TY - GEN
T1 - Spatial distribution analysis of seismic activity occurred in the Cocos plate, Mexico
AU - Patiño, J.
AU - Balankin, A.
AU - Patiño, M.
AU - Badillo, I.
AU - Padilla, D.
AU - González, J. L.
PY - 2012
Y1 - 2012
N2 - Currently, it has not been fully understand the process that generates seismic activity and under what laws it operates, which has led to analysis from different perspectives and approaches to understand the phenomenon, that is why, in this research, the goal is to analyze the spatial distribution of seismic activity occurred in the Cocos Plate, located in Mexico with various techniques and methods among which are Fractal mechanics, some seismic scaling laws and the spatial distances of seismic events occurred in the said plate. That, in order to find some parameters that let define whether there is any relationship between the places of occurrence of the next event with previous events. This would help in moving towards earthquake prediction. Within the large number of seismic events, it can be observed that even though big events have little statistical weight (10-bM), the radiating energy (103M / 2) that they release grows faster than what it decays and although large earthquakes are rare events, they are the ones that determine the energy dissipation in the system, and are therefore those with the greatest destructive potential for populations that are located in seismic areas and therefore are certainly of interest to science.
AB - Currently, it has not been fully understand the process that generates seismic activity and under what laws it operates, which has led to analysis from different perspectives and approaches to understand the phenomenon, that is why, in this research, the goal is to analyze the spatial distribution of seismic activity occurred in the Cocos Plate, located in Mexico with various techniques and methods among which are Fractal mechanics, some seismic scaling laws and the spatial distances of seismic events occurred in the said plate. That, in order to find some parameters that let define whether there is any relationship between the places of occurrence of the next event with previous events. This would help in moving towards earthquake prediction. Within the large number of seismic events, it can be observed that even though big events have little statistical weight (10-bM), the radiating energy (103M / 2) that they release grows faster than what it decays and although large earthquakes are rare events, they are the ones that determine the energy dissipation in the system, and are therefore those with the greatest destructive potential for populations that are located in seismic areas and therefore are certainly of interest to science.
KW - Earthquakes
KW - Fractal dimension
KW - Spatial distribution
KW - Statistical distribution
KW - Time of recurrence
UR - http://www.scopus.com/inward/record.url?scp=84886872955&partnerID=8YFLogxK
M3 - Contribución a la conferencia
AN - SCOPUS:84886872955
SN - 9781627485784
T3 - 56th Annual Meeting of the International Society for the Systems Sciences 2012, ISSS 2012: Service Systems, Natural Systems
SP - 568
EP - 577
BT - 56th Annual Meeting of the International Society for the Systems Sciences 2012, ISSS 2012
T2 - 56th Annual Meeting of the International Society for the Systems Sciences 2012: Service Systems, Natural Systems, ISSS 2012
Y2 - 15 July 2012 through 20 July 2012
ER -