Importing a new version from external source |
Importing a new version from external source |
||
(2 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
<languages /> | |||
=SER image sequences= | =SER image sequences= | ||
Line 4: | Line 5: | ||
SER file format is a simple image sequence format, similar to uncompressed films. Documentation can be found on the [http://www.grischa-hahn.homepage.t-online.de/astro/ser/ official page]. The latest PDF document is [[:File:SER_Doc_V3b.pdf|mirrored on free-astro]] too. | SER file format is a simple image sequence format, similar to uncompressed films. Documentation can be found on the [http://www.grischa-hahn.homepage.t-online.de/astro/ser/ official page]. The latest PDF document is [[:File:SER_Doc_V3b.pdf|mirrored on free-astro]] too. | ||
With improvements of version 2 and 3, SER handles colour images, which makes it perfect as replacement for the usual AVI or other film format produced by older capture programs in all astronomy situations. Compressed images should not be used for astronomy but can still be converted to SER, which will make the files bigger for the same quality, but easier to work with. | |||
[[Siril]] can convert any image sequence and many film formats into SER files. [https://sites.google.com/site/astropipp/ser-player ser-player] is a great tool that allows SER files to be visualised just like any film], with many options and works on most operating systems. | |||
The main issue with AVI and other film containers is that it is designed to work with many codecs and pixel formats, which it good for general purpose films, but requires astronomy software to handle a large array of actually different file formats. General purpose film software are often not well equipped to handle 16-bit per pixel values or some uncompressed data formats. With SER, only one file format handles it all, that's why [[Siril]] for example is now developing processing only for SER. | The main issue with AVI and other film containers is that it is designed to work with many codecs and pixel formats, which it good for general purpose films, but requires astronomy software to handle a large array of actually different file formats. General purpose film software are often not well equipped to handle 16-bit per pixel values or some uncompressed data formats. With SER, only one file format handles it all, that's why [[Siril]] for example is now developing processing only for SER. | ||
Line 20: | Line 23: | ||
The other way, added in version 3, is to use three planes to represent RGB image data. SER v3 supports RGB/BGR 8/16-bit data. This can be useful if data is converted from a source with an unknown colour filter array or for general purpose conversion. | The other way, added in version 3, is to use three planes to represent RGB image data. SER v3 supports RGB/BGR 8/16-bit data. This can be useful if data is converted from a source with an unknown colour filter array or for general purpose conversion. | ||
==Specification issue with endianness== | |||
Since SER files can contain 16-bit precision images, endianness must be well specified. The specification allows endianness to be either big-endian or little-endian, to facilitate file creation on various systems, as long as the used endianness is documented in the file's header. | |||
For an unknown reason, several of the first programs to support SER disrespect the specification regarding the endianness flag. The specification states that a boolean value is used for the LittleEndian header, and they use it as a BigEndian header, with 0 for little-endian and 1 for big-endian. Consequently, to not break compatibility with these first implementations, later programs, like [[Siril]] and [[GoQat]], have also decided to implement this header in opposite meaning to the specification. |
Latest revision as of 21:51, 2 August 2016
SER image sequences
SER file format is a simple image sequence format, similar to uncompressed films. Documentation can be found on the official page. The latest PDF document is mirrored on free-astro too.
With improvements of version 2 and 3, SER handles colour images, which makes it perfect as replacement for the usual AVI or other film format produced by older capture programs in all astronomy situations. Compressed images should not be used for astronomy but can still be converted to SER, which will make the files bigger for the same quality, but easier to work with.
Siril can convert any image sequence and many film formats into SER files. ser-player is a great tool that allows SER files to be visualised just like any film], with many options and works on most operating systems.
The main issue with AVI and other film containers is that it is designed to work with many codecs and pixel formats, which it good for general purpose films, but requires astronomy software to handle a large array of actually different file formats. General purpose film software are often not well equipped to handle 16-bit per pixel values or some uncompressed data formats. With SER, only one file format handles it all, that's why Siril for example is now developing processing only for SER.
File structure
A SER file has three parts:
- a 178-byte header containing images and observation information
- image data, raw pixel data
- an optional trailer containing dates for all images of the sequence
Handling colours
In version 3 (2014), there are two ways of handling coloured images in SER. If data comes directly from a sensor, the preferred way is probably to use one-plane images and interpolating data from the colour filter array (similarly to CFA file formats used in astronomy software).
The other way, added in version 3, is to use three planes to represent RGB image data. SER v3 supports RGB/BGR 8/16-bit data. This can be useful if data is converted from a source with an unknown colour filter array or for general purpose conversion.
Specification issue with endianness
Since SER files can contain 16-bit precision images, endianness must be well specified. The specification allows endianness to be either big-endian or little-endian, to facilitate file creation on various systems, as long as the used endianness is documented in the file's header.
For an unknown reason, several of the first programs to support SER disrespect the specification regarding the endianness flag. The specification states that a boolean value is used for the LittleEndian header, and they use it as a BigEndian header, with 0 for little-endian and 1 for big-endian. Consequently, to not break compatibility with these first implementations, later programs, like Siril and GoQat, have also decided to implement this header in opposite meaning to the specification.