The Experts below are selected from a list of 327 Experts worldwide ranked by ideXlab platform
Kamin Whitehouse - One of the best experts on this subject based on the ideXlab platform.
-
multipath triangulation Decimeter level wifi localization and orientation with a single unaided receiver
International Conference on Mobile Systems Applications and Services, 2018Co-Authors: Elahe Soltanaghaei, Avinash Kalyanaraman, Kamin WhitehouseAbstract:Decimeter-level localization has become a reality, in part due to the ability to eliminate the effects of multipath interference. In this paper, we demonstrate the ability to use multipath reflections to enhance localization rather than throwing them away. We present Multipath Triangulation, a new localization technique that uses multipath reflections to localize a target device with a single receiver that does not require any form of coordination with any other devices. In this paper, we leverage multipath triangulation to build the first Decimeter-level WiFi localization system, called MonoLoco, that requires only a single access point (AP) and a single channel, and does not impose any overhead, data sharing, or coordination protocols beyond standard WiFi communication. As a bonus, it also determines the orientation of the target relative to the AP. We implemented MonoLoco using Intel 5300 commodity WiFi cards and deploy it in four environments with different multipath propagation. Results indicate median localization error of 0.5m and median orientation error of 6.6 degrees, which are comparable to the best performing prior systems, all of which require multiple APs and/or multiple frequency channels. High accuracy can be achieved with only a handful of packets.
-
MobiSys - Multipath Triangulation: Decimeter-level WiFi Localization and Orientation with a Single Unaided Receiver
Proceedings of the 16th Annual International Conference on Mobile Systems Applications and Services, 2018Co-Authors: Elahe Soltanaghaei, Avinash Kalyanaraman, Kamin WhitehouseAbstract:Decimeter-level localization has become a reality, in part due to the ability to eliminate the effects of multipath interference. In this paper, we demonstrate the ability to use multipath reflections to enhance localization rather than throwing them away. We present Multipath Triangulation, a new localization technique that uses multipath reflections to localize a target device with a single receiver that does not require any form of coordination with any other devices. In this paper, we leverage multipath triangulation to build the first Decimeter-level WiFi localization system, called MonoLoco, that requires only a single access point (AP) and a single channel, and does not impose any overhead, data sharing, or coordination protocols beyond standard WiFi communication. As a bonus, it also determines the orientation of the target relative to the AP. We implemented MonoLoco using Intel 5300 commodity WiFi cards and deploy it in four environments with different multipath propagation. Results indicate median localization error of 0.5m and median orientation error of 6.6 degrees, which are comparable to the best performing prior systems, all of which require multiple APs and/or multiple frequency channels. High accuracy can be achieved with only a handful of packets.
Evgenevich Evgenij Fesenko - One of the best experts on this subject based on the ideXlab platform.
-
Selective Heating of Membrane-forming Holes in Teflon Film Exposed to Decimeter Waves
Biofizika, 2020Co-Authors: S I Alekseev, Evgenevich Evgenij FesenkoAbstract:Calculations of heating of membrane-forming holes in Teflon film exposed to Decimeter waves were performed. The dependence of the temperature increment in holes on the geometry of holes, electrolyte concentration, and Decimeter wave frequency was studied. The kinetics of heating depending on the hole diameter was also obtained. It was concluded that the observed in the experiment effects of the Decimeter wave on bilayer lipid membranes resulted from the elevated concentration of Decimeter electromagnetic waves in membrane-forming hole that led to selective heating of electrolyte in hole and bilayer lipid membranes.
-
selective heating of membrane forming holes in teflon film exposed to Decimeter waves
Biophysics, 2015Co-Authors: S I Alekseev, Evgenevich Evgenij FesenkoAbstract:The heating of a membrane-forming hole in a Teflon film upon irradiation with Decimeter waves was calculated. The dependence of the temperature increase in the membrane-forming hole on its geometry, the concentration of electrolyte solution, and the frequency of Decimeter radiation were studied. The heating kinetics of the hole depending on its diameter were obtained. It is concluded that the effects of Decimeter waves on bilayer lipid membranes that were observed in experiments are caused by the concentration of the electromagnetic field of Decimeter waves at the membrane-forming hole, which lead to the selective heating of the electrolyte in the hole with the bilayer lipid membranes.
Elahe Soltanaghaei - One of the best experts on this subject based on the ideXlab platform.
-
multipath triangulation Decimeter level wifi localization and orientation with a single unaided receiver
International Conference on Mobile Systems Applications and Services, 2018Co-Authors: Elahe Soltanaghaei, Avinash Kalyanaraman, Kamin WhitehouseAbstract:Decimeter-level localization has become a reality, in part due to the ability to eliminate the effects of multipath interference. In this paper, we demonstrate the ability to use multipath reflections to enhance localization rather than throwing them away. We present Multipath Triangulation, a new localization technique that uses multipath reflections to localize a target device with a single receiver that does not require any form of coordination with any other devices. In this paper, we leverage multipath triangulation to build the first Decimeter-level WiFi localization system, called MonoLoco, that requires only a single access point (AP) and a single channel, and does not impose any overhead, data sharing, or coordination protocols beyond standard WiFi communication. As a bonus, it also determines the orientation of the target relative to the AP. We implemented MonoLoco using Intel 5300 commodity WiFi cards and deploy it in four environments with different multipath propagation. Results indicate median localization error of 0.5m and median orientation error of 6.6 degrees, which are comparable to the best performing prior systems, all of which require multiple APs and/or multiple frequency channels. High accuracy can be achieved with only a handful of packets.
