Abstract
Recently, as OLED displays are widely used in smartphones, their power management has become an important issue. Since OLED display devices show a large difference in power consumption depending on the colors used, proper color selection is important to reduce power consumption, but this may affect quality-of-experience (QoE) perceived by users. To address this tradeoff, this paper proposes a new power management scheme for graphical-user-interface (GUI) applications in OLED-based mobile devices. First, we examine the relationship between power consumption and color usage based on actual measurements and derive a model to express color preferences. Next, we present a dynamic programming algorithm that adaptively changes the color of the GUI objects in the applications to limit the total power consumption while effectively reflecting the color preferences of the user. The proposed scheme was implemented on a commercial smartphone, and real power measurements were conducted to examine whether it uses the given energy budget accurately under various color preference configurations. Experimental results show that color preferences significantly affect both power consumption and QoE, thereby demonstrating that personalized color selection plays an important role in reducing total power consumption of an OLED smartphone.
Highlights
Recent advances in mobile technology have enabled people to use their mobile devices such as smartphones and tablet PCs anytime, anywhere
We examine the efficacy of the proposed scheme in terms of the following three aspects: (1) power comparison depending on the color preferences, (2) overall color preference score comparison, and (3) effectiveness of the power capping algorithm, i.e., color selection algorithm (CSA)
Power can be reduced by lowering the brightness on the Organic light-emitting diode (OLED) smartphone; this may result in QoE degradation because personal color preference is not taken into account
Summary
Recent advances in mobile technology have enabled people to use their mobile devices such as smartphones and tablet PCs anytime, anywhere. Organic light-emitting diode (OLED) displays become widely used as their display devices because they have many advantages compared with liquid crystal display (LCD) displays such as wide viewing angles, high picture quality, thin form factor and so on [1]. Display is known to be one of the biggest energy consumers in mobile devices. OLED has no backlight, consuming relatively lower power than LCD with backlight, it still consumes a high proportion of power in mobile devices [1]. It is known to account for as much as two-thirds of the power used by the device, which makes its effective power management essential. The tendency to use smartphones with large displays makes this power problem worse
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