Isis Bender, Gustavo Rehbein, Guilherme Correa, Luciano Agostini, Marcelo Porto
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Adaptive complexity control for AV1 video encoder using machine learning
Digital videos are widely used on various platforms, including smartphones and other battery-powered mobile devices, which can suffer from energy consumption and performance constraints. Video encoders are responsible for compressing video data, enabling the use of this type of media by reducing the data rate while maintaining image quality. To promote the use of digital videos, the continuous improvement of digital video encoding standards is crucial. In this context, the Alliance for Open Media (AOM) developed the AV1 (AOMedia Video 1) format. However, the advanced tools and enhancements provided by AV1 come with a high computational cost. To address this issue, this paper presents the learning-based AV1 complexity controller (LACCO). The goal of LACCO is to dynamically optimize the encoding time of the AV1 encoder for HD 1080 and UHD 4K resolution videos. The controller achieves this goal by predicting the encoding time of future frames and classifying input videos according to their characteristics through the use of trained machine learning models. LACCO was integrated into the reference software of the AV1 encoder and its encoding time reduction ranges from 10 to 70%, with average error results ranging from 0.11 to 1.88 percentage points for HD 1080 resolution and from 0.14 to 3.33 percentage points for UHD 4K resolution.
期刊介绍:
Due to rapid advancements in integrated circuit technology, the rich theoretical results that have been developed by the image and video processing research community are now being increasingly applied in practical systems to solve real-world image and video processing problems. Such systems involve constraints placed not only on their size, cost, and power consumption, but also on the timeliness of the image data processed.
Examples of such systems are mobile phones, digital still/video/cell-phone cameras, portable media players, personal digital assistants, high-definition television, video surveillance systems, industrial visual inspection systems, medical imaging devices, vision-guided autonomous robots, spectral imaging systems, and many other real-time embedded systems. In these real-time systems, strict timing requirements demand that results are available within a certain interval of time as imposed by the application.
It is often the case that an image processing algorithm is developed and proven theoretically sound, presumably with a specific application in mind, but its practical applications and the detailed steps, methodology, and trade-off analysis required to achieve its real-time performance are not fully explored, leaving these critical and usually non-trivial issues for those wishing to employ the algorithm in a real-time system.
The Journal of Real-Time Image Processing is intended to bridge the gap between the theory and practice of image processing, serving the greater community of researchers, practicing engineers, and industrial professionals who deal with designing, implementing or utilizing image processing systems which must satisfy real-time design constraints.
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