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Model for converting geometric altitudes (given by GNSS) into physical altitudes (compatible with the SGB´s Vertical Datum)

Description

Digital model that provides the factors to convert altitudes given by GNSS receivers, resulting in altitudes compatible with the terrestrial gravity, more suitable to describe the flow of liquid masses, like those needed in large irrigation projects, hydroelectric generation, etc.

In technical terms, a model to convert altitudes numerically describes the separation between the ellipsoid of reference of the geometric altitudes - also called ellipsoidal, resulting from the use of Global Navigation Satellite Systems (GNSS) - and the surface of reference of the physical altitudes, which is the vertical datum of the High-Precision Altimetric Network (RAAP) of the Brazilian Geodetic System (SGB), in the case of Brazil. From the geodetic coordinates resulting from the suitable processing of the observations collected through a geodetic GNSS receiver, the factor to convert geometric altitudes into physical altitudes should be extracted from the model.

The first models to convert altitudes published by the IBGE where the geoid models of the MAPGEO series, produced in partnership with the University of São Paulo (USP). MAPGEO92, MAPGEO2004, MAPGEO2010 and MAPGEO2015. The last one was the basis to develop the most recent model, hgeoHNOR2020, which opens a new series of models characterized by a better adaptation to the altitudes present in RAAP.

 

About the publication - Geoid Undulation Model

What is the Geoid?

In 1828, C.F. Gauss introduced an improved model of the figure of the Earth, but the term ‘geoid’ was created in 1873 by J.F. Listing. The Geoid is the equipotential surface of the Earth’s gravitational field, which coincides with the mean undisturbed sea level. Every point of this surface is at right angles to the gravity vector. The Geoid surface can be imagined as extended through the continents. It has a slightly irregular undulating shape that accompanies the structure variations of the Earth’s mass distribution. This undulation is about ±30 m, the maximum level is ±100m, in relation to the reference ellipsoid.

 

Why are geoid undulation models necessary?

Heights determined by a GNSS receiver are not related to the mean sea level, but to a reference ellipsoid with specific dimensions. Therefore, it is necessary to know the geoid model (difference between geoid and ellipsoid surfaces) so that the height above mean sea level can be obtained.

 

Introduction

Due to its speed and precision obtaining coordinates, the Global Navigation Satellite Systems (GNSS) have revolutionized the activities which demand positioning. However, the height established using a GNSS receptor is not related to the mean sea level (or, more rigorously, to the geoid, which is the equipotential surface of the gravity field of the Earth that coincides with the mean still water level) but  to an ellipsoidal reference with specific dimensions. As a result, it is necessary to tell the difference between the geoid surfaces and the ellipsoidal ones, i. e., the geoid height or undulation, in order to obtain the orthometric height (above the mean sea level). Thus, there is a great need for a more and more accurate Brazilian undulation model for applications in mapping and engineering. MAPGEO2015, as well as the previous models, (MAPGEO2010, MAPGEO2004, MAPGEO92), was designed to meet these demands. It was conceived in a partenership between the Brazilian Institute of Geography and Statistics (IBGE), through the Department of Geodetics (CGED), and the Polytechnic School of the University of São Paulo – EPUSP. The new model was estimated with a 5’-of-arc resolution, and the Geoid Undulation Interpolation System was updated. Via this system, users can obtain the geoid undulation at one point or a set of points, whose coordinates refer to SIRGAS2000 and are found between the latitudes 6°N and 35°S and between the longitudes 75°W and 30°W, inside the Brazilian territory.

In order to convert the ellipsoidal height (h), obtained by GNSS receptors, into orthometric height (H), it is necessary to use the value of the geoid height (N) obtained in a geoid undulation model, using the following expression:

 

H = h – N
 
Diagrama de Modelo de Ondulação Geoidal 
 
 

More on the product - Geoid Undulation Model

MAPGEO2015

MAPGEO2015 is available for download either through a desktop Microsoft Windows application or online.

In both applications, the coordinates of the points for which the geoid undulation should be obtained can be entered either through a keyboard or file, according to the available formatting options of the entry and output.

Learn more - Geoid Undulation Model

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News and Releases

Model to Convert Altitudes

New IBGE application to convert altitudes improves precision and accelerates calculations

The IBGE launches today (5) an application with a new model to convert altitudes, the hgeoHNOR2020. Besides...

05/08/2021

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Errata

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!!ATENÇÃO!!

Em 5 de agosto de 2021, o IBGE lançará o novo modelo hgeoHNOR2020, que propicia maior acurácia na conversão entre altitudes geométricas (GNSS) e altitudes normais (RRNN do SGB). Em decorrência disso, a página de cálculo de alturas geoidais com o MAPGEO2015 (“MAPGEO2015 online”) não mais estará disponível.

Através do portal MapGeo On-Line pode ser obtida a ondulação geoidal (N) necessária à conversão de altitudes elipsoidais, obtidas com os Sistemas de Navegação Global por Satélite (GNSS), em altitudes ortométricas, ou seja, altitudes relacionadas à superfície equipotencial do campo de gravidade. É com este objetivo que o MAPGEO2015, assim como os modelos anteriores (MAPGEO2010, MAPGEO2004, MAPGEO92), foi concebido e produzido conjuntamente pelo Instituto Brasileiro de Geografia e Estatística (IBGE), através da Coordenação de Geodésia (CGED), e pela Escola Politécnica da Universidade de São Paulo (EPUSP). Os usuários podem obter a ondulação geoidal em um ponto ou conjunto de pontos, cujas coordenadas refiram-se ao SIRGAS2000, dentro do território brasileiro.

Selecione um formato e um arquivo com as coordenadas:

O MapGeo Online aceita os formatos de arquivo descritos abaixo. Selecione um grupo de acordo com o formato do seu arquivo.

ID - Identificação do Ponto | LAT - Latitude | LON - Longitude GMS - ±GG MM SS.SSSSS | Grau Decimal - ±GG.GGGGG


Ou insira as coordenadas via teclado observando as instruções abaixo:

1) O campo grau deverá ser preenchido mesmo que seja zero.
2) Os campos minuto e segundo caso não preenchidos serão considerados zero.
3) O campo segundo deve ter obrigatoriamente o ponto decimal. Os campos grau e minutos deverão ser obrigatoriamente inteiros.


Resultado do processamento