Abstract
The development of the Internet of Things (IoT) has accelerated research in indoor navigation systems, a majority of which rely on adequate wireless signals and sources. Nonetheless, deploying such a system requires periodic site-survey, which is time consuming and labor intensive. To address this issue, in this paper we present Canoe, an indoor navigation system that considers shopping mall scenarios. In our system, we do not assume any prior knowledge, such as floor-plan or the shop locations, access point placement or power settings, historical RSS measurements or fingerprints, etc. Instead, Canoe requires only that the shop owners collect and publish RSS values at the entrances of their shops and can direct a consumer to any of these shops by comparing the observed RSS values. The locations of the consumers and the shops are estimated using maximum likelihood estimation. In doing this, the direction of the target shop relative to the current orientation of the consumer can be precisely computed, such that the direction that a consumer should move can be determined. We have conducted extensive simulations using a real-world dataset. Our experiments in a real shopping mall demonstrate that if 50% of the shops publish their RSS values, Canoe can precisely navigate a consumer within 30 s, with an error rate below 9%.
Highlights
The Internet of Things (IoT) is considered to be the generation in industrial evolution [1]
With the development of IoT, navigation services can be implemented based on a localization system, which relies on users’ mobile devices and adequate wireless signals and sources in the environment, in performing vector subtraction between two absolute locations
We have presented Canoe, a novel indoor navigation system, which does not require the deployment of localization services and prior knowledge of the environment
Summary
The Internet of Things (IoT) is considered to be the generation in industrial evolution [1]. A consumer may want to find a certain shop in a shopping mall to optimize or enhance their experience, while shop owners want to direct consumers to their shops in order to increase business This implies a strong need for a navigation service, which is capable of determining a target’s location relative to a user’s current location. Deploying a traditional LF-based indoor positioning system is not easy, since the positioning server should collect the location fingerprints by performing a site-survey of the received signal strength (RSS) from multiple access points (APs). With these fingerprints, the positioning server is able to localize a mobile device based on its RSS measurements
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