Sandro Spina scite author profile

Sandro Spina

5Publications

30Citation Statements Received

62Citation Statements Given

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Affiliations

University of Malta, University of Warwick, Coventry (United Kingdom)

Publications

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Frame Rate vs Resolution: A Subjective Evaluation of Spatiotemporal Perceived Quality Under Varying Computational Budgets

Debattista

Bugeja

Spina

et al. 2017

Computer Graphics Forum

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Maximizing performance for rendered content requires making compromises on quality parameters depending on the computational resources available . Yet, it is currently unclear which parameters best maximize perceived quality. This work investigates perceived quality across computational budgets for the primary spatiotemporal parameters of resolution and frame rate. Three experiments are conducted. Experiment 1 (n = 26) shows that participants prefer fixed frame rates of 60 frames per second (fps) at lower resolutions over 30 fps at higher resolutions. Experiment 2 (n = 24) explores the relationship further with more budgets and quality settings and again finds 60 fps is generally preferred even when more resources are available. Experiment 3 (n = 25) permits the use of adaptive frame rates, and analyses the resource allocation across seven budgets. Results show that while participants allocate more resources to frame rate at lower budgets the situation reverses once higher budgets are available and a frame rate of around 40 fps is achieved. In the overall, the results demonstrate a complex relationship between frame rate and resolution's effects on perceived quality. This relationship can be harnessed, via the results and models presented, to obtain more cost‐effective virtual experiences.

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Mutually Compatible and Incompatible Merges for the Search of the Smallest Consistent DFA

Abela

Coste

Spina

2004

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An asynchronous method for cloud-based rendering

2018

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Interactive high-fidelity rendering is still unachievable on many consumer devices. Cloud gaming services have shown promise in delivering interactive graphics beyond the individual capabilities of user devices. However, a number of shortcomings are manifest in these systems: high network bandwidths are required for higher resolutions and input lag due to network fluctuations heavily disrupts user experience. In this paper we present a scalable solution for interactive high-fidelity graphics based on a distributed rendering pipeline where direct lighting is computed on the client device and indirect lighting in the cloud. The client device keeps a local cache for indirect lighting which is asynchronously updated using an object space representation; this allows us to achieve interactive rates that are unconstrained by network performance for a wide range of display resolutions that are also robust to input lag. Furthermore, in multi-user environments, the computation of indirect lighting is amortised over participating clients.

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GPU-Based Selective Sparse Sampling for Interactive High-Fidelity Rendering

Galea

Debattista

Spina

2014

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Telemetry-based optimisation for user training in racing simulators

Bugeja

Spina

Buhagiar

2017

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Sandro Spina

Frame Rate vs Resolution: A Subjective Evaluation of Spatiotemporal Perceived Quality Under Varying Computational Budgets

Mutually Compatible and Incompatible Merges for the Search of the Smallest Consistent DFA

An asynchronous method for cloud-based rendering

GPU-Based Selective Sparse Sampling for Interactive High-Fidelity Rendering

Telemetry-based optimisation for user training in racing simulators

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