Patent application number | Description | Published |
20090023587 | METHOD OF PATTERNING A SUBSTRATE - A method of forming a metallic material on a receptor that includes the steps of: placing a donor element proximate a receptor, wherein the donor element includes a donor substrate and a thermal transfer layer, wherein the thermal transfer layer includes a catalytic material, and wherein the thermal transfer layer of the donor element is placed proximate the surface of the receptor; thermally transferring at least a portion of the thermal transfer layer from the donor element to the receptor; and electrolessly depositing a metallic material on the receptor by growth of the metallic material on the catalytic material. | 01-22-2009 |
20090122310 | METHOD OF MAKING MICROARRAYS - Provided is a method of making microarrays that includes providing a substrate with discrete first microfeatures that have a first profile, and depositing vapor-coated materials onto the first microfeatures to form second microfeatures having a second profile that is substantially different from the first profile. Also provided is a method of adding a replication material to the vapor-coated microfeatures to form a mold. Microarrays made by this method can be used as substrates for surface-enhanced Raman spectroscopy (SERS). | 05-14-2009 |
20100062226 | SURFACE-ENHANCED SPECTROSCOPIC METHOD, FLEXIBLE STRUCTURED SUBSTRATE, AND METHOD OF MAKING THE SAME - A method of obtaining a surface-enhanced optical property of an analyte using a flexible structured substrate having a metal layer conformably disposed on nanostructure, a flexible structured substrate, and a method of making the same. | 03-11-2010 |
20100285231 | APPARATUS AND METHOD FOR PRODUCING TWO-SIDED PATTERNED WEB IN REGISTRATION - An apparatus for casting a patterned surface on both sides of an opaque web. The apparatus includes a first patterned roll, a second pattered roll, and a means for rotating the first and second patterned rolls such that their patterns are transferred to opposite sides of the opaque web while it is in continuous motion. During this process, their patterns are maintained in continuous registration to within at least 100 micrometers. | 11-11-2010 |
20100302479 | OPTICAL ARTICLE - The invention provides optical articles ( | 12-02-2010 |
20110104321 | METHOD FOR REPLICATING MASTER MOLDS - The disclosure provides a method of replicating a master using a patterned silicone daughter mold, from a master mold, the daughter mold having a layer of a ductile metal on the patterned surface thereof. | 05-05-2011 |
20110198781 | METHODS FOR CHANGING THE SHAPE OF A SURFACE OF A SHAPE MEMORY POLYMER ARTICLE - Methods for changing the shape of a surface of an article are disclosed. The methods may include providing a liquid polymer precursor, casting the precursor against a first tool assembly, curing the precursor to form a shape memory polymer substrate, deforming one or more surfaces of the substrate, and mobilizing the shape memory polymer to shift the deformed surface of the substrate from a deformed shape to a pre-set shape. | 08-18-2011 |
20140283365 | METHOD OF MAKING A NOZZLE - Methods of making nozzles are disclosed. More specifically, methods of making nozzles that may be used as components of a fuel injection system are disclosed. | 09-25-2014 |
Patent application number | Description | Published |
20090161560 | NODE, METHOD AND SYSTEM OF FAULT LOCALIZATION IN MULTICAST MPLS NETWORKS - A multicast MPLS networks node in network communication field and a method and a system for fault localization are provided. The method includes a step that a leaf node judges the connectivity of a multicast path; a root node generates a fault localization message to perform fault localization for a fault branch after learning the branch where the fault is located in accordance with the judgment result of the leaf node. An embodiment of the present invention further provides a fault localization system for Multicast MPLS networks, which includes a connectivity checking module, a root node learning module, a node reply module and a fault localization module. The technical solution in the embodiment of the present invention restrains unnecessary message, reduces redundant information, and improves network efficiency by carrying the information of the fault branch in the fault localization message to perform fault localization only for the fault branch. | 06-25-2009 |
20090185478 | METHOD AND NODE FOR IMPLEMENTING MULTICAST FAST REROUTE - A method for implementing multicast fast reroute includes: determining a route for a backup LSP according to the tree topology of a point-to-multipoint primary LSP and establishing the backup LSP according to the determined route for the backup LSP. In the process of establishing the backup LSP, messages for the primary LSP and its corresponding backup LSPs are further merged to decrease the number of network signaling states. A node includes a transceiver unit and a backup LSP path establishing unit. The present invention can save protection bandwidth, optimize network resource utilization, and enhance utilization efficiency of resources. | 07-23-2009 |
