As mentioned in the previous sectio

As mentioned in the previous section, a lot of studies have combined GPS with other positioning techniques (e.g., Cell-PS, WiFi-PS, Bluetooth, and sensors) to alleviate the weaknesses of GPS such as large energy consumption and limited indoor positioning. However, there are few studies that adjust the positioning accuracy by considering the requirement of applications. It is a common sense that more accurate information is more useful, but we argue that this is not the case for LBS in smartphones. For example, providing the positioning accuracy of 5 meters for an application whose accuracy requirement is just 1,000 meters unnecessarily wastes battery power. In contrast, lowering the positioning accuracy for applications requiring high accuracy such as navigation applications [29, 30] may result in fatal situations.

Our idea is that we can extend the effectiveness of alternative solutions if we consider the fact that all applications do not need high positioning accuracy of GPS. To address this issue, we classify applications with respect to the requirement of positioning accuracy, and prioritize them according to the required level of accuracy for each application; then we adaptively select the positioning technique in order to guarantee an appropriate level. When GPS is not necessary due to the low accuracy requirement of an application, various alternative techniques such as Cell-PS, WiFi-PS, Bluetooth, and sensors can be used. Of these, we choose Cell-PS as it covers all area with minimal energy consumption [3, 8, 14, 19], whereas WiFi- PS or Bluetooth-based positioning can be used in limited area and sensors need additional energy. Our scheme also uses the interesting regions of a user and the residual battery level of a smartphone in order to consider the context of the user.