25-01-2018, 12:31 PM
Abstract
We propose bubble sensing, a new sensor network is intangible, which allows mobile phone users to be binding between work (i.e., a photo or sample audio every hour indefinitely) and in place of interest in the physical world , Which is the active user-defined period, we see that mobile phones are capable of adding work bubbles to places of interest and then sensitized Data is exactly because it is available in delay-tolerant fashion, in short, is a lively documentary of places of interest in the physical world. This system relies on other mobile phones that practically passes in bubble-sensing locations to work and senses on behalf of the initiator, and the user initiates the task to recover the bubble-sensing server Distributes data. We describe the implementation of bubble-sensing systems by using sensor-enabled mobile phones, in particular, Nokia's N80 and N95 (with GPS, accelerator, microphone, camera). Work bubbles are created at locations through the contact of "bubble carrier", which perform sensing functions in the field of interest, and "bubble anchors", which maintain the work bubble in the area when the bubble carrier no longer exists . In our implementation, bubble carriers and bubble anchors implement many simple mobile-phone-based protocols that refresh work bubble state because new mobile phones run through the area. Phone transmissions using local advertising Hawk 802.11g radio to move workplace and to maintain work in the field of interest. If there is no bubble carrier or bubble anchors in the area, this work ends in the bubble state time and time. Our design is flexible for duration when a mobile bubble passes through the area and is able to reload the work in the bubble area. In this paper, we describe the bubble-sensing system and a simple proof of the concept experiment.
We propose bubble sensing, a new sensor network is intangible, which allows mobile phone users to be binding between work (i.e., a photo or sample audio every hour indefinitely) and in place of interest in the physical world , Which is the active user-defined period, we see that mobile phones are capable of adding work bubbles to places of interest and then sensitized Data is exactly because it is available in delay-tolerant fashion, in short, is a lively documentary of places of interest in the physical world. This system relies on other mobile phones that practically passes in bubble-sensing locations to work and senses on behalf of the initiator, and the user initiates the task to recover the bubble-sensing server Distributes data. We describe the implementation of bubble-sensing systems by using sensor-enabled mobile phones, in particular, Nokia's N80 and N95 (with GPS, accelerator, microphone, camera). Work bubbles are created at locations through the contact of "bubble carrier", which perform sensing functions in the field of interest, and "bubble anchors", which maintain the work bubble in the area when the bubble carrier no longer exists . In our implementation, bubble carriers and bubble anchors implement many simple mobile-phone-based protocols that refresh work bubble state because new mobile phones run through the area. Phone transmissions using local advertising Hawk 802.11g radio to move workplace and to maintain work in the field of interest. If there is no bubble carrier or bubble anchors in the area, this work ends in the bubble state time and time. Our design is flexible for duration when a mobile bubble passes through the area and is able to reload the work in the bubble area. In this paper, we describe the bubble-sensing system and a simple proof of the concept experiment.