摘要:
A mechanism is described for proximity detection based on Wi-Fi signals. A method of embodiments of the invention includes determining strength of one or more signals being communicated between one or more antennae of a first device and two or more antennae of a second device. The one or more signals are associated with a broadcast packet. The method further includes determining proximity of the first device and the second device based on the determined strength of the one or more signals.
摘要:
A mechanism is described for proximity detection based on Wi-Fi signals. A method of embodiments of the invention includes determining strength of one or more signals being communicated between one or more antennae of a first device and two or more antennae of a second device. The one or more signals are associated with a broadcast packet. The method further includes determining proximity of the first device and the second device based on the determined strength of the one or more signals.
摘要:
A mechanism is described for proximity detection based on Wi-Fi signals. A method of embodiments of the invention includes determining strength of one or more signals being communicated between one or more antennae of a first device and two or more antennae of a second device. The one or more signals are associated with a broadcast packet. The method further includes determining proximity of the first device and the second device based on the determined strength of the one or more signals.
摘要:
Methods and mechanisms for exchanging map information in a wireless communication. In an embodiment, map information to represent at least a portion of a map is advertised by a first communication device communication independent of any request for the map information being received in a data session or a voice session. In another embodiment, a second communication device receives the wireless communication and generates a representation of the map based on the advertised map information.
摘要:
Methods and systems for optimizing wireless charging are provided. The method may include identifying, by a charging controller, charging apparatus location information associated with a wireless charging apparatus configured to direct charging beams, and identifying, by the charging controller, an optimal charging zone of the wireless charging apparatus based at least in part on the charging apparatus location information. The method may include receiving, by the charging controller, a first location information associated with a mobile device, and determining, by the charging controller, a first proximity of the mobile device to the optimal charging zone of the wireless charging apparatus based at least in part on the first location information. The method may include transmitting, by the charging controller, first optimal charging indicator information to the mobile device, the first optimal charging indicator information based at least in part on the first proximity.
摘要:
Embodiments of the invention address how trilateration processes are affected by physical placement and sub-optimal selection of peer devices (PDs) used to obtain a location of a mobile computing device. Embodiments of the invention describe processes for selecting nearest PDs over further PDs, as received signal strength indicator (RSSI) measurements are more reliable—i.e., said “nearest PDs” provide more accurate distance measurements while improving the probability of finding more intersection points. Embodiments of the invention further describe selecting a physical spread of PDs to help increase the number of intersection points while helping distinction/resolution of the location of the mobile device in both the ‘x’ (longitude) and the ‘y’ (latitude) directions. Embodiments of the invention further enhance trilateration processes by utilizing dampening values for calculated location poll data.
摘要:
Embodiments of the invention address how trilateration processes are affected by physical placement and sub-optimal selection of peer devices (PDs) used to obtain a location of a mobile computing device. Embodiments of the invention describe processes for selecting nearest PDs over further PDs, as received signal strength indicator (RSSI) measurements are more reliable—i.e., said “nearest PDs” provide more accurate distance measurements while improving the probability of finding more intersection points. Embodiments of the invention further describe selecting a physical spread of PDs to help increase the number of intersection points while helping distinction/resolution of the location of the mobile device in both the ‘x’ (longitude) and the ‘y’ (latitude) directions. Embodiments of the invention further enhance trilateration processes by utilizing dampening values for calculated location poll data.
摘要:
A mechanism is described for facilitating proximity and context-based deduction of global positioning of computing devices according to one embodiment of the invention. A method of embodiments of the invention includes detecting wireless proximity of a plurality of computing devices with respect to a computing device, and selecting one or more of the plurality of computing devices based on their detected proximity to the computing device. The method may further include receiving contextual information from the one or more computing devices, and semantically deducing location of the computing device based on the received contextual information.
摘要:
A device source provides an ability to decompose a graphical display into multiple data streams (i.e., different layers). The multiple data streams may include multimedia data streams, operating system (OS) desktop data streams, and mouse data streams. The multiple data streams may be encoded and transmitted independently by the device source to a wireless display device.
摘要:
A mechanism is described for facilitating proximity and context-based deduction of global positioning of computing devices according to one embodiment of the invention. A method of embodiments of the invention includes detecting wireless proximity of a plurality of computing devices with respect to a computing device, and selecting one or more of the plurality of computing devices based on their detected proximity to the computing device. The method may further include receiving contextual information from the one or more computing devices, and semantically deducing location of the computing device based on the received contextual information.