This work is licensed under the Creative Commons Attribution 4.0 International License.
Fuławka, K., Pytel, W., Szumny, M., Mertuszka, P., Pałac-Walko, B., Hartlieb, P., Jakić, M., Nöger, M., (2022). Prototype of Instrumented Rock Bolt for Continuous Monitoring of Roof Fall Hazard in Deep Underground Mines. Sensors, 23(1), 154. https://doi.org/10.3390/s23010154.FuławkaK.PytelW.SzumnyM.MertuszkaP.Pałac-WalkoB.HartliebP.JakićM.NögerM.2022Prototype of Instrumented Rock Bolt for Continuous Monitoring of Roof Fall Hazard in Deep Underground MinesSensors231154https://doi.org/10.3390/s23010154.Search in Google Scholar
Fuławka, K., Stolecki, L., Szumny, M., Pytel, W., Jaśkiewicz-Proć, I., Jakić, M., Nöger, M., Hartlieb, P., (2022). Roof Fall Hazard Monitoring and Evaluation—State-of-the-Art Review. Energies, 15(21), 8312. https://doi.org/10.3390/en15218312FuławkaK.StoleckiL.SzumnyM.PytelW.Jaśkiewicz-ProćI.JakićM.NögerM.HartliebP.2022Roof Fall Hazard Monitoring and Evaluation—State-of-the-Art ReviewEnergies15218312https://doi.org/10.3390/en15218312Search in Google Scholar
Mao, J.Z., Zuo, G., (2017). Modeling method of FLAC3D based on RHINO-KUBRIX and deformation analysis of tunnel lining structure. Advances in Engineering Research, 112, pp. 520–528.http://doi.org/10.2991/icreet-16.2017.87.MaoJ.Z.ZuoG.2017Modeling method of FLAC3D based on RHINO-KUBRIX and deformation analysis of tunnel lining structureAdvances in Engineering Research112520528http://doi.org/10.2991/icreet-16.2017.87.Search in Google Scholar
Wang, S., Zhang, Q., (2010). A Coupling Modeling Method with MIDAS/GTS-FLAC 3D and Its Application. Journal of Civil, Architectural & Environmental Engineering, 32(1), pp. 12–17.WangS.ZhangQ.2010A Coupling Modeling Method with MIDAS/GTS-FLAC 3D and Its ApplicationJournal of Civil, Architectural & Environmental Engineering3211217Search in Google Scholar
Kajzar, V., Kukutsch, R., Heroldová, N., (2015). Verifying the possibilities of using a 3D laser scanner in the mining underground. Acta Geodynamica et Geomaterialia 12(1), 177.https://doi.org/10.13168/AGG.2015.0004KajzarV.KukutschR.HeroldováN.2015Verifying the possibilities of using a 3D laser scanner in the mining undergroundActa Geodynamica et Geomaterialia121177https://doi.org/10.13168/AGG.2015.0004Search in Google Scholar
Maciaszek, J., Gawałkiewicz, R., Gawałkiewicz, I., (2010). Od modelu do numerycznej mapy przestrzennej. Geologia, 36(3), pp. 331–344. (in polish)MaciaszekJ.GawałkiewiczR.GawałkiewiczI.2010Od modelu do numerycznej mapy przestrzennejGeologia363331344(in polish)Search in Google Scholar
Janus, J., Ostrogórski, P. (2022). Underground Mine Tunnel Modelling Using Laser Scan Data in Relation to Manual Geometry Measurements. Energies 15(7), 2537.https://doi.org/10.3390/en15072537JanusJ.OstrogórskiP.2022Underground Mine Tunnel Modelling Using Laser Scan Data in Relation to Manual Geometry MeasurementsEnergies1572537https://doi.org/10.3390/en15072537Search in Google Scholar
Fekete, S., Diederichs, M., Lato, M. (2010). Geotechnical and operational applications for 3-dimensional laser scanning in drill and blast tunnels. Tunnelling and Underground Space Technology 25(5), pp.614–628.https://doi.org/10.1016/j.tust.2010.04.008FeketeS.DiederichsM.LatoM.2010Geotechnical and operational applications for 3-dimensional laser scanning in drill and blast tunnelsTunnelling and Underground Space Technology255614628https://doi.org/10.1016/j.tust.2010.04.008Search in Google Scholar
