Systems and methods for providing conversation assistance include receiving from at least one user device of a user, conversation information and determining that the conversation information is associated with a conversation involving the user and a first person that is associated with first conversation assistance information in a non-transitory memory. Body measurement data of the user is retrieved from the at least first user device. A need for conversation assistance in the conversation involving the user and the first person is detected using the body measurement data. First conversation assistance information associated with the first person is retrieved from the non-transitory memory. The first conversation assistance information associated with the first person is provided through the at least one user device.

Systems and methods for providing conversation assistance include receiving from at least one user device of a user, conversation information and determining that the conversation information is associated with a conversation involving the user and a first person that is associated with first conversation assistance information in a non-transitory memory. Body measurement data of the user is retrieved from the at least first user device. A need for conversation assistance in the conversation involving the user and the first person is detected using the body measurement data. First conversation assistance information associated with the first person is retrieved from the non-transitory memory. The first conversation assistance information associated with the first person is provided through the at least one user device.

A method for handling broadcast information is described. A first network node (111) operating in a wireless communications network (100) determines (403) one or more decryption keys (K1, K2, K3) to be provided to a wireless device (131) in the wireless communications network (100). The decryption keys enable the wireless device (131) to decrypt information to be broadcasted by a second network node (112) in the wireless communications network (100). The information comprises a plurality of subsets of positioning information. Each of the subsets is to be, or is, encrypted with a different encryption key based on a respective type of subscription for wireless devices (131, 132, 133) in the wireless communications network (100). The determined decryption keys are based on at least one type of subscription of the wireless device (131). The first network node (111) then initiates (404) providing the determined to the wireless device (131).

In aspects of UWB automation experiences controller, a system includes ultra-wideband (UWB) radios associated with respective devices in an environment. An automation controller receives UWB ranging data from the UWB radios, and can monitor locations of the respective devices in the environment based on the UWB ranging data received from the UWB radios. The automation controller can determine a location change of a device in the environment, and update an automation experience in the environment based on the location change of the device in the environment. A computing device can implement the automation controller to monitor interactions with the respective devices, and monitor the locations of the respective devices in the environment. The automation controller can update an automation experience in the environment based on an interaction and the locations of the respective devices in the environment.

In aspects of UWB automation experiences controller, a system includes ultra-wideband (UWB) radios associated with respective devices in an environment. An automation controller receives UWB ranging data from the UWB radios, and can monitor locations of the respective devices in the environment based on the UWB ranging data received from the UWB radios. The automation controller can determine a location change of a device in the environment, and update an automation experience in the environment based on the location change of the device in the environment. A computing device can implement the automation controller to monitor interactions with the respective devices, and monitor the locations of the respective devices in the environment. The automation controller can update an automation experience in the environment based on an interaction and the locations of the respective devices in the environment.

Disclosed are a media file processing method for a display device and the display device. The method includes receiving, by the display device being in a standby mode, a wakeup signal broadcasted from a mobile device through a wireless module of the display device; and triggering, according to the wakeup signal, an electrical level change so that the display device is configured to enter into a customized mode where the display device is started but a screen of the display device is not lighted. The display device in the customized mode is discoverable by the mobile device. The method includes receiving, by the display device in the customized mode, a push instruction for playing a media file transmitting from the mobile device, lighting the screen, and playing the media file according to the push instruction so as to make the display device enter a normal operating mode.

Disclosed are a media file processing method for a display device and the display device. The method includes receiving, by the display device being in a standby mode, a wakeup signal broadcasted from a mobile device through a wireless module of the display device; and triggering, according to the wakeup signal, an electrical level change so that the display device is configured to enter into a customized mode where the display device is started but a screen of the display device is not lighted. The display device in the customized mode is discoverable by the mobile device. The method includes receiving, by the display device in the customized mode, a push instruction for playing a media file transmitting from the mobile device, lighting the screen, and playing the media file according to the push instruction so as to make the display device enter a normal operating mode.

A mobile virtual network operator is provided. The operator includes a server that is communicatively coupled to a mobile device. The mobile device includes application software provided by the virtual network operator for allowing phone call and data connectivity.

A mobile virtual network operator is provided. The operator includes a server that is communicatively coupled to a mobile device. The mobile device includes application software provided by the virtual network operator for allowing phone call and data connectivity.

Disclosed embodiments include a network device having a split network stack that includes a physical (PHY) layer associated with first and second media access control (MAC) protocol sublayers, a processing device, and memory storing instructions that, when executed by the processing device, cause the processing device to select a route through the split network stack that includes one of the first and second MAC protocol sublayers but not the other one of the first and second MAC protocol sublayers.