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Jester
Benjamin Jester, Tucson, AZ US
| Patent application number | Description | Published |
|---|---|---|
| 20090170069 | Cell free methods for detecting protein-ligand binding - Provided are rapid and sensitive cell-free assay methods for detecting and/or measuring specific bimolecular or higher order interactions via reassembly of a split monomeric reporter protein, and methods of detecting or identifying modulators of such interactions by the effect on the signal provided by the reassembled split reporter protein. This methodology is adaptable to protein-protein, protein-peptide, protein-nucleic acid, protein-methylated or nonmethylated nucleic acid and other small or large molecule ligands and binding proteins. | 07-02-2009 |
David Virgil Jester, Ridgecrest, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090084253 | Common Services Pod for Dispensing Countermeasure Devices - The invention generally relates to a pod based countermeasure dispensing system for external mounting on wide variety of manned aircraft. The pod based system is readily configurable for dispensing different types of infrared countermeasure (IRCM) devices and different types of radio frequency countermeasure (RFCM) devices at a rapid rate. The primary use of the rapidly dispensed IRCMs and RFCMs is to protect the host aircraft while ingress and egress maneuvers are performed in a hostile area. A secondary use of the pod based countermeasure dispensing system is for use in defending commercial aircraft from missile threats. | 04-02-2009 |
| 20090084254 | Method for Rapid Countermeasure Deployment Using a Pod - The invention generally relates to a method of using a pod to rapidly deploy defensive countermeasures from a wide variety of manned aircraft. The method includes using a configurable pod for dispensing different types of infrared countermeasure (IRCM) devices and different types of radio frequency countermeasure (RFCM) devices at a rapid rate. The primary purpose of this method is to rapidly dispense IRCMs and RFCMs is to protect the host aircraft while ingress and egress maneuvers are performed in a hostile area. A secondary use of the method is for use in defending commercial aircraft from missile threats. | 04-02-2009 |
Ian Jester, Wilmington, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20090139990 | Portable Box for Carrying Items - A telescoping box includes a lid. The upper section of the box includes lids which are frictionally engagable therewith. The lids include speaker assemblies as part of each lid. The lids are removable and include connection points for audio signal sources such as MP3 players. | 06-04-2009 |
James Richard Jester, Wake Forest, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20100217618 | Event Detection Based on Location Observations and Status Conditions of Healthcare Resources - Methods, systems and apparatus for initiating actions in a healthcare environment are disclosed. Illustrative embodiments receive identification data from tags assigned to healthcare resources via local positioning sensors. The illustrative embodiments also determine proximity of the healthcare resources based upon the identification data received via local positioning sensors. The embodiments also determine that an event has occurred in response to the proximity of the healthcare resources satisfying a relational condition of the event that relates the healthcare resources, and the healthcare resources satisfying a status condition of the event. The embodiments further initiate an action associated with the event in response to determining that the event has occurred. | 08-26-2010 |
Steven J. Jester, Eden Prairie, MN US
| Patent application number | Description | Published |
|---|---|---|
| 20110299565 | MRI COMPATIBLE MEDICAL DEVICE TEMPERATURE MONITORING SYSTEM AND METHOD - A temperature monitoring system for a medical device comprises an optical transmit/receive unit, an elongate optical fiber having a proximal end, a distal end, and an inner core extending between the proximal end and the distal end, and one or more fiber Bragg grating elements formed in the inner core of the optical fiber. The optical fiber is operably coupled to the transmit/receive unit at the proximal end. At least a portion of the optical fiber is also operably coupled to a medical device and is structured to measure temperature at one or more temperature sensing locations on the medical device. | 12-08-2011 |