Paper Title
DESIGNING OF STUCTURES WHICH CAUSE TORSIONAL IRRUGULARITIES AND PREVENTING THE CAUSE

Abstract
This research project focuses on employing STAAD Pro, a powerful structural analysis and design software, for the seismic analysis of structures. Earthquakes pose significant threats to the stability and safety of structures, making seismic analysis a critical aspect of structural engineering. The study aims to explore the capabilities of STAAD Pro in simulating seismic forces and predicting the dynamic response of various types of structures. The methodology involves the creation and modeling of diverse structures, including buildings and bridges, within the STAAD Pro environment. Different seismic loading conditions are applied to investigate the structural behavior under various earthquake scenarios. The software's advanced analytical features, such as modal analysis and response spectrum analysis, are utilized to assess the structures' dynamic response and seismic performance. Key parameters, such as displacements, accelerations, and inter-story drifts, are analyzed to evaluate the structures' vulnerability to seismic forces. The study also investigates the influence of key design parameters, material properties, and structural configurations on the seismic performance. Comparisons are made between different analysis methods and their implications on the design and retrofitting of structures in seismically active regions. The outcomes of this research contribute to the understanding of how STAAD Pro can be effectively employed for seismic analysis, aiding structural engineers in designing resilient structures that can withstand seismic events. The findings are valuable for both academic research and practical applications in the field of structural engineering, with potential implications for enhancing the seismic resilience of structures worldwide.