Abstract: A model-based system and method for analyzing power source performance and optimizing operational costs are provided. Data from the power source (such as a battery) and/or a device associated with the power source is analyzed and processed to predict an operating life of the power source. This could allow, for example, a power source replacement schedule to be generated for the device. If the analysis indicates that abnormal conditions exist or that any user-defined alerts are warranted, a message could also be sent to an operator terminal. The system and method may continue to monitor the device and thus provide real-time data. The data may also be stored in memory, collected over time, and analyzed or used in various ways. The system and method thus provide a cost effective and reliable analysis of power source performance and any associated operational and replacement costs.

Abstract: A method and system for determining the status and monitoring an unattended individual. A radio beacon device can be associated with one or more individuals (e.g., an unattended person). Behavioral information about the individual(s) can be collected by tracking the location of the individual within a particular area (e.g., home, assisted living facility, etc.) utilizing the radio beacon device. The presence of other persons can then be distinguished from that of the individual within said particular area utilizing said behavioral information collected about said individual, thereby permitting a determination of the status of said individual and distinguishing the presence of other persons within said particular area. The behavioral information can include, for example, one or more activity levels associated with the individual.

Abstract: A target radio can be located and tracked by an array of anchor radios. The anchor radios are calibrated when each anchor radio transmits an anchor message that is received by the other anchor radios. The distance between anchor radios is known because their positions are known. The received signal strengths are dependent on distance and an attenuation value. The calibration operation uses the received signal strengths and known anchor radio locations to determine the attenuation values of the anchor radios. After calibration, a target radio transmission can be received by the anchor radios. Each anchor radio estimates the distance to the target. The distance estimates and the anchor locations can then be used to determine the target radio's location.

Abstract: A system for tracking persons and other assets in a structure, having a multi-function tracking tag and a network of fixed RF receivers forming a gateway array. The location of the person being tracked is calculated by a computer using an algorithm that weights each separate signal according to the probability of its accuracy, thus using data with the least error. A preferred algorithm is shown in FIG. 2.

Abstract: A system for tracking persons and other objects in a structure in which a plurality of low power transmitter beacons send identifiers to any receiver within range of the beacons. The beacons are attached to the building at known locations that are used as reference points. The person or object carrying the receiver then uses the information of those beacons to determine the location in the structure of the receiver. The data can be sent to a command center or other monitoring location or it can be processed on site by the receiver.

Abstract: A system and method for automatically determining the camera field of view in a camera network. The system has a plurality of spatially separated cameras and direction sensors, carried on respective cameras, configured to measure the angle directions of the field of views of the cameras. Elevation sensors are operably coupled to respective cameras to measure the elevation angles of thereof. A controller is configured to process direction and elevation measurement signals transmitted from the cameras to automatically determine the cameras' fields of views. One or more cameras having a field of view containing or nearby an event of interest can be selected from the determined field of views and indicated to a user via a graphical user interface. Selected cameras which are rotatably mounted can be rotated if need be to automatically bring the event of interest into the field of views of the selected cameras.

Abstract: A method for automatically estimating the spatial positions between cameras in a camera network utilizes unique identifying signals, such as RFID signals, transmitting between nearby cameras to estimate the relative distances or positions between cameras from received signal strength (RSS), time of arrival (TOA), or time difference of arrival (TDOA) measurements to thereby determine the neighboring relationship among the cameras. A discover-locate process can be used to discover, from the estimated relative distances, unknown cameras in the vicinity of at least three cameras at known locations. Absolute locations of the discovered unknown cameras can then be calculated using a geometric calculation. The discover-locate process can be cascaded throughout the network to discover and locate all unknown cameras automatically using previously discovered and located cameras.

Abstract: A wireless bridge includes a first universal asynchronous receiver/transmitter (UART) for coupling to a serial bus that receives data packets. A protocol independent module has a timer set to a desired time to detect a start and/or an end of a data packet received from the serial bus. A wireless transceiver is coupled to the universal asynchronous receiver/transmitter for sending and receiving data packets.

Abstract: A system for tracking persons in a structure, using a mobile unit for transmitting a distinctive beacon signal to a wireless array network of RF transceivers when the signal is within a predetermined distance of one or more RF transceivers, and transmitting the received RF beacon signal and a signal representative of itself to other RF transceivers through the array to a computer gateway. The computer determines the location of the mobile unit from the transmitted signals and displays the location.

Abstract: A system for providing audio-based information pertaining to a situation communicated to a first responder en route to the situation. The information may include real-time and current data of the on-going situation (e.g., a building fire). The information may be relayed to the first responder by a dispatch center, or other intermediary, or come directly from monitoring instrumentation at a location of the situation. Also, background and/or preplanned information about the location may be provided to the first responder via a handset or other device. The responder may request certain information via the handset or device in a vehicle en route with voice requests or button activation. Visual displays of information on the instrumentation may be converted to audio- or speech-based displays for the responder.

Abstract: In an embodiment, a temporary network is implemented by locating a plurality of battery-powered Wi-Fi access points throughout a local area. A controller is also located within the local area. A network connectable device is provided to communicate with the plurality of battery-powered Wi-Fi access points and the controller. The temporary network may then be implemented via the automatic configuration of the plurality of Wi-Fi access points and the configuration of the controller via the network connectable device.