• 한국정보교육학회:학술대회논문집
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• 2005.08a
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• pp.183-192
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• 2005

이동 통신 가입자 수가 빠르게 늘어가면서 무선 인터넷 기술은 다양한 형태의 데이터 제공이 가능해 지고 이에 대한 교육적 활용에 대한 관심이 증대되고 있다. 이에 따라 무선 인터넷만의 장점인 이동성, 실시간성, 휴대성, 편리성, 개별화, 차별화 등을 이용하여 학습에 적용하는 것은 매우 중요한 의미를 지닌다. 또한 학습에 있어서 학습하고자 하는 욕구인 동기가 중요시되어야 하며 이에 따라 학습 성취도는 큰 영향을 가진다. 따라서, 본 논문에서는 보편적으로 잘 알려진 Keller의 ARCS 모형을 기반으로 하여 무선 인터넷 환경에 적합하도록 수정, 보완하여 동기 모형을 제시하고 적용하고자 한다. 본 모형의 특징은 다음과 같다. 첫째, 개별화 및 차별화에 중점을 두었다. 모바일 환경의 가장 큰 특징인 개별화, 차별성을 부각시켜 동기 전략에 적용하였다. 둘째, 학습자 진단에 비중을 두어 설계하였다. 모바일에서 개별화의 가장 큰 기준이 되므로 정확한 진단을 할 수 있도록 한다. 셋째, 무선 인터넷에 적합한 동기 전략을 제시하여 단계별 적용을 용이하도록 하였다. 넷째, 평가 및 피드백 후 교사에 의한 학생 개개인의 결과를 제시하도록 하였으며, 이를 통해 후속 학습에 도움이 되도록 하였다. 또한, 본 동기 모형을 초등학교 3학년 쓰기 활동에 적용하였다.

• Journal of the Korean Operations Research and Management Science Society
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• v.31 no.1
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• pp.91-103
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• 2006

Given a bill of materials (BOM) tree T labeled by the breadth first search (BFS) order from node 0 to node n and a general network ${\Im}=(V,A)$, where V={1,2,...,m} is the set of production facilities and A is the set of arcs representing transportation links between any of two facilities, we assume that each node of T stands for not only a component. but also a production stage which is a possible stocking point and operates under a periodic review base-stock policy, We also assume that the random demand which can be achieved by a suitable service level only occurs at the root node 0 of T and has a normal distribution $N({\mu},{\sigma}^2)$. Then our integrated model of facility location problems and safety stock optimization problem (FLP&SSOP) is to identify both the facility locations at which partitioned subtrees of T are produced and the optimal assignment of safety stocks so that the sum of production cost, inventory holding cost, and transportation cost is minimized while meeting the pre-specified service level for the final product. In this paper, we first formulate (FLP&SSOP) as a nonlinear integer programming model and show that it can be reformulated as a 0-1 linear integer programming model with an exponential number of decision variables. We then show that the linear programming relaxation of the reformulated model has an integrality property which guarantees that it can be optimally solved by a column generation method.

• Journal of Korean Home Economics Education Association
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• v.21 no.4
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• pp.159-173
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• 2009

The purpose of this study was to develop a teaching learning process plan applying Keller's motive induction strategy to 'Nutrition and Meal' unit of the middle school home economics(HE). Five different problems were developed based on the 7th revised HE curriculum: "What should I do for a physical and mental health?", "What should I do to intake a required nutrient of my body?", "What should I do to take a well balanced diet?", "What should I do to build a desirable eating habits?" and "What should I do to deal with a nutrition issues?". This study was performed as the following procedures: the 'Nutrition and Meal' unit of the revised 7th middle school HE curriculum and the present HE textbooks were analyzed. And then the teaching learning process plan was designed, developed, evaluated, and revised. The motive induction strategies were developed based on the Keller's Motivational Tactics Checklist.

• Radiation Oncology Journal
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• v.13 no.4
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• pp.403-409
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• 1995

Purpose : Authors tried to enhance the safety and accuracy of radiosurgery by verifying stereotacitc target point in actual treatment position prior to irradiation. Materials and Methods : Before the actual treatment, several sections of anthropomorphic head phantom were used to create a condition of unknown coordinates of the target point. A film was sandwitched between the phantom sections and punctured by sharp needle tip. The tip of the needle represented the target point. The head phantom was fixed to the stereotactic ring and CT scan was done with CT localizer attached to the ring. After the CT scanning, the stereotactic coordinates of the target point were determined. The head phantom was secured to accelerator's treatment couch and the movement of laser isocenter to the stereotactic coordinates determined by CT scanning was performed using target positioner. Accelerator's anteroposterior and lateral portal films were taken using angiographic localizers. The stereotactic coordinates determined by analysis of portal films were compared with the stereotactic coordinates previously determined by CT scanning. Following the correction of discrepancy the head phantom was irradiated using a stereotactic technique of several arcs. After the irradiation, the film which was sandwitched between the phantom sections was developed and the degree of coincidence between the center of the radiation distribution with the target point represented by the hole in the film was measured. In the treatment of the actual patients, the way of determining the stereotactic coordinates with CT localizers and angiograuhic localizers was the same as the phantom study. After the correction of the discrepancy between two sets of coordinates, we proceeded to the irradiation of the actual patient. Results : In the phantom study, the agreement between the center of the radiation distribution and the localized target point was very good. By measuring optical density profiles of the sandwitched film along axes that intersected the target point, authors could confirm the discrepancy was 0.3 mm. In the treatment of an actual patient, the discrepancy between the stereotactic coordinates with CT localizers and angiographic localizers was 0.6 mm. Conclusion : By verifying stereotactic target point in actual treatment position prior to irradiation, the accuracy and safety of streotactic radiosurgery procedure were established.

• The Journal of Korean Society for Radiation Therapy
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• v.33
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• pp.89-97
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• 2021

Purpose: The purpose of this study is to compare and evaluate the dose change according to the gas volume variations in the rectum, which was not included in the treatment plan during radiation therapy for cervical cancer. Materials and methods: Static Intensity Modulated Radiation Therapy (S-IMRT) using a 9-field and Volumetric Modulated Arc Therapy (VMAT) using 2 full-arcs were established with treatment planning system on Computed Tomography images of a human phantom. Random gas parameters were included in the Planning Target Volume(PTV) with a maximum change of 2.0 cm in increments of 0.5 cm. Then, the Conformity Index (CI), Homogeneity Index (HI) and PTV D_max for the target volume were calculated, and the minimum dose (D_min), mean dose (D_mean) and Maximum Dose (D_max) were calculated and compared for OAR(organs at risk). For statistical analysis, T-test was performed to obtain a p-value, where the significance level was set to 0.05. Result: The HI coefficients of determination(R²) of S-IMRT and VMAT were 0.9423 and 0.8223, respectively, indicating a relatively clear correlation, and PTV D_max was found to increase up to 2.8% as the volume of a given gas parameter increased. In case of OAR evaluation, the dose in the bladder did not change with gas volume while a significant dose difference of more than D_mean 700 cGy was confirmed in rectum using both treatment plans at gas volumes of 1.0 cm or more. In all values except for D_mean of bladder, p-value was less than 0.05, confirming a statistically significant difference. Conclusion: In the case of gas generation not considered in the reference treatment plan, as the amount of gas increased, the dose difference at PTV and the dose delivered to the rectum increased. Therefore, during radiation therapy, it is necessary to make efforts to minimize the dose transmission error caused by a large amount of gas volumes in the rectum. Further studies will be necessary to evaluate dose transmission by not only varying the gas volume but also where the gas was located in the treatment field.