@article { author = {Charoosaei, Solmaz and Khayat, Navid and Mahdavi Adeli, Mehdi}, title = {Evaluation of Mathematical Relationships of Shear Wave Velocity and Standard Penetration Test Results with Bayesian Statistics Approach}, journal = {Bulletin of Earthquake Science and Engineering}, volume = {6}, number = {4}, pages = {37-51}, year = {2019}, publisher = {International Institute of Earthquake Engineering and Seismology}, issn = {2476-6097}, eissn = {2476-6100}, doi = {}, abstract = {Shear wave velocity is one of the most important geophysical parameters in which the seismic response of the sites is expressed. This seismic parameter gives valuable information about the project site, but since geophysical tests are usually expensive and time consuming, the use of indirect methods to reduce costs is increasing. Much research has been done in different regions of the world, in most of them have used both simple power equations and multiple power equations to derive equations. However, in this paper, a comprehensive study is conducted to evaluate the effects of standard penetration number and depth on shear wave velocity estimation as one of the most important soil dynamic parameters with Bayesian statistics approach. In summary, data from 28 boreholes drilled in three cities of Hormozgan province were collected. The collected data were subdivided into four main categories of all soils: clay soils, silty soils, sandy and gravel soils. In this way, the researchers identified 8 variables and 13 functions with the help of Bayesian statistics to determine the mathematical functions with greater reliability, taking into account standard penetration number, depths or a combination of both. The results of this analysis showed that the standard penetration number parameter alone for all soils and classifications as well as simple and multiple power equations are not the best parameter and equations in predicting shear wave velocity, respectively. Other results can be pointed out that soil clustering is not always the most effective factor in estimating shear wave velocity. Finally, it is suggested that if the correlation equation is defined on the basis of standard penetration number with higher confidence percentage, the equation will be extracted by intervals from standard penetration number. In addition, despite the results, it should be noted that these equations have been developed for a specific site and these results should be used with regard to site specific arrangements with other geotechnical conditions.}, keywords = {Shear wave velocity,SPT,Statistical Correlation,Bayesian Statistics}, title_fa = {ارزیابی روابط ریاضی سرعت موج برشی و نتایج آزمون نفوذ استاندارد با رویکرد آمار بیزین}, abstract_fa = {سرعت موج برشی به‌عنوان یکی از مهم‌ترین پارامترهای ژئوفیزیکی می‌باشد که پاسخ لرزه‌ای سایت‌ها در قالب آن بیان می‌شود. این پارامتر لرزه‌ای اطلاعات ارزشمندی راجع به ساختگاه پروژه را می‌دهد اما ازآنجایی‌که آزمایش‌های ژئوفیزیکی معمولاً گران و زمان‌بر هستند استفاده از روش‌های غیر مستقیم به‌منظور کاهش هزینه‌ها رو به افزایش است. تحقیقات زیادی دراین‌باره در مناطق مختلف جهان انجام شده است که در اکثریت آنها از دو معادله توانی ساده و توانی چندگانه جهت استخراج معادلات استفاده کرده‌اند. اما این تحقیق با استفاده از توابع جدید تعریف شده توسط آمار بیزین نشان داده است که معادلاتی با اعتباری به‌مراتب بیشتر از روابط موجود در سوابق تحقیق می‌توانند جهت تخمین سرعت موج برشی به‌کار گرفته شوند.}, keywords_fa = {سرعت موج برشی,آزمون نفوذ استاندارد,همبستگی آماری,آمار بیزین}, url = {http://www.bese.ir/article_240412.html}, eprint = {http://www.bese.ir/article_240412_92c7d8f474f7594b772349f04e78ab71.pdf} }