|| List of recent Network Structure-related patents
| Contribution model|
Contribution-based segmentation classification measures a contribution that an entity provided to a group dynamic. Contribution-based segmentation classification forms a network structure that represents relationships among a set of entities and produces a random partition of the set of entities into a fixed number of groups of entities.
| Composite metal foil and production method therefor|
A composite metal foil is provided comprising a porous metal foil comprising a two-dimensional network structure composed of a metal fiber, and a primer provided on at least a part of the interior and/or periphery of pores of the porous metal foil. According to the present invention, it is possible to obtain a composite metal foil which has a desired function imparted by a primer in addition to superior properties derived from a porous metal foil, in a highly productive and cost effective manner that is suited for continuous production..
| Porous metal foil and production method therefor|
The porous metal foil of the present invention comprises a two-dimensional network structure composed of a metal fiber. This porous metal foil has a first side having a higher glossiness; and a second side having a lower glossiness located on the opposite side of the first side.
|Optimally configuring an information landscape|
According to an embodiment of the present invention, a system optimizes an information processing environment, and comprises at least one processor. The system collects information pertaining to operational behavior of the information processing environment and including a plurality of parameters.
|Transparent electrode with flexibility and method for manufacturing the same|
A transparent electrode and method for manufacturing the same are disclosed. The major integrants of the transparent electrode comprise a graphene and a nanofiber.
|Deactivation of micro cells in cellular wireless networks|
A cell ranking algorithm for power saving in a cellular wireless network having a heterogeneous network structure of macro and micro cells. The algorithm determines when and which micro cells in the network can be deactivated, by which the power consumption of the network can be reduced.
|Composite porous film and method for manufacturing same|
A composite porous membrane used as a separator for a battery includes a porous membrane a made of a polyolefin resin and a porous membrane b containing a heat-resistant resin laminated thereto, wherein the surface of the porous membrane b on the side that does not face the porous a has a three-dimensional network structure having nodes, and the peeling interface on the side of the porous membrane b formed when the porous membrane a and the porous membrane b are peeled off has a membrane morphology having pores with a pore size of 50 to 500 nm in an amount of at least 100 pores/10 μm2.. .
|Electrode for li secondary battery, method for producing the same and li secondary battery|
An electrode for a lithium secondary battery is provided. A metal nanofiber has a network structure.
|Hybrid metal oxide and method of forming the same, and solar cell including the same|
According to example embodiments, a hybrid metal oxide having a network structure includes an oxygen atom that is covalently bonded to a first metal and a second metal. At least one of the first metal and the second metal has two or more oxidation states.
|Flexible solid-state conductors|
Various embodiments of solid-state conductors containing solid polymer electrolytes, electronic devices incorporating the solid-sate conductors, and associated methods of manufacturing are described herein. In one embodiment, a solid-state conductor includes poly(ethylene oxide) having molecules with a molecular weight of about 200 to about 8×106 gram/mol, and a soy protein product mixed with the poly oxide), the soy protein product containing glycinin and β-conglycinin and having a fine-stranded network structure.
|Deformable network structure|
Disclosed herein is a deformable network structure, which includes a first device portion, a second device portion and at least one connector interconnecting between the first device portion and the second device portion. Moreover, the second device portion can be electrically connected to the first device portion through one of the connectors.
|Shape memory polymers|
New shape memory polymer compositions, methods for synthesizing new shape memory polymers, and apparatus comprising an actuator and a shape memory polymer wherein the shape memory polymer comprises at least a portion of the actuator. A shape memory polymer comprising a polymer composition which physically forms a network structure wherein the polymer composition has shape-memory behavior and can be formed into a permanent primary shape, re-formed into a stable secondary shape, and controllably actuated to recover the permanent primary shape.
|Image recording method|
An image recording method includes recording an intermediate image by applying an ink to an intermediate transfer body, and transferring the intermediate image onto a recording medium while heating the intermediate image. The ink contains a coloring material and polymer fine particles which have an interpenetrating polymer network structure constituted by a crystalline polymer and an amorphous polymer.
|Curable silicone resin composition and optoelectronic device|
A curable silicone resin composition is provided comprising (a) a linear organopolysiloxane having at least two aliphatic unsaturated radicals and optionally, an organopolysiloxane of branched or three-dimensional network structure, (b) an organohydrogenpolysiloxane having at least two sih radicals and free of aliphatic unsaturation, (c) a hydrosilylation catalyst, and (d) silicone powder having an average particle size of 0.5-100 μm. The composition is suitable for led encapsulation..
|Porous implant material|
A plurality of porous metal bodies which are bonded with each other at bonded-boundary surfaces parallel to a first direction, each of the porous metal bodies has a three-dimensional network structure formed from a continuous skeleton in which a plurality of pores are interconnected so as to have a porosity rate different from another porous metal body, the pores formed in at least the porous metal body having the higher porosity rate are formed to have flat shapes which are long along a direction parallel to the bonded-boundary surface and short along a direction orthogonal to the bonded-boundary surface, entire porosity rate of a bonded body of the porous metal bodies is 50% to 92%, a compressive strength compressing in the direction parallel to the bonded-boundary surface is 1.4 times to 5 times of a compressive strength compressing in the direction orthogonal to the bonded-boundary surface.. .
