• The KIPS Transactions:PartB
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• v.16B no.2
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• pp.173-180
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• 2009

The purpose of developing an automated scoring system for English composition is to score English writing tests and to give diagnostic feedback to the test-takers without human's efforts. The system developed through our research detects grammatical errors of a single sentence on morphological, syntactic and semantic stages, respectively, and those errors are calculated into the final score. The error detecting stages are independent from one another, which causes duplicating the identical errors with different labels at different stages. These duplicated errors become a hindering factor to calculating an accurate score. This paper presents a solution to detecting the duplicated errors and improving an accuracy in calculating the final score by eliminating one of the errors.

• Journal of KIISE:Information Networking
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• v.29 no.3
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• pp.277-285
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• 2002

This paper proposes and analyzes an error control scheme for the transmission control based real-time communication, such as FDDI, TDMA, and wireless LAN, which delivers the message according to the round robin fashion after the off-line bandwidth allocation. Taking into account the time constraint of each message, the proposed error control scheme makes the receiver transmit the error report via asynchronous traffic while the sender resend the requested message via overallocated access time which is inevitably introduced by the bandwidth allocation procedure for hard real -time guarantee. The error control procedure does not interfere other real -time message transmissions. In addition, as each frame contains the size of the message it belongs, the receiver can recognize the end of completion of message transmission. This enables earlier error report to the receiver so that the sender can cope with more network errors. The analysis results along with simulation performed via SMPL show that the proposed scheme is able to enhance the deadline meet ratio of messages by overcoming the network errors. Using the proposed error control scheme, the hard real -time network can be built at cost lower than, but performance comparable to the expensive dual link network.

• ETRI Journal
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• v.14 no.4
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• pp.148-164
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• 1992

본 논문에서는 TDX-10 데이터베이스 데이터의 고장을 주기적으로 진단하고 복구할 수 있는 고장진단 전문가 시스팀을 제안하고 구현하였다. 실시간 환경 및 분산구조를 갖는 데이터베이스 관리 시스팀에서 데이터베이스의 효과적인 접근을 위해서 필요한 데이터베이스의 데이터 즉, 디렉토리와 딕셔너리는 매우 중요하며 고장이 발생할 경우 데이터베이스 관리시스팀에 미치는 영향은 치명적이다. 따라서, 실시간 환경을 갖는 데이터베이스 관리 시스팀에서 데이터베이스 데이터에 대한 고장 진단 및 복구는 필수적이라고 할 수 있다. 본 논문에서 제안한 고장진단 전문가 시스팀은 데이터베이스 데이터를 운용중 변하는 부분과 변하지 않는 부분으로 분류하고 미리 주어진 고장진단 규칙에 따라 진단하는 방법이다. 데이터베이스 데이터의 고장진단 데이터, 고장진단 규칙, 고장진단 데이터 생성기, 고장진단 데이터 검증기, 그리고 고장진단기로 구성되어 있다. 고장진단 데이터는 고장진단기가 데이터베이스 데이터를 주기적으로 진단하기 위하여 사용하는 마스터 데이터로서 두개가 존재한다. 고장진단 데이터 생성기는 데이터베이스 데이터의 고장진단을 위한 데이터 구조를 생성하고 데이터베이스로부터 데이터베이스를 데이터를 중복하여 읽어들이는 역할을 한다. 이와 같은 과정은 시스팀이 초기에 동작을 시작하거나 운용중 운용자에 의해서 릴레이션의 추가 및 삭제, 그리고 튜플의 추가등과 같은 사건이 발생할 경우에 이루어진다. 데이터베이스 검증기는 고장진단 데이터 생성기가 중복하여 생성한 데이터에 대해서 데이터베이스 데이터의 제작시의 초기 오류를 검증해냄으로써 데이터베이스 관리 시스팀의 안전한 운용을 가능하게 하며 고장진단기가 데이터베이스 데이터를 주기적으로 진단할 데이터를 탄생시킨다. 마지막으로 고장진단기는 주기적으로 데이터베이스 데이터의 고장을 진단하여 고장이 발생한 데이터를 미리 분류한 규칙에 따라 원래의 데이터로 복구하거나 운용자에게 보고함으로써 고장에 대비하도록 한다. 그리고 데이터베이스 상의 운용자에 의한 변경을 감지하여 고장진단 데이터의 재생성을 지시한다. 본 논문에서 제시하고 구현한 데이터베이스 데이터의 고장진단 및 복구를 위한 전문가 시스팀은 실시간 환경과 고장허용 환경, 분산 구조 그리고 빈번한 접근을 갖는 데이터베이스 관리 시스팀에서 아주 중요한 역할을 할 수 있다.

