Difference between revisions of "Coronavirus Contact Tracing: Evaluating The Potential Of Using Bluetooth Received SignalStrength For Proximity Detection (Q4671)"
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(Changed claim: date (P100): 6 May 2020) |
(Created claim: quote (P203): We find that the Bluetooth LE received signal strength can vary substantially depending on the relative orientation of handsets, on absorption by the human body, reflection/absorption of radio signals in buildings and trains. Indeed we observe that the received signal strength need not decrease with increasing distance.) |
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| Property / quote | |||
| + | We find that the Bluetooth LE received signal strength can vary substantially depending on the relative orientation of handsets, on absorption by the human body, reflection/absorption of radio signals in buildings and trains. Indeed we observe that the received signal strength need not decrease with increasing distance. | ||
| Property / quote: We find that the Bluetooth LE received signal strength can vary substantially depending on the relative orientation of handsets, on absorption by the human body, reflection/absorption of radio signals in buildings and trains. Indeed we observe that the received signal strength need not decrease with increasing distance. / rank | |||
| + | Normal rank | ||
Revision as of 17:41, 25 May 2020
scholarly article published in May 2020
| Language | Label | Description | Also known as |
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| English |
Coronavirus Contact Tracing: Evaluating The Potential Of Using Bluetooth Received SignalStrength For Proximity Detection
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scholarly article published in May 2020
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Statements
6 May 2020
0 references
We find that the Bluetooth LE received signal strength can vary substantially depending on the relative orientation of handsets, on absorption by the human body, reflection/absorption of radio signals in buildings and trains. Indeed we observe that the received signal strength need not decrease with increasing distance.
0 references