Abstract: Systems and methods for dynamically registering a communication device are disclosed. As one example, a communication network architecture is disclosed that includes multiple feature servers, multiple registration redirect servers (RRSs), and multiple communication devices. The feature servers provide services to the communication devices. The RRSs each service a shared virtual Internet Protocol (IP) address and perform load balancing of registration requests on behalf of multiple feature servers located geographically proximate to the RRS. The communication devices are configured to issue initial registration requests intended for any of the feature servers to the shared virtual IP address, whereby upon issuing an initial registration request, a communication device is directed to a particular feature server that is associated with a RRS that is closest to the communication device, and where the particular feature server is selected by a load balancing routine executing on the RRS.

Abstract: Systems and methods for dynamically registering a communication device are disclosed. As one example, a communication network architecture is disclosed that includes multiple feature servers, multiple registration redirect servers (RRSs), and multiple communication devices. The feature servers provide services to the communication devices. The RRSs each service a shared virtual Internet Protocol (IP) address and perform load balancing of registration requests on behalf of multiple feature servers located geographically proximate to the RRS. The communication devices are configured to issue initial registration requests intended for any of the feature servers to the shared virtual IP address, whereby upon issuing an initial registration request, a communication device is directed to a particular feature server that is associated with a RRS that is closest to the communication device, and where the particular feature server is selected by a load balancing routine executing on the RRS.

Abstract: Examples of the disclosure enable a financial transaction to be automatically confirmed based on a similarity of factors between financial transactions. A previous case action may be used for a decision of confirming a financial transaction. A first request for authorization of a first financial transaction is received from a financial transaction processing computing device. One or more parameters associated with a cardholder account are identified, and it is determined, at a transaction score device, whether to approve the first request for authorization based on the one or more identified parameters. On condition that the first request for authorization is approved, the one or more parameters are updated based on one or more first factors associated with the first financial transaction such that a second request for authorization of a second financial transaction is analyzable based on the one or more updated parameters.

Abstract: A demand side management control system and method for altering power consumption on an electrical device during specified periods of time (e.g., peak energy demand periods). The system includes a memory to store two or more power consuming function profiles corresponding to the one or more power consuming functions associated with the electrical device. The system also includes at least one processor coupled with the memory. The processor is programmed to receive a peak energy demand signal and access the power consuming function profiles associated with the electrical device. The processor identifies, based on the received peak energy demand signal, the one of two or more power consuming function profiles to be implemented in the electrical device. Finally, the processor periodically disables or operates at a reduced power level at least one power consuming function according to the identified power consuming function profile.

Abstract: Systems and methods for dynamically registering a communication device are disclosed. As one example, a communication network architecture is disclosed that includes multiple feature servers, multiple registration redirect servers (RRSs), and multiple communication devices. The feature servers provide services to the communication devices. The RRSs each service a shared virtual Internet Protocol (IP) address and perform load balancing of registration requests on behalf of multiple feature servers located geographically proximate to the RRS. The communication devices are configured to issue initial registration requests intended for any of the feature servers to the shared virtual IP address, whereby upon issuing an initial registration request, a communication device is directed to a particular feature server that is associated with a RRS that is closest to the communication device, and where the particular feature server is selected by a load balancing routine executing on the RRS.

Abstract: Systems and methods for dynamically registering a communication device are disclosed. As one example, a communication network architecture is disclosed that includes multiple feature servers, multiple registration redirect servers (RRSs), and multiple communication devices. The feature servers provide services to the communication devices. The RRSs each service a shared virtual Internet Protocol (IP) address and perform load balancing of registration requests on behalf of multiple feature servers located geographically proximate to the RRS. The communication devices are configured to issue initial registration requests intended for any of the feature servers to the shared virtual IP address, whereby upon issuing an initial registration request, a communication device is directed to a particular feature server that is associated with a RRS that is closest to the communication device, and where the particular feature server is selected by a load balancing routine executing on the RRS.

Abstract: A demand side management control system and method for altering power consumption on an electrical device during specified periods of time (e.g., peak energy demand periods). The system includes a memory to store two or more power consuming function profiles corresponding to the one or more power consuming functions associated with the electrical device. The system also includes at least one processor coupled with the memory. The processor is programmed to receive a peak energy demand signal and access the power consuming function profiles associated with the electrical device. The processor identifies, based on the received peak energy demand signal, the one of two or more power consuming function profiles to be implemented in the electrical device. Finally, the processor periodically disables or operates at a reduced power level at least one power consuming function according to the identified power consuming function profile.

Abstract: A biosensor can include a fluid flow channel (12), a pulsing mechanism (14), and a binding response measurement mechanism (16). The fluid flow channel (12) can include an inlet (18) to accept a fluid into the fluid flow channel and an outlet (20). At least one binding sensor surface (22) can be oriented within the fluid flow channel. The binding sensor surface (22) can include a fixed binding moiety on the binding sensor surface selected to bind with a complimentary target agent within the fluid to form a complimentary bound duplex. The pulsing and flow switching mechanism (14) can be configured to drive the fluid into the fluid flow channel (12) in a pulsed analyte flow.

Abstract: Systems and methods for dynamically registering a communication device are disclosed. As one example, a communication network architecture is disclosed that includes multiple feature servers, multiple registration redirect servers (RRSs), and multiple communication devices. The feature servers provide services to the communication devices. The RRSs each service a shared virtual Internet Protocol (IP) address and perform load balancing of registration requests on behalf of multiple feature servers located geographically proximate to the RRS. The communication devices are configured to issue initial registration requests intended for any of the feature servers to the shared virtual IP address, whereby upon issuing an initial registration request, a communication device is directed to a particular feature server that is associated with a RRS that is closest to the communication device, and where the particular feature server is selected by a load balancing routine executing on the RRS.

