Add to ORKGIn this paper, we introduce an analytical expression for the expected distortion of a single layer encoded video bit-stream. Based on the expected distortion model, we propose a distortion-optimal Unequal Error Protection (UEP) technique to transmit such bit-stream over a wireless tandem channel. The proposed method allocates the total transmission budget unequally to dif-ferent frames of a video bit-stream in order to protect the bit-stream against both bit errors caused by fading and packet erasures caused by network buffering. We compare this technique with another UEP technique as well as a one-dimension equal length protection technique. The evalu-ation results for different choices of packet sizes, available budgets, and channel condi...
The huge amount of data embodied in a video signal is by far the biggest burden on existing wireless...
Abstract—Past work on cooperative communications has indicated substantial improvements in channel r...
The huge amount of data embodied in a video signal is by far the biggest burden on existing wireless...
Abstract — We identify an analytical expression for the dis-tortion of a scalable video bitstream co...
This paper presents a novel adaptation technique for optimisation of the source and error protection...
[[abstract]]This paper proposes an unequal error protection (UEP) method for MPEG-2 video transmissi...
This paper presents a novel adaptation technique for optimisation of the source and error protection...
This paper presents a novel adaptation technique for optimisation of the source and error protection...
In this paper, we study joint source channel coding for bitplane based video coding over wireless ch...
This work focus on the problem linked to the transmission of real time video over packet wireless ne...
When we transmit multimedia through wireless channels, we need to protect source bits from channel n...
Applications of Wireless communications are undergoing major expansion and have attracted a great at...
Multimedia applications involving the transmission of video over communication networks are rapidly ...
FGS (Fine Granularity Scalability) is a scalable coding technique which can provide flexibility and ...
In this paper, it is proposed to design and implement a physical layer Unequal Error Protection (UEP...
The huge amount of data embodied in a video signal is by far the biggest burden on existing wireless...
Abstract—Past work on cooperative communications has indicated substantial improvements in channel r...
The huge amount of data embodied in a video signal is by far the biggest burden on existing wireless...
Abstract — We identify an analytical expression for the dis-tortion of a scalable video bitstream co...
This paper presents a novel adaptation technique for optimisation of the source and error protection...
[[abstract]]This paper proposes an unequal error protection (UEP) method for MPEG-2 video transmissi...
This paper presents a novel adaptation technique for optimisation of the source and error protection...
This paper presents a novel adaptation technique for optimisation of the source and error protection...
In this paper, we study joint source channel coding for bitplane based video coding over wireless ch...
This work focus on the problem linked to the transmission of real time video over packet wireless ne...
When we transmit multimedia through wireless channels, we need to protect source bits from channel n...
Applications of Wireless communications are undergoing major expansion and have attracted a great at...
Multimedia applications involving the transmission of video over communication networks are rapidly ...
FGS (Fine Granularity Scalability) is a scalable coding technique which can provide flexibility and ...
In this paper, it is proposed to design and implement a physical layer Unequal Error Protection (UEP...
The huge amount of data embodied in a video signal is by far the biggest burden on existing wireless...
Abstract—Past work on cooperative communications has indicated substantial improvements in channel r...
The huge amount of data embodied in a video signal is by far the biggest burden on existing wireless...