Clementi, US
Ashley Neil Clementi US
Patent application number | Description | Published |
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20110087458 | PROCESSING TRANSACTION TIMESTAMPS - A first measurement point is received from a first monitoring agent. The first measurement point includes a first timestamp and a first transaction attribute. The first timestamp is stored. A second measurement point is received from a second monitoring agent. The second measurement point includes a second timestamp and a second transaction attribute. The second timestamp is stored. | 04-14-2011 |
20110087722 | STITCHING TRANSACTIONS - A first transaction attribute is received from a first monitoring agent. The first transaction attribute includes a plurality of identifiers and is associated with a transaction. A second transaction attribute is received from a second monitoring agent. The second transaction attribute is associated with the transaction. The transaction is monitored through a plurality of application environments by associating at least a portion of the first transaction attribute with at least a portion of the second transaction attribute. | 04-14-2011 |
20110088042 | COMBINING MONITORING TECHNIQUES - A first subset of information about a transaction is received from a first application. The first application has a first monitoring technique. A second subset of information about the transaction is received from a second application. The second application has a second monitoring technique that is different from the first monitoring technique. The first subset of information is combined with the second subset of information to produce composite information about the transaction. | 04-14-2011 |
20110088045 | LINKING TRANSACTIONS - A first unique identifier is received from a first monitoring agent. The first unique identifier may be based on first natural data associated with a transaction. A second unique identifier is received from a second monitoring agent. The second unique identifier may be based on second natural data associated with the transaction. The first unique identifier may be correlated with the second unique identifier to monitor the transaction through a plurality of application environments. | 04-14-2011 |
Daniel M. Clementi, Doylestown, PA US
Patent application number | Description | Published |
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20080218274 | PHASE LOCKED LOOP AND DELAY LOCKED LOOP WITH CHOPPER STABILIZED PHASE OFFSET - A control circuit includes a phase frequency detector that receives a reference phase Φ | 09-11-2008 |
20090102513 | Low Power Output Driver - A low power output driver includes one of a regulated reduced voltage source that receives a supply voltage and outputs a regulated reduced voltage that is a lower voltage than the supply voltage. The driver also includes a first driver input that receives a first logic signal, a second driver input that receives a second logic signal, a first driver output that outputs a first output signal and a second driver output that outputs a second output signal. The driver includes first, second, third and fourth n-type metal oxide semiconductor (NMOS) that are cross-connected between the reduced voltage and the first and second driver outputs or a constant voltage internal ground. When the second input is high, the second NMOS and the third NMOS are gated on, the second driver output is raised to the reduced voltage and the first driver output is pulled down to the constant voltage ground. | 04-23-2009 |
Francis J. Clementi, Somerset, PA US
Patent application number | Description | Published |
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20090272444 | Vacuum regulator having selectable adjustment ranges - A vacuum regulator has a vacuum range controller and a manifold including an inlet opening, a vacuum source connection, and a bleed orifice. The vacuum range controller includes a regulator stem having a metering tip, a stem body, and an adjustment rod. The metering tip is selectively positioned against the bleed orifice. The vacuum range controller further includes a vacuum adjuster having an adjustment collar and a resilient member which are coaxially disposed on a portion of the regulator stem. An adjustment knob engages the adjustment rod for concurrent rotational movement therewith. | 11-05-2009 |
20090275905 | Canister having fluid flow control - A canister for use with a medical suction or aspiration device has a first fluid chamber and a second fluid chamber. The first fluid chamber has an inlet. The second fluid chamber has an outlet port. A splash baffle is disposed between the first fluid chamber and the second fluid chamber. The splash baffle has an aperture formed therethrough to allow for fluid flow from the first fluid chamber to the second fluid chamber. An absorbent valve having voids is disposed within the second fluid chamber and engages a portion of the outlet port. The absorbent valve restricting fluid permeability upon contact with fluid from the first fluid chamber to restrict fluid flow through the outlet port. | 11-05-2009 |
James Joseph Clementi, Charlotte, NC US
Patent application number | Description | Published |
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20150262136 | CROSS BORDER IMAGE EXCHANGE - In some embodiments, one or more processors receive a financial instrument via an interface. The financial instrument indicates attributes of a financial transaction. The processors determine, based on one or more of the attributes, whether the financial transaction involves a cross border exchange. If the financial transaction involves a cross border exchange, the processors flag the financial instrument accordingly, perform a currency conversion, and communicate an electronic image associated with the financial instrument to computing resources configured to complete the financial transaction electronically without having to transport a paper copy of the financial instrument between financial institutions. | 09-17-2015 |
Ralph Clementi, Clarksville, MD US
Patent application number | Description | Published |
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20090018760 | RUSH HOUR MODELING FOR ROUTING AND SCHEDULING - A rush hour modeling system that is configured for modifying existing travel time/distance data to reflect special traffic conditions, such as rush hour traffic conditions. The system is configured to receive information defining one or more time windows, geographic areas, and road segments in which special traffic conditions occur. The system is also configured to receive travel rules that reflect the special traffic conditions. The travel rules are used to modify a travel time/distance matrix to reflect the effect of the special traffic conditions on “normal” travel times and distances. Existing routing and scheduling systems can then use the modified travel matrix to plan and schedule routes for delivery vehicles more accurately. Additionally, the modified travel matrix can be used to model traffic conditions through a particular geographic area or on a particular road segment. | 01-15-2009 |
Ralph Clementi, Clarkville, MD US
Patent application number | Description | Published |
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20130245926 | Rush Hour Modeling for Routing and Scheduling - A rush hour modeling system that is configured for modifying existing travel time/distance data to reflect special traffic conditions, such as rush hour traffic conditions. The system is configured to receive information defining one or more time windows, geographic areas, and road segments in which special traffic conditions occur. The system is also configured to receive travel rules that reflect the special traffic conditions. The travel rules are used to modify a travel time/distance matrix to reflect the effect of the special traffic conditions on “normal” travel times and distances. Existing routing and scheduling systems can then use the modified travel matrix to plan and schedule routes for delivery vehicles more accurately. Additionally, the modified travel matrix can be used to model traffic conditions through a particular geographic area or on a particular road segment. | 09-19-2013 |