Patent application number | Description | Published |
20080250407 | Network group name for virtual machines - Virtual machine (VM) management using a group name. By associating VM registration information with a group name, all VMs running off a single physical machine image can be managed (e.g., blocked or unblocked) simultaneously. A service component captures registration information (e.g., IP address-VM name pair) between a virtual machine and a name server. The IP address-VM name pair is recorded (or stored) in the name server database. Based on the VM pair, a record component generates a group name, and stores the VM pair in association with the group name in the name server database. Blocking of the group name then blocks all VMs associated with the group name. Moreover, queries against the group name will then expose all operational VMs for that host. Updates to the group name record can be made based on registration and deregistration of VMs for a given host machine. | 10-09-2008 |
20080263654 | Dynamic security shielding through a network resource - Architecture for facilitating access of remote system software functionality by a host machine for the redirection of incoming and/or outgoing host traffic through the remote system for protection services to the host machine. The host machine can gain the benefits of effective protection software such as firewall, intrusion protection software, and anti-malware services, of the remote machine. The host machine can choose to exercise traffic redirection when there is a risk of being compromised, and then revert back to direct communications when the risk has been averted. The host machine takes advantage of the resources available on the remote machine in substantially realtime with minimal disruption to the host and/or the remote machine operations. This facilitates widespread and temporary protection of network systems for a more secure working environment and improved customer experience. | 10-23-2008 |
20090007102 | Dynamically Computing Reputation Scores for Objects - Tools and techniques for dynamically computing reputation scores for objects are described herein. The tools may provide machine-readable storage media containing machine-readable instructions for receiving requests to dynamically compute reputation scores for the objects, for instantiating protected virtual environments in which to execute the objects, and for computing the reputation score based on how the object behaves when executing within the virtual environment. | 01-01-2009 |
Patent application number | Description | Published |
20110150752 | REMOTE PLASMA SYNTHESIS OF METAL OXIDE NANOPARTICLES - A method of synthesizing nanoparticles, comprising providing a precursor comprising a titanium alkoxide compound; forming a plasma from oxygen gas at a first location, wherein the plasma comprises plasma products that contain oxygen atoms; causing the plasma products to flow to a second location remote from the first location; contacting the precursor with the plasma products at the second location so as to oxidize the precursor and form nanoparticles; and collecting the nanoparticles with a collector. | 06-23-2011 |
20130209814 | REFLECTIVE ARTICLES AND METHODS OF MAKING THE SAME - Reflective articles and related methods of manufacture are provided. These articles include a metallic layer extending across a non-tacky base layer. The base layer includes either a block copolymer or random copolymer with at least two polymeric components, one of which has a glass transition temperature of at least 50 degrees Celsius and the other of which has a glass transition temperature no greater than 20 degrees Celsius. These articles provide excellent optical clarity, non-corrosiveness, ultraviolet light stability, and resistance to outdoor weathering conditions compared to conventional reflective films. | 08-15-2013 |
20140377511 | METHODS FOR SEALING THE EDGES OF MULTI-LAYER ARTICLES - Methods for preparing edge-sealed multi-layer film articles include applying a sealant composition to a multi-layer film article that includes at least one polymeric film layer, and permitting the sealant composition to dry to form an edge-sealed article. The sealant composition includes at least one solvent capable of softening, penetrating or dissolving the polymeric film layer of the multi-layer film article, and at least one polymer dissolved in the solvent. The polymer dissolved in the solvent may be a fluoropolymer, a non-tacky at ambient temperatures(meth)acrylate-based block copolymer, or a combination thereof. Edge-sealed articles prepared by this method can include other polymeric film layers or coated layers such as metallic layers and can be part of larger assemblies. | 12-25-2014 |
