How Autoplotter with Road Estimator 105 Can Save You Time, Money, and Effort in Your Land Surveying Projects

Autoplotter with Road Estimator 105: A Complete Land Survey Software Solution

If you are looking for a software solution that can handle all your land surveying needs, you might want to check out autoplotter with road estimator 105. This software is designed to make your surveying tasks easier, faster, and more accurate. Whether you want to create topographical maps with contours and 3D terrain models, or you want to design roads with unlimited templates and inbuilt elements, or you want to integrate different types of survey coding, autoplotter with road estimator 105 can do it all for you.

autoplotter with road estimator 105

In this article, we will explain what autoplotter with road estimator 105 is, what are its main features and benefits, who can use it and for what purposes, and how to use it effectively. We will also provide some frequently asked questions (FAQs) at the end of the article for your convenience.

How to use autoplotter with road estimator 105?

Autoplotter with road estimator 105 is a software solution that can help you perform various land surveying tasks with ease and precision. It supports file formats generated from different types of total stations (Pentax, Trimble, Sokkia, Topcon, Nikon, Leica), as well as ASCII, DXF, DWG formats. It also has a user-friendly interface that allows you to access various functions and tools easily.

Here are some of the main functions that you can perform with autoplotter with road estimator 105:

How to import survey data from different sources and formats?

One of the first steps in using autoplotter with road estimator 105 is to import your survey data from different sources and formats. You can do this by clicking on the "Import" button on the toolbar, and then selecting the type of file format that you want to import. You can also drag and drop the files into the software window. The software will automatically detect the file format and import the data accordingly.

Some of the file formats that autoplotter with road estimator 105 supports are:

• Pentax (DAT, RAW, RW5)

• Trimble (JOB, JXL, T01, T02)

• Sokkia (SOK, GSI)

• Topcon (TSV, GTS)

• Nikon (Nikon RAW)

• Leica (GSI, DBX)

• ASCII (TXT, CSV)

• DXF

• DWG

Once you have imported your survey data, you can view it on the screen in different modes, such as plan view, 3D view, or section view. You can also zoom in and out, pan, rotate, or change the perspective of the view. You can also edit the survey data by adding, deleting, or modifying points, lines, curves, or text.

How to create topographical maps with contours and 3D terrain models?

Another important function that autoplotter with road estimator 105 can perform is to create topographical maps with contours and 3D terrain models from your survey data. You can do this by clicking on the "Contour" button on the toolbar, and then selecting the type of contour that you want to generate. You can choose from different options, such as:

• Contour interval: This is the vertical distance between two consecutive contour lines. You can enter a fixed value or let the software calculate it automatically based on the range of elevation values in your survey data.

• Contour smoothing: This is the degree of smoothing that you want to apply to the contour lines. You can choose from different levels of smoothing, such as none, low, medium, or high.

• Contour labeling: This is the option to label the contour lines with their elevation values. You can choose to label all contours, major contours only, or none.

• Contour color: This is the option to change the color of the contour lines. You can choose from different colors or use a color gradient based on elevation values.

Once you have selected your contour options, you can click on "Generate" to create your topographical map with contours. You can also export your contour map as a DXF or DWG file for further processing or printing.

If you want to create a 3D terrain model from your survey data, you can click on the "3D Model" button on the toolbar, and then select the type of model that you want to generate. You can choose from different options, such as:

• TIN model: This is a model that uses triangular irregular network (TIN) to represent the surface of the terrain. You can adjust the density and quality of the triangles by changing the tolerance value.

• Grid model: This is a model that uses a regular grid of points to represent the surface of the terrain. You can adjust the size and resolution of the grid by changing the cell size value.

• Mesh model: This is a model that uses a mesh of polygons to represent the surface of the terrain. You can adjust the smoothness and complexity of the mesh by changing the subdivision value.

Once you have selected your model options, you can click on "Generate" to create your 3D terrain model. You can also export your 3D model as a DXF or DWG file for further processing or printing.

How to generate longitudinal and cross-sections from survey data?

A third function that autoplotter with road estimator 105 can perform is to generate longitudinal and cross-sections from your survey data. These are useful for analyzing and designing various features of land such as roads, railways, pipelines, etc. You can do this by clicking on the "Section" button on the toolbar, and then selecting the type of section that you want to generate. You can choose from different options, such as:

• Longitudinal section: This is a section that shows the elevation profile of a line or curve along its length. You can select the line or curve from your survey data, or draw it manually on the screen. You can also adjust the scale, offset, and annotation of the section.

• Cross-section: This is a section that shows the elevation profile of a line or curve perpendicular to its length. You can select the line or curve from your survey data, or draw it manually on the screen. You can also adjust the scale, offset, and annotation of the section.

