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Evaluation of optimisation techniques for multiscopic rendering

Student Thesis: Student thesis Master's thesis

About the thesis

This project evaluates different performance optimisation techniques applied to stereoscopic and multiscopic rendering for interactive applications. The artefact features a robust plug-in package for the Unity game engine. The thesis provides background information for the performance optimisations, outlines all the findings, evaluates the optimisations and provides suggestions for future work. Scrum development methodology is used to develop the artefact and quantitative research methodology is used to evaluate the findings by measuring performance. This project concludes that the use of each performance optimisation has specific use case scenarios in which performance benefits. Foveated rendering provides greatest performance increase for both stereoscopic and multiscopic rendering but is also more computationally intensive as it requires an eye tracking solution. Dynamic resolution is very beneficial when overall frame rate smoothness is needed and frame drops are present. Depth optimisation is beneficial for vast open environments but can lead to decreased performance if used inappropriately.

Thesis Information

Thesis Award Date

10/2015

Qualification Level

Master's thesis

Original Language

English

Supervisors

James Stephen Wood (Second supervisor)

Awarding Institution

ID

handle.net: 10547/608320