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DCG5162 : CADD
REPORT AUTOCADD PROJECT 2
NAMA : MUHAMAD AMEENURRASHID BIN ISMAIL
NO. PEND : 01DGU1F1038
KELAS : DGU3A
PENSYARAH : EN. MOHD OMAR BIN MOHAMED HASSAN
INTRODUCTION :
To Collect
CDS interfaces with data collectors and total stations from all leading manufacturers to ensure speedy and efficient processing of the field data you collect.
You can establish your own feature code library to separate data into layers, making management simple.
Data from other parties is quickly incorporated, either by importing drawings in industry standard DWG or DXF format, or by transferring coordinated points in ASCII format.
Calculate
Gives you a full range of Cogo tools to allow any layout, from a simple traverse, to a subdivision, to footing details to be designed quickly, in 3D if necessary.
Traverse entry with side-shot & radiations and closure & adjustment. Intersections by two bearings, bearing and distance, two distances etc. Curves with circular & spiral/transition routines. Areas including hinge/parallel adjust to defined area Road Layout allows you to automatically calculate and store side strings from a
finished alignment. Interchanges & road junctions are easy to handle. Inverse/stakeout calculations that produce either a printed report or data collector files
for field set out.
Contour
CDS allows you to model surfaces from random points, form contours, produce annotated contour plans, interpolate profiles and sections and calculate volumes. You may select the points you need from the database by any combination of point number, height, point code or layer, or you can define windows or polygons of interest on the screen using the mouse. The points you select are assigned to a particular surface, and you can use multiple surfaces within the one job for maximum processing flexibility. Volumes, either between surfaces or using average end areas, can be easily produced, whether on a simple stockpile, a large scale bulk earthworks project, or a road or utility project.
OBJECTIVE :1. To learn the process making topographic map.2. To learn how CDS is work in survey fieldwork.3. To learn how to import raw data from data collector total station) to CDS.4. To find out certain point coordinate in our traverse.
EQUITMENT:CDS (CIVIL DESIGN AND SURVEY) SOFTWARE
AUTODESK AutoCAD SOFTWARE
DATA (TO KEY-IN IN CDS STADIA)
PROCEDURE TO KEY-IN DATA IN CDS STADIA
1. Define new or open job
2. Open file make a new folder .
3. Go entry and choose electronic stadia
4. Click open existing to open your data
5. Then your data will out. if you do a new it come out like this.
6. After key in your data, go to option then click show coordinates.
7. After that, calculate the coordinates
8. Storing your point to database.
PROCEDURE TO MAKE STRING AND ADD POINT:
1. Go to string and choose add.
2. Write your string ID, choose your type of line and colour.
3. Come out result
4. Go to cogo , choose intersect bearing & distance and 2 bearing intersection.
5. Put your coordinates station
6. Go to point and choose edit if you want add point or to doubles points.
7. Write your code at your points.
PROCEDURE TO PLOT PARAMETER BEFORE EXPORT TO DWG FILE (AutoCAD):
1. Go to file and choose plot parameters.
2. Go to print setup and choose size A3 and landscape.
3. View print export control and select point and reset.
4. Select all and ok.
5. Go to file and choose position plot window.
6. After that, go file and print preview.
7. the result come out after print view.
8. Export DWG
PROCEDURE IN AutoCAD (EDITTING):
1. Do the autocadd
2. continue to combine line.
3. Put code at the layer properties manager.
4. then continue and complete work.
CONCLUSION:
At the final of this study, student has been known how to make a topographic map using CDS and AutoCAD software. Student was able to used this software properly. Many firms are beginning to meet the challenge by leveraging the productivity increases and new business opportunities being provided by the latest engineering design software. One of the most significant improvements in civil design software has been the move from entity-based design found in applications like Autodesk’s AutoCAD and Land Desktop to model-based design using applications like Civil 3D.
Model-based design technology allows you to create and edit design plans faster than with traditional 2D drafting technology by making the drafting process a by-product of the design process. Increasing the productivity gains is the dynamic nature of all of the design components. For example, when a surface model changes, every design component that is related to the model, including contours, profiles, cross sections and volume calculations dynamically update to reflect the change.
RESULT: