[미국특허]
Apparatus, system, and method for multi-bitrate content streaming
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-029/06
H04L-012/927
H04L-012/801
H04N-007/24
H04N-021/2343
H04N-021/433
H04N-021/84
H04N-021/845
G06F-017/30
H04L-029/08
출원번호
US-0719122
(2015-05-21)
등록번호
US-9571551
(2017-02-14)
발명자
/ 주소
Brueck, David F.
Hurst, Mark B.
출원인 / 주소
EchoStar Technologies L.L.C.
대리인 / 주소
LK Global
인용정보
피인용 횟수 :
1인용 특허 :
89
초록▼
An apparatus for multi-bitrate content streaming includes a receiving module configured to capture media content, a streamlet module configured to segment the media content and generate a plurality of streamlets, and an encoding module configured to generate a set of streamlets. The system includes
An apparatus for multi-bitrate content streaming includes a receiving module configured to capture media content, a streamlet module configured to segment the media content and generate a plurality of streamlets, and an encoding module configured to generate a set of streamlets. The system includes the apparatus, wherein the set of streamlets comprises a plurality of streamlets having identical time indices and durations, and each streamlet of the set of streamlets having a unique bitrate, and wherein the encoding module comprises a master module configured to assign an encoding job to one of a plurality of host computing modules in response to an encoding job completion bid. A method includes receiving media content, segmenting the media content and generating a plurality of streamlets, and generating a set of streamlets.
대표청구항▼
1. A system for adaptive-rate content streaming videos for playback on end user stations, the system comprising a set of one or more servers including, a storage device to store a plurality of different copies of a same single video each encoded at a different bit rate and each divided into a plural
1. A system for adaptive-rate content streaming videos for playback on end user stations, the system comprising a set of one or more servers including, a storage device to store a plurality of different copies of a same single video each encoded at a different bit rate and each divided into a plurality of streamlets that collectively store data to playback the entire video but that individually store data to playback only a portion that starts at a unique time index and whose duration is less than the entire playback duration of the single video, wherein the time indexes of the streamlets are the same for the different copies such that the streamlets with the same time indexes from the different copies independently yield the same portions of the single video, and wherein each of the streamlets of each of the pluralities is a separate content file that is independently playable by the end user stations, anda web server, to be executed on the set of servers, wherein the web server is configured to: receive, for a set of one or more initial and sequential ones of the time indexes, at least one streamlet request over a set of one or more network connections from a requesting one of the end user stations to retrieve the separate content files storing the portions of the single video starting at the set of time indexes from one of the different copies;retrieve from the storage device the requested content files from the one copy;send the retrieved content files from the one copy to the requesting one of the end user stations over the set of network connections;receive, for each subsequent time index, at least one streamlet request over the set of network connections from the requesting one of the end user stations to retrieve the separate content files storing the portion of the single video starting at that time index from one of the different copies currently selected, wherein the requesting one of the end user stations selects the currently selected one of the different copies dependent upon ongoing determinations to shift the playback quality to a higher or lower quality one of the different copies, wherein the shifts in playback quality occur at the time indexes;retrieve from the storage device the requested content files from the currently selected one of the different copies; andsend the retrieved content files from the currently selected one of the different copies to the requesting one of the end user stations over the set of network connections. 2. The system of claim 1, wherein the set of servers does not require a specialized protocol for said adaptive-rate content streaming. 3. The system of claim 1, wherein at least one of the set of one or more servers is a cache server. 4. The system of claim 1, wherein the web server receives the streamlet requests using a standard protocol. 5. The system of claim 1, wherein the web server receives the streamlet request as Hypertext Transport Protocol (HTTP) GET requests. 