|Porous implant material|
Providing porous implant material having a strength property approximate to human bone, without arising stress shielding, and which is possible to maintain sufficient bound strength with human bone. Porous implant material according to the present invention has a plurality of porous metal bodies 4 which are bonded with each other at bonded-boundary surface f parallel to a first direction, wherein each the porous metal body has a three-dimensional network structure formed from a continuous skeleton 2 in which a plurality of pores 3 are interconnected, a porosity rate is 50% to 92%, and a compressive strength compressing in a direction parallel to the bonded-boundary surface f is 1.4 times to 5 times of a compressive strength compressing in a direction orthogonal to the bonded-boundary surface f..
|Porous implant material|
Providing porous implant material having a strength property approximate to human bone, without arising stress shielding, and which is possible to maintain sufficient bound strength with human bone. Porous implant material has a porous metal body having a three-dimensional network structure formed from a continuous skeleton 2 in which a plurality of pores 3 are interconnected, wherein a porosity rate is 50% to 92%, the pores 3 are formed to have flat shapes which are long along a front surface and short along a direction orthogonal to the front surface, lengths y of the pores 3 along the front surface are 1.2 times to 5 times of a length x orthogonal to the front surface, and a compressive strength compressing in the direction parallel to the front surface is 1.4 times to 5 times of a compressive strength compressing in the direction orthogonal to the front surface..
|Reinforced porous metal foil and process for production thereof|
A reinforced porous metal foil is provided which comprises a porous portion comprising a two-dimensional network structure composed of a metal fiber; and a reinforced portion which is substantially non-porous or less porous than the porous portion, the reinforced portion being composed of the same metal the metal fiber and being continuous and integral with the porous portion. With such features, it possible to obtain a porous metal foil having superior properties at a low cost in a highly productive manner that is also suitable for continuous production..
|Automatic image analysis and quantification for fluorescence in situ hybridization|
An analysis system automatically analyzes and counts fluorescence signals present in biopsy tissue marked using fluorescence in situ hybridization (fish). The user of the system specifies classes of a class network and process steps of a process hierarchy.
|Positive electrode, method of manufacturing the same, and lithium battery comprising the positive electrode|
A positive electrode including a current collector and a positive active material layer formed on the current collector, wherein the positive active material layer includes a positive active material, a conductive agent, and the boron-containing inorganic binder having a network structure; a method of manufacturing the same; and a lithium battery including the positive electrode.. .
|Method for secondary molding of polymer nano oriented crystal material|
A method for secondary-molding a polymer nano oriented crystal material in accordance with an embodiment of the present invention includes the steps of: heating the polymer nano oriented crystal material so that the polymer nano oriented crystal material changes into a mobile phase or a melt having a dense entanglement network structure; molding the polymer nano oriented crystal material which changed into the mobile phase or the melt including the dense entanglement network in the step; and cooling the polymer nano oriented crystal material, which has undergone the step, until the polymer nano oriented crystal material changes into an ordered phase.. .
|Porous silicon particles and complex porous silicon particles, and method for producing both|
Porous silicon particles and complex porous silicon particles suitable for negative electrode materials etc. For lithium-ion batteries, which achieve high capacity and good cycling characteristics, are provided.
|Film containing alginate membrane and manufacturing method of the same|
A film containing alginate membrane and a manufacturing method of the same are revealed. A film carrier is used to absorb liquid and is treated by two separate and continuous coating processes.
|Device network sharing method and device controlling method thereof|
A device network sharing method and a device controlling method for sharing and controlling a device with a hardware identifier in a network structure system by connecting the device to the network structure system, letting the device log in a server by the hardware identifier of the device, and completing a verification of the device and announcing connection information of the device in the network structure system. Therefore, a client can complete networking settings of the device without complex networking setting steps.
|Organic electroluminescensce device and manufacturing method thereof|
An organic electroluminescence device comprises the following structure: a conductive base (110), a hole injection layer (120), a light emission layer (140), and a cathode layer (170) are laminated in sequence. The material of the hole injection layer (120) comprises a conductive polymer and an azo initiator.
|Distributed stochastic clustering for automated formation of connected networks of agents|
A “stochastic clustering-based network generator” enables rapid formation of an interconnected hierarchical network structure from an arbitrary number of agents via an iterative turn-based coalescence process. Given n agents wishing to coalesce into one hierarchical network, a turn-based process allows each agent (or the head of each hierarchical cluster of agents), to randomly decide whether to issue or listen for merge requests in each round.
|Electrolytic composite materials|
A composition comprising a metallic composition, an inorganic oxide-based polymer, and a solvent. A cure product of the metallic composition, inorganic oxide-based polymer, and solvent, the cure product having a network structure, are also disclosed..
|Liquid crystal lens and manufacturing method thereof|
A liquid crystal lens includes a first substrate, a second substrate, a first electrode layer, a second electrode layer and a liquid crystal layer. The second substrate is disposed opposite to the first substrate.
|Network information methods devices and systems|
Methods and systems for predicting links in a network, such as a social network, are disclosed. The existing network structure can be used to optimize link prediction.
