 Projection Mapping 교육을 위한 Unity 3D Engine 기반 Projection Mapping Simulation을 제안한다. 제안된 Projection Mapping Simulation는 Unity 3D Engine을 기반하였기 때문에 무료로 교육생들이 사용이 가능하며, 다양한 3D Object File를 활용하여 사물 및 건축물을 나타내고 조작할 수 있다. 또한, Projection Mapping에 쓰이는 영상을 Video 뿐 아니라, 실시간 3D Rendering으로 사용할 수도 있다. 본 논문에서 제안한 Projection Mapping Simulation는 교육생들에게 공간과 사 물 및 건축물의 이해를 돋기 위한 실험의 장이 될 것이며, Projection Mapping 콘텐츠 연구 자들에게는 여러 Projection Mapping 기법을 실험 및 연구할 수 있는 장이 되길 희망한다.
This study aimed to investigate the impact of implementing team-based learning (TBL) in postpartum nursing simulation practical education for nursing college students. Methods: The study design was a non-equivalent control group pretest-posttest quasi-experimental design. 128 nursing students divided into two groups: 61 in the experiment group and 67 in the control group. During the winter break in January 2023, students participating in simulation practicals were assigned to the control group, while students participating in simulation practicals during the regular semester (April 2023) were assigned to the experimental group, to prevent crossontamination between the groups due to experimental treatment. Both groups completed selfdministered questionnaires to assess self-directed learning abilities, collaborative self-efficacy, academic achievement, and learning satisfaction. Results: The experimental group showed significantly better compared to the control group, the experimental group showed higher levels of academic achievement and learning satisfaction. Conclusion: It was evident that TBL applied to postpartum nursing simulation practical education is a pedagogical teaching strategy that enhances academic achievement and learning satisfaction. It is necessary to develop and apply team-based simulation practical education not only for challenging obstetric cases but also for labor and delivery nursing, antepartum nursing, and other related areas in clinical practice.
The purpose of this study was to develop a nursing education program using Web-based simulation for the care of patients with intracranial pressure. An additional aim was to verify the effectiveness of nursing knowledge, problem-solving competency, a critical thinking disposition, and the expectation of learning transfer. Methods: This was an experimental study using repeated measures with a nonequivalent control group. The participants were senior nursing students, randomly assigned to experimental (n=30) and control (n=30) groups. The experimental group participated in a nursing education program that included Web-based lectures, pre-briefing, Web-based simulation, and debriefing, whereas the control group’s program included only Web-based lectures. Results: A significant difference was found between the experimental and control groups in problem-solving competency (F=5.84, p=.005), critical thinking disposition (F=4.25, p=.021), and the expectation of learning transfer (t=2.30, p<.025). Also, a significant interaction between time and group was found in problem-solving competency and critical thinking disposition. Conclusion: The results of this study showed that the education program using Web-based simulation positively affected nursing students’ problem-solving competency, critical thinking disposition, and the expectation of learning transfer. Therefore, this program can be considered a valuable aid in educating nursing students.
Purpose: This qualitative phenomenological study aims to understand how nursing students interpret their experiences with handover education using concept maps in simulation-based nursing education.
Methods: Data were collected from September 18, 2021 to April 6, 2022, through in-depth one-to-one interviews with 11 nursing students. Interviews, which were conducted once or twice, lasted for 30 to 45 minutes per session. The main interview question was “How do you make meaning of your experiences with handover education using concept maps in simulation-based nursing education?” The collected data were analyzed using content analysis.
Results: Three categories of were identified: actively engaged with students, addressed the reality of handover education, and there are two sides to handover education. The participants in this study require systematic education on the take-over method and process that can integrate and structure the continuity and thinking necessary for nursing work.
Conclusion: Handover education using concept maps in simulation-based methods should be adapted according to the abilities of nursing students and their contextual needs. Future studies using large sample sizes and multiple settings should substantially evaluate the impact of handover education programs using concept maps on clinical outcomes.