20150017392 | REFLECTIVE FILMS, ARTICLES AND METHODS OF MAKING THE SAME - A reflective film or article including a substrate, a smoothing layer adjoining and extending across at least a portion of the first major surface of the substrate, a tie layer having a first major surface adjoining and extending across at least a portion of the second major surface of the substrate, and a metallic layer adjoining and extending across at least a portion of the second major surface of the tie layer. The smoothing layer includes poly(methyl methacrylate) and a first block copolymer having at least two endblock polymeric units and at least one midblock polymeric unit derived from first and second monoethylenically unsaturated monomers selected from a methacrylate, acrylate, vinyl ester, or combination thereof, respectively, each endblock having a glass transition temperature (T | 01-15-2015 |
20150109693 | DURABLE SOLAR MIRROR FILMS - The present disclosure generally relates to durable solar mirror films, methods of making durable solar mirror films, and constructions including durable solar mirror films. In one embodiment, the present disclosure relates to a solar mirror film comprising: a multilayer optical film layer including having a coefficient of hygroscopic expansion of less than about 30 ppm per percent relative humidity; and a reflective layer having a coefficient of hygroscopic expansion. | 04-23-2015 |
Patent application number | Description | Published |
20110119418 | Mass Storage Lockout For USB Devices On Extended USB System - A method and system, used with an extended USB computer system, for locking out USB mass storage devices at the desktop. For lockout activation, a switch at each host computer is set, and causes a host-side lockout process to deliver a downstream lockout signal to the host's associated portal. This signal causes a portal-side lockout process to disallow USB data from a mass storage device from entering the network. | 05-19-2011 |
20120315852 | Zero Client Device With Integrated Bluetooth Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317175 | Zero Client Device With Integrated Serial Bandwidth Augmentation and Support for Out-Of-Band Serial Communications - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317177 | Zero Client Device With Integrated Wireless Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317178 | Zero Client Device With Integrated Virtual Private Network Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317179 | Zero Client Device With Assignment of Unique IP Address Based on MAC Address - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317180 | Zero Client Device With Multi-Boot Capability Supporting Multiple Zero Client Protocols - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317182 | Zero Client Device With Integrated Network Authentication Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
20120317184 | Zero Client Device With Integrated Global Position System Capability - System and method for zero client communications. A zero client device includes a housing, and in the housing, a transcoding processing unit (transcoder) and a communications processing unit coupled to the transcoder. The transcoder is configured to receive input data from human interface device(s), encode the input data, and provide the encoded input data to the communications processing unit for transmission over a network to a server. The communications processing unit is configured to receive the encoded input data from the transcoder, transmit the encoded input data over the network to the server, receive output data from the server, and send the output data to the transcoder. The transcoder is further configured to receive the output data from the communications processing unit, decode the output data, and send the decoded output data to at least one of the human interface devices. | 12-13-2012 |
Patent application number | Description | Published |
20110250300 | COMPOSITIONS AND METHODS FOR THE TREATMENT OR PREVENTION OF DISORDERS RELATING TO OXIDATIVE STRESS - The present invention features methods for treating or preventing conditions, diseases, or disorders related to oxidative stress. In one embodiment, the method increases Nrf2 biological activity or expression. In particular, the invention provides for the treatment or prevention of diseases relating to oxidative stress including emphysema, sepsis, septic shock, ischemic injury, cerebral ischemia and neurodegenerative disorders, meningitis, encephalitis, hemorrhage, cerebral ischemia, heart ischemia, cognitive deficits and neurodegenerative disorders. | 10-13-2011 |
20120029071 | COMPOSITIONS AND METHODS FOR TREATING OR PREVENTING RADIATION INJURY - The invention provides compositions and methods featuring Nrf2 activators for treating or preventing radiation-associated tissue damage. | 02-02-2012 |
20130039928 | COMPOSITIONS AND METHODS FOR REVERSING CORTICOSTEROID RESISTANCE OR TREATING RESPIRATORY INFECTIONS - The present invention features methods for reversing corticosteroid resistance, as well as for the treatment of respiratory infections, particularly those associated with chronic obstructive pulmonary disease. In one embodiment, the method increases Nrf2 biological activity or expression. | 02-14-2013 |