6. The system of claim 1, wherein at least one of the set of one or more servers is a content server, and wherein the content server includes a content module including, the web server; a receiving module configured to receive the videos;a streamlet module configured to segment the received videos to generate for each a plurality of sequential raw streamlets that collectively store data to playback the entire video and that individually store data to playback only a portion that starts at a unique time index and whose duration is less than the entire duration of the corresponding video; andan encoding module configured to encode each raw streamlet to generate, for each of said raw streamlets, a set including an encoded streamlet for each bitrate supported by the adaptive-rate content streaming, wherein each of the encoded streamlets in each of the sets is stored as the separate content file, wherein the encoded streamlets within each of the sets have the same time index as their corresponding raw streamlet such that the encoded streamlets of the same set independently yield on playback the same portion of the corresponding video, and wherein the separate content files within each of the sets are independently requestable by end user stations. 7. The system of claim 6, further comprising a streamlet database, wherein the encoding module is further configured to transmit the separate content files each storing one of the encoded streamlets to the streamlet database to be stored, and wherein the web server is coupled to the streamlet database to retrieve the requested ones of the separate content files from the streamlet database to transmit to the requesting one of the end user stations. 8. The system of claim 6, wherein the content module further comprises: a metadata module configured to receive metadata from a publisher, wherein the metadata comprises searchable content information; anda metadata database to store the metadata. 9. The system of claim 8, wherein the metadata further comprises metadata associated with an end user navigational environment for the single video. 10. The system of claim 6, wherein the encoding module is configured to encode multiple of the plurality of sequential raw streamlets in parallel. 11. The system of claim 6, wherein the encoding module is configured to encode the plurality of sequential raw streamlets at regular intervals using an offset parallel processing scheme. 12. The system of claim 6, wherein the encoding module comprises a master module configured to assign an encoding job to one of a plurality of hosts to generate at least one of the separate content files from at least one of the plurality of sequential raw streamlets in response to an encoding job completion bid received from the one host. 13. The system of claim 6, wherein the encoding module is further configured to multi-pass encode each of the plurality of sequential raw streamlets of at least one of the videos. 14. The system of claim 13, wherein the at least one of the videos is of a live event. 15. A method for adaptive-rate content streaming videos for playback on a content player on an end user station, the method comprising: receiving a selected one of the videos for generating streamlets for adaptive-rate content streaming; andcreating a plurality of different copies of the same selected video, wherein each of the different copies is encoded at a different bit rate and is divided into a plurality of streamlets that collectively store data to playback the entire video but that individually store data to playback only a portion that starts at a unique time index and whose duration is less than the entire duration of the selected video, wherein the time indexes of the streamlets are the same for the different copies such that streamlets with the same time indexes form the different copies independently yield the same portions of the selected video, and wherein each of the streamlets of each of the pluralities is a separate content file that is independently playable by the end user station. 16. The method of claim 15, wherein said creating comprises: encoding the selected video into each of the plurality of different copies at each of the different bit rates supported by the adaptive-rate content streaming; andsegmenting each of the plurality of different copies into the plurality of streamlets, wherein each of the plurality of streamlets of each of the plurality of different copies is stored as the separate content file, and wherein the separate content files within each of the sets are independently requestable by end user stations. 17. The method of claim 15, wherein said creating comprises: segmenting the selected video and generating a plurality of sequential raw streamlets that collectively store data to playback the entire video and that individually store data to playback only the portion that starts at the unique time index and whose duration is less than the entire duration of the corresponding video; andencoding each raw streamlet to generate, for each of said raw streamlets, a set including an encoded streamlet for each bitrate supported by the adaptive-rate content streaming, wherein each of the encoded streamlets in each of the sets is stored as the separate content file, and wherein the encoded streamlets within each of the sets have the same time index as their corresponding raw streamlet such that the encoded streamlets of the same set independently yield on playback the same portion of the corresponding video, wherein the separate content files within each of the sets are independently requestable by end user stations. 18. The method of claim 17, wherein said encoding comprises encoding multiple of the plurality of sequential raw streamlets in parallel. 