Improving AccuracyĪccuracy can be improved after a satellite image is taken. Additionally, any variation in the topography will magnify this geometric distortion effect, further reducing the accuracy of the image. These pixels on the edge will have lower accuracy than what is stated for the overall image. This causes geometric distortions compared to the parts of the scene that are closer to nadir. In general, satellite images cover a wide area, so pixels at the edge of the scene will have an angled look (not nadir).
The second is that the topography is flat.
The first is that the sensor on the satellite is looking straight down (nadir) at the earth. The reported accuracy for a sensor is based on two assumptions. The table below shows a comparison of resolution and accuracy for some of the satellite imagery sources available on the market today. Since satellites orbit 500km above the earth at a speed of more than 20,000km/h, the positioning device needs to be very sophisticated to be accurate. The accuracy of the positioning device is related to the absolute accuracy of the captured image. When a satellite sensor captures an image, a positioning device on the satellite computes its orbital position relative to the earth and stores that information in the metadata for that image. The accuracy of an image has no direct relationship with resolution and it’s less commonly (and less clearly) specified than an image’s resolution. Accuracy is dependent on several factors, such as the satellite positioning technology, terrain relief, and sensor viewing angle. The more pixels an image has, the more detailed it is.Īccuracy, on the other hand, is the distance between the actual geographic location of an object or detail compared to the position of the object in the image. Based on this definition, 30cm resolution imagery would capture more photographic details than 1m resolution imagery. Anything on the ground that is less than that size will be blended with the surrounding area to make a 30cm by 30cm square. For example, 30cm resolution satellite imagery can capture details on the ground that are greater than or equal to 30cm by 30cm. Higher resolution means that pixel sizes are smaller, providing more detail. Resolution refers to the smallest size an object or detail can be represented in an image. This distinction is important to consider when purchasing satellite imagery. High-resolution is often associated with high-accuracy (and vice versa), but this is not always the case. Accuracy also plays a key role in determining image quality, and it’s important to understand the difference between resolution and accuracy. The main feature satellite operators highlight about their imagery is resolution however, this is not the only feature to consider.
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