Improved Method And Design ForTransmitting Multimedia Data In Mobile Wireless Applications
- 技術優勢
- Multimedia CODEC method and network architecture that are optimized for low-power wireless devices with limited battery charge times, and low-bandwidth wireless networks with high packet drop rates
- 技術應用
- In general, real-time multimedia transmission over mobile wireless networks.More specifically, video over standard cellular, 802.11 and video sensor networks.
- 詳細技術說明
- None
- *Abstract
-
The technical requirements for transmitting multimedia data in mobile wireless applications (e.g., cellular, 802.11 and video sensor networks) are significantly different from the requirements in wired PC and broadcast TV applications. For example, in contrast to wired and broadcast applications, mobile wireless applications are typically comprised of low-power devices with limited battery charge times, and low-bandwidth networks that are prone to channel loss. Consequently, popular CODECs such as MPEG and H.263 that were developed for wired and broadcast applications fail to simultaneously address the requirements of mobile wireless applications.
To address these more demanding requirements, researchers at the University of California at Berkeley have developed a multimedia CODEC and architecture that are optimized for mobile wireless applications. Based on the principles of distributed compression, this Berkeley model represents a significant departure from traditional CODEC models.
For mobile wireless multimedia transmission, the Berkeley model has several advantages over existing models. First, in comparison to intra-frame video coding methods, the Berkeley CODEC places low computational complexity on both encoding and decoding. Second, in comparison to full-motion video coding methods, the Berkeley CODEC offers high compression efficiency and can robustly handle packet and even frame drops. And third, in comparison to other distributed CODEC methods, the Berkeley CODEC does not require network feedback. Moreover, the syntax of the Berkeley encoder is rich enough to be easily trans-coded into the bit-streams of popular encoders such as MPEG.
- *IP Issue Date
- Jul 15, 2008
- *Principal Investigation
-
Name: Rohit Puri
Department:
Name: Kannan Ramchandran
Department:
- 附加資料
- Patent Number: US7400774B2
Application Number: US2003651854A
Inventor: Puri, Rohit | Ramchandran, Kannan
Priority Date: 6 Sep 2002
Priority Number: US7400774B2
Application Date: 29 Aug 2003
Publication Date: 15 Jul 2008
IPC Current: G06K000936 | G06K000946 | H04N000726 | H04N000728 | H04N000736 | H04N000750 | H04N000766
US Class: 382238 | 375E07029 | 375E07129 | 375E07137 | 375E07139 | 375E07141 | 375E07167 | 375E07174 | 375E07177 | 375E07209 | 375E07211 | 375E0726 | 375E0728 | 382240
Assignee Applicant: The Regents of the University of California
Title: Encoding and decoding of digital data using cues derivable at a decoder
Usefulness: Encoding and decoding of digital data using cues derivable at a decoder
Summary: Used for encoding digital information e.g. video, still image and audio.
Novelty: Digital information e.g. video, encoding method, involves identifying target code word that represents portion of information and determining set of code words that includes target word
- 主要類別
- 信息和通信技術/電信
- 細分類別
- 多媒體
- 申請號碼
- 7400774
- 其他
-
Tech ID/UC Case
17212/2003-008-0
Related Cases
2003-008-0
- 國家/地區
- 美國