20090185482 | METHOD AND SYSTEM FOR PROTECTION SWITCHING DECISION - A method for protection switching decision includes: performing performance monitoring and failure detection on a first transmitting entity that transmits services; performing performance monitoring and failure detection on a second transmitting entity that does not transmit services; and making protection switching decision according to the performance monitoring and failure detection results of the first transmitting entity and second transmitting entity. A system for performance monitoring is also disclosed. In embodiments of the present invention, performance monitoring may be performed on the transmitting entity that does not transmit services, thus avoiding invalid switching of services and improving the quality of services. | 07-23-2009 |
20110038258 | METHOD AND SYSTEM FOR SERVICE PROTECTION - A method for service protection is disclosed, which is applied to a 1:n switching technique. The method includes the following steps. A source end sends a service to a work transmission entity, the work transmission entity performs performance monitoring through the transmitted service, a sink end receives the service from the work transmission entity; when a Signal Degrade (SD) fault occurs at the work transmission entity, the source end sends the service to the work transmission entity and a protection transmission entity simultaneously, and the sink end selects to receive the service from the protection transmission entity; the protection transmission entity performs the performance monitoring through the transmitted service; when the SD fault occurs at both the work transmission entity and the protection transmission entity, the sink end still receives the service from the protection transmission entity. A system for service protection is also disclosed. Technical solutions enable the service to get valid protection during the transmission process, and avoid frequent switching of the service, thereby improving the service quality. | 02-17-2011 |
20120044803 | RING NETWORK PROTECTION METHOD, NETWORK NODE AND RING NETWORK - A ring network protection method, a network node and a ring network are provided. The ring network protection method includes: receiving, by a network node, a ring network protection switching request message sent by a node that detects a fault when the fault occurs in the ring network, where the ring network protection switching request message carries source and destination node information of the ring network protection switching request message; and determining a fault location according to the source and destination node information, selecting a protection tunnel according to the determined fault location, and switching services to the selected protection tunnel, where the selected protection tunnel is a link protection tunnel of a link between the network node and a source node, or a node protection tunnel of an intermediate node on a short way between the network node and the source node. | 02-23-2012 |
20120120955 | METHOD, DEVICE AND SYSTEM FOR INTERCONNECTING A MULTI-PROTOCOL LABEL SWITCHING NETWORK AND AN ETHERNET - A method, a device and a system for interconnecting a multi-protocol label switching (MPLS) network and an Ethernet are provided. A packet sent by a node located at the Ethernet is received, the packet is parsed, the parsed packet is re-encapsulated by means of MPLS, and the re-encapsulated packet is sent to a node located at the MPLS network, so as to implement interconnection between the MPLS network and the Ethernet. A reverse solution is similar to this. An intermediate node in the solution adopts a manner of parsing a packet and then re-encapsulating the packet when the packet is sent from one network to another network, instead of transparent transmission only. Therefore, it is unnecessary to configure a Media Access Control (MAC) address of a remote node on a node located at the Ethernet and to configure Ethernet information on a node located at the MPLS network. | 05-17-2012 |
20130170408 | Method and Device for Allocating Hybrid Automatic Repeat Request Processes - The disclosure discloses a method and device for allocating Hybrid Automatic Repeat Request (HARQ) processes. The method comprises: a Radio Network Controller (RNC) transmits a notification message carrying a downgraded capability category of a User Equipment (UE) to a Node B; and the Node B allocates HARQ processes for the UE by using a total number of soft channel bits corresponding to the downgraded capability category. The disclosure improves the accuracy of the allocation, thus improving the system performance. | 07-04-2013 |
20140092858 | Method and user equipment for determining scheduling grant - The disclosure discloses a method and User Equipment (UE) for determining Scheduling Grant (SG). The method includes: a non-quantization power gain factor of an Enhanced Dedicated Channel (E-DCH) Dedicated Physical Data Channel (E-DPDCH) required by an E-DCH Transport Format Combination Indicator (E-TFCI) is determined; when a ratio of the non-quantization power gain factor of the E-DPDCH to a power gain factor of a Dedicated Physical Control Channel (DPCCH) is less than a minimum quantized value of Δ | 04-03-2014 |
20140293775 | Ring Network Protection Method, Network Node and Ring Network - A ring network protection method is disclosed. When a fault occurs in a ring network, a first node selects a protection tunnel according to a fault condition of a pre-established protection tunnel. Services are switched to the selected protection tunnel. A protection switching request is sent on the selected protection tunnel and another end node is informed of the selected protection tunnel to switch the services to the selected protection tunnel. | 10-02-2014 |
