• Journal of the Korean Data and Information Science Society
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• v.27 no.6
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• pp.1557-1564
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• 2016

Recently, an extended warranty of a system following the expiration of the basic warranty is becoming increasingly popular to the user. In this respect, we suggest a two stage maintenance policy under the non-renewing warranty from the user's point of view in this paper. In the first stage, the user has to decide whether or not to purchase the extended warranty period. And, in the second stage, the optimal replacement period following the expiration of the warranty is determined. Under the extended warranty, the failed system is minimally repaired by the manufacturer at no cost to the user. We utilize the expected cost from the user's perspective to determine the optimal two stage maintenance policy. Finally, a few numerical examples are given for illustrative purpose.

• Journal of the Korean Data and Information Science Society
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• v.24 no.4
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• pp.773-781
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• 2013

Recently, an extended warranty of the system following the expiration of the basic warranty is becoming increasingly popular to the user. In this respect, we suggest a preventive maintenance model following the expiration of extended warranty with minimal repair warranty from the user's point of view in this paper. Under basic warranty and extended warranty, the failed system is minimally repaired by the manufacturer at no cost to the user. For the preventive maintenance model, we derive the expressions for the expected cycle length, the expected total cost and the expected cost rate per unit time. Also, we determine the optimal preventive maintenance period and the optimal preventive maintenance number by minimizing the expected cost rate per unit time. Finally, the numerical examples are presented to illustrate the purpose when the failure time of the system has a Weibull distribution.

• Proceedings of the Korean Reliability Society Conference
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• 2001.06a
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• pp.219-222
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• 2001

제품의 신뢰도 데이터는 새로운 제품의 개발, 제품의 신뢰도 개선, 최적 번인기간의 결정, 보증정책의 결정, 예방교체 또는 정비/수리정책의 결정 등 제품의 수명주기동안의 각종 활동에 필요한 중요한 정보를 제공한다. 여기서는 IEC 300-3-2 의 현장 신뢰성 데이터의 수집에 관한 내용을 중심으로 현장에서 가동되는 아이템의 신뢰도, 가용도, 보전도 및 정비지원과 관련한 데이터의 수집에 관한 지침을 소개하고, 데이터의 수집, 표현, 분석 및 결과와 관련된 주제들을 간단히 살펴본다.

• Journal of Korean Society for Quality Management
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• v.35 no.4
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• pp.140-146
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• 2007

In this paper, we consider a periodic imperfect preventive maintenance(PM) policy in which the system's failure rate after each PM remains unchanged. The system undergoes only minimal repairs at failures between PMs. Exact mathematical formula of the expected cost rate per unit time is derived. Optimal number of PMs and optimal maintenance period are derived by minimizing the expected cost rate per unit time. A numerical example is provided to illustrate the proposed approach under Weibull lifetime distribution.

• The Korean Journal of Applied Statistics
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• v.23 no.6
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• pp.1147-1156
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• 2010

This paper proposes a replacement policy following the expiration of a non-renewing free replacement-repair Warranty(NFFRW). The non-renewing free replacement-repair warranty is defined and then the maintenance model following the expiration of the NFRRW is studied from the user's point of view. As the criteria to determine the optimality of the maintenance policy, we consider the expected cost rate per unit time from the user's perspective. All maintenance costs of the system incurred after the expiration of the warranty are paid by the user. Given the cost structures during the life cycle of the system, we determine the optimal maintenance period following the expiration of a NFRRW. Finally, the numerical examples are presented for illustrative purposes.

• Journal of Digital Contents Society
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• v.19 no.7
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• pp.1373-1379
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• 2018

Wireless sensors in Internet of Things are getting closer to our daily lives. Since wireless sensors have limited battery power, energy efficient schemes should be employed. In this paper, we analyzed a system by using stochastic model and then solved an optimization problem, given that the gathered sensor data are aggregated before being transmitted to the sensor servers from a wireless sensor device. Using the developed model, we also proposed a optimal solution to determine the energy efficient sensor data transmitting interval. We also conducted performance evaluations of our proposals using numerical examples.