• Multiple cross-sections: This is a set of cross-sections that are generated at regular intervals along a line or curve. You can select the line or curve from your survey data, or draw it manually on the screen. You can also adjust the interval, scale, offset, and annotation of the sections.

Once you have selected your section options, you can click on "Generate" to create your longitudinal and cross-sections. You can also export your sections as a DXF or DWG file for further processing or printing.

How to edit and compensate sections for better control?

A fourth function that autoplotter with road estimator 105 can perform is to edit and compensate sections for better control. This is useful for correcting errors or discrepancies in your survey data, or for applying design changes or modifications to your sections. You can do this by clicking on the "Edit" button on the toolbar, and then selecting the type of editing that you want to perform. You can choose from different options, such as:

• Shift: This is an option to shift the entire section horizontally or vertically by a specified distance.

• Rotate: This is an option to rotate the entire section clockwise or anticlockwise by a specified angle.

• Scale: This is an option to scale the entire section by a specified factor.

• Mirror: This is an option to mirror the entire section along a specified axis.

• Compensate: This is an option to compensate the section for errors in survey data, such as missing points, outliers, noise, etc. You can choose from different methods of compensation, such as linear interpolation, cubic spline interpolation, least squares fitting, etc.

Once you have selected your editing options, you can click on "Apply" to apply them to your section. You can also undo or redo your editing actions if needed.

How to generate contour maps for any type of survey?

A fifth function that autoplotter with road estimator 105 can perform is to generate contour maps for any type of survey. This is useful for creating detailed and accurate maps of any land feature, such as hills, valleys, lakes, rivers, etc. You can do this by clicking on the "Contour Map" button on the toolbar, and then selecting the type of survey that you want to generate a contour map for. You can choose from different options, such as:

• Point survey: This is a survey that consists of discrete points with elevation values. You can import your point survey data from different sources and formats, or enter it manually on the screen.

• Line survey: This is a survey that consists of continuous lines with elevation values. You can import your line survey data from different sources and formats, or draw it manually on the screen.

• Area survey: This is a survey that consists of closed areas with elevation values. You can import your area survey data from different sources and formats, or draw it manually on the screen.

Once you have selected your survey type, you can click on "Generate" to create your contour map. You can also adjust the contour options as described above.

How to design roads with autoplotter with road estimator 105?

Autoplotter with road estimator 105 is not only a software solution for land surveying, but also for road designing. It has a powerful and flexible road design module that allows you to design roads with unlimited templates and inbuilt elements. It also has a road estimation module that allows you to calculate design and actual quantity for RA bill preparation. Here are some of the main functions that you can perform with autoplotter with road estimator 105:

How to create unlimited templates for multilane, service roads, etc.?

One of the first steps in designing roads with autoplotter with road estimator 105 is to create templates for different types of roads, such as multilane highways, service roads, rural roads, etc. You can do this by clicking on the "Template" button on the toolbar, and then selecting the "New" option. You can then enter the name and description of your template, and start adding different elements to it.

Some of the elements that you can add to your template are:

• Road width: This is the width of the road in meters. You can enter a fixed value or a variable value based on the chainage.

• Road edge: This is the edge of the road that defines the boundary of the pavement. You can choose from different types of edges, such as kerb, shoulder, ditch, etc.

• Road layer: This is the layer of the road that defines the material and thickness of the pavement. You can choose from different types of layers, such as subgrade, subbase, base, wearing course, etc.

• Road element: This is the element of the road that defines the additional features or components of the pavement. You can choose from different types of elements, such as drain, retaining wall, crash barrier, median, etc.

Once you have added all the elements to your template, you can save it and use it for designing any type of road. You can also edit or delete your templates if needed.

How to use inbuilt road elements such as drains, retaining walls, etc.?

Another step in designing roads with autoplotter with road estimator 105 is to use inbuilt road elements such as drains, retaining walls, etc. These are predefined elements that you can add to your template or directly to your road design. You can do this by clicking on the "Element" button on the toolbar, and then selecting the type of element that you want to add. You can then specify the parameters and properties of the element, such as location, size, shape, material, etc.

Some of the inbuilt road elements that autoplotter with road estimator 105 offers are:

• Drain: This is an element that defines a drainage system along the road. You can choose from different types of drains, such as open drain, closed drain, box drain, pipe drain, etc.

• Retaining wall: This is an element that defines a wall that supports or retains soil or other material along the road. You can choose from different types of retaining walls, such as gravity wall, cantilever wall, counterfort wall, etc.

• Crash barrier: This is an element that defines a barrier that prevents vehicles from leaving the road or colliding with other objects. You can choose from different types of crash barriers, such as metal beam barrier, concrete barrier, cable barrier, etc.

• Median: This is an element that defines a divider between two opposite directions of traffic on a road. You can choose from different types of medians, such as raised median, flush median, painted median, etc.

