A progressive download is the transfer of digital media files from a server to a client, typically using the HTTP protocol when initiated from a computer. The consumer may begin playback of the media before the download is complete. The key difference between streaming media and progressive download is in how the digital media data is received and stored by the end user device that is accessing the digital media.

A media player that is capable of progressive download playback relies on meta data located in the header of the file to be intact and a local buffer of the digital media file as it is downloaded from a web server. At the point in which a specified amount of data becomes available to the local playback device, the media will begin to play. This specified amount of buffer is embedded into the file by the producer of the content in the encoder settings and is reinforced by additional buffer settings imposed by the media player.

History

Initially the digital media file type known as JPEG was the first visual media to render a progressive visual display as the digital media was downloaded and actually referred to as a progressive download. The distinction between the technical behavior of progressive download as opposed to the common or commercial use of the term progressive download to describe that behavior was not documented and there is a good deal of question regarding the origin of the term versus the origin of the technical implementation. Apple in reference to their QuickTime media player employed the term Fast Start[1] in 1997, to describe what was commercially referred to as progressive download playback of encoded digital media content.

HTTP progressive download versus streaming media

The end user experience is similar to streaming media, however the file is downloaded to a physical drive on the end user's device; the file is typically stored in the temporary directory of the associated web browser if the medium was embedded into a web page or is diverted to a storage directory that is set in the preferences of the media player used for playback. The file will stutter or stop playback if the rate of playback exceeds the rate at which the file is downloaded. The file will begin to play again after further download.

This fast start playback is the result of moving the meta data from the end of the digital media file to the front, this move of the meta data gave the media player all the information it required to begin playback as the file was still being downloaded. Prior to that change, the meta data summary was located at the end of a media file and the entire file would need to be downloaded in order for the meta data to be read and the player begin playback.[2]

HTTP Pseudo-streaming (or progressive download), similar to streaming media or HTTP Live Streaming, also supports adaptive bitrate streaming. The disadvantage of HTTP Pseudo-streaming over streaming media is reduced security, since HTTP is easier to sniff compared to RTMP, along with long loading times when seeking larger videos.[3]

Optimization for HTTP Pseudo-streaming

The MP4 files consist of chunks of data, called atoms. These atoms stores information like subtitles, etc. The special atom, called moov atom is responsible for storing information regarding how to play the video like dimensions, frames per second and such which is important to begin playing a video on HTML5 Video player.[4] But atoms can appear in any order, so web servers like Nginx spends some CPU, memory and disk I/O to find the moov atom so that HTML5 Video based clients can start playing the video. To optimize for HTTP Pseudo-streaming, it's important to move the moov atom to the beginning, so that web servers like Nginx optimize for faster pseudo-streaming resulting in playing of playbacks without having to wait for the entire file to be arrived or scanned.[5]

ffmpeg -i sample_input.mp4 -movflags faststart -acodec copy -vcodec copy sample_output.mp4

  • -movflags faststart does the optimization by moving the index (moov atom) to the beginning of the file.[6]
  • -acodec copy extracts the audio from the input file unaltered.
  • -vcodec copy extracts the video from the input file unaltered.

By doing this optimization, we effectively prevent web servers, like nginx, from spending relative amount of computation in finding the moov atom hence increasing the playback performance on HTML5 Video based client.[5][4]

Seeking

Initially, the file is played from the beginning. A user may wish to point to a part of the file which haven't been downloaded yet. This capability is called seeking[7] and it makes possible to download and start playing any part of the media file. That is often referred to as pseudo-streaming.

For Flash video seeking requires a list of seek points in the media file metadata. These points are offsets in the video (both in seconds and bytes) at which a new key frame starts. A web server or a media server which handles the download, must support seek points in query string of requests for downloading data.

For other types of media files such as MP4 or MKV, web servers must be capable of handling a special offset parameter. The offset parameter name differs for various servers so it must be specified in player settings.

Some servers support seeking via additional modules only, they are specified below. Seeking parameter names are written in italic.

ServerFlash seekingMP4 seeking
Apache HTTP Servermod_h264 start
mod_flvx start
mod_h264 starttime
lighttpdstartmod_h264 starttime
Nginxhttp_flv_module starthttp_mp4_module start
Nimble Streamerstartstart

See also

References

  1. QuickTime Streaming Server 4.1 (PDF), archived from the original (PDF) on 2011-07-06, retrieved 2010-09-21, Two methods are commonly used to deliver media over the web for real-time viewing: progressive download (Fast Start) and real-time streaming.
  2. Understanding the MPEG-4 movie atom, retrieved 2015-07-17
  3. Peter Luk. "Video Delivery: HTTP Pseudo-Streaming".
  4. 1 2 Billy Hoffman (2016). "Optimizing MP4 Video for faster streaming".
  5. 1 2 "Module ngx_http_mp4_module".
  6. "FFmpeg Formats Documentation".
  7. Pseudo Streaming in Flash, retrieved 2015-07-17
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