294 research outputs found
Efficient high-resolution video compression scheme using background and foreground layers
Video coding using dynamic background frame achieves better compression compared to the traditional techniques by encoding background and foreground separately. This process reduces coding bits for the overall frame significantly; however, encoding background still requires many bits that can be compressed further for achieving better coding efficiency. The cuboid coding framework has been proven to be one of the most effective methods of image compression which exploits homogeneous pixel correlation within a frame and has better alignment with object boundary compared to traditional block-based coding. In a video sequence, the cuboid-based frame partitioning varies with the changes of the foreground. However, since the background remains static for a group of pictures, the cuboid coding exploits better spatial pixel homogeneity. In this work, the impact of cuboid coding on the background frame for high-resolution videos (Ultra-High-Definition (UHD) and 360-degree videos) is investigated using the multilayer framework of SHVC. After the cuboid partitioning, the method of coarse frame generation has been improved with a novel idea by keeping human-visual sensitive information. Unlike the traditional SHVC scheme, in the proposed method, cuboid coded background and the foreground are encoded in separate layers in an implicit manner. Simulation results show that the proposed video coding method achieves an average BD-Rate reduction of 26.69% and BD-PSNR gain of 1.51 dB against SHVC with significant encoding time reduction for both UHD and 360 videos. It also achieves an average of 13.88% BD-Rate reduction and 0.78 dB BD-PSNR gain compared to the existing relevant method proposed by X. Hoang Van. © 2013 IEEE
Deliverable D7.5 LinkedTV Dissemination and Standardisation Report v2
This deliverable presents the LinkedTV dissemination and standardisation report for the project period of months 19 to 30 (April 2013 to March 2014)
Location Aided Energy Balancing Strategy in Green Cellular Networks
Most cellular network communication strategies are focused on data traffic
scenarios rather than energy balance and efficient utilization. Thus mobile
users in hot cells may suffer from low throughput due to energy loading
imbalance problem. In state of art cellular network technologies, relay
stations extend cell coverage and enhance signal strength for mobile users.
However, busy traffic makes the relay stations in hot area run out of energy
quickly. In this paper, we propose an energy balancing strategy in which the
mobile nodes are able to dynamically select and hand over to the relay station
with the highest potential energy capacity to resume communication. Key to the
strategy is that each relay station merely maintains two parameters that
contains the trend of its previous energy consumption and then predicts its
future quantity of energy, which is defined as the relay station potential
energy capacity. Then each mobile node can select the relay station with the
highest potential energy capacity. Simulations demonstrate that our approach
significantly increase the aggregate throughput and the average life time of
relay stations in cellular network environment.Comment: 6 pages, 5 figures. arXiv admin note: text overlap with
arXiv:1108.5493 by other author
“I thought you were okay”: Participatory Design with Young Adults to Fight Multiparty Privacy Conflicts in Online Social Networks
International audienceWhile sharing multimedia content on Online Social Networks (OSNs) has many benefits, exposing other people without obtaining permission could cause Multiparty Privacy Conflicts (MPCs). Earlier studies developed technical solutions and dissuasive approaches to address MPCs. However, none of these studies involved OSN users who have experienced MPCs, in the design process, possibly overlooking the valuable experiences these individuals might have accrued. To fill this gap, we recruited participants specifically from this population of users, and involved them in participatory design sessions aiming at ideating solutions to reduce the incidence of MPCs. To frame the activities of our participants, we borrowed terminology and concepts from a well known framework used in the justice systems. Over the course of several design sessions, our participants designed 10 solutions to mitigate MPCs. The designed solutions leverage different mechanisms, including preventing MPCs from happening, dissuading users from sharing, mending the harm, and educating users about the community standards. We discuss the open design and research opportunities suggested by the designed solutions and we contribute an ideal workflow that synthesizes the best of each solution. This study contributes to the innovation of privacy-enhancing technologies to limit the incidences of MPCs in OSNs
Dense light field coding: a survey
Light Field (LF) imaging is a promising solution for providing more immersive and closer to reality multimedia experiences to end-users with unprecedented creative freedom and flexibility for applications in different areas, such as virtual and augmented reality. Due to the recent technological advances in optics, sensor manufacturing and available transmission bandwidth, as well as the investment of many tech giants in this area, it is expected that soon many LF transmission systems will be available to both consumers and professionals. Recognizing this, novel standardization initiatives have recently emerged in both the Joint Photographic Experts Group (JPEG) and the Moving Picture Experts Group (MPEG), triggering the discussion on the deployment of LF coding solutions to efficiently handle the massive amount of data involved in such systems.
Since then, the topic of LF content coding has become a booming research area, attracting the attention of many researchers worldwide. In this context, this paper provides a comprehensive survey of the most relevant LF coding solutions proposed in the literature, focusing on angularly dense LFs. Special attention is placed on a thorough description of the different LF coding methods and on the main concepts related to this relevant area. Moreover, comprehensive insights are presented into open research challenges and future research directions for LF coding.info:eu-repo/semantics/publishedVersio
FaceLooks: A Smart Headband for Signaling Face-to-Face Behavior
Eye-to-eye contact and facial expressions are key communicators, yet there has been little done to evaluate the basic properties of face-to-face; mutual head orientation behaviors. This may be because there is no practical device available to measure the behavior. This paper presents a novel headband-type wearable device called FaceLooks, used for measuring the time of the face-to-face state with identity of the partner, using an infrared emitter and receiver. It can also be used for behavioral healthcare applications, such as for children with developmental disorders who exhibit difficulties with the behavior, by providing awareness through the visual feedback from the partner’s device. Two laboratory experiments showed the device’s detection range and response time, tested with a pair of dummy heads. Another laboratory experiment was done with human participants with gaze trackers and showed the device’s substantial agreement with a human observer. We then conducted two field studies involving children with intellectual disabilities and/or autism spectrum disorders. The first study showed that the devices could be used in the school setting, observing the children did not remove the devices. The second study showed that the durations of children’s face-to-face behavior could be increased under a visual feedback condition. The device shows its potential to be used in therapy and experimental fields because of its wearability and its ability to quantify and shape face-to-face behavior
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