rocscience Dips

Plotting, Analisis dan Penyajian Data Struktural Menggunakan Teknik Spherical Projection.

DIPS adalah program yang dirancang untuk analisis interaktif data geologi berbasis orientasi. Program ini adalah tool kit yang mampu melakukan banyak aplikasi yang berbeda dan dirancang baik untuk pengguna pemula atau sesekali, dan untuk pengguna proyeksi stereografik yang ingin menggunakan alat yang lebih canggih dalam analisis data geologi.

DIPS memungkinkan pengguna untuk menganalisis dan memvisualisasikan struktur data mengikuti teknik yang sama yang digunakan dalam stereonet manual. Selain itu, banyak fitur komputasi yang tersedia, seperti kontur statistik pengelompokan orientasi, perhitungan orientasi rata-rata dan analisis atribut fitur kualitatif dan kuantitatif.

DIPS telah dirancang untuk analisis fitur yang terkait dengan analisis teknik struktur batuan, namun format bebas dari file data DIPS memungkinkan analisis data berbasis orientasi apa pun.

Analisis Grafis dan Statistik Data Orientasi

Analisis Proyeksi Stereografis
Dirancang untuk analisis interaktif data geologi berbasis orientasi. Visualisasikan vektor orientasi, kontur kepadatan, bidang, persimpangan, dan lintasan. Gambar bidang, set, dan alat anotasi yang ditentukan pengguna.

Analisis Kinematika
Identifikasi zona kritis, vektor, dan persimpangan pada overlay stereonet dengan analisis kinematik geser planar dan baji, atau mode keruntuhan langsung dan lentur. Ekspor hasil kinematik ke excel, yang berisi vektor kritis dan persimpangan untuk semua mode kegagalan.

Analisis Penyambungan
Tiga opsi analisis built-in: Joint Spacing untuk menghitung jarak sebenarnya atau nyata antara joint dalam satu set, Analisis RQD untuk menilai Penetapan Kualitas Batuan, dan Joint Frequency untuk menghitung kemunculan joint sepanjang setiap interval jarak 1D, pada lintasan linier atau lubang bor .


rocscience Dips

Plotting, Analysis and Presentation of Structural Data Using Spherical Projection Techniques.

DIPS is a program designed for the interactive analysis of orientation based geological data. The program is a tool kit capable of many different applications and is designed both for the novice or occasional user, and for the accomplished user of stereographic projection who wishes to utilize more advanced tools in the analysis of geological data.

DIPS allows the user to analyse and visualise structural data following the same techniques used in manual stereonets. In addition, many computational features are available, such as statistical contouring of orientation clustering, mean orientation calculation and qualitative and quantitative feature attribute analysis.

DIPS has been designed for the analysis of features related to the engineering analysis of rock structures, however, the free format of the DIPS data file permits the analysis of any orientation based data.

Graphical and Statistical Analysis of Orientation Data

Stereographic Projection Analysis
Designed for interactive analysis of orientation based geological data. Visualize orientation vectors, density contours, planes, intersections, and traverses. Draw user-defined planes, sets, and annotative tools.

Kinematic Analysis
Identify critical zones, vectors, and intersections on a stereonet overlay with the kinematic analysis of planar and wedge sliding, or direct and flexural toppling failure modes. Export kinematic results to excel, containing critical vectors and intersections for all failure modes.

Jointing Analysis
Three built-in analysis options: Joint Spacing to calculate true or apparent spacing between joints within a set, RQD Analysis for assessing Rock Quality Designation, and Joint Frequency for counting the occurrence of joints along each 1D distance interval, on a linear or borehole traverse.

See all features in Dips
Check out the full list of technical features in Dips.

Technical Specifications rocscience Dips

File Output
– Export to Excel
– JTDIST utility program—define up to five synthetic joint sets, generate a Dips file
– Save processed file

Filtering / Attribute Analysis
– Create charts or symbolic pole plots based on any data column in the file
– Edit symbols, create symbol master list
– Filter by set
– Histogram, line or pie charts
– Plot qualitative/quantitative data
– Powerful database query, easily create data subsets

Input Data
– Curved borehole analysis—input collar and survey files
– Declination for magnetic/azimuth correction
– Distance column
– Integrated spreadsheet
– Linear/planar orientation data
– Quantity column for multiple identical data entries
– Unlimited number of columns for additional data

Jointing Analysis
– Joint Frequency (unweighted or weighted)
– Joint Set Spacing (true spacing or apparent spacing)
– Metric or Imperial units
– Plot selected traverses or all traverses
– RQD Analysis (discrete or moving interval)

