Deutsch: Hochauflösung / Español: Alta resolución / Português: Alta resolução / Français: Haute résolution / Italiano: Alta risoluzione /
High resolution refers to the level of detail and precision in an image, measurement, or data. High resolution means that the image, measurement, or data is able to distinguish between small or fine details.
High-resolution is often used in the context of imaging, such as remote sensing and mapping, and other measurements such as spectroscopy.
Examples of high-resolution in aerospace include:
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High-resolution imaging: This refers to cameras and sensors that are able to capture fine details in an image, such as the texture of the surface of a planet or the individual blades of a wind turbine. High-resolution imaging is used in applications such as remote sensing, mapping, and surveillance.
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High-resolution mapping: This refers to the process of creating detailed maps of an area or surface, such as a planet or a city. High-resolution mapping is used in applications such as terrain mapping, mineral exploration, and disaster management.
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High-resolution spectroscopy: This refers to the process of analyzing the composition of a material or atmosphere by studying the way it absorbs or reflects light at different wavelengths. High-resolution spectroscopy is used in applications such as atmospheric research, mineral exploration, and the search for life on other planets.
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High-resolution remote sensing: This refers to the measurement of the characteristics of an object or area from a distance, using sensors such as cameras, radar, or lidar. High-resolution remote sensing is used in applications such as monitoring land use, detecting changes in the environment, and detecting and tracking objects such as aircraft and missiles.
In aerospace, high-resolution is an important tool that allows scientists and engineers to study and understand the properties and behavior of materials and systems in great detail, which is essential in numerous aerospace applications.
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