A biofuel cell is formed by disposing an anode (negative electrode) to be a fuel electrode, an anode current collector, a separator, a cathode current collector, a cathode (positive electrode) to be an air electrode and a gas-liquid separation membrane in this order between a fuel tank and a positive electrode cover. During the formation, an electrode formed of a carbon fiber fabric having a network structure constituted by a monofilament strand of a carbon fiber and has a redox enzyme on the surface is used in at least the anode..
|Recombinant waveguide power combiner / divider|
In an example embodiment, an in-phase recombinant waveguide combiner/divider device can comprise: a single waveguide input; n waveguide outputs, wherein n is an integer greater than 2; a first waveguide dividing portion; a second waveguide dividing portion; a third waveguide dividing portion; and a waveguide combining portion. The waveguide combining portion can be configured to combine two signals that are each respectively received from the second waveguide dividing portion and third waveguide dividing portion.
|Meshed protected passive optical access network structure and optical network unit structure therefore|
Provided is an optical network system and optical network unit (onu) structure enabling a passive optical access network having a meshed structure with at least two central nodes and plurality of onus. One embodiment employs a partially or fully meshed structure of optical fibers between customer locations and multiple optical line terminal (olt) locations creating a passive optical access network.
|Organic-inorganic composite material and production process thereof, and optical element|
The invention provides an organic-inorganic composite material having a sufficient transparency and a low coefficient of linear expansion, an optical element using the same and a production process thereof. The organic-inorganic composite material has at least one polymer compound and at least one inorganic oxide having a three-dimensional network structure, wherein the polymer compound has a three-dimensional network structure and is covalently bonded to the inorganic oxide, and the haze value of the organic-inorganic composite material in terms of a thickness of 5 mm is 10% or less..
|Enzyme-fiber matrix composite of three-dimensional network structure, preparation method thereof, and use thereof|
Disclosed is a composite of enzyme and fiber matrix with three-dimensional structure. The composite of enzyme and fiber matrix with three-dimensional structure includes a significantly large amount of an enzyme loaded in and immobilized in/onto a matrix when compared to conventional composites.
|Porous metal body, method for producing the same, and battery using the same|
A main object is to produce a porous metal body that can be used as a battery electrode, in particular, that can be used as a negative electrode of a molten-salt battery using sodium. The porous metal body includes a hollow metal skeleton composed of a metal layer containing nickel or copper as a main component, and an aluminum covering layer that covers at least an outer surface of the metal skeleton.
|Porous metal body, and electrode material and battery both incorporating the body|
The invention offers a porous metal body that has a three-dimensional network structure, that has less reduction in performance during the pressing and compressing steps when an electrode material is produced, and that can be used as an electrode material capable of achieving good electric properties, a method of producing the porous metal body, and an electrode material and a battery both incorporating the foregoing porous metal body. A porous metal body has a skeleton structure that is formed of a metal layer, that has a three-dimensional network structure, and that has an end portion provided with a nearly spherical portion.
|Wireless augmented reality communication system|
The system of the present invention is a highly integrated radio communication system with a multimedia co-processor which allows true two-way multimedia (video, audio, data) access as well as real-time biomedical monitoring in a pager-sized portable access unit. The system is integrated in a network structure including one or more general purpose nodes for providing a wireless-to-wired interface.
|Whey protein isolate hydrogels and their uses|
A biodegradable hydrogel has been made based on high concentrations of whey protein isolate (wp1). Wp1 gels of different compositions were fabricated by thermally inducing gelation of high-concentration suspensions of protein, and characterized for compressive strength and modulus, hydration swelling and drying properties, mechanical behavior change due to polysaccharide additives, and intrinsic pore network structure.
|Metal composites and methods for forming same|
A metal composite comprising a spinodal structure having at least one ductile phase and method of making same is disclosed. The metal composite is formed by forming an alloy comprising a positive heat of mixing in the liquid state; purifying the alloy; and forming a network structure of the alloy comprising at least one ductile sub-network..
|Parameterized recursive network architecture with topological addressing|
A digital data communications network that supports efficient, scalable routing of data and use of network resources by combining a recursive division of the network into hierarchical sub-networks with repeating parameterized general purpose link communication protocols and an addressing methodology that reflects the physical structure of the underlying network hardware. The sub-division of the network enhances security by reducing the amount of the network visible to an attack and by insulating the network hardware itself from attack.
|Flexible radix switch|
A system and method for interconnecting nodes and routing data packets in high radix networks includes constructing or redefining a network structure to provide improved performance. Computation and data storage nodes are connected to a network of switching nodes that provide near optimum bandwidth and latency for networks of any size.