A pipeline for multiparty volumetric video conferencing: Transmission of point clouds over low latency DASH

The advent of affordable 3D capture and display hardware is making volumetric videoconferencing feasible. This technology increases the immersion of the participants, breaking the flat restriction of 2D screens, by allowing them to collaborate and interact in shared virtual reality spaces. In this paper we introduce the design and development of an architecture intended for volumetric videoconferencing that provides a highly realistic 3D representation of the participants, based on pointclouds. A pointcloud representation is suitable for real-time applications like video conferencing, due to its low-complexity and because it does not need a time consuming reconstruction process. As transport protocol we selected low latency DASH, due to its popularity and client-based adaptation mechanisms for tiling. This paper presents the architectural design, details the implementation, and provides some referential results. The demo will showcase the system in action, enabling volumetric videoconferencing using pointclouds

A pipeline for multiparty volumetric video conferencing: Transmission of point clouds over low latency DASH

The advent of affordable 3D capture and display hardware is making volumetric videoconferencing feasible. This technology increases the immersion of the participants, breaking the flat restriction of 2D screens, by allowing them to collaborate and interact in shared virtual reality spaces. In this paper we introduce the design and development of an architecture intended for volumetric videoconferencing that provides a highly realistic 3D representation of the participants, based on pointclouds. A pointcloud representation is suitable for real-time applications like video conferencing, due to its low-complexity and because it does not need a time consuming reconstruction process. As transport protocol we selected low latency DASH, due to its popularity and client-based adaptation mechanisms for tiling. This paper presents the architectural design, details the implementation, and provides some referential results. The demo will showcase the system in action, enabling volumetric videoconferencing using pointclouds

From Capture to Display: A Survey on Volumetric Video

Volumetric video, which offers immersive viewing experiences, is gaining increasing prominence. With its six degrees of freedom, it provides viewers with greater immersion and interactivity compared to traditional videos. Despite their potential, volumetric video services poses significant challenges. This survey conducts a comprehensive review of the existing literature on volumetric video. We firstly provide a general framework of volumetric video services, followed by a discussion on prerequisites for volumetric video, encompassing representations, open datasets, and quality assessment metrics. Then we delve into the current methodologies for each stage of the volumetric video service pipeline, detailing capturing, compression, transmission, rendering, and display techniques. Lastly, we explore various applications enabled by this pioneering technology and we present an array of research challenges and opportunities in the domain of volumetric video services. This survey aspires to provide a holistic understanding of this burgeoning field and shed light on potential future research trajectories, aiming to bring the vision of volumetric video to fruition.Comment: Submitte

On the use of composite indicators for mobile communications network management in smart sustainable cities

Beyond 5G networks will be fundamental towards enabling sustainable mobile communication networks. One of the most challenging scenarios will be met in ultra-dense networks that are deployed in densely populated areas. In this particular case, mobile network operators should benefit from new assessment metrics and data science tools to ensure an effective management of their networks. In fact, incorporating architectures allowing a cognitive network management framework could simplify processes and enhance the network's performance. In this paper, we propose the use of composite indicators based on key performance indicators both as a tool for a cognitive management of mobile communications networks, as well as a metric which could successfully integrate more advanced user-centric measurements. Composite indicators can successfully synthesize and integrate large amounts of data, incorporating in a single index different metrics selected as triggers for autonomous decisions. The paper motivates and describes the use of this methodology, which is applied successfully in other areas with the aim of ranking metrics to simplify complex realities. A use case that is based on a universal mobile telecommunications system network is analyzed, due to technology simplicity and scalability, as well as the availability of key performance indicators. The use case focuses on analyzing the fairness of a network over different coverage areas as a fundamental metric in the operation and management of the networks. To this end, several ranking and visualization strategies are presented, providing examples of how to extract insights from the proposed composite indicator

A2W: Context-Aware Recommendation System for Mobile Augmented Reality Web Browser

Peer reviewe

Towards immersive and social audience experience in remote VR opera

Opera is a historic art that struggles to be approachable to modern audiences. In partnership with the Irish National Opera (INO), this work considers how VR may be used to develop a new form of immersive opera. To this end, we ran three open-ended focus groups to consider how creative, multisensory, and social VR technology may be employed in digital opera. Our findings assert the importance of creating an immersive experience by safely giving audiences agency to interact, to democratize personal and social experiences, and to consider different ways of representing their bodies, their social rituals, and the virtual social space. Using these findings, we envision a new form of VR opera that couples physical traditions with digital affordances

