Abstract
With the increasing number of video applications, it is essential to resolve issues such as ineffective search of video content, tampered/forged video content, packet loss, to name a few. Data embedding is typically utilized as one of the solutions to address the aforementioned issues. One of the important requirements of data embedding is to maximize embedding capacity with minimal bit rate overhead while ensuring imperceptibility of the inserted data. However, embedding capacity varies depending on the video content and increasing the embedding capacity usually leads to video quality degradation. In this work, a threshold-controlled block splitting technique is proposed for embedding data into SHVC video. Specifically, the embedding capacity can be increased by coding the host video by using more small blocks, which can be achieved by tuning a threshold-controlled parameter in the rate distortion optimization process. Subsequently, the predictive syntax elements in both intra and inter-coded blocks are jointly utilized to embed data, which ensures that data can be embedded regardless of the prediction mode used in coding a block. Results suggest that the proposed method can achieve a trade-off between the increase in embedding capacity and bit rate overhead while maintaining video quality. In the best case scenario, the sequence PartyScene can embed 516.9 kbps with an average bit rate overhead of +7.0% for the Low Delay P configuration, while the same video can embed 1578.6 kbps with an average bit rate overhead of +2.9% for the All Intra configuration.
Highlights
Nowadays, we rely on video technology for various purposes, including dashcam recording/surveillance video as evidence in the event of an incident, movie streaming for entertainment, and endoscopic video for health care
Unlike the existing methods which are only able to embed data into blocks coded in either intra picture or inter picture prediction mode, this paper proposes a pair of data embedding techniques, where one of them can eventually be deployed to embed data regardless of the prediction mode used in coding the block
When a block is selected for data embedding, the inter-layer intra prediction mode is set to the highest priority and labelled as the top performer in the candidate list so that it is selected for coding
Summary
We rely on video technology for various purposes, including dashcam recording/surveillance video as evidence in the event of an incident, movie streaming for entertainment, and endoscopic video for health care. A hyper-linked video combines other videos by using a nonlinear information structure, which allows a user to make choices based on the content of the video as well as to navigate between videos and other hypermedia based on the user’s interests [2] In another application, error concealment suppresses interruption caused by abrupt bandwidth changes or packet losses by using data embedding techniques [3]. Irregardless of the video standard in use, it is essential to design a data embedding method which can increase embedding capacity while maintaining the perceptual quality of the processed video. The proposed method is able to achieve a desired trade-off between the increase in embedding capacity versus bit rate overhead, which is crucial for applications such as error concealment, integrated video content management, video hyper-linking, steganography, and video annotation.
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