Surveying method
1. Chain Surveying:-
Chain surveying is a basic and straightforward method suitable for small-scale surveys on relatively flat terrains. It involves measuring distances using a chain or tape and determining angles using a compass. The process includes the following steps:
- Marking the starting point as the reference station.
- Stretching the chain or tape between points and marking the ends.
- Measuring the distance and recording it in the field book.
- Taking compass readings to determine the direction of the line.
Uses:
Chain surveying is commonly used for creating cadastral maps, determining land boundaries, and establishing the framework for larger surveys.
2. Compass Surveying: - Compass surveying relies on a magnetic compass to measure the direction of lines. The process includes:
- Setting up the compass at a point.
- Aligning the compass with the North-South meridian.
- Taking readings of angles relative to the meridian or a reference line.
Uses:
Compass surveying is useful for preliminary surveys to determine rough directions and angles for road alignments, pipeline routes, and similar projects.
3. Theodolite Surveying:- Theodolite surveying involves using a theodolite, an instrument with a telescope for precise angle measurements. The process includes:
- Setting up the theodolite over a point.
- Leveling the theodolite using leveling screws.
- Aligning the telescope with a known point or a reference direction.
- Measuring horizontal and vertical angles.
Uses:
Theodolite surveying is essential for more accurate angular measurements needed in engineering projects, topographic mapping, and setting out building corners.
4. Plane Table Surveying:- Plane table surveying involves a drawing board mounted on a tripod, along with a theodolite or compass. The process includes:
- Setting up the plane table and leveling it.
- Orienting the table using a reference line.
- Observing points in the field through the theodolite or compass.
- Plotting these points directly onto the paper attached to the table.
Uses:
Plane table surveying is useful for creating detailed maps directly in the field, especially in military mapping and small-scale engineering surveys.
5. Leveling:-
Leveling is the technique used to determine the relative height differences between points on the Earth's surface. It involves a leveling instrument and a leveling staff. The process includes:
- Setting up the leveling instrument at a known point.
- Taking readings on the leveling staff held at the point of interest.
- Calculating the height difference between the instrument and the staff. Uses:
Leveling is essential for establishing accurate elevations for construction projects, ensuring proper drainage, and creating contour maps.
Please note that due to the response's length limitations, I'll continue explaining the remaining surveying methods in subsequent responses.
6. Tacheometry:- Tacheometry involves combining angular measurements with distance measurements to quickly estimate distances and elevations. The process includes:
- Setting up the instrument at a known point.
- Observing the target through the telescope and measuring the vertical angle.
- Reading stadia hairs to determine the subtended distance.
- Using trigonometric calculations to find the horizontal and vertical distances.
Uses:
Tacheometry is used for rapid topographic mapping, especially in areas with limited access or uneven terrain.
7. Triangulation:- Triangulation is a technique that uses triangles formed by measuring angles and baseline distances to calculate positions of points. The process includes:
- Selecting three or more points as vertices of triangles.
- Measuring baseline lengths and angles at each vertex.
- Using trigonometric calculations to determine positions of non-adjacent points.
Uses:
Triangulation is used for large-scale surveys, such as mapping entire regions, establishing control networks, and creating accurate geodetic networks.
8. Trilateration:- Trilateration involves measuring distances between points to calculate positions. The process includes:
- Selecting reference points and measuring baseline distances.
- Using a measuring instrument (e.g., EDM) to determine distances from reference points to unknown points.
- Applying trigonometry to calculate positions based on the measured distances.
Uses:
Trilateration is commonly used in GPS positioning, control surveys, and situations where direct line-of-sight measurements are challenging.
9. Global Positioning System (GPS):- GPS relies on satellite signals to determine precise positions on Earth. The process includes:
- Receiving signals from multiple satellites.
- Calculating the time it takes for signals to reach the receiver.
- Using triangulation principles to determine the receiver's position.
Uses:
GPS has a wide range of applications, including navigation, geodetic surveys, precision agriculture, and disaster management.
10. Photogrammetry:- Photogrammetry involves capturing aerial photographs and extracting measurements from them. The process includes:
- Capturing overlapping aerial photographs from different angles.
- Using specialized software to create 3D models and measure distances, areas, and elevations.
Uses:
Photogrammetry is used for creating detailed topographic maps, monitoring land changes, and conducting environmental assessments.
In summary, these surveying methods provide a diverse toolkit for professionals to accurately measure and map the Earth's surface, catering to a wide range of applications in various fields.
13. GIS (Geographic Information System):- GIS involves the collection, storage, analysis, and presentation of geographic data. It integrates spatial information with attributes to create maps and models. The process includes:
- Collecting data from various sources, including surveys and satellite imagery.
- Storing data in a spatial database.
- Analyzing data to derive insights and make informed decisions.
Uses:
GIS is used in urban planning, environmental management, disaster response, asset management, and various spatial analyses.
14. Remote Sensing:- Remote sensing involves acquiring information about the Earth's surface using sensors mounted on satellites or aircraft. The process includes:
- Capturing data in various wavelengths (e.g., visible, infrared, microwave).
- Processing data to create images and maps.
- Analyzing the images to extract valuable information about the Earth's features.
Uses:
Remote sensing is used for land cover classification, monitoring environmental changes, agricultural assessments, and disaster management.
15. Laser Scanning (LiDAR):- LiDAR (Light Detection and Ranging) uses laser beams to measure distances and create 3D models of surfaces. The process includes:
- Emitting laser pulses and measuring their time of flight to calculate distances.
- Scanning an area from various angles to capture a detailed point cloud.
- Processing the point cloud to generate accurate 3D models.
Uses:
LiDAR is used in creating high-resolution elevation models, forestry management, archaeological site documentation, and infrastructure planning.