Difference between revisions of "Evaluating the Implications of Varying Bluetooth Low Energy (BLE) Transmission Power Levels on Wireless Indoor Localization Accuracy and Precision (Q4658)"
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(Created claim: quote (P203): In this paper, we investigated the effect of BLE signal variations on indoor localization caused by the change in BLE transmission power levels.) |
(Created claim: quote (P203): To analyze the impact, we used the established trilateration based localization model with two methods i.e., Centroid Approximation (CA) and Minimum Mean Square Error (MMSE). We observed that trilateration based localization with MMSE method outperforms the CA method.) |
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+ | To analyze the impact, we used the established trilateration based localization model with two methods i.e., Centroid Approximation (CA) and Minimum Mean Square Error (MMSE). We observed that trilateration based localization with MMSE method outperforms the CA method. | ||
Property / quote: To analyze the impact, we used the established trilateration based localization model with two methods i.e., Centroid Approximation (CA) and Minimum Mean Square Error (MMSE). We observed that trilateration based localization with MMSE method outperforms the CA method. / rank | |||
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Revision as of 18:35, 20 May 2020
journal article from 'Sensors' published in 2019
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English |
Evaluating the Implications of Varying Bluetooth Low Energy (BLE) Transmission Power Levels on Wireless Indoor Localization Accuracy and Precision
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journal article from 'Sensors' published in 2019
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Statements
In this paper, we investigated the effect of BLE signal variations on indoor localization caused by the change in BLE transmission power levels.
0 references
To analyze the impact, we used the established trilateration based localization model with two methods i.e., Centroid Approximation (CA) and Minimum Mean Square Error (MMSE). We observed that trilateration based localization with MMSE method outperforms the CA method.
0 references