20140301186 | Ring Network Protection Method, Network Node and Ring Network - A ring network protection method is provided. A first node sends a protection switching request on a link protection tunnel of a link between the first node and a second node and on a node protection tunnel of the second node when a fault occurs in a ring network. A protection switching response is received on the link protection tunnel of the link between the first node and the second node, or the node protection tunnel of the second node. Services are switched to the protection tunnel where the protection switching request is received. | 10-09-2014 |
Patent application number | Description | Published |
20150258434 | GAMING SYSTEM FOR MODULAR TOYS - An interactive computer game is described which works in conjunction with a number of physical modules that a user can connect together in different ways to form a coherent physical whole object. The game receives data from the object via a wireless link, the data identifying at least which modules form part of the object and updates game play based on the data received. At some point within the game play, the game presents an objective or goal to the user which the user can only achieve by interacting with the physical object formed from the modules. In an embodiment, this interaction comprises re-arranging the modules or swapping modules to form an object with a different visual appearance, moving all or part of the object and/or interacting with a sensor on a module in the object. The game may receive further data from the object during the user interaction. | 09-17-2015 |
20150258435 | MODULAR CONSTRUCTION FOR INTERACTING WITH SOFTWARE - A modular assembly system is described which enables interaction with an interactive software experience such as a game. The system enables a coherent physical whole object to be assembled from a core module and one or more peripheral modules. The core module includes a battery, processor and a wireless module which is able to communicate with the interactive software experience which runs on a separate computing device such as a smartphone, tablet or games console. Each of the peripheral modules stores a module ID and these IDs are collected by the core module and communicated to the interactive software experience. The user experience within the interactive software experience changes dependent upon the set of modules which are connected to form the coherent physical whole object and may also be altered as a result of manipulation of the coherent physical whole object or individual modules. | 09-17-2015 |
20150258436 | DATA STORE FOR A MODULAR ASSEMBLY SYSTEM - A data store for a modular assembly system is described. The data store comprises a number of records, each record relating to a physical module in the modular assembly system and comprising a module ID, an owner ID for the module and one or more properties fields. The properties field(s) define any property of the module and different records may define different properties. At least one of the fields in each data record (e.g. the module ID or owner ID) is verified by an authentication service. A user assembles two or more modules into a coherent physical whole object to act as a user input device to an interactive software experience. The data store communicates with the interactive software experience and causes a change in behavior of the interactive software experience in response to a check of the data records for each of the modules in the object. | 09-17-2015 |
20150258458 | INTERACTIVE SMART BEADS - Interactive smart beads are described. The beads are attached to a connecting element and form a fashion item such as a necklace or bracelet. The connecting element detects the presence of beads which are part of the fashion item and also beads which are part of nearby fashion items. The connecting element also autonomously generates interactions between two or more detected beads and transmits data about the interactions to a software experience so that a user can view a graphical representation of the interactions. In various examples each bead represents a character, environment, object, etc. and the software experience displays an animated story based on the characters, environments, objects, etc. represented by the beads involved in an interaction. | 09-17-2015 |
20150258459 | STORING STATE FOR PHYSICAL MODULAR TOYS - A modular assembly system is described in which each module comprises a storage element which stores an identifier for the module and data relating to the module. At least some of the module data is variable and is updated based on user interaction with an interactive software experience (e.g. state data). Each module also comprises one or more connectors for connecting to other modules to form a coherent physical whole object. In an embodiment, the system further comprises the interactive software experience which provides user objectives which can only be satisfied by the user interacting with the object or with modules that form the object. At least one of the modules in the object comprises a communication module which passes identifiers and module data to the interactive software experience and receives updated module data from the interactive software experience for storing in one of the modules in the object. | 09-17-2015 |