Earth Observation Using Python. Rebekah B. Esmaili
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Название: Earth Observation Using Python

Автор: Rebekah B. Esmaili

Издательство: John Wiley & Sons Limited

Жанр: География

Серия:

isbn: 9781119606918

isbn:

СКАЧАТЬ management and disaster relief. Research‐grade data take longer to process (hours to months) but has a higher accuracy and precision, making it suitable for long‐term consistency. Thus, we live in the “golden age” of satellite Earth observation. While the data are accessible, the tools and skills necessary to display and analyze this information require practice and training.

      Satellite data often require some pre‐processing to make it usable, but which steps to take and why are not always clear. Data users often misinterpret concepts such as data quality, how to perform an atmospheric correction, or how to implement the complex gridding schemes necessary to compare data at different resolutions. Even to a technical user, the nuances can be frustrating and difficult to overcome. This book walks you through some of the considerations a user should make when working with satellite data.

      The primary goal of this text is to get the reader up to speed on the Python coding techniques needed to perform research and analysis using satellite datasets. This is done by adopting an example‐driven approach. It is light on theory but will briefly cover relevant background in a nontechnical manner. Rather than getting lost in the weeds, this book purposefully uses realistic examples to explain concepts. I encourage you to run the interactive code alongside reading the text. In this chapter, I will discuss a few of the satellites, sensors, and datasets covered in this book and explain why Python is a great tool for visualizing the data.

Photos depict (a) an example of a Fortran punch card. (b) 1979 photo of an IMSAI 8080 computer that could store up to 32 kB of the data, which could then be transferred to a keypunch machine to create punch cards. (c) an image created from the Hubble Space Telescope using a Calcomp printer, which was made from running punch cards and plotting commands through a card reader.

      Now with advances in computing and internet access, researchers no longer need to print their visualizations at all, but often keep data in digital form only. Plots can be created in various data formats that easily embed into digital presentations and documents. Scientists often do not ever print visualizations because computers and cloud storage can store many gigabytes of data. Information is created and consumed entirely in digital form. Programming languages, such as Python, can tap into high‐level plotting programs and can minimize the axis calculation and labeling requirements within a plot. Thus, the expanded access to computing tools and simplified processes have advanced scientific data visualization opportunities.

Schematic illustration of current Earth, space weather, and environmental monitoring satellites from the World Meteorological Organization.

      1.2.1 Meteorological and Atmospheric Science

      Most Earth‐observing satellites orbit our planet either in either geostationary or low‐Earth orbiting patterns. These types of satellites tend to be managed and operated by large international government agencies, and the data are often freely accessible online:

       Geosynchronous equatorial orbit (GEO) satellites. Geostationary platforms orbit the Earth at 35,700 km above the Earth’s surface. GEO satellites are designed to continuously monitor the same region on Earth, and thus can provide many images over a short period of time to monitor change. National Oceanic and Atmospheric Administration (NOAA) operates the Geostationary Environmental Satellite System (GOES) satellites for monitoring North and South America. GOES‐16 and ‐17 have an advanced baseline instrument (ABI) onboard to create high‐resolution imagery in visible and infrared (IR) wavelengths. The GOES‐16 СКАЧАТЬ