Purpose: This study aims to improve nursing students’ competency through evidence-based nursing simulation education. Simulations included blood transfusion care for cancer patients, pneumothorax post-op care, and blood pressure control for hypertension care. Moreover, the study investigated the effects of simulations on anxiety, self-confidence, and student satisfaction with the learning experience.
Method: Participants completed a survey on student satisfaction, self-confidence, and anxiety. A prospective, one-group, pre- and post-test design of 135 fourth-grade nursing students was used. A simulation scenario was developed according to the design. It consisted of pre-briefing, practice, serial tests, and debriefing. A simulation of three scenarios comprised blood transfusion care for cancer patients, pneumothorax post-op care, and blood pressure control for hypertension care. Twenty hours of evidence-based nursing simulation practicum consisting of three scenarios dealing with major adult diseases was conducted.
Result: Students showed significant improvements over time in self-confidence (t=4.67, p<.001), student satisfaction (t=3.94, p<.001), and anxiety (t=-4.63, p<.001) after the evidence-based nursing simulation.
Conclusion: Simulation of evidence-based education may be a useful and effective learning strategy. Nursing educators can design evidence-based simulation programs to improve educational effectiveness.
Purpose: This study aimed to construct and test a hypothetical model to explain predictive factors affecting nursing students' satisfaction and self-confidence in simulation-based education based on the National League for Nursing Jeffries Simulation Theory. Methods: A cross-sectional study was conducted on 305 fourth-year nursing students with experience in simulation-based education enrolled at universities in Gangwon-do, Gyeongsangbuk-do, and Gyeonggi-do. Data were analyzed using SPSS 25.0 and AMOS 25.0. Results: The hypothetical model showed good fit with the empirical data: χ2/df 2.17, RMSEA=.01, RMR=.01, GFI=.95, AGFI=.91, NFI=.94, TLI=.95, CFI=.97, and PNFI=.68. Simulation design characteristics, teaching efficiency, and flow were found to affect satisfaction and self-confidence directly. A bootstrap test indicated that teaching efficiency and flow mediated the relationship between simulation design characteristics and satisfaction and self-confidence. Conclusion: Simulation educators should apply best practice that enhance teaching efficiency and flow through well-organized simulation designs, nursing students can attain satisfaction and self-confidence through simulation-based education.
Purpose: This study verified the effects of simulation-based communication education on the problem-solving process, communication self-efficacy, and communication ability of nursing college students. Methods: As an experimental study of single-group pre- and post-design, data were collected from April 12 to June 18, 2021, using a self-report questionnaire from 55 Year 4 nursing college students in city D. The collected data were analyzed in terms of frequency, paired t-test, and Pearson's correlation coefficients using the SPSS/WIN 23.0 program. Results: Our findings indicated that there were significant differences between the problem-solving process (t=-20.54, p<.001), communication self-efficacy (t=-15.31, p<.001), and communication ability (t=-3.62, p=.001) in communication before and after simulation-based communication education. Following simulation-based communication education, the communication ability of nursing students was evaluated through the problem-solving process (r=.46, p<.01), self-efficacy in communication (r=.37, p<.01), and problem-solving process by a doctor. Furthermore, it was found that there was a significant positive correlation with communication self-efficacy (r=.16, p<.01). Conclusion: It can be expected that the simulation -based communication education will improve nursing students’ problem-solving process, communication self-efficacy, and communication ability and thus contribute to high-quality nursing in related clinical situations. In addition, for a more effective communication education, research that could develop various scenarios in the clinical field and verify the effectiveness is required.
