Patent application number | Description | Published |
20130179942 | CONSOLIDATED DATA SERVICES APPARATUS AND METHOD - An apparatus for consolidated data services comprising a plurality of devices, a plurality of data services and a content application programming interface (API). A user API provides user identification for each of the plurality of devices using one or more of a plurality of user API methods. A feedback API configured to receive data from each of the plurality of devices that identifies media content that was delivered to the plurality of devices using one or more of a plurality of feedback API methods. A device API configured to provide a client system to one or more of the plurality of devices using one or more of a plurality of device API methods. A web service consolidator coupled to the content API, the user API, the feedback API, the device API, the update API, a plurality of data services and the plurality of devices through the communications media. | 07-11-2013 |
20140059572 | CONSOLIDATED DATA SERVICES APPARATUS AND METHOD - An apparatus for consolidated data services comprising a plurality of devices, a plurality of data services and a content application programming interface (API). A user API provides user identification for each of the plurality of devices using one or more of a plurality of user API methods. A feedback API configured to receive data from each of the plurality of devices that identifies media content that was delivered to the plurality of devices using one or more of a plurality of feedback API methods. A device API configured to provide a client system to one or more of the plurality of devices using one or more of a plurality of device API methods. A web service consolidator coupled to the content API, the user API, the feedback API, the device API, the update API, a plurality of data services and the plurality of devices through the communications media. | 02-27-2014 |
Patent application number | Description | Published |
20160105406 | NETWORKED SECURITY SYSTEM - A method of securing communications between a security device and a security server include receiving, at the security server, a registration request from the security device, the registration request being encrypted using an initial registration key. A device identifier and rotation key unique to the security device are transmitted to the security device. A first session key request is received at the security server from the security device, the request being encrypted using the rotation key. A first session key is transmitted to the security device in response. One or more communications, encrypted using the first session key, is received at the security server from the security device. A second session key request is received at the security server from the security device after the first session key has expired, the request encrypted using the rotation key. A second session key is transmitted to the security device in response. | 04-14-2016 |
20160105644 | CAMERAS AND NETWORKED SECURITY SYSTEMS AND METHODS - A system includes a remote server and a device having a wireless transceiver, microphone, and processing circuit. The processing circuit is configured to monitor the microphone for a siren signature. The processing circuit is configured to use the wireless transceiver to send information to the remote server in response to a detection of the siren signature. The remote server causes wireless cameras located near the device to capture a current image and to send the captured image to the remote server for further distribution. | 04-14-2016 |
20160105847 | NETWORKED SECURITY SYSTEM - A method of communicating between a wireless security device and a security server through an access point includes estimating a link latency between a time of transmission of a message from the wireless security device and a time at which a response is received from the security server. A polling mode is enabled in which the access point will hold messages received by the access point that are directed to the wireless security device while the device is in a sleep state, without discarding the messages for a threshold period of time. The wireless security device may be placed in a sleep state and woken after a wake time determined based on the estimated link latency, and receives any messages received by the access point during the sleep state. | 04-14-2016 |