Cieślik, J., Flisiak, J., Tajduś, A., (2009). Analiza warunków stateczności wybranych komór KS „Wieliczka” na podstawie przestrzennych obliczeń numerycznych. Górnictwo i Geoinżynieria, 33(3/1), pp. 91–102 (in polish)CieślikJ.FlisiakJ.TajduśA.2009Analiza warunków stateczności wybranych komór KS „Wieliczka” na podstawie przestrzennych obliczeń numerycznychGórnictwo i Geoinżynieria333/191102(in polish)Search in Google Scholar
D’Obryn, K., Hydzik-Wiśniewska, J., (2013). Selected aspects of numerical modelling of the salt rock mass: the case of the „Wieliczka” salt mine. Archives of Mining Sciences, Vol. 58 (2013), No 1, p. 73–88. DOI:10.2478/AMSC-2013-0005D’ObrynK.Hydzik-WiśniewskaJ.2013Selected aspects of numerical modelling of the salt rock mass: the case of the „Wieliczka” salt mineArchives of Mining Sciences5820131738810.2478/AMSC-2013-0005Open DOISearch in Google Scholar
D’Obryn, K., Hydzik-Wiśniewska, J., (2017). Assessment of rock mass stability in the historic area of levels IV-V of the „Wieliczka” salt mine of the „Wieliczka” salt mine. Archives of Mining Sciences, Vol. 62, No 1, p. 189–202. DOI 10.1515/amsc-2017-0014D’ObrynK.Hydzik-WiśniewskaJ.2017Assessment of rock mass stability in the historic area of levels IV-V of the „Wieliczka” salt mine of the „Wieliczka” salt mineArchives of Mining Sciences62118920210.1515/amsc-2017-0014Open DOISearch in Google Scholar
Bock, S., (2015) New open-source ANSYS-SolidWorks-FLAC3D geometry conversion programs. Journal of sustainable mining, 14, pp. 124–132https://doi.org/10.1016/j.jsm.2015.11.002BockS.2015New open-source ANSYS-SolidWorks-FLAC3D geometry conversion programsJournal of sustainable mining14124132https://doi.org/10.1016/j.jsm.2015.11.002Search in Google Scholar
Madziarz, M. (2012). Historical ore mining sites in Lower Silesia (Poland) as geo-tourism and industrial tourism attraction. International Twin Conference GEOTOUR & IRSE 2012 Geoparks, Geoheritage and Geoconservation IRSE: History of Central European Mining, Salgótarján, Hungary 04–06 October.https://doi.org/10.13140/RG.2.1.3702.4803MadziarzM.2012Historical ore mining sites in Lower Silesia (Poland) as geo-tourism and industrial tourism attractionInternational Twin Conference GEOTOUR & IRSE 2012 Geoparks, Geoheritage and Geoconservation IRSE: History of Central European Mining, SalgótarjánHungary04–06 Octoberhttps://doi.org/10.13140/RG.2.1.3702.4803Search in Google Scholar
Pytel, W., Fuławka, K., Pałac-Walko, B., Mertuszka, P., (2023). Numerical and Analytical Determination of Rockburst Characteristics: Case Study from Polish Deep Copper Mine. Applied Sciences, 13(21), 11881. https://doi.org/10.3390/app132111881PytelW.FuławkaK.Pałac-WalkoB.MertuszkaP.2023Numerical and Analytical Determination of Rockburst Characteristics: Case Study from Polish Deep Copper MineApplied Sciences132111881https://doi.org/10.3390/app132111881Search in Google Scholar
CloudCompare - Open Source project. 3D point cloud and mesh processing software.CloudCompare - Open Source project3D point cloud and mesh processing softwareSearch in Google Scholar
Trimble Inc.: Laser scanner TX8 technical data sheetTrimble Inc.Laser scanner TX8 technical data sheetSearch in Google Scholar
Trimble RealWorks - Trimble Geospatial. Point cloud processing and analysis software for 3D laser scanning professionals.Trimble RealWorks - Trimble GeospatialPoint cloud processing and analysis software for 3D laser scanning professionalsSearch in Google Scholar