교육.훈련

피앤에스컨설팅은 ‘PSHA’ 교육과정을 제공합니다.

이 과정은 4일 과정으로서 대면 강의로 이루어집니다(상세과정 보기).

교육방법: 대면 강의

교육기간: 매년 3/4분기

교육장소: 기간 확정 후 공지

준비물: 노트북

교 육 비

- 일반: 2,000,000원/인
- 학생: 500,000원/인

참고

SeisHaz_GUI를 구매한 경우 3인까지 무료

참가신청

교육 시작 1주 전까지 참가자 이름으로 교육비를 계좌입금(우리은행 1005-604-735789, 주식회사 피앤에스컨설팅) 및 참가신청서 를 메일로 통지(pnsol2023@gmail.com).

입금자 이름은 참가자와 같아야 함

학생(학부생, 대학원생)의 경우 재학증명서를 메일에 첨부

일차	강의 내용
1일 차	Preparation for training Program download & installation Seismic hazard analysis DSHA PSHA Uncertainties Aliatory uncertainty Epistemic uncertainty PSHA theory Elementary probability theory Integration of aliatory uncertainty Integration of epistemic uncertainty PSHA inputs Seismic source & source model Classification of seismic sources Determination of seismicity parameters
2일 차	Practice I SeisHazCal user’s manual Practice with Test Set I Practice with Test Set II
3일 차	Practice II SeisHazPrPr user’s manual Practice with Test Set III Seismic hazard mapping
4일 차	Performance-based approach Theory Example analysis Seismic hazard calculation Construction of seismic hazard curves Hazard de-aggregation & controlling earthquakes Uniform hazard spectra Evaluation of GMRS
5일 차	Comparison of GMPEs DrawGMM user’s manual Example analysis - NGA West 2 GMPEs

일차	강의 내용
1일 차	Preparation for training Program download & installation Fundamental statistics Probability theory Sample mean & variance Frequently used distributions Special topics (order statistics, one function of two random variables, central limit theorem) Distribution of sample mean & variance Probabilistic estimation Interval estimation Point estimation (maximum likelihood method, method of moments, least-squares method) Statistical test Statistical hypotheses Error types Test Procedure Test examples (population mean, population variance, distributions) Monte Carlo Simulation Parametric function Transform method Rejection method
2일 차	Preparation of earthquake catalogs Origin parameters Integration of earthquake catalogs Completeness analysis of earthquake catalogs Background Categories of completeness analysis methods Catalog-based completeness analyses: six methods Magnitude distribution models Exponential model Characteristic earthquake model Characterization of seismic sources Types of seismic sources and their parameters
3일 차	Estimation of the Richter-b Estimation of earthquake occurrence rates Estimation of Mmax: 11 methods Iterative scheme for the simultaneous estimation Use of geologic & geodetic information Estimation of Mmax Estimation of earthquake occurrence rates Topical issues Effect of catalog integration Earthquake double-counting Practice with SeisParEst User manual Seismic source specific catalog: culling earthquakes Evaluation of catalog completeness (6 methods) 11 methods for evaluation of seismic source characteristics Interpretation & use of evaluation results

교육.훈련

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