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Gerard E.
Gerard E. Attanasio, Middlebury, CT US
| Patent application number | Description | Published |
|---|---|---|
| 20090074537 | STRUCTURAL FASTENERS AND COMPONENTS THEREOF - A captive structural fastener including an integral hold-out feature is provided. The fastener includes a stud assembly including a stud, a retaining ring including two oppositely disposed tabs protruding toward the center of the retaining ring, a first sleeve that is matingly engageable with a second sleeve, the second sleeve including an inwardly disposed channel for receiving the retaining ring; and a receptacle assembly, the receptacle assembly including a bracket constructed and arranged to be secured to a panel, an internally threaded nut, a retaining clamp for securing the nut in the bracket, and a grommet assembly including means defining a bore for receiving the stud therethrough. | 03-19-2009 |
Gerard E. Hanshe, Levittown, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20100180340 | Method and System for Filing and Monitoring Electronic Claim Submissions in Multi-Claimant Lawsuits - The invention relates to systems and methods for filing and monitoring electronic claim submissions in proceedings involving a large number of claimants, such as securities class action lawsuits, estate dissolutions, arbitrations, and bankruptcies. The systems and methods create an easy-to-use and convenient way for institutions and individual claimants to register their claim relief upon judgment or settlement. | 07-15-2010 |
Gerard E. Kedge, Orchard Park, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20090048649 | Heat transfer device: seal and thermal energy contact units - A device has four fundamental components: an enclosure, a soft seal, a vacuum system and a thermal energy system having a thermal energy contacting element. The device provides thermal energy therapy and negative pressure therapy device simultaneously and/or in conjunction to a patient. The device has a thermal energy system that is more efficient in thermal energy transfer and the soft seal decreases tissue interface pressure to obtain the desired soft seal effect. | 02-19-2009 |
| 20100106230 | Negative Pressure, Thermal Energy Transfer Device That Also Provides Positive Pressure to the Patient - A negative pressure, thermal energy device has an enclosure that receives a patient's body part. The body part is positioned in the enclosure and contacts a thermal energy contacting surface. The thermal energy contacting surface transfers its thermal energy to the body part. While in the enclosure, the body part is also exposed to a negative pressure to cause vasodilation. The combination of the vasodilation and the thermal energy transfer alter the patient's body core temperature. To ensure the body part remains in contact with the thermal contacting surface, the enclosure has a portion thereof that moves when negative pressure is in the enclosure. When the negative pressure is applied, the deforming enclosure material is pulled toward the body part to provide a positive pressure on the body part that ensures the body part effectively contacts the thermal energy contacting surface. | 04-29-2010 |
Gerard E. Taylor, Laguna Nigel, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080285634 | Near-end, far-end and echo cancellers in a multi-channel transceiver system - A transceiver according to the present invention receives data from a plurality of frequency separated transmission channels from a complementary transmitter and includes an interference filter for correcting for interference from transmitters other than the complementary transmitter. The interference filter, for example, can correct for near-end cross-talk and echo interference filtering and/or far-end crosstalk interference filtering is presented. A transceiver can include a transmitter portion and a receiver portion with one or more receivers coupled to receives signals in the plurality of frequency separated transmission channels. A baseband transmitter can be combined with one or more transmitters that transmit data into one of the frequency separated transmission bands. Any combination of modulation systems can be utilized (e.g. PAM for the baseband and QAM for the frequency separated bands). In some embodiments, one baseband PAM transmitter is combined with one or more frequency separated QAM transmitters. | 11-20-2008 |