Geostatistical Estimation Blocks Can Be Delivered By Limiting
With Netpro/Mine, it is possible to determine the blocks for geoistatic estimation using limit selection. Users can assign value to blocks that are left or above the selected filter by making solid model or surface bottom selection.
Drilling Limits Can Be Created Automatically When Determining Ore Surfaces
With Netpro/Mine, drilling limits are automatically generated. In this way, surface production can be achieved by the selection of limits at the stage of forming the ore surfaces.
Composite Projections Can Be Performed in Every Detail
The feature ranges of the composite projections can be arranged as user defined. With this feature on the automatically produced legend, the analysis intervals and the thematic representation will be arranged, and an easier and understandable interpretation will be provided about the region where the mineralization is highly intense.
Solid Models with Different Formats can be Projected with Netpro / Mine
With Netpro/Mine, solid models created in different software can be read. Thus, after the process of solid model process can be performed via Netpro/Mine.
Drilling Management With Improved Drilling Filter Structure Can Be Performed In Every Detail
With a field selection from the 3D screen, a filter can be created for drilling; thus, the drillings in the project are controlled in every detail. The rules in the drilling filter window can be cleared quickly with a single button.
Three-Dimensional Symbols are Available
Users can create libraries that can use 3D symbols in their 'Solid Model', 'Open Pit' and 'Underground Gallery' projects.
Two Dimensional (2D) and Three Dimensional (3D) Instantaneous Dynamic Integration
Project management with NETPRO/Mine has a structure which is capable of operating in dynamic and synchronized conditions under 2D and 3D environments. Project management under 2D and 3D environments are realized by means of ribbon menus. In this manner, the projects are more easily managed and realized on project plains with two or three dimensions.
Capability to Display Distribution of Ore Grade on Each Drilling
NETPRO/Mine ile cevhere ait öznitelik bilgileri sondaj üzerinde boyutlandırılmış ve tematize edilmiş silindirik bir yapıda gösterilebilmektedir.
Oluşan silindirlerin boyutu cevherin tenör dağılımı ile doğru orantılı olarak otomatik ayarlanmakta ve lejantta belirtilen renklerde tematize edilmektedir.
Tenör dağılımlarının sondaj üzerinde bu yapıda gösterilmesi; yüksek tenör değerine sahip cevherleşmenin yoğunlaştığı bölge hakkında daha kolay ve anlaşılır yorum yapma imkânı sağlamaktadır.
Taking of Automatic Cross Sections
Cross sections are automatically created by means of NETPRO/Mine on the selected drillings from the graphical screen according to the definitions of lithology, ore or vein definitions. The user will be capable of defining coordinate levels (top, intermediate, bottom or lower most), bottom extensions and softening degrees of cross section lines of lithology, ore or veins on the cross sections which will be created by means of automatic cross sections. Following the automatic cross section process, it is possible to create more realistic modelling by using the pattern modelling method by selecting the creation of interactive solid models option.
Alternative Ore / Lithology or Vein Modeling Method: "Shell Model"
With NETPRO/Mine, the “Shell Model” has been developed as an alternative to the tetrahedron method which is used in modelling of ore, lithology or veins. By using the shell method, it is possible to create more realistic solid models between surfaces and cross sections which do not have similarities and it is also possible to calculate the volumes of the solid models with better results.
Creation of Solid Models According To Attribute Values over Block Models
By using NETPRO/Mine, it is possible to create solid models according to the attribute information to given to the blocks by employing geostatistical estimation methods. It is possible to instantaneously create on the graphical display the solid model with an appropriate structure according to the filter which will be defined to the attribute value. It is also possible to include the vein volume compliant with the defined filter to the project and receive a lot of reports from it. The solid model which will be created according to the attribute information, will be using the “Shell Model as a model. Thus, it is possible to get more realistic volume results.
Generation of Isopach (Co Thickness) Maps
Isopach (co thickness) maps display real thickness changes of ore and lithology. These maps which are preferred especially for bedding type of mineralization, present great importance for underground mining. Isopach maps which are created with NETPRO/Mine at three dimension interface, are thematically displayed with different colors according to the thickness variations of the ore and they are separated from each other with their equivalent surfaces which represent each interval. In order to enable the user’s intervention to the intervals owned by the Isopach maps which express the thickness changes of the ore, legend slots are preferred.
Creation of Grade Change Maps over the Block Model
Following the predicting process by means of using geostatistical estimation methods over the block model with NETPRO/Mine, it is possible to create maps which will express attribute distribution of the ore. Ore attribute change maps are very important in determining change regions which are suitable for the selected attribute. For example, it enables monitoring of the concentration of zones of mineralization at high grade value range on a two dimensional plane. Attribute change maps execute maximum, minimum or average value calculations on block overlapping blocks and schematized the change among the selected colors. In addition, different change maps can be prepared by applying mathematical operations on the attribute values. Equivalent curve option should be preferred in order to apply user defined interventions on surfaces with equivalent value range.