-
MobiSys - Multipath Triangulation: Decimeter-level WiFi Localization and Orientation with a Single Unaided Receiver
Proceedings of the 16th Annual International Conference on Mobile Systems Applications and Services, 2018Co-Authors: Elahe Soltanaghaei, Avinash Kalyanaraman, Kamin WhitehouseAbstract:Decimeter-level localization has become a reality, in part due to the ability to eliminate the effects of multipath interference. In this paper, we demonstrate the ability to use multipath reflections to enhance localization rather than throwing them away. We present Multipath Triangulation, a new localization technique that uses multipath reflections to localize a target device with a single receiver that does not require any form of coordination with any other devices. In this paper, we leverage multipath triangulation to build the first Decimeter-level WiFi localization system, called MonoLoco, that requires only a single access point (AP) and a single channel, and does not impose any overhead, data sharing, or coordination protocols beyond standard WiFi communication. As a bonus, it also determines the orientation of the target relative to the AP. We implemented MonoLoco using Intel 5300 commodity WiFi cards and deploy it in four environments with different multipath propagation. Results indicate median localization error of 0.5m and median orientation error of 6.6 degrees, which are comparable to the best performing prior systems, all of which require multiple APs and/or multiple frequency channels. High accuracy can be achieved with only a handful of packets.
S I Alekseev - One of the best experts on this subject based on the ideXlab platform.
-
Selective Heating of Membrane-forming Holes in Teflon Film Exposed to Decimeter Waves
Biofizika, 2020Co-Authors: S I Alekseev, Evgenevich Evgenij FesenkoAbstract:Calculations of heating of membrane-forming holes in Teflon film exposed to Decimeter waves were performed. The dependence of the temperature increment in holes on the geometry of holes, electrolyte concentration, and Decimeter wave frequency was studied. The kinetics of heating depending on the hole diameter was also obtained. It was concluded that the observed in the experiment effects of the Decimeter wave on bilayer lipid membranes resulted from the elevated concentration of Decimeter electromagnetic waves in membrane-forming hole that led to selective heating of electrolyte in hole and bilayer lipid membranes.
-
selective heating of membrane forming holes in teflon film exposed to Decimeter waves
Biophysics, 2015Co-Authors: S I Alekseev, Evgenevich Evgenij FesenkoAbstract:The heating of a membrane-forming hole in a Teflon film upon irradiation with Decimeter waves was calculated. The dependence of the temperature increase in the membrane-forming hole on its geometry, the concentration of electrolyte solution, and the frequency of Decimeter radiation were studied. The heating kinetics of the hole depending on its diameter were obtained. It is concluded that the effects of Decimeter waves on bilayer lipid membranes that were observed in experiments are caused by the concentration of the electromagnetic field of Decimeter waves at the membrane-forming hole, which lead to the selective heating of the electrolyte in the hole with the bilayer lipid membranes.
Avinash Kalyanaraman - One of the best experts on this subject based on the ideXlab platform.
-
multipath triangulation Decimeter level wifi localization and orientation with a single unaided receiver
International Conference on Mobile Systems Applications and Services, 2018Co-Authors: Elahe Soltanaghaei, Avinash Kalyanaraman, Kamin WhitehouseAbstract:Decimeter-level localization has become a reality, in part due to the ability to eliminate the effects of multipath interference. In this paper, we demonstrate the ability to use multipath reflections to enhance localization rather than throwing them away. We present Multipath Triangulation, a new localization technique that uses multipath reflections to localize a target device with a single receiver that does not require any form of coordination with any other devices. In this paper, we leverage multipath triangulation to build the first Decimeter-level WiFi localization system, called MonoLoco, that requires only a single access point (AP) and a single channel, and does not impose any overhead, data sharing, or coordination protocols beyond standard WiFi communication. As a bonus, it also determines the orientation of the target relative to the AP. We implemented MonoLoco using Intel 5300 commodity WiFi cards and deploy it in four environments with different multipath propagation. Results indicate median localization error of 0.5m and median orientation error of 6.6 degrees, which are comparable to the best performing prior systems, all of which require multiple APs and/or multiple frequency channels. High accuracy can be achieved with only a handful of packets.
-
MobiSys - Multipath Triangulation: Decimeter-level WiFi Localization and Orientation with a Single Unaided Receiver
Proceedings of the 16th Annual International Conference on Mobile Systems Applications and Services, 2018Co-Authors: Elahe Soltanaghaei, Avinash Kalyanaraman, Kamin WhitehouseAbstract:Decimeter-level localization has become a reality, in part due to the ability to eliminate the effects of multipath interference. In this paper, we demonstrate the ability to use multipath reflections to enhance localization rather than throwing them away. We present Multipath Triangulation, a new localization technique that uses multipath reflections to localize a target device with a single receiver that does not require any form of coordination with any other devices. In this paper, we leverage multipath triangulation to build the first Decimeter-level WiFi localization system, called MonoLoco, that requires only a single access point (AP) and a single channel, and does not impose any overhead, data sharing, or coordination protocols beyond standard WiFi communication. As a bonus, it also determines the orientation of the target relative to the AP. We implemented MonoLoco using Intel 5300 commodity WiFi cards and deploy it in four environments with different multipath propagation. Results indicate median localization error of 0.5m and median orientation error of 6.6 degrees, which are comparable to the best performing prior systems, all of which require multiple APs and/or multiple frequency channels. High accuracy can be achieved with only a handful of packets.