Progressive segmented frame

PsF has been designed to simplify the conversion of cinematic content to different video standards, and as means of video exchange between networks and broadcasters worldwide.^[1] Brought to life by the movie industry in the end of 1990-ies, the original PsF specification was focused on 24 fps content. Existing interlaced equipment had to be modified for 48i scanning rate in order to work properly with PsF video.

With PsF, a progressive frame is sliced into two "segments", with the odd lines in one segment and the even lines in the other segment. This allows for a progressive picture to be processed through the same electronic circuitry that is used to store, process and route interlaced video. Technically, progressive segments are equivalent to interlaced fields, but unlike native interlaced video, there is no motion between the two fields that make up the video frame, both fields represent the same instant in time.

PsF allows the progressive format to be maintained, while minimizing bandwidth requirements using interlaced equipment. When translated to TV rates (either at 2:3 or 2:2 pulldown), the progressive image has a closer temporal match to the original film than is possible with a true interlace system, particularly now that modern displays (LCD & plasma) are natively progressive scan devices.^[2]

Not everyone welcomed the PsF standard. Some industry observers maintained that native 24p processing would have been a better and cleaner choice. Others accused Sony Pictures in lobbying products of its parent company, Sony Corporation, which at that time was producing interlaced equipment. Charles Poynton, an authority in digital television, makes the following remark in his book: "Proponents of [PsF] scheme claim compatibility with interlaced processing and recording equipment, a dubious objective in my view."^[3]

24PsF (48sF, 1080sf24, 1920x1080/24/1:1SF) is the original PsF format, which is used in professional equipment for film-to-video transfer, for high definition mastering and for video exchange between networks. This may be the first universal video standard which transcends continental boundaries, an area previously reserved for film.^[4]

24PsF technology is implemented in HDCAM and XDCAM video cameras, including famous CineAlta camera that was used by George Lucas for the Star Wars, Episode 2.

One of the examples of 24PsF usage in digital mastering is 2003 transfer of the "Terminator 2" movie to DVD. Artisan and THX started with creating a new high definition digital master by converting original 24fps film to 1080PsF24 format and recording it to HD-D5 videotapes. Usage of progressive segmented frame allowed creating a digital master that was identical to original film, and made possible to perform all digital editing in 24p mode.^[5] The same digital master appears to be used for 2006 Blu-Ray transfer of the movie.^[6]

25PsF (1080sf25, 1920x1080/25/1:1SF) is used in 50i systems for production that originates on video and is targeted for television distribution.

Along with many professional video cameras, this standard is supported by some consumer camcorders like European version of the Canon HV20, which has both interlaced 1080i50 (HDV) mode as well as progressive 1080PsF25 (HDV25) mode.

30PsF (1080sf30, 1920x1080/30/1:1SF) gains increased popularity as mastering standard targeted for Web delivery.

Along with many professional video cameras, this standard is supported by some consumer equipment like North American/Japanese version of the Canon HV30 camcorder, which has native interlaced mode (1080i60, HDV), progressive 24p mode with 2:3 cadence (1080p24, HDV24) as well as PsF mode (1080PsF30, HDV30) mode.

At present time 30PsF is not well suited for television distribution in 60i systems, because very few television sets are able to detect 2:2 cadence of 30PsF video. As such, these TV sets may try to deinterlace video by dropping one field of each frame, halving vertical resolution.

23PsF (1080sf23, 1920x1080/23.98/1:1SF) and 29PsF (1080sf29, 1920x1080/29.97/1:1SF) frame rates are often used for HD production in organizations that also produce standard definition 525 line services (i.e. at 59.94Hz).

Progressive segmented frame technique is equivalent to 2:2 pulldown pattern, which is widely used in PAL/SECAM television. As Charles Poynton explains, "film is transferred to 576i video using 2:2 pulldown: Each film frame is scanned into two video fields (or frames); the film is run 4% fast."

It seems that "PsF" is used for acquisition and mastering of high definition video, while "2:2 pulldown" is used to describe a particular telecine pattern, and as a broadcast term both for standard definition and high definition.