• Research in Plant Disease
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• v.29 no.4
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• pp.331-344
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• 2023

More than a year has passed after the 6th edition of 'List of Plant Diseases in Korea (LPDK)' was published in April 2022. The 6.1st edition (2023) of List of Plant Diseases in Korea was made by correcting errors found in the 6th edition of list and adding new diseases reported after the 6th edition. There were 397 corrections from the 6th edition, most of which were simple spelling errors or minor issues. However, 12 diseases were deleted due to duplication or unclear literature proof, and 2 diseases had their diseases' common names changed. We added 158 diseases that were reported before 2021 but not included in the 6th edition, or reported after the 6th edition. After all, 146 diseases were added to the 6,534 diseases in the 6th edition, resulting in a total of 6,680 diseases in the 6.1st edition. Thirty host taxa were also added, increasing the number from 1,390 in the 6th edition to 1,420 in the 6.1st edition. Pathogens were also added to 62 taxa, from 2,400 in the 6th edition, bringing the total to 2,462 taxa in the 6.1st edition. Ultimately, the 6.1st edition (2023) of 'The List of Plant Diseases in Korea' contains 6,680 diseases caused by pathogens of 2,462 taxa on 1,420 hosts. The 6.1st edition is not printed as a book, but is provided through the online 'List of Plant Diseases in Korea' (https://genebank. rda.go.kr/kplantdisease.do).

• The Journal of the Petrological Society of Korea
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• v.22 no.2
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• pp.83-115
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• 2013

Erroneous fission-track (FT) ages caused by an inappropriate calibration in the initial stage of FT dating were redefined by re-experiments and zeta calibration using duplicate samples. Revised FT zircon ages newly define the formation ages of Yucheon Group rhyolitic-dacitic tuffs as Late Cretaceous to Early Paleocene ($78{\pm}4$ Ma to $65{\pm}2$ Ma) and Gokgangdong rhyolitic tuff as Early Eocene ($52.1{\pm}2.3$ Ma). In case of the Early Miocene volcanics, FT zircon ages from a dacitic tuff of the upper Hyodongri Volcanics ($21.6{\pm}1.4$ Ma) and a dacitic lava of the uppermost Beomgokri Volcanics ($21.3{\pm}2.0$ Ma) define chronostratigraphies of the upper Beomgokri Group, respectively in the southern Eoil Basin and in the Waeup Basin. A FT zircon age ($19.8{\pm}1.6$ Ma) from the Geumori dacitic tuff defines the time of later dacitic eruption in the Janggi Basin. Based on FT zircon ages for dacitic rocks and previous age data (mostly K-Ar whole-rock, partly Ar-Ar) for basaltic-andesitic rocks, reference ages are recommended as guides for stratigraphic correlations of the Miocene volcanics and basements in SE Korea. The times of accumulation of basin-fill sediments are also deduced from ages of related volcanics. Recommended reference ages are well matched to the whole stratigraphic sequences despite complicated basin structures and a relative short time-span. The Beomgokri Group evidently predates the Janggi Group in the Eoil-Waeup basins, while it is placed at an overlapped time-level along with the earlier Janggi Group in the Janggi Basin. Therefore, the two groups cannot be uniformly defined in a sequential order. The Janggi Group of the Janggi Basin can be evidently subdivided by ca. 20 Ma-basis into two parts, i.e., the earlier (23-20 Ma) andesitic-dacitic and later (20-18 Ma) basaltic strata.