19 October 2024
The 75th International Astronautical Congress in Milan was a pivotal moment in the ongoing dialogue about the role of space exploration in building a sustainable future. For companies like BWI, IAC 2024 offered a glimpse into how space data can revolutionize hydrological monitoring and contribute to a more sustainable world.
2 October 2024
We’re excited to welcome Pascal Cauquil to our team as a Ground Segment Engineer. With 25 years of professional space systems experience, Pascal brings a wealth of expertise to BWI and will play a key role in advancing our upstream goals. We look forward to his enriching contributions.
7 September 2024
NASA’s GRACE satellites measure changes in Earth’s gravity field to track groundwater depletion, aquifer dynamics, and river discharge. By monitoring large-scale water storage shifts, GRACE provides crucial data for water management and predicting climate-related impacts like floods and droughts.
8 July 2024
This article explores the various methods hydrologists use to study the water cycle, emphasizing their importance in ensuring sustainable water management and mitigating natural disasters.
3 July 2024
BWI has officially joined ESA BIC Sud France, an initiative supporting innovative startups connected to the space sector. Find out what it means for BWI.
27 June 2024
We are pleased to announce our participation in the third edition of Les Assises du NewSpace. Read more to experience the event from BWI’s perspective.
29 May 2024
The 3rd edition of the Annual French Newspace meeting event is all set to host over 1200 participants and 70 Spacetech startups!
22 May 2024
In BWI’s latest blog post, we will be delving deep into the hydrology in Ivory Coast, exploring each of it’s primary river basins.
10 May 2024
In the ever-evolving landscape of Earth observation, the utilization of spaceborne altimetry missions stands as an indispensable tool in our quest to comprehensively monitor and manage the freshwater resources of our planet.
8 May 2024
Space hydrology combines principles of hydrology, remote sensing, and geospatial analysis to monitor various aspects of the water cycle, such as precipitation, evaporation, soil moisture, groundwater storage, snow cover, and surface water bodies, on regional to global scales.