Add to ORKGInternational audiencePassive microseismics is a well developed technique that has gained importance in petroleum exploration operations as well as in geohazard assessment. When applied in complex geological environments, it requires advanced processing capabilities to ensure useful accuracy in the source location and characterization. Here we investigate a fast marching method to determine the travel-time field, rays and ray take-off angles in complex 3D media, for application with a direct-search event location method. We then illustrate and discuss the potential of the chosen methodology in the mining context. This methodology allows improvements in acoustic monitoring of large-scale underground mines by taking into account the intrinsic...
International audienceIn order to improve our understanding of hazardous underground cavities, the d...
Multiple studies have demonstrated the efficiency of automatic full waveform-based detection and loc...
Monitoring of unstable rock slopes is a promising application of passive microseismics. Hypocentre l...
International audienceThe monitoring of mine induced seismicity and rockburst hazard can be carried ...
Installation of local high resolution microseismic networks in the vicinity of hazardous mining fron...
Accuracy of source locations of microseismic spatial swarms monitored in the vicinity of underground...
International audienceIn France, decades of coal and iron-ore mining have left extensive underground...
Abstract – In France, decades of coal and iron ore mining have left extensive underground cavities b...
Recent studies have demonstrated the success of automatic full-waveform detection and location metho...
Monitoring seismic activity in mines, produced by high stress faults in the vicinity of the mining o...
Microseismic source location is the essential factor in microseismic monitoring technology, and its ...
International audienceGround failures, caving processes and collapses of large natural or man-made u...
International audienceIn order to improve our understanding of hazardous ground failures, caving pro...
ABSTRACT: At the Provence colliery, France, the remote microseismie monitoring used for the preventi...
International audienceIn order to improve our understanding of hazardous underground cavities, the d...
Multiple studies have demonstrated the efficiency of automatic full waveform-based detection and loc...
Monitoring of unstable rock slopes is a promising application of passive microseismics. Hypocentre l...
International audienceThe monitoring of mine induced seismicity and rockburst hazard can be carried ...
Installation of local high resolution microseismic networks in the vicinity of hazardous mining fron...
Accuracy of source locations of microseismic spatial swarms monitored in the vicinity of underground...
International audienceIn France, decades of coal and iron-ore mining have left extensive underground...
Abstract – In France, decades of coal and iron ore mining have left extensive underground cavities b...
Recent studies have demonstrated the success of automatic full-waveform detection and location metho...
Monitoring seismic activity in mines, produced by high stress faults in the vicinity of the mining o...
Microseismic source location is the essential factor in microseismic monitoring technology, and its ...
International audienceGround failures, caving processes and collapses of large natural or man-made u...
International audienceIn order to improve our understanding of hazardous ground failures, caving pro...
ABSTRACT: At the Provence colliery, France, the remote microseismie monitoring used for the preventi...
International audienceIn order to improve our understanding of hazardous underground cavities, the d...
Multiple studies have demonstrated the efficiency of automatic full waveform-based detection and loc...
Monitoring of unstable rock slopes is a promising application of passive microseismics. Hypocentre l...