Abstract: Adaptive power control may be provided. First, a network configuration change event may be detected by a computing device disposed in a node. Next, the computing device may determine, in response to detecting the network configuration change event, a bias current value for a forward launch amplifier disposed in the node based on the network configuration change event. The computing device may then cause, in response to determining the bias current value, the forward launch amplifier to be driven with the bias current value.

Abstract: Adaptive power control may be provided. First, a network configuration change event may be detected by a computing device disposed in a node. Next, the computing device may determine, in response to detecting the network configuration change event, a bias current value for a forward launch amplifier disposed in the node based on the network configuration change event. The computing device may then cause, in response to determining the bias current value, the forward launch amplifier to be driven with the bias current value.

Abstract: A method of installing a security system includes activating a security device. An air-borne identification signal is transmitted from the device in response to the activation. The identification signal identifies the activated device. The identification signal is used to ascertain a type of the device. The device is automatically wirelessly configured dependent upon the type of the device.

Abstract: A method of operating a security system includes activating a security device and transmitting a first status report from the device in response to the activating step. A second status report is transmitted from the device after the first status report has been transmitted. The second status report is indicative of a status of an input of the security device. It is determined whether the first status report indicates a status different than the status indicated by the second status report. A third status report is transmitted from the device after the second status report has been transmitted. The third status report is indicative of the input of the security device being in an alarm condition and/or a trouble condition. Dependent upon whether the first status report indicates a status different than the status indicated by the second status report, an alarm and/or a trouble warning are issued in response to the third status report.

Abstract: A method of operating a security system includes activating a security device and transmitting a first status report from the device in response to the activating step. A second status report is transmitted from the device after the first status report has been transmitted. The second status report is indicative of a status of an input of the security device. It is determined whether the first status report indicates a status different than the status indicated by the second status report. A third status report is transmitted from the device after the second status report has been transmitted. The third status report is indicative of the input of the security device being in an alarm condition and/or a trouble condition. Dependent upon whether the first status report indicates a status different than the status indicated by the second status report, an alarm and/or a trouble warning are issued in response to the third status report.

Abstract: A method of installing a security system includes activating a security device. An air-borne identification signal is transmitted from the device in response to the activation. The identification signal identifies the activated device. The identification signal is used to ascertain a type of the device. The device is automatically wirelessly configured dependent upon the type of the device.

Abstract: The present invention is directed to a method and system for providing a residential security system that is also capable of protecting a remote mobile object. The remote mobile object may be a vehicle such as an automobile. The residential security system may include at least one central sensing component for sensing activities within a central environment and central security system controls such as protective state components for determining a protective state of the security system and protective zone controls for defining a protected zone of the security system. The protective zone is extendable beyond the central environment. The system may additionally include at least one selectively recognized remote sensing component located within an automobile remote from the central environment, wherein the selective recognition is dependent upon the protective state and the protective zone controls.