Mark Raymond
Mark Raymond Cellarius, Madison, AL US
Patent application number | Description | Published |
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20130284339 | Ballistic Protection Systems and Methods - Embodiments of the present disclosure generally pertain to lightweight, environmentally durable, structurally rigid ballistic protection methods. An exemplary method of fabricating the ballistic protection system comprises the steps of assembling the sections separately and curing each section at a specific temperature and pressure. Once the sections are individually assembled and cured, the sections are joined together and cured at a separate temperature and pressure. | 10-31-2013 |
Mark Raymond Doehmann, Victoria AU
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20090296272 | VIBRATION ISOLATION ASSEMBLY - An assembly for isolating a component from vibrations present in a chassis. The assembly includes a support platform configured to carry the component. A first magnet is fixed relative to the support platform and a second magnet is fixed relative to the chassis, the first and second magnets being positioned and orientated such that a magnetic attractive force occurs there between. A spacing means is arranged to prevent the magnets coming into contact with each other whilst allowing relative movement between the magnets in a direction lateral to the magnetic attractive force. The spacing means may include a plurality of tension strings which pull the magnets apart or compliant material which pushes the magnets apart. The assembly is especially suited for use in a high-fidelity turntable to isolate a tonearm, or a tonearm mounting board, from vibrations present in the chassis of the turntable. | 12-03-2009 |
Mark Raymond Frewin, Oxford GB
Patent application number | Description | Published |
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20100015166 | Therapeutic antibodies - A pharmaceutical comprising a therapeutic protein that hinds to a therapeutic target, the protein being modified with a compound that inhibits binding of the protein to the therapeutic target, the modified protein being effective for reducing an immune response against the protein and for producing a therapeutic effect by binding to the therapeutic target. The therapeutic protein may be an antibody that includes an antibody combining site that binds to the therapeutic target. | 01-21-2010 |
20140212418 | Therapeutic Antibodies - A pharmaceutical comprising a therapeutic protein that hinds to a therapeutic target, the protein being modified with a compound that inhibits binding of the protein to the therapeutic target, the modified protein being effective for reducing an immune response against the protein and for producing a therapeutic effect by binding to the therapeutic target. The therapeutic protein may be an antibody that includes an antibody combining site that binds to the therapeutic target. | 07-31-2014 |
Mark Raymond Zaacks, Petach Tikva IL
Patent application number | Description | Published |
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20080219664 | Method and System for Controlling Optical Network - A technique is described for controlling and optical network composed of network elements (NEs), with the aid of a network controller (NC) being in communication with the network elements. The technique includes collecting, by the network controller NC, information on the NEs therefrom, and, whenever a change in the network is requested, simulating within the NC operation of the network with the requested change and based on the collected information. The NC makes a decision on acceptability of the requested change, and may then cause implementation of the requested change in the network. | 09-11-2008 |
20080310840 | Optical Communication Network and Method of Routing in the Network - A network with nodes interconnected by optical fiber links carrying an optical communication channel having a single optical wavelength. In the network, at least two network nodes operate as transmitting nodes generating a first short pulse optical signal at different bit rates; at least one of the other network nodes operates as a receiving node and is designated to receive transmissions from at least one of the transmitting nodes via the optical channel in a form of a second short pulse optical signal. The receiving node is provided with a dispersion compensation module adapted to compensate dispersion created in the optical fiber along the optical channel between a specific transmitting node and the receiving node, thereby ensuring receipt, in a restored form, of data transmitted using the second optical signal and directed to the receiving node. | 12-18-2008 |