Purpose: This study aims to investigate the effect of a simulation-based patient safety performance improvement education program on caregivers’ knowledge, attitude, and performance toward safety. Methods: This study adopted a quasi-experimental design that applied before-and-after designs for the test and control groups. It was configured focusing on “infectious disease,” “fires,” “falls,” and “drug abuse.” Results: There was a significant difference in knowledge and patient safety performance between the experimental group and the control group. However, there was no significant difference in attitudes toward safety. Conclusion: The results of this study showed that the simulation-based patient safety performance improvement education program is effective in improving patient safety performance. Therefore, it is necessary to continuously apply and evaluate the simulation-based patient safety performance training program to enable caregivers to develop professional prevention and management capabilities within elderly care facilities
Purpose: This study developed an educational program for structured discussion-based learning, problem-based learning (PBL), and simulation for nursing students. Its effects on learning attitude, problem-solving process, and clinical competence were then analyzed. Methods: This study used a one-group pretest–posttest experimental method among 135 fourth-year nursing students taking the simulation course at a university in D city. We operated the PBL by applying the structured discussion method and simulation education based on four modules covering major diseases among adults. The data collected before and after the program were analyzed using descriptive statistics and paired t-tests. Results: The program significantly improved nursing students’ learning attitude, problem-solving process, and clinical competence. Conclusions: We verified the effects of the simulation education program for structured discussion-based learning and PBL. Further studies are needed to develop and apply simulation educational programs utilizing various devices that can improve learners’ participation and professors’ operational protocols by systematically combining them with different teaching/learning methods.
Purpose: The purpose of this study was to identify trends in disaster nursing education and conduct a systematic review of the characteristics of simulation-based disaster education programs for nursing students. Method: In May 2020, 12 electronic databases were used to conduct a literature search using Korean and English keywords. Simulation, disaster, nursing, and education were among the search keywords. Fourteen studies were selected. The risk of bias assessment tool for non-randomized studies was used to assess study quality. Results: A total of 14 non-randomized studies were selected. Simulation was mainly conducted using high-fidelity simulators and virtual reality simulations. Disaster scenarios included situations such as a bus crash, earthquake, tornado, and toxic chemical exposure in mass casualty incident nursing or disaster drills. There were differences in the methods of simulation interventions, and we found that disaster related nursing competencies such as disaster knowledge, disaster preparedness, disaster performance, confidence, self-efficacy, and ethical reasoning improved in nursing students after the intervention. Conclusion: Disaster nursing education aims to improve nursing students’ disaster competencies. Future research should examine significant risk of bias control for confounding variables, attrition bias, and outcome evaluation.
Purpose: This study examines the effects of clinical nursing simulation education program based on problem-based learning (S-PBL) on clinical reasoning, confidence in handover reports, confidence in nursing performance, and simulation effectiveness in nursing students. Method: We used a one-group pretest-posttest design. The participants were 4th-year university nursing students who had taken a core clinical nursing practice, and 90 students participated in the S-PBL program. Data were collected before and after the S-PBL program and analyzed using descriptive statistics and paired t-tests. Results: The S-PBL program significantly increased clinical reasoning, confidence in handover reports, and confidence in nursing performance. More than 90% of students were satisfied with the education program and the simulation education effectiveness was 2.54 on a 3-point Likert scale. Conclusion: The S-PBL program could be useful in clinical nursing education for nursing students seeking to become clinical nurses. It is necessary to develop various S-PBL programs and apply them to the curriculum.
Purpose: This study aims to understand and describe in-depth the meaning of evidence-based simulation training education experience of nursing students. Method: This is a qualitative study employing a phenomenological approach. Data were collected from eight seniors in Changshin university in Changwon, from November to December, 2019. The analysis was based on the method proposed by Giorgi. Results: A total of 4 components and 12 sub-components were derived from the analysis. The evidence-based simulation training education experience of nursing students was found to be “burdening Because of the new teaching method,” “immersive,” “an experience of a new field of learning,” and “improving the nursing capacity.” Conclusion: Conclusion: Although the simulation training education burdened participants because of new teaching methods, it is expected to contribute to overcoming the limitations of educational effects in clinical practice and enhance practical clinical performance. Evidence-based simulation training education provides an opportunity to decide rationally by considering the best scientific evidence, clinical expertise, patient values and preferences, and available resources. In the furture, improvement in evidencebased nursing practice is expected.
