The spatial scalability of H.264/SVC is achieved by a multi-layer approach, where an enhancement layer is dependent on its preceding layers. To address this dependent issue, we propose a model-based spatial layer bit allocation algorithm for H.264/SVC in this work. The inter-layer dependency is decoupled by analyzing the signal flow in the H.264/SVC encoder. We show that the rate and the distortion (R-D) characteristics of a dependent layer with a frame as a basic coding unit. Finally, a low complexity spatial layer bit allocation scheme is developed using the proposed frame-based R-D models. It is shown by experimental results that our proposed bit allocation algorithm can achieve the coding performance close to the optimal R-D performance...
Due to the heterogeneous wired or wireless networks, video spatial scalability has become important ...
In this paper we present a bit allocation approach based on motion vector analysis for improved Rate...
A joint quality-temporal (Q-T) bit allocation scheme is proposed for H.264/SVC in this work. First, ...
The spatial scalability of H.264/SVC is achieved by a multi-layer approach, where an enhancement lay...
We propose a model-based spatial layer bit allocation algorithm for H.264/SVC in this work. The spat...
We propose a model-based spatial layer bit allocation algorithm for H.264/scalable video coding (SVC...
This paper investigates the problem of bit allocation for spatial scalability coding of H.264/SVC. L...
A model-based spatial-quality (S-Q) layer bit allocation algorithm in H.264/SVC has been proposed. I...
A joint spatial-temporal layer (S-T) bit allocation problem for H.264/SVC is studied with dependent ...
UnrestrictedIn this research, we investigate model-based bit allocation algorithms for H.264/SVC, wh...
The bit allocation problem for hierarchical B-pictures in H.264/SVC is studied with a GOP-based depe...
Recently, the H.264/AVC standard has been extended to incorporate Scalable Video Coding (SVC). SVC o...
In this paper, we propose a single-pass dependent bit allocation algorithm for H. 264/SVC hierarchic...
Scalable Video Coding (SVC) has been approved as the extension of the H.264/AVC video coding standar...
The scalable video coding (SVC) extension of H.264/AVC was recently standardized. The encoder contro...
Due to the heterogeneous wired or wireless networks, video spatial scalability has become important ...
In this paper we present a bit allocation approach based on motion vector analysis for improved Rate...
A joint quality-temporal (Q-T) bit allocation scheme is proposed for H.264/SVC in this work. First, ...
The spatial scalability of H.264/SVC is achieved by a multi-layer approach, where an enhancement lay...
We propose a model-based spatial layer bit allocation algorithm for H.264/SVC in this work. The spat...
We propose a model-based spatial layer bit allocation algorithm for H.264/scalable video coding (SVC...
This paper investigates the problem of bit allocation for spatial scalability coding of H.264/SVC. L...
A model-based spatial-quality (S-Q) layer bit allocation algorithm in H.264/SVC has been proposed. I...
A joint spatial-temporal layer (S-T) bit allocation problem for H.264/SVC is studied with dependent ...
UnrestrictedIn this research, we investigate model-based bit allocation algorithms for H.264/SVC, wh...
The bit allocation problem for hierarchical B-pictures in H.264/SVC is studied with a GOP-based depe...
Recently, the H.264/AVC standard has been extended to incorporate Scalable Video Coding (SVC). SVC o...
In this paper, we propose a single-pass dependent bit allocation algorithm for H. 264/SVC hierarchic...
Scalable Video Coding (SVC) has been approved as the extension of the H.264/AVC video coding standar...
The scalable video coding (SVC) extension of H.264/AVC was recently standardized. The encoder contro...
Due to the heterogeneous wired or wireless networks, video spatial scalability has become important ...
In this paper we present a bit allocation approach based on motion vector analysis for improved Rate...
A joint quality-temporal (Q-T) bit allocation scheme is proposed for H.264/SVC in this work. First, ...