ارزیابی هوشمند آسیب و پیش بینی طیف آسیب لرزه‌یی تحت اثر زلزله های نزدیک گسل در ایران

پیش‌بینی طیف آسیب لرزه‌‌یی یک سازه، که هر دو ویژگی سازه‌‌یی و زلزله را در بر می‌گیرد، در زمان طراحی سازه‌های جدید و هم برای ارزیابی تاب‌آوری سازه‌های موجود، اهمیت زیادی دارد. هدف پژوهش حاضر، ارزیابی دقیق آسیب و پیش‌بینی طیف آسیب لرزه‌‌یی تحت اثر زلزله‌های ایران با استفاده از برنامه‌نویسی بیان ژن است. برای این منظور، یک سیستم یک درجه‌ی آزادی غیرکشسان تحت مجموعه‌‌یی از رکوردهای زلزله‌های ایران برای محاسبه‌ی آسیب طیفی ‏استفاده شده است. سپس با استفاده از برنامه‌نویسی بیان ژن، مدل ریاضی صریح با تعریف یک تابع برازندگی برای آن استخراج و همچنین، شاخص آسیب پارک- انگ برای تعیین کمیت طیف آسیب استفاده شده است. هر دو ویژگی سازه‌‌یی و زلزله در پیش‌بینی مدل‌ طیف آسیب لرزه‌‌یی ‏نقش خواهند داشت. در انتها، یک معادله‌ی ساده‌شده برای اندازه‌گیری طیف آسیب لرزه‌‌یی سازه‌ها، برای حرکت‌های زمین در ایران، که هر دو ویژگی را در بر می‌گیرد، پیشنهاد شده ‌است.

intelligent assessment of damage and prediction of seismic damage spectrum under the effect of near-fault earthquakes in iran

predicting seismic damage spectra and capturing both structural and earthquake features are crucial for the design of new buildings and also for the resilience evaluation of existing ones. the research objective of this article is to accurately assess and predict the seismic damage spectrum caused by earthquakes in iran using gene expression programming. gene expression programming is a method for learning and optimization rooted in genetic principles and molecular biology. for this purpose, a single-degree-of-freedom nonlinear system is considered, along with a collection of earthquake records from iran, for the exact computation of the damage spectrum. subsequently, a mathematical model is developed by applying gene expression programming and genetic programming algorithms. the park-ang damage index is used to compute the seismic damage or damage spectra level. both the structural characteristics and seismic properties are significant factors in predicting the seismic damage spectrum model. finally, a simplified equation has been suggested for assessing the potential seismic damage spectrum of the structures exposed to ground motions in iran, capturing both structural and earthquake features. this study demonstrates the significant impact of structural and seismic parameters on the seismic damage spectrum, highlighting that an increase in the resistance reduction factor correlates with a rise in damage spectrum across structures of varying vibration periods. the changes in the damage spectrum indicate that as the ductility coefficient increases, the spectral damage decreases. the impact of the damping ratio on sdof systems in the damage spectrum demonstrates that an increase in the damping ratio leads to an increase in the damage spectrum. the effects of the post-yield stiffness ratio in sdof systems for the damage spectrum showed that a higher stiffness ratio results in the structure exhibiting less damage. the relationship between the park-ang index constant and the damage spectrum is such that an increase in the park-ang index constant leads to a corresponding rise in the damage spectrum. the influence of soil type on the damage spectrum is comparatively less significant than the impacts of the other parameters discussed.