19. The method of claim 17, wherein said encoding further comprises multi-pass encoding each of the plurality of sequential raw streamlets of the corresponding video. 20. A method for streaming from a set of one or more servers videos for playback on a content player on an end user station, the method comprising: streaming from the set of servers a selected one of the videos for playback on the content player, wherein the set of servers stores a plurality of different copies of the same selected video each encoded at a different bit rate and each divided into a plurality of streamlets that collectively store data to playback the entire video but that individually store data to playback only a portion that starts at a unique time index and whose duration is less than the entire playback duration of the selected video, wherein the time indexes of the streamlets are the same for the different copies such that the streamlets with the same time indexes from the different copies independently yield the same portions of the selected video, and wherein each of the streamlets of each of the pluralities is a separate content file that is independently playable by the end user stations, and wherein said streaming comprises: receiving, for a set of one or more initial and sequential ones of the time indexes, at least one streamlet request over a set of one or more network connections from a requesting one of the end user stations to retrieve the separate content files storing the portions of the single video starting at the set of time indexes from one of the different copies;retrieving from the storage device the requested content files with the set of time indexes from the one copy;sending the retrieved content files from the one copy to the requesting one of the end user stations over the set of network connections;receiving, for each subsequent time index, at least one streamlet request over the set of network connections from the requesting one of the end user stations to retrieve the separate content files storing the portion of the single video starting at that time index from one of the different copies currently selected, wherein the requesting one of the end user stations selects the currently selected one of the different copies dependent upon successive determinations to shift the playback quality to a higher or lower quality one of the different copies, wherein the shifts in playback quality occur at the time indexes;retrieving from the storage device the requested content files with the time index from the currently selected one of the different copies; andsending the retrieved content files from the currently selected one of the different copies to the requesting one of the end user stations over the set of network connections.
Hudson, Michael D.; Windheim, Brian L.; Stewart, Darin; Menon, Sudhir; Goschie, Mark W.; Shipley, Glen Curtis, Centralized selection of peers as media data sources in a dispersed peer network.
Goldszmidt German Sergio ; Willebeek-LeMair Marc Hubert ; Hon Kenneth Sau-yee,HKX, Client-based dynamic switching of streaming servers for fault-tolerance and load balancing.
Zou, Qiuzhen; Wiley, George Alan; Steele, Brian, Generating and implementing a communication protocol and interface for high data rate signal transfer.
Ueno Hideyuki,JPX, Information transmission apparatus, traffic control apparatus, method of managing bandwidth resources using the same and method of admitting a call, using variable-rate-encoding.
Girod,Bernd; Ericsson,Staffan; Resznik,Yuriy A.; Farber,Nikolaus, Method and apparatus for providing scalable pre-compressed digital video with reduced quantization based artifacts.
Arn Robert M. (Toronto CAX) Csanky Peter H. (Toronto CAX) Waszek Glen F. (Toronto CAX), Method and apparatus for scrambling and unscrambling data streams using encryption and decryption.
Swildens, Eric Sven Johan; Day, Richard David; Gupta, Ajit K., Method for determining metrics of a content delivery and global traffic management network.
Kewalramani, Vikram; Kumar, Arun; Winkler, Michael Thomas, Mobile wireless communications device providing enhanced file transfer management features and related methods.
Shao,Ling; Lin,Guo Hui, Peer to peer video on demand system selectively using client and server to forward the requested video program to another client.
Seckin, Gamze; Nagaraj, Raghavendra C.; Sarna, Lalit; Tseng, Alan; Bhalod, Jayank M.; Ma, Yanda, Quality of experience (QoE) method and apparatus for wireless communication networks.
Patel, Sujal M.; Ayars, Jeffrey M.; Agarwal, Rahul; Hefta-Gaub, Bradley D.; Haight, Peter S.; Stammen, Dale R.; Rosedale, Philip, System and method for determining network conditions.
Kramer,James P.; McBreen,James R.; Nissen,Laura M.; Sherren,Thomas P.; Qingyan,Chen; Burch,Michael R., System and method for providing an enhanced enterprise streaming media server capacity and performance.
Chou, Philip; Klemets, Anders; Huang, Cheng, System and process for controlling the coding bit rate of streaming media data employing a limited number of supported coding bit rates.
Kitazawa, Toshihiko; Suzuki, Takao; Seto, Hiroaki; Matsumura, Yoichi, Video data multiplexer, video data multiplexing control method, method and apparatus for multiplexing encoded stream, and encoding method and apparatus.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.