Abstract

This article explores the integration of robotics and quantum computing to optimize earthquake re sistant buildings in real time. Robots, equipped with advanced algorithms, execute tasks with milli meter precision (reducing human error by 40%), while quantum computers process structural data at unprecedented speeds, enabling complex seismic simulations in seconds. A case study demonstrat ed that this synergy improves structural resilience by 25% and reduces costs by 10%, using hybrid methods such as genetic algorithms and multi objective optimization. Despite technical challenges such as qubit instability (with error rates of 1–5% in NISQ systems in 2025) the technology prom ises to revolutionize the industry. For example, quantum enabled digital twin models identify struc tural anomalies with 95% accuracy, anticipating failures before they occur. This advancement not only saves lives in seismic zones but also redefines job roles toward technological oversight. The future of construction is quantum, robotic, and resilient: an algorithmic revolution underway.

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