Marwan Al-Akaidi scite author profile

Application-layer forward error correction (FEC) is used in many multimedia communication systems to address the problem of packet loss in lossy packet networks. One powerful form of application-layer FEC is unequal error protection which protects the information symbols according to their importance. We propose a method for unequal error protection with a Fountain code. When the information symbols were partitioned into two protection classes (most important and least important), our method required a smaller transmission bit budget to achieve low bit error rates compared to the two state of the art techniques. We also compared our method to the two state of the art techniques for video unicast and multicast over a lossy network. Simulations for the scalable video coding (SVC) extension of the H.264/AVC standard showed that our method required a smaller transmission bit budget to achieve high quality video.

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Robust live unicast video streaming with rateless codes

Ahmad

Hamzaoui

Al-Akaidi

2007

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Abstract-We consider live unicast video streaming over a packet erasure channel. To protect the transmitted data, previous solutions use forward error correction (FEC), where the channel code rate is fixed in advance according to an estimation of the packet loss rate. However, these solutions are inefficient under dynamic and unpredictable channel conditions because of the mismatch between the estimated packet loss rate and the actual one. We introduce a new approach based on rateless codes and receiver feedback. For every source block, the sender keeps on transmitting the encoded symbols until it receives an acknowledgment from the receiver indicating that the block was decoded successfully. Within this framework, we provide an efficient algorithm to minimize bandwidth usage while ensuring successful decoding subject to an upper bound on the packet loss rate. Experimental results showed that compared to traditional fixed-rate FEC, our scheme provides significant bandwidth savings for the same playback quality.

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A new turbo coding approach to reduce the Peak-to-Average Power Ratio of a multi-antenna-OFDM system

Al-Akaidi

Daoud²,

Linfoot

2007

IJMC

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Nearfield binaural synthesis and ambisonics

Menzies

Al-Akaidi

2007

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Ambisonic encodings can be rendered binaurally, as well as for speaker arrays. This process is developed for general high-order Ambisonic encodings of soundfields containing near as well as far sources. For sufficently near sources an error is identified, resulting from the limited field of validity of the freefield harmonic expansion. A modified expansion is derived that can render such sources correctly.

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Fractal Speech Processing

Al-Akaidi

2004

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Marwan Al-Akaidi

Unequal Error Protection Using Fountain Codes With Applications to Video Communication

Robust live unicast video streaming with rateless codes

A new turbo coding approach to reduce the Peak-to-Average Power Ratio of a multi-antenna-OFDM system

Nearfield binaural synthesis and ambisonics

Fractal Speech Processing

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