In this paper, we show the possibility of using the smartphone built-in cellular radio modem to track sudden changes in the environment around it, thus turning the cellphone into a radio-frequency (RF) virtual sensor. In particular, we demonstrate how to isolate anomalous RF patterns by applying time series modelling and analysis of downlink multi-cell radio signals. These RF anomalies may indicate a situation change, namely a body, or object(s), movement in the surrounding of the smart-phone. Unlike WiFi and Bluetooth devices, that can be turned on and off according to the user demands, cellular radios are never really disconnected. Even in idle mode, they carry out continuous and autonomous measurements of the radio channel conditions, namely the cellular signal quality (CSQ). This is performed in agreement with standardized cell reselection procedures. Body movements, or scene changes in general, in the surroundings of a cellular device are responsible of small CSQ fluctuations that can be isolated from normal network operations and classified accordingly. Validation of this unconventional RF sensing method is based on extensive measurement campaigns covering a period of one month, using up to 4 commercial off-the-shelf smartphones. As a practical application case study, we developed a real-time demonstrator that is able to detect body proximity events close to the device and discriminate other bodyinduced environmental changes in the surrounding of the smartphone. Usage of data analytics tools for passive sensing from cellular signals is a novel topic that shows great potential as paving the way to new applications and research opportunities.
Cellular data analytics for detection and discrimination of body movements
STEFANO SAVAZZI;SANAZ KIANOUSH;VITTORIO RAMPA;
2018
Abstract
In this paper, we show the possibility of using the smartphone built-in cellular radio modem to track sudden changes in the environment around it, thus turning the cellphone into a radio-frequency (RF) virtual sensor. In particular, we demonstrate how to isolate anomalous RF patterns by applying time series modelling and analysis of downlink multi-cell radio signals. These RF anomalies may indicate a situation change, namely a body, or object(s), movement in the surrounding of the smart-phone. Unlike WiFi and Bluetooth devices, that can be turned on and off according to the user demands, cellular radios are never really disconnected. Even in idle mode, they carry out continuous and autonomous measurements of the radio channel conditions, namely the cellular signal quality (CSQ). This is performed in agreement with standardized cell reselection procedures. Body movements, or scene changes in general, in the surroundings of a cellular device are responsible of small CSQ fluctuations that can be isolated from normal network operations and classified accordingly. Validation of this unconventional RF sensing method is based on extensive measurement campaigns covering a period of one month, using up to 4 commercial off-the-shelf smartphones. As a practical application case study, we developed a real-time demonstrator that is able to detect body proximity events close to the device and discriminate other bodyinduced environmental changes in the surrounding of the smartphone. Usage of data analytics tools for passive sensing from cellular signals is a novel topic that shows great potential as paving the way to new applications and research opportunities.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.