• The Korean Journal of Applied Statistics
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• v.26 no.1
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• pp.151-162
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• 2013

Due to a growing demand for the second-hand product, especially for the expensive one, the warranty and maintenance policies for such products have been studied to improve the product reliability of late. In this paper we study a periodic maintenance model for the second-hand product which is purchased by the customer at the age of $x$. When purchased, the dealer provides a warranty of a fixed length during which the product is maintained periodically to reduce the failure rate of the product and thus, to improve the reliability after each maintenance is served. If a failure occurs between two successive maintenances, only minimal repair is conducted. As for the warranty policy, we adopt free non-renewing repair action on each failure, in addition to the periodic maintenance service during the warranty period. Thus, under the given warranty policy, all the maintenance and repair costs incurred during the warranty period are charged to the dealer. For the proposed periodic maintenance scheme, we formulate a cost model to evaluate the expected total cost charged to the dealer during the warranty period and derive an optimal upgrade level of the failure rate at each maintenance to minimize the expected total warranty cost from the perspective of the dealer. We also present numerical results for an optimal upgrade level based on the proposed methods.

• Proceedings of the Korean Reliability Society Conference
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• 2005.06a
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• pp.115-120
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• 2005

This paper introduces models for preventive maintenance policies and considers periodic preventive maintenance policy with minimal repair when the failure of system occurs. It is assumed that minimal repairs do not change the failure rate of the system. The failure rate under prevention maintenance received an effect by a previously prevention maintenance and the slope of failure rate increases the model where it considered. Also the start point of failure rate under prevention maintenance considers the degradation of system and that it increases quotient, it assumed. Per unit time it bought an expectation cost from under this prevention maintenance policy. We obtain the optimal period time and the number for the periodic preventive maintenance by using Nakagawa's Algorithm, which minimizes the expected cost rate per unit time. Finally, it suppose that the failure time of a system has a Weibull distribution as an example and we obtain an expected cost rate per unit time the optimal period time and the number when cost of replacement and cost of minimal repair change.

• Proceedings of the Korea Water Resources Association Conference
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• 2012.05a
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• pp.423-427
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• 2012

지하수 관측이란 지하수위 하강, 수질오염 등 지하수 장해로부터 지하수를 보전 관리하고 대책을 수립하기 위하여 정기적 및 장기적으로 지하수위, 수질 등 부존된 지하수 특성의 상태와 변화하는 추이를 관찰하여 측정하는 행위를 말한다. 지하수는 지하의 보이지 않는 지층구조에서 매우 천천히 유동하므로 수위하강 및 수질오염 발생을 늦게 인지할 경우 원상회복이 불가능할 수 있고, 지하수 장해를 인지한 이후의 대처과정에서도 기존의 관측자료가 없거나 부족할 경우에는 원인분석과 대책수립이 지연되거나 불가능할 수 있으므로 지하수관리에 있어 관측정호를 설치하고 정기적으로 지하수의 부존 및 유동특성, 배경수질 등의 지하수 관측은 기본적이며 필수적인 요소이다. 따라서 지하수 관측망을 설치하고 운영하기 위해서는 관측 목적을 명확히 정의하고 관측 프로그램이 이를 만족시키도록 구성되어야하며 시간적, 공간적으로 지하수가 변동되는 것을 고려하여 관측 지역 대수층의 유형과 특성 등이 완전히 파악되어야 한다. 필요시 기존 관정을 활용하여 관측하며 관측 항목, 관측 유형, 위치측량 및 관측 주기 등은 관측의 목적에 부합되도록 한다. 관측 데이터의 생성, 전송 및 분석 진행과정 등이 완벽하게 정립되어 데이터의 생성에서부터 활용까지 체계화되어야 하고 지하수와 지표수는 연계된 단일 수자원으로서 지하수 관측은 지표수 관측과 연계되어 설계되고 분석되어야 한다. 또한 취득된 데이터의 정확성은 지속적으로 검토 확인되어야 하며 전문가의 능력을 활용하여 관련 자료의 분석이 이루어지고 데이터의 정도를 높이기 위한 후속조치들이 병행되어야 한다. 그리고 지하수위, 수질 등 관측 자료가 자연적인 지하수 유동 체계에 의하여 변화되는 것이라고 인식될 경우에는 관측 시스템 전반을 재평가하여 보다 효율적인 관측 시스템으로 발전시켜야 한다.