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Volume Calculation Between 3 Surfaces

By performing a 3 surface volume calculation, users can reveal (non-account) areas that will not be included in the progress payments, so users can keep all their volume calculations under control. In this sense, fill and excavation values are calculated according to the interface between the project surface (eg red elevation) and the application surface (eg black elevation). Additional excavation and fill values are revealed in cross sections according to this interface.

 

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User Defined and Code Coherent Slope Definitions

Users can select the codes they want from all the codes used in the project and create slope scans. There are codes that are created entirely under user control and have different naming constructions during the extend to surface process. Users can easily determine whether or not slopes will be applied to these codes by selecting these codes listed in Slope Scan Settings.

 

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Detailed Volume Reports by Title

After the extend to surface process, users can name each excavation area and can get volume reports according to these names.

 

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New Cross Section Width Options

In projects, users can define the widths of different excavation areas automatically with Excanet 2.0.

 

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Cross-section outputs are automatically designed with all parameters much more easily.

The cross-section outputs can be easily retrieved automatically with any desired information such as letterheads, authorized signatures list, field and volume values through the drawing file which is selected as template. User-defined new template files can be created in drawings.

 

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From simple to complex, all kinds of 'Excavation and Filling plans' may be formed for the required surface at every scale easily. 

Through Excanet, all scale and types of excavation/filling designs like the ones of unique or multi buildings, integrated structures created with complex and complicated design, excavation sites of bridges, pillars...etc., parking areas, airports, solid waste sites and ceremony areas could be done easily.

Excavation plans for complex projects and advanced surfaces are realized and achieved thoroughly while plans may be placed to multiple elevated sites.

Extreme conditions are solved automatically for the excavation/filling plans under user control

 

 Project design of "Building" with Excanet
 Project design of "Site" with Excanet
 Project design of 'Building, Ceremony and Parking Areas' with Excanet
 Project design of 'Complex Designed Building" with Excanet
 Project design of 'Solid Waste Facility' with Excanet

Elevation values of site for objects are easily modified for excavations/fillings.

Slope and elevation values of excavated surfaces or reference objects  may be alternated at any stage of the design process.

 

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Scarps can connect to the lands, objects or to the intended slopes through using all the probable scarp identification parameters.

Land surfaces, in which the scarps that should be identified in excavation surfaces will be applied, could be identified in intended parameters by choosing objects or reference slopes. Scarp identifications in standart libraries could be used and the scarp library could be developed as user defined.

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Excavation / filling models are automated.  

Plan for Scarp, Elevation and Excavation are automated using refernce codes used for slope definitions.

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Surfaces which are formed may be displayed in three dimensions.

Excavated or filled surface designs may be observed in 3D view. 

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Cross sections are formed with desired parametes using the developed ‘Cross Section Plot’ process.

Surfaces based in projects may be choosen automatically within the ‘Cross Section Plot’ process

Excavations in project selection through improved surface functionals / cross sections for filling surfaces can be created automatically. Cross sections may also be formed by the elevation values users prefer.

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Alternate processes may be choosen while calculating volumes of excavations/fillings. 

Volumes may be calculated with the ‘Prismatic’ process between surfaces or cross section. Volumes between surfaces are calculated with the ‘Prismatic’ process, whereas volumes of cross sections are calculated with the ‘Cross Section Based’ process. Using the Improved Surface Choosing Function, multiple surfaces may be choosen for calculating volumes and forming result reports.

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Technical Videos

Sample working videos titled as Report Design, Query Result Customization, Documentation, Process Management, Document Archive, Language Support, Netigma Information Source, Page Insert,  Netigma Component Creation, NCDN Definition, Query Templates an Main Page Design could be watched. 

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