---
title: Datum
slug: datum-6223a
url: /detay/datum-6223a
type: article
language: English
entity:
  primary: Datum
  type: article
  disambiguation: Geodetic datum: Earth's shape, size, gravity.  Reference system for mapping & measurements.
  categories:
    - name: Geology And Earth Sciences
      slug: jeoloji-ve-yeryuzu-bilimleri
      url: /kategori/jeoloji-ve-yeryuzu-bilimleri
  tags:
    - Projections
    - Coordinate systems
    - Vertical Datum
    - Horizontal Datum
    - Geodetic Datum
author: Salih Bozkurt
created_at: 2025-05-14T17:15:56.565583+03:00
updated_at: 2025-05-20T07:37:26.188825+03:00
image: https://cdn.t3pedia.org/media/uploads/2025/05/14/DSiFNvGAcdx8nO7DQUhgjHs6JcmgnlVo.png
---

# Datum

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## Article Content

A **geodetic datum&#32;**is a reference system that forms the foundation for all measurements and mapping related to the determination of the [Earth's geometric shape](/en/detay/geodesy-adc5d/llms.txt), size, gravity field, and temporal variations. A datum defines the reference surfaces or origin points for measurements, thereby enabling the construction of coordinate systems, height systems, and gravity systems.

### **Types**

[Geodetic datums](/en/detay/datum-7c953/llms.txt) are classified according to the dimensional attributes they define:

- **Horizontal datum:** A coordinate system established for determining the horizontal positions of points on the Earth's surface. It is defined by the horizontal coordinates of geodetic control points and is realized through horizontal control networks.

- **Vertical datum:** A reference system used to determine the elevation of surface points. It is realized through vertical control networks and is typically referenced to a physical surface, such as mean sea level.

- **Three-dimensional datum:** A system capable of defining both horizontal and vertical positions of points simultaneously. It is realized using space geodetic techniques, including GNSS, VLBI, SLR, and DORIS. The *International Terrestrial Reference Frame (ITRF)* is a prominent example of such a datum.

- **Gravity datum:** A reference system based on gravity measurements. It is supported by gravity control networks and is employed in physical geodesy. An example is IGSN71, which serves as a global gravity datum.

- **Sounding datum:** A vertical reference surface used in hydrographic charts to measure water depths. It is typically defined by long-term observations, such as the lowest astronomical tide (LAT).

### **Applications**

Geodetic datums are indispensable in fields such as [cartography](/en/detay/map-projections-13bfd/llms.txt), [civil engineering](/en/detay/geomatics-engineering-c5532/llms.txt), [navigation](/en/detay/global-navigation-satellite-system-gnss-b486e/llms.txt), [remote sensing](/en/detay/lidar-technology-a9e3e/llms.txt), and geographic information systems (GIS). In all these applications, referencing data to the same datum is essential for ensuring consistency, comparability, and integration across different time periods and regions.

### **Datum Transformations**

To compare data obtained in different datums, coordinate transformations are necessary. These transformations typically involve parameters of position, orientation (azimuth), and scale. Modern systems, such as [GPS](/en/detay/global-positioning-system-gps-34920/llms.txt), operate directly within Earth-centered, global datums (e.g., WGS84, ITRF), requiring transformation parameters to ensure compatibility with local mapping systems.

### **Modern Developments**

Today, classical horizontal and vertical datums are generally regional in nature, whereas three-dimensional and gravity datums possess global applicability. Furthermore, the development of Continuously Operating Reference Stations (CORS) has enabled the establishment of dynamic datums that provide high-accuracy, real-time, and temporally updated positional data.

<!-- CONTEXT: Academic Sources and References for "Datum" -->

## Academic Sources and References

1. Lu, Zhiping, Yunying Qu, and Shubo Qiao. Geodesy: Introduction to Geodetic Datum and Geodetic Systems. Berlin Heidelberg: Springer-Verlag, 2014. https://doi.org/10.1007/978-3-642-41245-5.