Why are laser measurements preferred in structural analysis?

Laser measurements are preferred in structural analysis primarily because they provide more accurate and precise measurements compared to traditional methods. This accuracy is crucial in structural analysis as even minor errors can lead to significant consequences, such as improperly calculated loads or misjudgment in the structural integrity of a building. The technology involved in laser measurement allows for the capture of detailed geometrical data and the ability to measure distances with a high degree of precision, which is essential in assessing the condition and alignment of structural components.

In addition, laser measurements often include features such as real-time data capture and the ability to take measurements from difficult angles or distances, which enhances accuracy further. This high level of precision reduces the likelihood of human error associated with manual measurements and increases the reliability of the data used for damage assessment and structural repairs. Thus, the preference for laser measurements in structural analysis is firmly rooted in their ability to deliver superior accuracy and precision, which are critical for effective evaluation and decision-making in engineering practices.