地质工程学的风险或许太高,但是在探索的道路上已经花费了太多财力。
Geo-engineering may turn out to be too risky, however much is spent on researching it.
信号处理、成像、医学成像、地质学、生物信息学、编码理论、信息论、控制系统……它几乎已经扩散到每一个工程学科与领域。
Signal processing, imaging, medical imaging, geology, bioinformatics, coding theory, information theory, control systems... It has been disseminated to almost every engineering field.
它由几十个来自地震学、地质学、测地学、古地震学、地震物理学以及地震工程学等多个领域的首席科学家研究和开发。
It was developed and reviewed by dozens of leading scientific experts from the fields of seismology, geology, geodesy, paleoseismology, earthquake physics and earthquake engineering.
地质工程要求你掌握工程学的一般规律去探索、提炼并了解地球的资源。
Geological engineering applies the principles of engineering to explore, extract, and understand the resources of the earth.
海洋沉积动力学正在打破传统,走向海洋工程学、物理海洋学和地质学的联合,共同建立一门综合性的、统一的沉积动力学。
Significant progress in the establishment of a unified Marine sediment dynamics has been made through the joint effort by physical oceanographers, coastal engineers and Marine geologists.
海洋沉积动力学正在打破传统,走向海洋工程学、物理海洋学和地质学的联合,共同建立一门综合性的、统一的沉积动力学。
Significant progress in the establishment of a unified Marine sediment dynamics has been made through the joint effort by physical oceanographers, coastal engineers and Marine geologists.
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