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Garret Coady, Dublin IE
| Patent application number | Description | Published |
|---|---|---|
| 20090097097 | EC MIRROR ASSEMBLY - The present invention provides an EC mirror assembly that include s an EC mirror cell and control means for controlling the reflectivity of the mirror cell, the assembly also including a pair of contact elements independently displaceable relative to the mirror cell while maintaining an electrical connection with the control means, the contact elements also being engageable with opposite edges of the mirror cell in order to provide an electrical connection between the control means and the mirror cell. | 04-16-2009 |
| 20110213214 | MECHANICALLY DEPLOYABLE TRACHEAL TUBE SENSOR - Various embodiments of a tracheal tube having a mechanically deployable sensor are provided. Certain embodiments of the tracheal tube may be capable of mechanically deploying the sensor during intubation to sense one or more indicators of blood flow characteristics, such as a level of blood gases and/or blood analytes, in the respiratory tract. The mechanically deployable sensor may be configured to abut the tracheal mucosa of a patient or not contact the tracheal wall at all during deployment. The sensor may be further adapted to remain in a recess disposed in the tracheal tube prior to deployment and exit the recess when acquiring measurements. | 09-01-2011 |
Garret Coady, Palmerstown IE
| Patent application number | Description | Published |
|---|---|---|
| 20110213264 | SENSOR ON NON-SEALING PORTION OF TRACHEAL TUBE CUFF - Various embodiments of a tracheal tube having a sensor disposed on a non-sealing portion of a cuff are provided. Certain embodiments of the tracheal tube may be capable of deploying the sensor during intubation to sense one or more indicators of blood flow characteristics, such as a level of blood gases and/or blood analytes, in the respiratory tract. The sensor on the cuff may be configured to deploy upon inflation of the cuff and to return to its predeployment position upon deflation of the cuff. The sensor may be further adapted to abut the tracheal mucosa of a patient or not contact the tracheal wall at all during deployment. | 09-01-2011 |
Garret Grajek, Aliso Viejo, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090240936 | SYSTEM AND METHOD FOR STORING CLIENT-SIDE CERTIFICATE CREDENTIALS - A method and system is provided for storing a plurality of client certificate credentials via a client web browser into one or more keystore file(s). The client web browser is used to establish the secure data transfer link between the client and the server. The client web browser includes a plug-in software component. The plug-in software component is configured to generate the keystore file and a key pair. The method may continue with generating a certificate request on the client. The certificate request generated is then transmitted to a certificate server. The certificate server is configured to digitally sign the certificate request generated. The method continues with the client receiving a signed certificate request. The signed certificate request is received by the client via the client web browser. The method may conclude by storing the plurality of client certificate credentials associated with the signed certificate request in one or more keystore file(s). | 09-24-2009 |
| 20090307486 | SYSTEM AND METHOD FOR SECURED NETWORK ACCESS UTILIZING A CLIENT .NET SOFTWARE COMPONENT - A method for self-service authentication of a client and a server. The method includes the server receiving an initialization command from the client. The initialization command may be transmitted to the server via a client web browser over an unsecured data transfer link. The method continues with requesting authentication information from the client. In response to receiving the authentication information from the client, the server transmits a client software component to the client. The client software component utilizes a client-side library installed on the operating system of the client to generate the various client credentials described above. Thereafter, the certificate signing request may be transmitted to a certificate server for signing the certificate signing request. The signed certificate signing request is then received by the client via the client web browser. The client utilizes the information associated with the signed certificate signing request with the client-side library installed on the client to generate a client certificate. | 12-10-2009 |
| 20100138907 | METHOD AND SYSTEM FOR GENERATING DIGITAL CERTIFICATES AND CERTIFICATE SIGNING REQUESTS - A certificate server is provided for issuing digital certificates to be used by a network resource and/or a client resource. The certificate server is configured to communicate with the network resource or the client resource to receive a certificate request. Upon receiving the certificate request, the certificate server may automate the process for authenticating the certificate request, validating the terms of the certificate request and digitally signing the certificate request. An authentication appliance may communicate with or be integrated within the certificate server. The certificate server includes a web service server, a certificate authority component, and a database that enable communication with either the network resource, client resource, or the authentication appliance to automate the administration process typically involved in receiving and signing a certificate request. The certificate authority component may sign the certificate request with a trusted root chain associated with the network resource. | 06-03-2010 |
| 20100217975 | METHOD AND SYSTEM FOR SECURE ONLINE TRANSACTIONS WITH MESSAGE-LEVEL VALIDATION - A method and system for authenticating a client and a server is disclosed. In one contemplated embodiment, the client has a client certificate and the server have a server certificate. The client is validated to an authentication module based upon a certificate request identifier generated thereby, a secure data link certificate, and an authentication module Uniform Resource Locator. The authentication module is validated to the client based upon the client certificate and the certificate request identifier. A password associated with a user identifier that is encrypted with a private client key and signed with a public server key is transmitted to the authentication module. The password is then validated. | 08-26-2010 |
Garret Grajek, Huntington Beach, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090025080 | SYSTEM AND METHOD FOR AUTHENTICATING A CLIENT TO A SERVER VIA AN IPSEC VPN AND FACILITATING A SECURE MIGRATION TO SSL VPN REMOTE ACCESS - Authenticating a client to a server accessible through an Internet Protocol Security (IPSec) Virtual Private Network (VPN) appliance. The IPSec VPN appliance and an SSL VPN appliance are configured to receive an initialization command from the client. The SSL VPN appliance is in communication with an authentication appliance for authenticating the client to the server. In response to the initialization command, the authentication appliance generates a client key pair including a client private key and a client public key. The authentication appliance generates a client certificate and a client IPSec profile. The authentication appliance transmits the client key pair, the client certificate and the client IPSec profile to the client. A secure communication session between the client and the server is established. The secure communication session is established through the IPSec VPN appliance. Upon receipt of the IPSec profile, the communication session between the client and the server is encrypted. | 01-22-2009 |
Garret Moddel, Boulder, CO US
| Patent application number | Description | Published |
|---|---|---|
| 20110017284 | GEOMETRIC DIODE, APPLICATIONS AND METHOD - A geometric diode, method and device applications are described. The geometric diode is produced including a device body formed from an electrically conductive material having an equilibrium mobile charge density, and having a device surface configuration. The material has a charge carrier mean free path with a mean free path length and the device body size is selected based on said the free path length to serve as an electrically conductive path between first and second electrodes delimited by the device surface configuration that is asymmetric with respect to a forward flow of current in a forward direction from the first electrode to the second electrode as compared to a reverse current flow in an reverse direction from the second electrode to the first electrode. A system includes an antenna for receiving electromagnetic radiation coupled with the geometric diode antenna to receive the electromagnetic radiation to produce an electrical response. | 01-27-2011 |