Once you have added all the inbuilt road elements to your road design, you can save it and use it for estimating or printing.

How to design vertical profile with target level calculation?

A third step in designing roads with autoplotter with road estimator 105 is to design vertical profile with target level calculation. This is a function that allows you to design the elevation profile of your road along its length. You can do this by clicking on the "Profile" button on the toolbar, and then selecting the "New" option. You can then enter the name and description of your profile, and start adding different segments to it.

Some of the segments that you can add to your profile are:

• Straight segment: This is a segment that has a constant slope or gradient along its length. You can enter the length and gradient values for this segment.

• Curved segment: This is a segment that has a variable slope or gradient along its length. You can enter the length and radius values for this segment.

• Transition segment: This is a segment that connects two segments with different slopes or gradients. You can enter the length and type values for this segment. You can choose from different types of transitions, such as linear transition, parabolic transition, cubic transition, etc.

Once you have added all the segments to your profile, you can click on "Calculate" to calculate the target level for each point on your profile. The target level is the elevation value that you want to achieve for your road design. You can also adjust the target level manually by dragging the points on the profile graph.

Once you have designed your vertical profile with target level calculation, you can save it and use it for generating cross-sections or printing.

How to calculate design and actual quantity for RA bill preparation?

A fourth step in designing roads with autoplotter with road estimator 105 is to calculate design and actual quantity for RA bill preparation. This is a function that allows you to estimate the quantity and cost of materials and labor required for your road design. You can do this by clicking on the "Estimate" button on the toolbar, and then selecting the type of estimate that you want to perform. You can choose from different options, such as:

• Design quantity: This is an estimate that calculates the quantity of materials and labor required for your road design based on your template and profile. You can enter the unit rates and overheads for each item, and the software will automatically calculate the total cost.

• Actual quantity: This is an estimate that calculates the quantity of materials and labor required for your road construction based on your survey data and cross-sections. You can enter the unit rates and overheads for each item, and the software will automatically calculate the total cost.

• Variation quantity: This is an estimate that calculates the difference between the design quantity and the actual quantity, and shows the variation in cost. You can use this to compare your budget and expenditure, and to prepare RA bills.

Once you have calculated your design and actual quantity for RA bill preparation, you can save it and use it for reporting or printing.

How to display various dimensions, depth, camber, toe marker, etc. in cross-sections?

A fifth step in designing roads with autoplotter with road estimator 105 is to display various dimensions, depth, camber, toe marker, etc. in cross-sections. These are useful for showing the details and specifications of your road design in a graphical way. You can do this by clicking on the "Display" button on the toolbar, and then selecting the type of display that you want to add. You can choose from different options, such as:

• Dimensions: This is an option to display the horizontal and vertical dimensions of your cross-sections. You can choose from different types of dimensions, such as chainage, offset, elevation, slope, etc.

• Depth: This is an option to display the depth of your road layers in your cross-sections. You can choose from different types of depth, such as cut depth, fill depth, net depth, etc.

• Camber: This is an option to display the camber or cross slope of your road surface in your cross-sections. You can choose from different types of camber, such as constant camber, variable camber, super elevation, etc.

• Toe marker: This is an option to display the toe marker or boundary marker of your road edge in your cross-sections. You can choose from different types of toe markers, such as kerb toe, shoulder toe, ditch toe, etc.

Once you have added all the display options to your cross-sections, you can save them and use them for estimating or printing.

How to integrate different types of survey coding with autoplotter with road estimator 105?

Autoplotter with road estimator 105 is not only a software solution for land surveying and road designing, but also for survey coding. It has a versatile and customizable survey coding module that allows you to integrate different types of survey codes with your survey data and road design. Here are some of the main functions that you can perform with autoplotter with road estimator 105:

How to use multiple library support for different survey codes?

One of the first steps in integrating different types of survey codes with autoplotter with road estimator 105 is to use multiple library support for different survey codes. This is a function that allows you to use different libraries of survey codes for different types of surveys, such as topographical, cadastral, hydrographic, etc. You can do this by clicking on the "Library" button on the toolbar, and then selecting the type of library that you want to use. You can choose from different options, such as:

• Default library: This is the default library of survey codes that comes with the software. It contains common codes for different types of surveys, such as point, line, curve, text, symbol, etc.

• User-defined library: This is the library of survey codes that you can create and customize according to your needs and preferences. You can add, edit, or delete codes in this library.

• External library: This is the library of survey codes that you can import from external sources, such as other software or files. You can import libraries from different formats, such as CSV, TXT, XML, etc.

Once you have selected your library of survey codes, you can use them to code your survey data or road design.

How to create symbols such as crash barrier, tree, fence, etc.?

Another step in integrating different types of survey codes with autoplotter with road estimator 105 is to create symbols suc