Llama : Towards Low Latency Live Adaptive Streaming

Multimedia streaming, including on-demand and live delivery of content, has become the largest service, in terms of traffic volume, delivered over the Internet. The ever-increasing demand has led to remarkable advancements in multimedia delivery technology over the past three decades, facilitated by the concurrent pursuit of efficient and quality encoding of digital media. Today, the most prominent technology for online multimedia delivery is HTTP Adaptive Streaming (HAS), which utilises the stateless HTTP architecture - allowing for scalable streaming sessions that can be delivered to millions of viewers around the world using Content Delivery Networks. In HAS, the content is encoded at multiple encoding bitrates, and fragmented into segments of equal duration. The client simply fetches the consecutive segments from the server, at the desired encoding bitrate determined by an ABR algorithm which measures the network conditions and adjusts the bitrate accordingly. This method introduces new challenges to live streaming, where the content is generated in real-time, as it suffers from high end-to-end latency when compared to traditional broadcast methods due to the required buffering at client. This thesis aims to investigate low latency live adaptive streaming, focusing on the reduction of the end-to-end latency. We investigate the impact of latency on the performance of ABR algorithms in low latency scenarios by developing a simulation model and testing prominent on-demand adaptation solutions. Additionally, we conduct extensive subjective testing to further investigate the impact of bitrate changes on the perceived Quality of Experience (QoE) by users. Based on these investigations, we design an ABR algorithm suitable for low latency scenarios which can operate with a small client buffer. We evaluate the proposed low latency adaption solution against on-demand ABR algorithms and the state-of-the-art low latency ABR algorithms, under realistic network conditions using a variety of client and latency settings

Enabling energy-awareness for internet video

Continuous improvements to the state of the art have made it easier to create, send and receive vast quantities of video over the Internet. Catalysed by these developments, video is now the largest, and fastest growing type of traffic on modern IP networks. In 2015, video was responsible for 70% of all traffic on the Internet, with an compound annual growth rate of 27%. On the other hand, concerns about the growing energy consumption of ICT in general, continue to rise. It is not surprising that there is a significant energy cost associated with these extensive video usage patterns. In this thesis, I examine the energy consumption of typical video configurations during decoding (playback) and encoding through empirical measurements on an experimental test-bed. I then make extrapolations to a global scale to show the opportunity for significant energy savings, achievable by simple modifications to these video configurations. Based on insights gained from these measurements, I propose a novel, energy-aware Quality of Experience (QoE) metric for digital video - the Energy - Video Quality Index (EnVI). Then, I present and evaluate vEQ-benchmark, a benchmarking and measurement tool for the purpose of generating EnVI scores. The tool enables fine-grained resource-usage analyses on video playback systems, and facilitates the creation of statistical models of power usage for these systems. I propose GreenDASH, an energy-aware extension of the existing Dynamic Adaptive Streaming over HTTP standard (DASH). GreenDASH incorporates relevant energy-usage and video quality information into the existing standard. It could enable dynamic, energy-aware adaptation for video in response to energy-usage and user ‘green’ preferences. I also evaluate the subjective perception of such energy-aware, adaptive video streaming by means of a user study featuring 36 participants. I examine how video may be adapted to save energy without a significant impact on the Quality of Experience of these users. In summary, this thesis highlights the significant opportunities for energy savings if Internet users gain an awareness about their energy usage, and presents a technical discussion how this can be achieved by straightforward extensions to the current state of the art

Bitstream-based video quality modeling and analysis of HTTP-based adaptive streaming