Capability to Make Multi Cross Sections
It is possible to make multi cross sections with NETPRO/Mine along a predetermined cross section line or at different axis (x, y, z). Route of the cross section may be determined by drawing on the screen or by making different direction selections. The user will be capable of determining the range of the drawn or selected cross section line, right and left effective distances of the cross section, beginning and ending kilometers of the cross section and it is possible to make multiple cross sections on project elements (solid model, block, mine gallery, etc.) which are complaint with the selected variables.
Optimization of Open Mine
In order to optimize an open mine by using NETPRO/Mine, cost elements such as ore production costs, costs of transportation for transporting the ore to the facility or the market, cost of decoupage, transportation cost of the waste to the waste site, costs of marketing, process costs, and general administration expenses, together with sales value of the ore are included to each block of the block model of the ore and thus optimum mine limits are determined.
Capability to Include Multi Faults to the Projects All At Once
With NETPRO/Mine, it is possible to transfer all of the faults to the projects all at once. The readymade file template which will be used for transferring more than one fault information to the project is provided. It is possible to integrate more than one fault at the same time with the project by means of preparing the fault information with this template structure and then making the project read them. Multiply transferred faults will be used to form realistic surfaces by being taken into consideration during generation of topography, lithology, ore or vein surfaces.
Thematic Display of the Ore, Lithology, Vein Surfaces and the Topography
By using NETPRO/Mine, thematic maps can be prepared, which will express height changes over topography, ore, lithology or vein surfaces. By means of intervening with the equivalent height slots belonging to the surface visualization which had been prepared, it will be possible to manage the surface with the desired range value on the screen.
‘NETPRO/Mine’ is a Netcad geology solution which can implement all stages of underground mining and surface mining operations together and also which can manage geologic project processes integrated in two and three dimensional environments.
All stages of project designing of only geometric and lithologic inputs of drillings and 3D solid modeling of drills, geostatistical prediction, pit optimization, production planning, open quarry designing, underground gallery designing etc. can be actualized compatible with regulations.
Drill Data is Managed with GIS Base in Three Dimensional Environment; All Analysis and Log Reports Related to Drills are Automatically Created
All geometric and lithologic data about drills are transferred to NETPRO/Mine’s three dimensional environment with database connection in a single process.
Through all regulation compatible symbol, lithology and scanning libraries in NETPRO/Mine, log reports of a single drill or all drills can be obtain with a single process.
Drills can ba managed with themes of depth, angle, drilling core etc. in three dimensional environment, can be evaluated with all attributes.
All analysis needed for geostatistical prediction can be actualized with a single process, for a single drill or all drills.
Three Dimensional Solid Models can be Created with Surfaces and Cross Sectioning; Solid Models can be Constructed with Desired Block Size, Angle and Lower Block Count
Ores can be three dimensional modelled in Shell Model or Tetrahedron consturction. Creating solid models from surfaces or creating solid models from cross sections methods can be used in three dimensional solid modelling process.
In order to create solid model from surfaces, choosing of core and specifying starting rule for creating surface is enough; all soffit and upside can be converted into solid models considering all drills. In order to create solid models from cross sections, choosing drills and core where cross section will be created, is enough; cross sections will be automatically created according to given displacement value.
All faultline types can be added to created surfaces.
Created solid models are blocked in a single process, according to designated block angles, dimensions and intended block count. Result reports related to blocks can be evaluated with a single process, data about percentage blocked of solid model etc. can be attained.
Estimation with Geostatistical Methods can be Actualized
Composite specifications in intended attributes for geostatistical estimation is practicable and post composition variograms can be created.
For prediction,”'Nearest Neighbor”, Reverse Distance, 'Criging', 'Cocriging', “Double value Criging”methods can be used.
Solid model blocked after geostatistical prediction is thematically modelled in three dimensional environment according to selected attribute. Thus, for instance production plan for location of the blocks with highest calorie value on the ore etc. can be accessed. Outputs like Block Report, Tenor Tonnage Report are automatically evaluated.
‘Open Quarry Projects’ are Conceptualized in Three Dimensional Environment; Detonating Designs and EIA Reports are Actualized with Full-Compatible to Regulations
Bench and Slope specifications for ‘Open Quarry Projects’, calculations for Floor/ceiling surfaces, muck designs, earthworks are created and reported dynamically in three dimensional environment.
Optimum blasting results can be decided, by simulating blast designs in alternative structures before the application. Blasting reports automaticly created as EIA
Access roads to quarry and road designs between quarry and muck are also actualized and reported in three dimensional environment with platform and slope specifications.
‘Underground Galleries’ are Designed in Three Dimensional Environment and Projected with All Requirements
‘Underground Gallery Designs’ can be created on three dimension modelled ore; real display of galleries are created in three dimensions with specifications in available gallery libraries. Fortifications, ventilation inputs, compression/resistance calculations are actualized via automatic interfaces.
All data about galleries are kept in database thus galleries can be thematically mapped and reported on desired features.
Created result projects can be viewed in three dimensional wire net; thus measurable 3D outputs can be created.
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