Name
Abstract | ||
|---|---|---|
In some practical scenarios such as tour guiding and children babysitting, one mobile device held by tour guides or parents need to know the distance and direction of another nearby mobile device held by tourist or children. However, to date, most existing pedestrian localization methods rely on a fixed external infrastructure, such as a global positioning system(GPS) or pre-deployed wifi access points to provide Localization service for mobile devices. Such methods are constrained either by limited GPS coverage or by complicated set-up procedures. We observe that, when two devices are moving, the change of their positions leads to the change of distance between them. Given the same movements, different relative locations between devices lead to different distance changes. Besides, the distance between and relative movement of devices can be measured by two phone-embedded sensors respectively. This motivates us to exploit the relative localization method by merely two mobile devices. In this work, we present Phone-Radar, which is an infrastructure-free device-to-device localization system. According to the propagation model of wireless signals, the change of distance between devices are modeled by the change of wireless signal strength between them. The movements of devices are recorded by the inertial sensors using step-counting method. We further study the relationship among the initial relative locations between the two devices, their relative movements and the change of received signal strength measurements. Moreover, we implement the proposed method and measure its performance under real world conditions. The testbed experiments show the efficiency of our proposed method. |
Year | DOI | Venue |
|---|---|---|
2014 | 10.1109/VTCSpring.2014.7023055 | VTC Spring |
Keywords | Field | DocType |
phone-radar,infrastructure-free device-to-device localization,step-counting method,radionavigation,wireless signal strength,radiowave propagation,propagation model,received signal strength measurements,global positioning system,sensors,accuracy | Radar,Wireless,Computer science,Simulation,Testbed,Exploit,Mobile device,Phone,Global Positioning System,Inertial measurement unit | Conference |
ISSN | Citations | PageRank |
1550-2252 | 1 | 0.38 |
References | Authors | |
3 | 6 | |
Name | Order | Citations | PageRank |
|---|---|---|---|
| Zheng Song | 1 | 125 | 8.68 |
| Jian Ma | 2 | 1025 | 57.54 |
| Mingming Dong | 3 | 1 | 0.38 |
| Wendong Wang | 4 | 821 | 72.69 |
| Xiangyang Gong | 5 | 161 | 23.01 |
| Xirong Que | 6 | 142 | 15.76 |