D
Detlev Marpe
Researcher at Heinrich Hertz Institute
Publications - 369
Citations - 14506
Detlev Marpe is an academic researcher from Heinrich Hertz Institute. The author has contributed to research in topics: Encoder & Context-adaptive binary arithmetic coding. The author has an hindex of 50, co-authored 352 publications receiving 13586 citations. Previous affiliations of Detlev Marpe include Free University of Berlin & Fraunhofer Society.
Papers
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Journal ArticleDOI
Overview of the Scalable Video Coding Extension of the H.264/AVC Standard
TL;DR: An overview of the basic concepts for extending H.264/AVC towards SVC are provided and the basic tools for providing temporal, spatial, and quality scalability are described in detail and experimentally analyzed regarding their efficiency and complexity.
Journal ArticleDOI
Context-based adaptive binary arithmetic coding in the H.264/AVC video compression standard
TL;DR: Context-based adaptive binary arithmetic coding (CABAC) as a normative part of the new ITU-T/ISO/IEC standard H.264/AVC for video compression is presented, and significantly outperforms the baseline entropy coding method of H.265.
Journal ArticleDOI
Video coding with H.264/AVC: tools, performance, and complexity
Jörn Ostermann,J. Bormans,P. List,Detlev Marpe,Matthias Narroschke,Fernando Pereira,Thomas Stockhammer,Thomas Wedi +7 more
TL;DR: This paper provides an overview of the new tools, features and complexity of H.264/AVC.
Journal ArticleDOI
The H.264/MPEG4 advanced video coding standard and its applications
TL;DR: The technology behind the new H.264/MPEG4-AVC standard is discussed, focusing on the main distinct features of its core coding technology and its first set of extensions, known as the fidelity range extensions (FRExt).
Proceedings ArticleDOI
Analysis of Hierarchical B Pictures and MCTF
TL;DR: In this paper, an investigation of H.264/MPEG4-AVC conforming coding with hierarchical B pictures is presented, and simulation results turned out that in comparison to the widely used IBBP structure coding gains can be achieved at the expense of an increased coding delay.