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Girardi, US
Brian Girardi, Chantilly, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20090067443 | Method for Network Visualization - A method of visualizing network data includes parsing a collection of packets in accordance with a set of categories related to characteristics of the collection of packets, the categories including listings of categorical elements, wherein at least some of the categorical elements are selectable by a user. When a categorical element is selected by a user, the collection of packets is filtered in accordance with the selected categorical element. Alongside each categorical element is a selectable count value that is indicative of the number of discrete communications sessions in which an associated categorical element is present in the collection of packets. When the count value is selected, a session view or views is/are created for each respective session, with content payload available for review and viewing. | 03-12-2009 |
| 20100027430 | Apparatus and Method for Network Analysis - A system for, and method of, extracting information from multiple sessions and in accordance with disparate protocols, and transforming the same into a common language. Packets are collected by packet collectors distributed throughout a network and those packets, and/or metadata relating to those packets, are passed to an aggregator, which is made available via an application program interface to users/applications. | 02-04-2010 |
| 20100046391 | APPARATUS AND METHOD FOR NETWORK ANALYSIS - A system for, and method of, extracting information from multiple sessions and in accordance with disparate protocols, and transforming the same into a common language. Packets are collected by packet collectors distributed throughout a network and those packets, and/or metadata relating to those packets, are passed to an aggregator, which is made available via an application program interface to users/applications. | 02-25-2010 |
Brian P. Girardi, Chantilly, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20100281543 | Systems and Methods for Sensitive Data Remediation - Systems and methods for sensitive data remediation include calculating a Probability of Loss of data on a given computer based on measures of control, integrity, and potential avenues of exploitation of the given computer, determining an Impact of Loss of the data on the given computer based on a type, volume, and nature of the data, and correlating the Probability of Loss with the Impact of Loss to generate a risk score for the given computer that can be compared to other computers in the network. The computers with higher risk scores can then be subjected to data remediation activity. | 11-04-2010 |
Guillermina Girardi, New York, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20090214563 | TREATMENT FOR ANTIPHOSPHOLIPID-SYNDROME-RELATED PREGNANCY COMPLICATIONS - The present application provides compositions and methods for treating antiphospholipid-syndrome-related pregnancy complications with tissue factor antagonists. | 08-27-2009 |
Michael Girardi, Madison, CT US
| Patent application number | Description | Published |
|---|---|---|
| 20090317457 | ANTI-INFLAMMATORY AND WOUND HEALING EFFECTS OF LYMPHOID THYMOSIN B-4 - The invention relates to a method of treating inflammatory conditions in a subject comprising administering to a subject a composition comprising a lymphoid thymosin-β4 polypeptide or a functional lymphoid thymosin-β4 polypeptide variant. The invention also provides a method of promoting wound healing in a subject comprising administering to the subject a composition comprising a lymphoid thymosin-β4 polypeptide or a functional lymphoid thymosin-β4 polypeptide variant. The invention also relates to methods of treating the above mentioned conditions in a subject comprising administering to the subject a nucleic acid encoding a lymphoid thymosin-β4 polypeptide or a functional lymphoid thymosin-β4 polypeptide variant. The invention also relates to pharmaceutical compositions comprising a lymphoid thymosin-β4 polypeptide or a functional lymphoid thymosin-β4 polypeptide variant, or salt thereof, and a pharmaceutically acceptable carrier. | 12-24-2009 |
| 20100209409 | METHOD FOR SUPPRESSING IMMUNE SYSTEM RESPONSE TO TRANSPLANTED TISSUE OR CELLS - Methods are provided for suppressing the immune system response in recipients of transplanted organs, tissues or cells. An extracorporeal quantity of blood from the intended transplant recipient is treated to induce monocytes contained in the blood to differentiate and form dendritic cells. The maturation of the dendritic cells is truncated at a stage where the dendritic cells can inactivate T cell clones which would otherwise generate an undesired immune system response. The immature dendritic cells can be directly administered to the transplant recipient, or the dendritic cells can be co-incubated with the bone marrow or stem cell preparation, prior to transplantation, in order to suppress or eliminate anti-recipient donor T cells contaminating the bone marrow or stem cell preparation. The methods can be used to suppress graft versus host disease in recipients of transplanted bone marrow or stem cells, or to suppress rejection of transplanted organs or tissue. | 08-19-2010 |
Nino Girardi, Staten Island, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20080266127 | PREDICTING CABLE FAILURE THROUGH REMOTE FAILURE DETECTION OF ERROR SIGNATURES - Computer systems and techniques for predicting a cable failure in a network system begin by receiving a remote alarm indicator followed by a remote alarm indicator clear as a transmission alarm indicator of an intermittent short duration failure on the transmission path of a circuit. If the transmission alarm indicator is of a duration less than or equal to a preset threshold D it is considered an acceptable short hit transmission alarm. When at least N acceptable transmission alarms have been received and the time stamps of the last N acceptable transmission alarms have been recorded, then a determination is made as to whether N acceptable transmission alarms have been received within a preset time period. A moving window time period is calculated as the difference between the time stamp of the present acceptable transmission alarm K and the time stamp of the [(K−N)+1] acceptable transmission alarm. If the difference is less than or equal to T, a cable error signature is indicated. Based on the cable error signature, a cable failure may be predicted. | 10-30-2008 |