Purpose: This study examined the effects of simulation-based education for high-risk maternity on evaluating problem-solving process, self-leadership, critical thinking disposition, and selfefficacy of nursing students. Method: This study was a one-group pretest-postest test design with 81 junior nursing students as participants. Data were collected from September 4 to December 11, 2019, after students completed their simulation practice class. Students completed a survey on their problem-solving process, self-leadership, critical thinking disposition, and self-efficacy at the beginning and end of the class. Data were analyzed using descriptive statistics, paired t-test, and Pearson’s correlation coefficients using the SPSS WIN 21.0 program. Results: Students’ problem-solving process (t=-7.06, p<.001), self-leadership (t=-3.08, p=.003), critical thinking disposition (t=-2.12, p=.037), and self-efficacy (t=-6.01, p<.001) showed significant improvement after the simulation-based education for high-risk maternity. There was a positive relation between problem-solving process and self-leadership (r=.52, p<.001), critical thinking disposition (r=.39, p<.001), and self-efficacy (r=.53, p<.001). Conclusion: There is a need to supplement the limitations of clinical practice education by providing a simulation-based education environment similar to a hospital since the experience of clinical practice alone is not sufficient to improve students' knowledge and skills. Results of this study may be used as a basic data for efficiently performing simulation-based education on high-risk maternity.
Purpose: This study is examined the effects of simulation practice education with problem-based learning methods on nursing students' learning attitudes, learning satisfaction, critical thinking disposition, and problem-solving ability. Method: A quasi-experiment single group pretest-posttest design was adopted. Simulation education was conducted by utilizing problem-based learning methods to teach the following topics to nursing students enrolled in 4th grade in S city: respiratory, circulatory, and nervous system. The experiment was conducted for 12 weeks, from September to December, 2019. Paired t-test and Pearson product-moment correlation coefficient were used to analyze the collected data. Results: Learning attitude and problem-solving ability showed significant differences in the experiment. Among the sub-areas of problem-solving ability, there were significant differences in the following: problem recognition (p<.001), information gathering (p<.001), confident thinking disposition (p<.001), acceptance to carry out an adventure (p<.001), evaluation (p=.027), and feedback (p<.001). In addition, learning attitude showed significant positive correlations with learning satisfaction, critical thinking disposition, and problem-solving ability. Conclusion: The findings of this study suggest that, it is necessary to develop a variety of iterative studies and simulation scenarios to confirm the effectiveness of simulation training.
Purpose: This study aimed to investigate the correlation between self-efficacy in communication, flow, and nursing students’ competence in communication, and examined the effect of self-efficacy on communication, and the effect of flow on competence in communication. Method: Data of 123 fourth-year nursing students were collected using structured self-report questionnaires in simulation-based education. The data were analyzed using descriptive statistics, the independent t-test, one-way ANOVA, Pearson’s correlation coefficient, and hierarchical multiple regression. Results: Self-efficacy in communication, flow, and competence in communication were positively correlated. The final regression model showed that self-efficacy in communication and flow accounted for 31.4% of the variance in predictions of competence in communication. Additionally, self-efficacy in communication was the most influential factor. Conclusion: The study supports a strategy to improve self-efficacy in communication and flow by improving nursing students’ competence in communication in simulation-based education.
Purpose: Debriefing is very important in simulation-based education. The purpose of this study was to identify the effects of structured team debriefing on clinical performance, self-confidence in nursing activities, and the satisfaction of nursing students, using mind mapping. Method: A non-equivalent control group post-test design was conducted. The participants in the study were 83 nursing students. The experimental group consisted of 42 seniors in 2018, and the control group consisted of 41 seniors in 2019. Data were collected through a self-administered questionnaire and an observed performance checklist. The collected data were analyzed using chi-square and independent t-tests with the statistical software package IBM SPSS/WIN 25.0. Results: There were significant differences in clinical performance (t=7.64, p<.001), self-confidence in nursing activities (t=4.93, p<.001), and learner’ satisfaction (t=2.94, p=.004) between the experimental and the control groups. Conclusion: These results indicate that simulation-based nursing education applying structured team debriefing using mind mapping was effective in improving nursing students' clinical performance, self-confidence in nursing activities, and satisfaction. Thus, there is a need to develop and apply a range of clinical scenarios and debriefing strategies in simulation-based nursing education. Technical and non-technical skills of nursing students also need to be evaluated in simulation-based nursing education using various debriefing methods.
