The dataset contains full time series of satellite and radar images,
weather models and ground observations.
To keep the dataset at a reasonable size, the data covers two geographic
areas of 550km x 550km on the Mediterranean and Brittany coasts, and spans
over 3 years, 2016 to 2018.
We have prepared this free dataset to let the data science community play with it.
Explore it today!
Let’s test the value. A typical Curtis problem (Chapter 6):
The solution manual offers step-by-step guidance for complex mathematical derivations and engineering problems, making it an essential tool for students mastering the physics of space travel. Why the Solution Manual is Critical for Students Orbital Mechanics For Engineering Students Solution Manual
The official for Curtis’s textbook is a document (typically a PDF) containing step-by-step solutions to all the end-of-chapter problems. Let’s test the value
Ensure your solution manual matches your textbook’s edition. Problem 4.12 in the 3rd edition might be Problem 4.17 in the 4th edition. Solving for ( E ) given ( M
In Chapter 3, Curtis introduces Kepler’s Equation: ( M = E - e \sin E ). Solving for ( E ) given ( M ) and ( e ) requires numerical methods (Newton-Raphson). The textbook explains the theory, but the homework problems require you to code the solver. Without the solution manual, a student might spend 4 hours debugging a single iteration loop. The manual provides the correct algorithm and expected outputs.
Have a look at our toolbox which includes data samples from MeteoNet written in python language and our tutorials/documentation which help you explore and cross-check all data types.
Play with it and if you send us your results, we could showcase them on this website!
Download MeteoNetThe data are also available on Kaggle with notebooks to help you explore and cross-check all data types!
You can contribute to challenges and/or propose yours!
Time series prediction
Rainfall nowcasting
Cloud cover nowcasting
Observation data correction
...etc
You did something interesting with our
dataset? Want your project to be showcased here?
Write a blog, contact us on GitHub, and we will come back to you!
Need help? Checkout our documentation, post an issue on our GitHub repository or go to our Slack workspace!
Documentation GitHub SlackYou can find other data on METEO FRANCE public data website. It features real-time, past and forecast data: in situ observations, radar observations, numerical weather models, climate data, climate forecasts and much more!
The Dataset is licenced by METEO FRANCE under Etalab Open Licence 2.0.
Reuse of the dataset is free, subject to an acknowledgement of authorship. For example:
"METEO FRANCE - Original data downloaded from https://meteonet.umr-cnrm.fr/, updated on 30 January 2020".
When using this dataset in a publication, please cite:
Gwennaëlle Larvor, Léa Berthomier, Vincent Chabot, Brice Le Pape, Bruno Pradel, Lior Perez. MeteoNet, an open reference weather dataset by METEO FRANCE, 2020
