JPEG uses what is known as a “lossy” compression scheme, meaning that some color information is actually thrown out in the compression process. Fortunately, for photographic images at most compression levels, this loss is not discernible to the human eye, particularly when the image is being displayed on a monitor at screen resolution (and even less so for images saved at print resolutions).

Using “lossy” compression algorithms, JPEG is able to achieve 10:1 to 20:1 data-compression ratios without visible loss in quality. Of course, the savings in file size at any given compression is dependent on the content of the specific image and results will vary. If maintaining high image quality is not a priority, these ratios can go even higher.

The efficiency of JPEG compression is based on the spatial frequency , or concentration of detail, of the image. Image areas with low frequency (smooth gradients, like a blue sky) are compressed much further than areas with higher frequency (lots of detail, like blades of grass). Even a single sharp color boundary, although not giving “lots of detail,” represents a surge in spatial frequency and therefore poses problems for JPEG compression.

The compression algorithm samples the image in 8×8-pixel squares then translates the relative color and brightness information into mathematical formulas. These sampling squares may become visible when images are compressed with the highest compression ratios (lowest quality settings).

It ...