Evaluation of resolution enhancement in shifted superimposed projection displays: Simulations and experiments

Spatial resolution is one of the key performance parameters of a projected display, and the projector industry continuously aims to increase it. Projector resolution is traditionally based on the resolution of the spatial light modulator (SLM), and increasing the projector resolution is typically done by increasing the SLM pixel count. However, increasing the amount of pixels on a single SLM is both cost intensive and technically challenging as not all SLM technologies support a sufficiently high pixel count. For this reason there has been a significant focus in recent years to develop resolution enhancing methods that allow projector resolution to exceed the native resolution of the projector SLM. Shifted superimposition is one of the popular methods for increasing the resolution of the projected image. This is commonly done by shifting every other frame spatially on the projected screen with sub-pixel precision to form a new pixel grid with finer pixel pitch. Even though this is an established method, there are still an open question of how well this technique performs in comparison to native resolution, and how high the effective resolution gain really is. In this PhD research we explore different aspects of resolution enhancement through shifted superimposition to gain more knowledge of how this method performs, and how to evaluate the actual resolution gain of this resolution enhancement method. We also review different ways the subframes may be generated, and what impact the shifting direction has on the resulting superimposed displayed image. Through simulations and subjective observer experiments, we have established that the MSSSIM image quality metric is the most suitable metric to evaluate the simulated superimposed image since the results of this metric corresponds best with our subjective view of a good image. We have used this metric to evaluate different subframe generation techniques, and also as a tool to investigate the impact of the direction of the shift on the displayed image. In this study we demonstrate the characteristics of the different categories of subframe generation methods, and that the subframe generation method used have a great impact on the overall quality of the superimposed image. Focusing on the shifting direction we establish that the quality of the superimposed image is almost invariant of the direction of the shift as long as the shift is not in horizontal or vertical direction. The last part of this thesis explores