8
PROJECT OUTLOOK
The current objective of the project is the establishment
of an underground laboratory in the “FLB Reiche Zeche”
in Freiberg, where the installation of the fiber-optic sen-
sor cables is scheduled for early 2025. Moreover, the exist-
ing DECOMDA communication system is undergoing an
expansion to guarantee the reliable data transmission of data
from the underground laboratory. The coupling of the four
individual models and integration in the AI-based hybrid
model presents a major milestone within the MOVIE proj-
ect. The AI-based hybrid model will serve as the core of the
digital twin and its visualization in the MOVIE projects
target software LiquidEarth One. As a base, the interfaces
are already defined. The remaining scheduled milestones
for 2025 include stability analysis and convergence tests, as
well as validation with initial data sets (retrospective as well
as from the underground laboratory) and the linking to real
time data stemming from the fiber-optic sensor cables.
ACKNOWLEDGMENTS
The project “MOdellkopplung im Kontext eines VIrtuellen
Untertagelabors und dessen Entwicklungsprozess -
MOVIE” is part of the research program “GEO:N -
Geosciences for Sustainability” on the topic “Digital
Geosystems: Virtual Methods and Digital Tools for
Geoscientific Applications” funded by the German Federal
Ministry of Education and Research (BMBF). GEO:N is
thus part of the BMBF program “Research for Sustainable
Development (FONA).” For the opportunity to realize this
project, the consortium thanks the BMBF and the project
management organization.
[Reference: 03G0921A/ 2024-01 till 2026-12]
REFERENCES
[1] Nowosad, S. Schubert geb. Bothe-Fiekert, M.
Langefeld, O. (2023). Blue Mining Strategically
Integrates Circular Economy. Glueckauf Mining
Reporter. 159. 581–593.
[2] Evans, D. Stephenson, M. Shaw, R. (2009). The
present and future use of ‘land’ below ground. Land Use
Policy.26. Supplement 1. 302–316. DOI: 10.1016
/j.landusepol.2009.09.015.
[3] Mischo, H. (Hrsg.) (2019). Entdecker unter Tage
1919-2019: 100 Jahre Forschungs- und Lehrbergwerk.
1. Auflage. Mitteldeutscher Verlag 2019.
[4] Noll, S. Mischo, H. Langefeld, O. (2016).
Optimierung der Grubenbewetterung mittels bedarfs-
gerechter Volumenstromsteuerung im Kammerbau: Am
Beispiel des Kalibergbaus in der flachen Lagerung.
[5] Zhang, L. Xu, L. Rai, L. (2018). High-precision
Ultrasonic Flowmeter for Mining Applications based on
Velocity-area. TELKOMNIKA (Telecommunication
Computing Electronics and Control). 16. 84.
DOI: 10.12928/telkomnika.v16i1.5185.
[6] Monsberger, C. Bauer, P. Buchmayer, F. Lienhart,
W. (2022). Large-scale distributed fiber optic sens-
ing network for short and long-term integrity moni-
toring of tunnel linings. Journal of Civil Structural
Figure 7. Visualization of meshed point cloud in target software LiquidEarth One. View from
outside (left) and inside (right) [Clausthal University of Technology]
PROJECT OUTLOOK
The current objective of the project is the establishment
of an underground laboratory in the “FLB Reiche Zeche”
in Freiberg, where the installation of the fiber-optic sen-
sor cables is scheduled for early 2025. Moreover, the exist-
ing DECOMDA communication system is undergoing an
expansion to guarantee the reliable data transmission of data
from the underground laboratory. The coupling of the four
individual models and integration in the AI-based hybrid
model presents a major milestone within the MOVIE proj-
ect. The AI-based hybrid model will serve as the core of the
digital twin and its visualization in the MOVIE projects
target software LiquidEarth One. As a base, the interfaces
are already defined. The remaining scheduled milestones
for 2025 include stability analysis and convergence tests, as
well as validation with initial data sets (retrospective as well
as from the underground laboratory) and the linking to real
time data stemming from the fiber-optic sensor cables.
ACKNOWLEDGMENTS
The project “MOdellkopplung im Kontext eines VIrtuellen
Untertagelabors und dessen Entwicklungsprozess -
MOVIE” is part of the research program “GEO:N -
Geosciences for Sustainability” on the topic “Digital
Geosystems: Virtual Methods and Digital Tools for
Geoscientific Applications” funded by the German Federal
Ministry of Education and Research (BMBF). GEO:N is
thus part of the BMBF program “Research for Sustainable
Development (FONA).” For the opportunity to realize this
project, the consortium thanks the BMBF and the project
management organization.
[Reference: 03G0921A/ 2024-01 till 2026-12]
REFERENCES
[1] Nowosad, S. Schubert geb. Bothe-Fiekert, M.
Langefeld, O. (2023). Blue Mining Strategically
Integrates Circular Economy. Glueckauf Mining
Reporter. 159. 581–593.
[2] Evans, D. Stephenson, M. Shaw, R. (2009). The
present and future use of ‘land’ below ground. Land Use
Policy.26. Supplement 1. 302–316. DOI: 10.1016
/j.landusepol.2009.09.015.
[3] Mischo, H. (Hrsg.) (2019). Entdecker unter Tage
1919-2019: 100 Jahre Forschungs- und Lehrbergwerk.
1. Auflage. Mitteldeutscher Verlag 2019.
[4] Noll, S. Mischo, H. Langefeld, O. (2016).
Optimierung der Grubenbewetterung mittels bedarfs-
gerechter Volumenstromsteuerung im Kammerbau: Am
Beispiel des Kalibergbaus in der flachen Lagerung.
[5] Zhang, L. Xu, L. Rai, L. (2018). High-precision
Ultrasonic Flowmeter for Mining Applications based on
Velocity-area. TELKOMNIKA (Telecommunication
Computing Electronics and Control). 16. 84.
DOI: 10.12928/telkomnika.v16i1.5185.
[6] Monsberger, C. Bauer, P. Buchmayer, F. Lienhart,
W. (2022). Large-scale distributed fiber optic sens-
ing network for short and long-term integrity moni-
toring of tunnel linings. Journal of Civil Structural
Figure 7. Visualization of meshed point cloud in target software LiquidEarth One. View from
outside (left) and inside (right) [Clausthal University of Technology]