본 연구의 목적은 시뮬레이션기반 실습교육이 간호대학생들의 고용가능성, 진로탐색행동 및 진로결정 자기효능감에 미치는 효과를 확인하고자 시도되었다. 비동등성 대조군 전후설계를 적용한 유사실험 설계로 J지역 소재 3학년 학생을 편의표집하여 총 120명의 간호대학생들로, 실험군 60명, 대조군 60명이 연구에 참여하였다. 실험군은 6주간 실험에 참여하였다. 연구결과, 시뮬레이션기반 실습교육은 간호대학생의 고용가능성(t=-2.31, p=.023), 진로탐색행동(t=-3.05, p=.003)을 유의하게 증가시켰으나, 진로결정자 기효능감(t=-.87, p=.387)은 통계적으로 유의한 차이가 없었다. 결론적으로 시뮬레이션기반 실습교육은 간호대학생들의 교육에 유용하므로 강화해야 할 것이다.
Purpose: The purpose of this study is to investigate the effect of simulation-based disaster nursing education programs on nursing college students’ disaster nursing knowledge, attitude toward disasters, and basic disaster nursing implementation abilities. Method: This study is similar to an experimental study that applied before-and-after designs for test groups and control groups. It was configured focusing on “earthquakes,” “fires,” “infectious diseases,” and “hospital disaster preparation.” Our simulation-based disaster nursing education program was configured to improve nursing students’ abilities to immediately respond to problems through the integration of nursing courses. Results: The test group that received the simulation-based disaster nursing education program showed a statistically significant increase in disaster nursing knowledge, attitude toward disasters, and basic disaster nursing implementation abilities, compared to the control group. Conclusion: Through the results of this study, simulation-based disaster nursing education programs were found to be effective in improving disaster nursing implementation abilities. Therefore, efforts should be made so that simulation-based disaster nursing educational courses take root to improve the disaster preparedness abilities of college students majoring in nursing.
Purpose: The purpose of this study is to provide basic data for developing strategies to improve the learning effect of simulation by analyzing the reflective journaling after the simulation based learning on the nursing of patients with upper gastrointestinal (UGI) bleeding. Method: From September 19–29, 2016, we conducted a simulation of UGI bleeding patient nursing with fourth-year students in the nursing department of University B in City A, and analyzed the data using content analysis. Results: In this study, reflective journaling can be an effective educational method to strengthen nursing competence, such as the self-reflection of nursing students, evidence-based nursing practice, teamwork, and communication ability. Conclusion: Reflective journaling after practice in simulation-based education is an important process in training critical thinking, situational judgment, and reflection of nursing practice content, and needs to be extended to both on-campus practice and clinical practice.
본 연구는 당뇨환자의 시뮬레이션기반 간호교육이 간호대학생의 당뇨지식, 임상수행능력, 실습 만족도 및 의사소통능력에 미치는 효과를 확인하기 위해 시도되었다. 이 연구는 시뮬레이션 교육 전과 후에 당뇨지식, 임상수행능력, 실습만족도 및 의사소통능력을 파악하기 위해 2013년 10월 21부터 11월 1까지 자료수집을 하였으며, 간호대학생 3학년 75명이 연구대상자로 참여하였다. 연구의 결과는 시뮬레이션 교육을 받은 후 교육 전에 비해 당뇨지식(t=-9.684, p<.001), 임상수행능력(t=-4.173, p<.001), 의사소통 능력(t=-7.685, p<.001) 점수가 높게 나타나 통계적으로 유의하게 나타났으나, 실습만족도(t=-1.144, p=.256)의 변화는 통계적으로 유의하지 않았다. 이상의 연구결과를 토대로 시뮬레이션기반 교육은 대상자의 간호지식, 임상수행능력과 의사소통능력을 강화할 수 있으며, 다양한 교육과정에도 적용될 수 있을 것이다.