Abstract: A calling network capable of accepting voice and data information includes a voice distribution server, wherein the voice distribution server is communicably coupled to an integrated access device, wherein the voice distribution server is associated with a computer readable medium, and wherein the computer readable medium includes a customer profile; and wherein the customer profile includes at least one registered access number associated with the integrated access device, and at least two quasi-registered access numbers associated with the integrated access device.

Abstract: Systems and methods for dynamically registering a communication device are disclosed. As one example, a communication network architecture is disclosed that includes multiple feature servers, multiple registration redirect servers (RRSs), and multiple communication devices. The feature servers provide services to the communication devices. The RRSs each service a shared virtual Internet Protocol (IP) address and perform load balancing of registration requests on behalf of multiple feature servers located geographically proximate to the RRS. The communication devices are configured to issue initial registration requests intended for any of the feature servers to the shared virtual IP address, whereby upon issuing an initial registration request, a communication device is directed to a particular feature server that is associated with a RRS that is closest to the communication device, and where the particular feature server is selected by a load balancing routine executing on the RRS.

Abstract: A semi-flexible tube is captured between a valve body and a connection device wherein at least one of the valve body and the connection device is connected structurally to a range instead of relying on the manifold tube as the location mechanism for precisely locating the valve at a desired location on the range.

Abstract: A calling network capable of accepting voice and data information includes a voice distribution server, wherein the voice distribution server is communicably coupled to an integrated access device, wherein the voice distribution server is associated with a computer readable medium, and wherein the computer readable medium includes a customer profile; and wherein the customer profile includes at least one registered access number associated with the integrated access device, and at least two quasi-registered access numbers associated with the integrated access device.

Abstract: A calling network capable of accepting voice and data information includes a voice distribution server, wherein the voice distribution server is communicably coupled to an integrated access device, wherein the voice distribution server is associated with a computer readable medium, and wherein the computer readable medium includes a customer profile; and wherein the customer profile includes at least one registered access number associated with the integrated access device, and at least two quasi-registered access numbers associated with the integrated access device.

Abstract: A method of distributed control of train throttle and braking includes transmitting an instruction to a remote power unit to apply at least one acceleration to the train at a future time; receiving the instruction; transmitting a confirmation that the remote power unit is armed to execute the instruction to a lead power unit; and computing a profile describing at least one acceleration to be applied to the train as it travels over a predetermined route. The computation is determined at least in part on whether or not the confirmation has been received by the lead power unit. The instructions may be contained in a profile which optimizes fuel consumption, emissions, and/or trip time. The accelerations may be carried out by direct control or by prompting an operator. In another aspect, the confirmed instructions may be used to ensure braking in accordance with a predetermined braking curve.

Abstract: A semi-flexible tube is captured between a valve body and a connection device wherein at least one of the valve body and the connection device is connected structurally to a range instead of relying on the manifold tube as the location mechanism for precisely locating the valve at a desired location on the range.

Abstract: A fingerprint sensor package preferably includes a fingerprint sensing integrated circuit in a housing, and a circuit substrate comprising first and second portions connected together. The first portion is within the housing and mounts the fingerprint sensing integrated circuit, and the second portion is flexible and extends outwardly from the housing for facilitating electrical connection to the fingerprint sensing integrated circuit from external to the housing. Each portion of the circuit substrate preferably includes at least one insulating layer and at least one electrical conductor thereon. Accordingly, the package can be made relatively compact and electrical interconnections are facilitated by the second portion or extension of the circuit substrate. In one embodiment, the first and second portions are integrally formed together. In this embodiment, the first portion is also flexible. The sensor package is readily included on the upper surface of a laptop computer, for example.

Abstract: A fingerprint sensor package includes a fingerprint sensing integrated circuit within a housing and comprising a plurality of electric field sensing electrodes and processing circuitry connected thereto. At least one external electrode is carried by the housing for finger contact. An electrostatic discharge (ESD) circuit is provided within the housing and is connected to the at least one external electrode. An isolation circuit is connected to the at least one line of the processing circuitry for external connection. The external electrode and ESD circuit, as well as the line isolation circuit protect the integrated circuit against damage by voltage transients, such as ESD. The at least one external electrode may include first and second external electrodes. The first electrode may be connected to the electrostatic discharge circuit.

Abstract: A microfluidic platform for use with a specific binding assay apparatus includes an elongate, nonlinear channel through which a sample or sample solution may flow to be brought into contact with capture molecules immobilized relative to a number of sensing zones on a reaction surface of the specific binding assay apparatus. The microfluidic platform may include regions with enlarged widths, which are to be positioned adjacent to and in communication with sensing zones of the specific binding assay apparatus. In addition, the microfluidic platform may include mixing structures that protrude into the channel so as to create folding of and, thus facilitate mixing of the constituents of a sample solution as the sample solution flows through the channel. Specific binding assay apparatus that include microfluidic platforms thereon are also disclosed. In addition, methods for fabricating the microfluidic platform are also disclosed, as are methods for using the microfluidic platform.

Abstract: A fingerprint sensor includes an array of fingerprint sensing elements; analog-to-digital (A/D) converters having a controllable range; a scanner to perform sequential A/D conversions of predetermined ones of the array of fingerprint sensing elements; and a range determining and setting circuit for controlling the range of the A/D converters based upon prior A/D conversions to thereby provide enhanced conversion resolution. A plurality of A/D converters are preferably used for simultaneously converting analog signals from a corresponding plurality of fingerprint sensing elements. The A/D converters may include at least one reference voltage input for permitting setting of first and second points of the range. The range scale determining and setting circuit may generate a histogram based upon prior A/D conversions. In addition, the range scale determining and setting circuit may set a default range for initial ones of the fingerprint sensing elements.