Patents by Inventor Donald K. McAlister
Donald K. McAlister has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8327437Abstract: A technique for securing message traffic in a data network using a protocol such as IPsec, and more particularly various methods for distributing security policies among peer entities in a network while minimizing the passing and storage of detailed policy or key information except at the lowest levels of a hierarchy.Type: GrantFiled: August 10, 2010Date of Patent: December 4, 2012Assignee: Certes Networks, Inc.Inventor: Donald K. McAlister
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Publication number: 20120096269Abstract: A Virtual Elastic Gateway Appliance (VEGA) that implements all the capability of a security gateway in a set of virtual appliances for operation in a virtualized, cloud environment is provided. The virtual appliances are divided into various components to provide key exchange and data protection in separate virtual appliances allowing each to be scaled elastically and independently. Security management of the virtual gateway is under control of the client while the cloud provider can meter use of virtual resources. Shared state operation and tunneled key exchange ensure robust operation in a dynamic environment.Type: ApplicationFiled: October 14, 2011Publication date: April 19, 2012Applicant: Certes Networks, Inc.Inventor: Donald K. McAlister
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Patent number: 8082574Abstract: A technique for securing message traffic in a data network using various methods for distributing security policies and keys, where policy definition is determined in a Management and Policy (MAP) functional layer that is responsible for policy distribution; a separate Key Authority Point (KAP) that is responsible for key generation, key distribution, and policy distribution; and a separate Policy Enforcement Point (PEP) which is responsible for enforcing the policies and applying the keys.Type: GrantFiled: July 23, 2007Date of Patent: December 20, 2011Assignee: Certes Networks, Inc.Inventors: Brandon L. Hoff, Ronald B. Willis, Charles R. Starrett, Donald K. McAlister
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Publication number: 20110013776Abstract: A technique for securing message traffic in a data network using a protocol such as IPsec, and more particularly various methods for distributing security policies among peer entities in a network while minimizing the passing and storage of detailed policy or key information except at the lowest levels of a hierarchy.Type: ApplicationFiled: August 10, 2010Publication date: January 20, 2011Applicant: CipherOptics, Inc.Inventor: Donald K. McAlister
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Patent number: 7774837Abstract: A technique for securing message traffic in a data network using a protocol such as IPsec, and more particularly various methods for distributing security policies among peer entities in a network while minimizing the passing and storage of detailed policy or key information except at the lowest levels of a hierarchy.Type: GrantFiled: May 25, 2007Date of Patent: August 10, 2010Assignee: CipherOptics, Inc.Inventor: Donald K. McAlister
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Publication number: 20080222693Abstract: A technique for securing message traffic in a data network using a protocol such as IPsec, and more particularly, various methods for distributing security policies among peer entities in a network while minimizing the passing and storage of detailed policy or key information except at the lowest levels of a hierarchy.Type: ApplicationFiled: August 1, 2007Publication date: September 11, 2008Applicant: CipherOptics, Inc.Inventor: Donald K. McAlister
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Patent number: 6500123Abstract: A first ultrasound dataset that represents an object in a first coordinate system can be acquired at a first time. Three landmarks of the object can be located in the first ultrasound dataset to define a second coordinate system. A first transform from the first to the second coordinate system can be determined for the first ultrasound dataset. A second ultrasound dataset that represents the object in the first coordinate system can be acquired at a second time. The same three landmarks in the second ultrasound dataset can be located to define a third coordinate system. A second transform from the first to the third coordinate systems can be determined for the second ultrasound dataset.Type: GrantFiled: November 6, 2000Date of Patent: December 31, 2002Assignee: Volumetrics Medical ImagingInventors: Richard Holloway, John J. Stefanski, Donald K. McAlister, Olaf von Ramm, David W. Smith, Stephen Michael Grenon
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Patent number: 6241675Abstract: A volumetric ultrasound system is used to determine the velocity of tissue using 3D echo data. In particular, the velocity of tissue in a 3D volume is determined by steering ultrasound beams to the tissue in the 3D volume and forming 3D echo data from receive ultrasound beams formed from reflections of the steered ultrasound beams from the tissue in the 3D volume. The velocity of the tissue associated with the 3D echo data can be determined using velocity determination techniques. The velocity of the tissue can be displayed in real-time. For example, in one embodiment, a sub-volume of the 3D volume can be scanned and the determined velocity of the tissue displayed in about 50 milliseconds (ms).Type: GrantFiled: June 7, 1999Date of Patent: June 5, 2001Assignee: Volumetrics Medical ImagingInventors: David W. Smith, Donald K. McAlister, Norman J. Bennett, Paul J. Hilts, John J. Stefanski, Steve Moore, Richard Holloway, John A. Schachte, Ronald E. Hileman, Olaf T. von Ramm, John T. Oxaal
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Patent number: 5969261Abstract: An apparatus and method for testing rutting susceptibility of test specimens. The apparatus includes a specimen holder having cavities for receiving one or more test specimens having an exposed surface for testing. A load bearing surface is positioned above the specimens to prevent friction from effecting the rutting analysis. A load device including at least one loading wheel is positioned adjacent the specimen holder wherein the loading wheels matingly engage the load bearing device. A motive sources provides relative rotational movement between the specimen holder and the loading wheels whereby a load is repeatedly applied to the test specimens under a constant velocity. The method includes testing rutting susceptibility of test specimens by providing a rotational load thereupon whereby the load reflects a linear or constant load across the predetermined path of travel of the loading wheels over the exposed surface of the test specimens.Type: GrantFiled: April 18, 1996Date of Patent: October 19, 1999Assignee: Troxler Electronics Laboratories, Inc.Inventors: Donald K. McAlister, John T. Eagan, Jr.
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Patent number: 5939642Abstract: An apparatus for compacting a material sample, such as paving material, including a cylindrical compaction mold and a mold support arranged to support one end of the mold. The mold support includes a turntable mounted for rotation about a rotational axis and a pair of mold-engaging members, such as rollers, extending from the turntable to engage the mold along its periphery and impart a gyratory motion to the mold as the turntable rotates. A mold retainer is also provided that includes a plurality of mold restraints spaced apart from one another about a central axis and arranged to engage the mold about the mold periphery at the end of the mold opposite the mold support. One of the mold restraints is attached to a movable latch that moves the mold restraint between an open position and a closed position. The open position locates the mold restraint out of engagement with the mold to allow the mold to slide into position inside the compactor apparatus.Type: GrantFiled: March 25, 1998Date of Patent: August 17, 1999Assignee: Troxler Electronic Laboratories, Inc.Inventors: Michael L. King, John T. Eagan, Jr., Donald K. McAlister
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Patent number: 5323655Abstract: An apparatus and method for compacting a material sample, such as soil or paving material, including a mold for receiving the material sample and a ram mounted for movement into a first open end of the mold to provide an axial compressire force thereto. The compacting apparatus also includes a base for supporting a second end of the mold. In operation, the mold is gyrated simultaneously with the application of the axial compressire force by the ram. Gyration is provided by tilting the mold from an initial neutral position in which the center longitudinal axis of the mold is collinear with the axis of compression to a tilted operative position in which the central longitudinal axis of the mold is angularly offset from the axis of compression. The base is thereinafter rotated relative to the mold so as to revolve the center of the second end of the mold about the axis of compression, thus, gyrating the axially compressed material sample.Type: GrantFiled: April 23, 1993Date of Patent: June 28, 1994Assignee: Troxler Electronic Laboratories, Inc.Inventors: John T. Eagan, Donald K. McAlister, David H. Minshall