Kinematic Analysis
– Apply declination to slope dip direction
– Apply Terzaghi weighting to pole count
– Direct toppling
– Export results to Excel
– Flexural toppling
– Highlight critical zones
– Highlight slope plane on stereonet
– Lateral limits
– Planar sliding
– Poles, dip vectors, intersections
– Kinematic sensitivity analysis: sensitivity plots of slope dip, dip direction, friction angle, lateral limits, for planar sliding, wedge sliding, toppling analysis
– Wedge sliding

Orientation Formats
– Dip/Dip direction
– Multiple formats in one file using traverses
– Oriented core (alpha/beta)
– Strike/Dip (right or left hand rule for strike)
– Trend/Plunge (linear data)

– Equal angle, equal area
– Upper/lower hemisphere

Statistical Analysis
– Best fit plane through poles (fold analysis)
– Confidence and variability cones
– Fisher distributions for contour plots
– Fuzzy cluster analysis for automatic detection of joint sets
– Global mean vector
– Mean vector calculation
– Statistics listed in Info Viewer
– User-defined set windows for orientation (pole) clusters

Stereonet Plots
– 3D stereosphere
– Contour arbitrary data on stereonet
– Contour plot
– Customize display options
– Overlay of contours, poles, planes, intersections
– Planes plot
– Pole or dip vector mode
– Pole plot
– Plot traverse orientations on stereonet
– Rosette plot
– Scatter plot
– Symbolic plot
– View intersections

Stereonet Toolkit
– Add planes (rubber plane for interactive data analysis)
– Data rotation about arbitrary axis
– Daylight envelopes for sliding analysis in slope design
– Drawing tools, text annotations
– Intersection calculator
– Onscreen angle measurement
– Onscreen pole identification
– Plot lineations on planes
– Polar/equatorial grid overlay
– Small circles about any axis (e.g. friction circles, toppling bounds)
– User-defined trend/strike reference line

– Bias correction (Terzaghi weighting)
– Borehole (oriented core)
– Clinorule
– Curved borehole (oriented core)
– Curved borehole (televiewer)
– Linear (e.g. scanline)
– Linear borehole (televiewer)
– Planar (e.g. wall map)

Viewing Options
– Current view state saved with file
– Global undo/redo
– Improved printing with customizable headers and footers
– Interactive graphical editing
– Save plots to .bmp, .jpg, .metafile, .png, .gif
– Sidebar for quick access to display

Dips across Applications
1. Excavations
Identify critical joint sets, folds and foliations in the rock structure using cluster analysis, fold analysis, and vector density contours.

2. Mining
Quantify the rockmass based on joint spacing, joint frequency, and RQD analysis collected along boreholes, scanlines, and wall mappings.

3. Tunnels
Identify joint sets from discontinuity clusters with the aid of vector density contour visuals. Obtain mean set orientations and set statistics (i.e., Fisher K, Variability Limit, Confidence Limit) for underground wedge analysis.

4. Rock Slopes
Define kinematic properties of the slope and identify critical planes and intersections for a variety of rock slope failure modes: Planar Sliding, Wedge Sliding, Direct Toppling, Flexural Toppling.

Dips seamlessly integrates with
– SWedge
Import orientation data and set statistics from Dips in SWedge to be used for Deterministic, Probabilistic or Combination Analysis.
– UnWedge
Import orientation data and set statistics from Dips in UnWedge to be used for Deterministic, or Probabilistic Analysis.

Explore the latest features in Dips
– Dynamic Data Filters
Create multiple data filter queries in the same Dips file, display dynamically filtered data and analysis results in any view (e.g., Grid Data, 2D Stereonet Plot, 3D Stereonet, Chart). Quickly create a new Dips file with a selected filter.
– Kinematic Sensitivity
Vary kinematic properties (slope dip, slope dip direction, friction angle, lateral limits) when analyzing sliding and toppling failure modes, to visualize their effects on the number of kinematically critical vectors and intersections.
– 2D Stereonets View Templates
The View Templates feature allows you to efficiently save and load custom Plot Options and Display Settings to and from any Stereonet Plot View.

Plans & Pricing rocscience Dips

1. Personal
A. Perpetual (One-time purchase)
– Own the version of your license in perpetuity
– Maintenance+ subscription included in first year
– Install on one computer
B. Lease (Ongoing subscription)
– Maintenance+ subscription
– Ongoing bug fixes
– Continuous new features
– Install on one computer

2. Flexible
A. Perpetual (One-time purchase)
– Own the version of your license in perpetuity
– Maintenance+ subscription included in first year
– Access on multiple computers

B. Lease (Ongoing subscription)
– Maintenance+ subscription
– Ongoing bug fixes
– Continuous new features
– Access on multiple computers

Rocscience is a world leader in developing 2D and 3D software for civil, mining, and geotechnical engineers. As engineers ourselves, we know the importance of having reliable and easy-to-use software. That’s why we constantly develop and refine our programs to make expert solutions that work for you.

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