Webinar Recording - Introducing RocSlope Features & Applications
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- Опубликовано: 18 сен 2024
- Presented by Angela Li, Geotechnical Software Developer and Project Manager at Rocscience, this webinar introduced RocSlope, our brand-new 3D Block Stability Risk Assessment program on July 12th, 2023.
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Very informative. I will request trial version for practice.
Excellent
Thank you, we are glad that you enjoyed it!
Muy bueno
What are the recomnended file types when importing the Geometry. I tried dxf and it the option to set as external was not highlighted in the Geometry section pull down.
refer to 47.27 of the video
Hello,
If it’s a closed volume, it can be set as External. If it’s a surface, you can instead, Create External from Surface (this will take the surface and extrude it down with a flat bottom to create a volume). Both options are available from the geometry menu. We have a tutorial here that maybe helpful: www.rocscience.com/help/rocslope/tutorials/tutorials-overview/01-quick-start
However, if you require further assistance, you can reach out to us here: www.rocscience.com/support/get-support
Thank you!
Thank you
it would be more powerful application if combined with drone photogrammetry mapping
Hello,
RocSlope and all other 3D Rocscience software accommodate photogrammetry in several ways.
Data from photogrammetry or LiDAR can be imported into RocSlope for the construction of 3D slope geometry. A list of the accommodated geometry formats is available here: www.rocscience.com/help/rocslope/documentation/geometry/import-export/import-geometryg
The imported geometry can take the form of a volume, a surface, contours/polylines, or a point cloud. We provide tools that can generate a closed volume from any of these geometry types. For instance, if the imported geometry is already a closed volume, it can be designated as "Set as External" and utilized as the slope model. If the geometry is a surface, users can create a volume from the surface using the "Set External from Surface" option. Point clouds can also be imported to construct a surface, which can then be modified into a volume.
Tutorial 1 demonstrates the process of importing and constructing geometry: www.rocscience.com/help/rocslope/tutorials/tutorials-overview/01-quick-start
Furthermore, photogrammetry data can be employed to model geological structures such as faults, joints, bedding, and more. If a structure is mapped out using photogrammetry or LiDAR, it can be directly imported like any other 3D or 2D geometry and modeled as a defect surface in RocSlope. For any planar structure that includes information about Dip, Dip Direction, an XYZ point on the structure, and a Radius (e.g., estimated from Trace or Persistence), this information can be used to define a "Measured Joint," which can also be directly imported from a CSV file using the following steps:
1. Joints > Define Measured Joints
2. Import CSV. Specify the corresponding columns for import.
3. Assign a Joint Property to each joint.
4. Click OK, and the joints will be added as planar disks.
* An example of this process is also provided in Tutorial 1, linked above.
Lastly, if photogrammetry produces a surface texture or image, we have the in-house capability to project the image onto the model. While this capability is currently available in RocFall3, we plan to extend it to RocSlope in the near future based on demand. We would greatly appreciate any additional feedback on how photogrammetry mapping could be utilized in any of our software.
Thank you!