@InCollection{Amirpourazarian2021b, author = {Hadi Amirpour and Ekrem Cetinkaya and Christian Timmerer and Mohammad Ghanbari}, booktitle = {Proceedings of the 27th Internationl Conference on Multimedia Modeling (MMM 2021)}, publisher = {Springer International Publishing}, title = {{Towards Optimal Multirate Encoding for {HTTP} Adaptive Streaming}}, year = {2021}, month = jan, number = {12572}, pages = {469--480}, series = {Lecture Notes in Computer Science}, abstract = {HTTP Adaptive Streaming (HAS) enables high quality stream-ing of video contents. In HAS, videos are divided into short intervalscalled segments, and each segment is encoded at various quality/bitratesto adapt to the available bandwidth. Multiple encodings of the same con-tent imposes high cost for video content providers. To reduce the time-complexity of encoding multiple representations, state-of-the-art methods typically encode the highest quality representation first and reusethe information gathered during its encoding to accelerate the encodingof the remaining representations. As encoding the highest quality rep-resentation requires the highest time-complexity compared to the lowerquality representations, it would be a bottleneck in parallel encoding scenarios and the overall time-complexity will be limited to the time-complexity of the highest quality representation. In this paper and toaddress this problem, we consider all representations from the highestto the lowest quality representation as a potential, single reference toaccelerate the encoding of the other, dependent representations. We for-mulate a set of encoding modes and assess their performance in terms ofBD-Rate and time-complexity, using both VMAF and PSNR as objec-tive metrics. Experimental results show that encoding a middle qualityrepresentation as a reference, can significantly reduce the maximum en-coding complexity and hence it is an efficient way of encoding multiplerepresentations in parallel. Based on this fact, a fast multirate encodingmethod is proposed which utilizes depth and prediction mode of a middle quality representation to accelerate the encoding of the dependentrepresentations.}, doi = {10.1007/978-3-030-67832-6_38}, keywords = {HEVC, Video Encoding, Multirate Encoding, DASH}, url = {https://link.springer.com/chapter/10.1007/978-3-030-67832-6_38} }