Die Verbreitung erschwinglicher Videoaufnahmetechnologie und verbesserte Internetbandbreiten ermöglichen das Streaming von hochwertigen Videos (Auflösungen > 1080p, Bildwiederholraten ≥ 60fps) online. HTTP-basiertes adaptives Streaming ist die bevorzugte Methode zum Streamen von Videos, bei der Videoparameter an die verfügbare Bandbreite angepasst wird, was sich auf die Videoqualität auswirkt. Adaptives Streaming reduziert Videowiedergabeunterbrechnungen aufgrund geringer Netzwerkbandbreite, wirken sich jedoch auf die wahrgenommene Qualität aus, weswegen eine systematische Bewertung dieser notwendig ist. Diese Bewertung erfolgt üblicherweise für kurze Abschnitte von wenige Sekunden und während einer Sitzung (bis zu mehreren Minuten). Diese Arbeit untersucht beide Aspekte mithilfe perzeptiver und instrumenteller Methoden. Die perzeptive Bewertung der kurzfristigen Videoqualität umfasst eine Reihe von Labortests, die in frei verfügbaren Datensätzen publiziert wurden. Die Qualität von längeren Sitzungen wurde in Labortests mit menschlichen Betrachtern bewertet, die reale Betrachtungsszenarien simulieren. Die Methodik wurde zusätzlich außerhalb des Labors für die Bewertung der kurzfristigen Videoqualität und der Gesamtqualität untersucht, um alternative Ansätze für die perzeptive Qualitätsbewertung zu erforschen. Die instrumentelle Qualitätsevaluierung wurde anhand von bitstrom- und hybriden pixelbasierten Videoqualitätsmodellen durchgeführt, die im Zuge dieser Arbeit entwickelt wurden. Dazu wurde die Modellreihe AVQBits entwickelt, die auf den Labortestergebnissen basieren. Es wurden vier verschiedene Modellvarianten von AVQBits mit verschiedenen Inputinformationen erstellt: Mode 3, Mode 1, Mode 0 und Hybrid Mode 0. Die Modellvarianten wurden untersucht und schneiden besser oder gleichwertig zu anderen aktuellen Modellen ab. Diese Modelle wurden auch auf 360°- und Gaming-Videos, HFR-Inhalte und Bilder angewendet. Darüber hinaus wird ein Langzeitintegrationsmodell (1 - 5 Minuten) auf der Grundlage des ITU-T-P.1203.3-Modells präsentiert, das die verschiedenen Varianten von AVQBits mit sekündigen Qualitätswerten als Videoqualitätskomponente des vorgeschlagenen Langzeitintegrationsmodells verwendet. Alle AVQBits-Varianten, das Langzeitintegrationsmodul und die perzeptiven Testdaten wurden frei zugänglich gemacht, um weitere Forschung zu ermöglichen.The pervasion of affordable capture technology and increased internet bandwidth allows high-quality videos (resolutions > 1080p, framerates ≥ 60fps) to be streamed online. HTTP-based adaptive streaming is the preferred method for streaming videos, adjusting video quality based on available bandwidth. Although adaptive streaming reduces the occurrences of video playout being stopped (called “stalling”) due to narrow network bandwidth, the automatic adaptation has an impact on the quality perceived by the user, which results in the need to systematically assess the perceived quality. Such an evaluation is usually done on a short-term (few seconds) and overall session basis (up to several minutes). In this thesis, both these aspects are assessed using subjective and instrumental methods. The subjective assessment of short-term video quality consists of a series of lab-based video quality tests that have resulted in publicly available datasets. The overall integral quality was subjectively assessed in lab tests with human viewers mimicking a real-life viewing scenario. In addition to the lab tests, the out-of-the-lab test method was investigated for both short-term video quality and overall session quality assessment to explore the possibility of alternative approaches for subjective quality assessment. The instrumental method of quality evaluation was addressed in terms of bitstream- and hybrid pixel-based video quality models developed as part of this thesis. For this, a family of models, namely AVQBits has been conceived using the results of the lab tests as ground truth. Based on the available input information, four different instances of AVQBits, that is, a Mode 3, a Mode 1, a Mode 0, and a Hybrid Mode 0 model are presented. The model instances have been evaluated and they perform better or on par with other state-of-the-art models. These models have further been applied to 360° and gaming videos, HFR content, and images. Also, a long-term integration (1 - 5 mins) model based on the ITU-T P.1203.3 model is presented. In this work, the different instances of AVQBits with the per-1-sec scores output are employed as the video quality component of the proposed long-term integration model. All AVQBits variants as well as the long-term integration module and the subjective test data are made publicly available for further research