Meteorological Measurements - Sensors and representativeness

Add to my library

R3050 V4 Article

Meteorological Measurements - Sensors and representativeness

Author : Michel LEROY

Publication date: December 10, 2025 | Lire en français

Add to my library Add to my library

Logo Techniques de l'Ingenieur You do not have access to this resource.
Request your free trial access! Free trial

Already subscribed?

Overview

ABSTRACT

Meteorological measurements aim to quantify the different quantities that characterize the physical and thermodynamic state of the atmosphere, such as wind, temperature, humidity, solar radiation. Meteorological measurements can have various purposes, which condition the exposure of the sensors, a major factor for their representativeness.

This article focuses on detailing each of these quantities (definitions, types of measurements carried out, influencing factors and exposure rules), mainly for in-situ measurements.

Read this article from a comprehensive knowledge base, updated and supplemented with articles reviewed by scientific committees.

Read the article

AUTHOR

  • Michel LEROY : Retired - - Former General Engineer of Bridges, Water, and Forests at Météo-France - Former student of the École Polytechnique

 INTRODUCTION

Meteorology is primarily concerned with the physical and thermodynamic state of the atmosphere.

Numerical prediction models, currently used to generate short- and medium-term forecasts (1 to 15 days), model the atmosphere using a set of thermodynamic equations and fluid mechanics equations. The measured values of the basic variables required for numerical models are mainly wind, pressure, temperature, and humidity, at ground level but especially at altitude. These measurements are carried out as far as possible in accordance with procedures recommended by the World Meteorological Organization (WMO) to maximize their representativeness.

In addition, to meet the needs of local forecasting, climatology, and real-time weather monitoring for the growing number of professional users (agriculture, aviation, transportation, public works), additional measurements are very often taken.

In situ meteorological measurements can be disrupted by their immediate environment. The exposure of sensors is therefore a key factor in their representativeness.

This article attempts to cover all of the measurements commonly taken in meteorology. In France, the physical and chemical analysis of the atmosphere is not the responsibility of meteorology and is not covered here.

You do not have access to this resource.
Logo Techniques de l'Ingenieur

Exclusive to subscribers. 97% yet to be discovered!

You do not have access to this resource. Click here to request your free trial access!

Already subscribed?


KEYWORDS

sensor   |   humidity   |   wind   |   measure   |   temperature   |   radiation   |   exposure   |   meteorology

Ongoing reading
Meteorological Measurements - Sensors and representativeness

Article included in this offer

"Physical measurements"

( 67 articles )

Complete knowledge base

Updated and enriched with articles validated by our scientific committees

Services

A set of exclusive tools to complement the resources

View offer details

Contenus associés

Sur le même sujet

Veille personnalisée : Inscrivez-vous !

Dans les ressources documentaires

Pathologie de l'humidité. Paroi simple - Phénomène de condensation

La théorie de la migration de la vapeur dans la masse permet une approche qualitative et quantitative des...

Paramètres hygrométriques

Globalement l'air est constitué d'air sec et de vapeur d'eau. L'air sec est constitué de différents gaz, ...

Mesure de l’humidité relative en environnement climatique - Principaux types d’hygromètres et incertitudes associées

Mesurer l’humidité relative avec une erreur de justesse de l’ordre de ± 1 % HR n’est pas s...

Mesure de l’émissivité thermique

L’émissivité thermique d’un matériau est un facteur qui intervient dans toutes les mesures de température...

WhitePaper
4 December 2018
Caméra thermique : FLIRGFx320

Caméra infrarouge pour la détection des gaz à sécurité intrinsèque. Description produit de deux pages

Tous les livres blancs
Toutes les actualités
Contact us