Many times we tend to judge our day by its weather conditions. Who doesn’t love a warm, sunny afternoon with clear blue skies and a hint of a cool breeze? Indeed, good weather can significantly improve the mood, but its conditions extend far beyond recreation.
Time has always been a key factor in the development of various human civilizations as they strived to adapt and build according to their climatic conditions and daily weather changes.
The weather remains a key factor in our lives. According to the World Meteorological Organization, observing weather changes is crucial for various sectors. While the latter definitely include tourism, transport, aviation, public health and safety, other longer-term actions, such as international cooperation, environmental protection and scientific development, are also on meteorology.
In fact, accelerating climate change has made the need for accurate and timely observations even more important in recent decades. Public safety has become a greater concern with heat waves, extreme rainfall or even natural disasters occurring all the more frequently and having a greater impact. In fact, extreme weather ranks second on the list of the top 10 global risks by severity over the next 10 years, according to estimates from the World Economic Forum’s 2022 report. The failure of climate action has taken first place in this hall of shame.
To avoid costly property damage and potential loss of life, meticulous weather measurements must be made at all times. This is why today’s meteorologists need the best equipment to adequately accomplish this difficult task. The observations of the sky of our ancestors are no longer enough. New technologies in the field of meteorology have been developed to predict weather changes with the greatest possible accuracy.
What technology is used?
High-performance computing (HPC), used in complex high-speed calculations and data processing, is deployed in weather and climate research. It allows scientists to analyze multiplex data patterns and draw conclusions, based on a multitude of factors examined.
This technology is used to provide highly accurate weather simulations and data-rich weather models. Thanks to the system’s high performance, it drastically reduces the time needed to alert authorities to potential dangers, saving lives.
To collect crucial geospatial, climate and atmospheric data, scientists rely on weather sensors, satellites and weather stations around the world.
The collected information is then transformed into weather models and covers different periods of the past, as well as to make predictions about future changes in weather and climate.
Accurate weather warnings, based on these data patterns, are generated through predictive analytics technologies. This is crucial in preventing damage from natural disasters, as it could help evacuate people from a certain area in due time. The scans could also be used in everyday life. To design timetables, for example, or to decide when schools and establishments should remain closed.
Beyond that, accurate weather measurements paired with proper metrics could help address other issues on the World Economic Forum’s report. In the case of livelihood crises (5th place on the graph), forecasting the weather in advance could help prevent food supply cuts for more isolated areas, as world leaders would have time to find solutions. alternative sources of food, thanks to the speed and reliable forecasts.
As our very life processes remain anchored to time and climate, it is important that we know when to take appropriate action when the weather calls for it. This is why research and technology in the field of meteorology must continually develop and reach new standards.