Affiliation
China University of Geosciences (Beijing)
Education
In 1978, he majored in hydrology and engineering geology in Hebei Institute of Geology (now Hebei University of Geology), and was later sent to Study in Changchun Institute of Geology (now Jilin University). He received his bachelor's degree from Changchun Institute of Geology (now Jilin University) in 1982 and his master's degree from the same university in 1985. In 1991, he went to Canada to study. In 1994, he received his PhD degree in geosciences from the University of Ottawa as the "Best Graduate". From 1994 to 1995, he worked as a postdoctoral fellow at the Canadian Ministry of Energy.
Work Experience
He became an assistant professor at York University in Canada in 1995 and was promoted to professor in January 2002. China university of geosciences, introduced in 2002 for distinguished professor, formed in 2004 as a director of the laboratory for the national key laboratory of geological processes and mineral resources and be successful, in 2005 won the national outstanding youth science fund, in 2006 led to apply for the Ministry of Education advantage discipline innovation platform "earth system process and mineral resources" and achieve success, In 2007, I applied for the Innovation Team of the Ministry of Education as an academic leader and was successful.
Achievement
Cheng qiuming has been engaged in quantitative geological research for a long time, and established the singularity theory of geological process and nonlinear quantitative prediction theory and method system of mineral resources. He discovered that the mass and energy density of complex geological events such as mineralization, earthquake and volcano generally had fractal distribution law, proposed a new concept of "fractal density", established a "densive-scale" fractal model, and deduced the "singularity index" to measure the intensity of the extraordinary accumulation of matter and the huge release of energy in complex geological processes. New technologies such as complex background and superimposed anomaly separation, weak information extraction and multi-source information fusion have been developed to achieve quantitative characterization and simulation of singular event structure, law and process, as well as quantitative prediction of overburden area and deep mineral resources, opening up a new field of geoscience big data analysis. Its achievements have been widely used at home and abroad, and have achieved significant prospecting results. It is highly praised by the international earth science community as "successfully advancing the application of nonlinear theory in solid earth science, which is of great significance not only to earth science, but also to physics and mathematics". In 2008, he won the International Association of Mathematical Geosciences (IAMG) 's highest award -- The Crumbing Prize, and in 2013, he won the Second prize of The National Science and Technology Progress award.
Resources Type
Self-built
