Wearable devices such as smart watch and bracelets continually broadcast Bluetooth Low Energy (BLE) signals, which can be easily captured by monitoring devices such as WiFi routers and Bluetooth scanners. As more and more wearable devices emerge, unauthorized monitoring and tracking by adversary becomes great privacy threats not only in the cyberworld, but also in the physical world. To protect location privacy, this paper presents a real-life location monitoring system that is based on BLE privacy feature that changes the device physical address periodically. To enable users to better control their privacy level while still providing monitoring and tracking service to authorized parties (e.g., for child and elderly care), we extend BLE pri...
Bluetooth Classic (BT) remains the de facto connectivity technology in car stereo systems, wireless ...
The Bluetooth tracker is a popular device that uses Bluetooth technology to help you locate your bel...
Previous research demonstrated that Bluetooth Low Energy beacons enable very accurate indoor positio...
In recent times, Bluetooth Low Energy (BLE) has emerged as a viable tool for proximity detection in ...
Customers use smart devices to share their location data with service providers to co-create persona...
We present a low cost and easily deployed infrastructure for location aware computing that is built ...
Since its inception in 2013, Bluetooth Low Energy (BLE) has become the standard for short-distance w...
Overnight, Apple has turned its hundreds-of-million-device ecosystem into the world’s largest crowd-...
Tracking a person’s movement enables IoT and other smart devices to provide sentient experiences. Th...
We propose to use ambient sound as a privacy-aware source of information for COVID-19-related social...
Future wearable devices are expected to increasingly exchange their positioning information with var...
This paper presents the design and implementation of a low-power privacy-preserving device tracking ...
Low-energy Bluetooth devices have become ubiquitous and widely used for different applications. Amon...
© Springer Nature Switzerland AG 2018. This paper presents the design and implementation of a low-po...
Bluetooth Low Energy (BLE) devices use public (non-encrypted) advertising channels to announce their...
Bluetooth Classic (BT) remains the de facto connectivity technology in car stereo systems, wireless ...
The Bluetooth tracker is a popular device that uses Bluetooth technology to help you locate your bel...
Previous research demonstrated that Bluetooth Low Energy beacons enable very accurate indoor positio...
In recent times, Bluetooth Low Energy (BLE) has emerged as a viable tool for proximity detection in ...
Customers use smart devices to share their location data with service providers to co-create persona...
We present a low cost and easily deployed infrastructure for location aware computing that is built ...
Since its inception in 2013, Bluetooth Low Energy (BLE) has become the standard for short-distance w...
Overnight, Apple has turned its hundreds-of-million-device ecosystem into the world’s largest crowd-...
Tracking a person’s movement enables IoT and other smart devices to provide sentient experiences. Th...
We propose to use ambient sound as a privacy-aware source of information for COVID-19-related social...
Future wearable devices are expected to increasingly exchange their positioning information with var...
This paper presents the design and implementation of a low-power privacy-preserving device tracking ...
Low-energy Bluetooth devices have become ubiquitous and widely used for different applications. Amon...
© Springer Nature Switzerland AG 2018. This paper presents the design and implementation of a low-po...
Bluetooth Low Energy (BLE) devices use public (non-encrypted) advertising channels to announce their...
Bluetooth Classic (BT) remains the de facto connectivity technology in car stereo systems, wireless ...
The Bluetooth tracker is a popular device that uses Bluetooth technology to help you locate your bel...
Previous research demonstrated that Bluetooth Low Energy beacons enable very accurate indoor positio...