Abstract: Exemplary embodiments of the present invention include methods for administering devices. Such exemplary embodiments include creating a user metric vector comprising a plurality of disparate user metrics, creating a user metric space comprising a plurality of metric ranges, and determining whether the user metric vector is outside the user metric space. If the user metric vector is outside a user metric space, such embodiments include creating in dependence upon the user metric vector, a dynamic action list, identifying at least one action in the dynamic action list, executing the action, and determining whether a value of a user metric of the user metric vector that was outside a metric range of the user metric space before executing the action is outside the metric range after executing the action.

Abstract: A wireless data exchange system is disclosed. The system includes an electronically operated appliance including a transmitter, a receiver, and a control module configured to communicate with the transmitter and receiver. The control module provides a primary mode of operation and a secondary mode of operation and includes control logic configured to selectively change the mode of operation of the electronically operated appliance. A communication device adapted to be held in the hand of a user is configured to cooperate with the transmitter and the receiver to impart instructions wirelessly to the control logic in order to change the mode of operation of the electronically operated appliance upon receipt of a command from a user. A method of exchanging data wirelessly between an apparatus and a communication device is also disclosed.

Abstract: High strength, high ductility aluminum base alloys containing from 3 to 18.5 atomic percent nickel and 3 to 14.0 atomic percent yttrium, said alloy being in the devitrified state and containing less than 40 percent intermetallic phases.

Abstract: A remotely managed electronic dispensing apparatus having a transmitter for transmitting a detection signal and a receiver for receiving a reflected signal and a communication signal is disclosed. When the detection signal is reflected from an object, the dispensing apparatus opens a valve allowing fluid to flow. The communication signal may contain software update or other information for the dispensing apparatus.

Abstract: Exemplary embodiments of the present invention include methods for evaluating a test action for a user. Such methods include creating, within a network, a user metric vector in dependence upon a plurality of disparate user metrics, selecting a test action in dependence upon the user metric vector, executing the test action within the network, and determining a user reaction. Many embodiments also include adding the test action to a user's action list in dependence upon the user reaction. Other embodiments often include deleting the test action from an test action list in dependence upon the user reaction.

Abstract: A remotely managed electronically operated dispensing apparatus having a transmitter for transmitting a detection signal and a communication signal is disclosed. When the detection signal is reflected from an object, the dispensing apparatus opens a valve allowing fluid to flow. The communication signal may contain maintenance, status and other information and is received by a communication device.

Abstract: Methods for administering devices, including creating a user metric vector including a plurality of disparate user metrics, creating a user metric space including a plurality of metric ranges, determining whether the user metric vector is outside the user metric space, creating, in dependence upon the user metric vector, a dynamic action list, if the user metric vector is outside a user metric space, identifying at least one action in the dynamic action list, and executing the action.

Abstract: Methods for administering devices, including creating a user metric vector including a plurality of disparate user metrics, creating a user metric space including a plurality of metric ranges, and determining whether the user metric vector is outside the user metric space. Embodiments include identifying an action in dependence upon the user metric vector, if the user metric vector is outside a user metric space, executing the action, and creating a user reaction log.

Abstract: Methods for administering devices including receiving a user metric; determining whether a value of the user metric is outside of a predefined metric range; if the value of the user metric is outside of the metric range, identifying an action in dependence upon the user metric; and executing the action

Abstract: Methods for administering devices, including creating a user metric vector including a plurality of disparate user metrics, creating a user metric space including a plurality of metric ranges, determining whether the user metric vector is outside the user metric space, creating, in dependence upon the user metric vector, a dynamic action list, if the user metric vector is outside a user metric space, identifying at least one action in the dynamic action list, and executing the action.

Abstract: Method for administering devices, including creating a user metric vector including a plurality of disparate user metrics, creating a user metric space including a plurality of metric ranges, determining whether the user metric vector is outside the user metric space, identifying an action in dependence upon the user metric vector, if the user metric vector is outside a user metric space, and creating an action log.

Abstract: High strength, high ductility aluminum base alloys containing from 3 to 18.5 atomic percent nickel and 3 to 14.0 atomic percent yttrium, said alloy being in the devitrified state and containing less than 40 percent intermetallic phases.

Abstract: A method for calibrating automatic infrared sensing devices having control modules, an IR detector, and an IR emitter by using a select infrared emitter/detector pair to calibrate a plurality of control modules wherein an appropriate infrared emitter input value to the select infrared emitter is obtained to provide a given output from the select infrared detector in response to infrared radiation reflected from a known test object, and the appropriate infrared emitter input value is then determined and stored permanently in one or more control modules as a calibration standard.

Abstract: A method for dynamically calibrating automatic infrared sensing devices in commercial use having an IR detector. Randomly reflected emitted IR radiation is detected by the IR detector which sends as IR detector output to a control module. The control module measures whether the detector output is too high or too low compared to a standard range of output values stored in the control module. An IR emitter value is then determined to maintain IR detector output within the standard range of values. This IR emitter input value is stored in the control module as a calibration standard until the calibration cycle.

Abstract: A method for dynamically calibrating automatic infrared sensing devices in commercial use having an IR detector. Randomly reflected emitted IR radiation is detected by the IR detector which sends as IR detector output to a control module. The control module measures whether the detector output is too high or too low compared to a standard range of output values stored in the control module. An IR emitter input value is then determined to maintain IR detector output within the standard output range of values. This IR emitter input value is stored in the control module as a calibration standard until the next calibration cycle.

Abstract: A method for calibrating automatic infrared sensing devices having control modules, an IR detector, and an IR emitter by using a select infrared emitter/detector pair to calibrate a plurality of control modules wherein an appropriate infrared emitter input value to the select infrared emitter is obtained to provide a given output from the select infrared detector in response to infrared radiation reflected from a known test object, and the appropriate infrared emitter input value is then determined and stored permanently in one or more control modules as a calibration standard.

Abstract: A method for dynamically calibrating automatic infrared sensing devices in commercial use having an IR detector. Randomly reflected emitted IR radiation is detected by the IR detector which sends as IR detector output to a control module. The control module measures whether the detector output is too high or too low compared to a standard range of output values stored in the control module. An IR emitter input value is then determined to maintain IR detector output within the standard output range of values. This IR emitter input value is stored in the control module as a calibration standard until the next calibration cycle.

Abstract: A method for calibrating automatic infrared sensing devices having control modules, an IR detector, and an IR emitter by using a select infrared emitter/detector pair to calibrate a plurality of control modules wherein an appropriate infrared emitter input value to the select infrared emitter is obtained to provide a given output from the select infrared detector in response to infrared radiation reflected from a known test object, and the appropriate infrared emitter input value is then determined and stored permanently in one or more control modules as a calibration standard.

Abstract: An electronic pet fence is provided having several stationary transceivers and a mobile collar transceiver attached to the pet. Boundary and keep out locations are determined during a learning mode and stored in memory. Determination logic responds to signals exchanged between the stationary transceivers and the collar transceiver during an operation mode to determine if the pet is located within the defined boundary.

Abstract: A wireless data exchange system is disclosed. The system includes an electronically operated appliance including a transmitter, a receiver, and a control module configured to communicate with the transmitter and receiver. The control module provides a primary mode of operation and a secondary mode of operation and includes control logic configured to selectively change the mode of operation of the electronically operated appliance. A communication device adapted to be held in the hand of a user is configured to cooperate with the transmitter and the receiver to impart instructions wirelessly to the control logic in order to change the mode of operation of the electronically operated appliance upon receipt of a command from a user. A method of exchanging data wirelessly between an apparatus and a communication device is also disclosed.