| doc_id,text,llm_green_suggested,llm_confidence,llm_rationale,is_green_human | |
| 8413609,"1. A device for colonizing and harvesting marine hardground animals in an underwater region of a ground-based offshore edifice, the device comprising: at least one rail device configured to extend vertically on the offshore edifice along a height of the underwater region to above a waterline; a netting array including a habitat carriage having a habitat and trapping basket adapted to contain the hardground animals; a lifting device configured to move the netting array along the at least one rail device; and a scavenging carriage including a basic unit and a running unit configured to detachably couple the scavenging carriage with the at least one rail device so as to be movable thereon, the scavenging carriage being movable along the at least one rail device separately from the habitat carriage and being configured to detachably couple with the habitat carriage and the lifting device such that the habitat carriage is retrievable from the underwater region by the scavenging carriage using the lifting device.",0,high,"The text describes a device for harvesting marine animals, which is not inherently green technology. Green technology typically involves the use of renewable energy sources, energy efficiency, or reduction of waste. This text does not mention any of these aspects.",0 | |
| 8652582,"1. A method of making a ligand functionalized substrate, the method comprises the steps of: 1) providing a base substrate; 2) coating the substrate with a solution comprising (a) at least one grafting monomer having an acryloyl group and a photoinitiator group; (b) one or more ligand monomers of the formula: wherein R 1 is H or C 1 -C 4 alkyl, R 2 is a divalent alkylene optionally containing an ester, amide, urethane or urea linking group; each R 3 is independently H or C 1 -C 4 alkyl, R 4 is H, C 1 -C 4 alkyl or —N(R 3 ) 2 ; and X 1 is —O— or —NR 3 —, (c) optionally one or more monomers having at least one acryloyl group and at least one additional ethylenically unsaturated, free-radically polymerizable group; and (d) optionally one or more hydrophilic monomers; 3) exposing the coated base substrate to ionizing radiation to form a first functionalized substrate comprising grafted photoinitiator groups attached to the surface of the base substrate and unreacted (b), (c) and (d) monomers having ethylenically unsaturated, free-radically polymerizable groups, and 4) exposing the base substrate comprising grafted photoinitiator groups to UV radiation to polymerize the remaining ethylenically unsaturated, free-radically polymerizable groups of the (b), (c) and (d) monomers.",0,high,"The text describes a method for making a ligand functionalized substrate using a solution containing acryloyl monomers, ligand monomers, and optional hydrophilic monomers. The method involves exposing the coated base substrate to ionizing radiation and UV radiation to form a first functionalized substrate and polymerize the remaining monomers. This process does not inherently relate to green technology as it does not mention any specific energy source or reduction of carbon emissions.",0 | |
| 9801203,"1. A method of operating a base station to convey to a terminal device information regarding a period of time for which a type of terminal device specific data is not scheduled for transmission to the terminal device in a wireless telecommunications system employing a radio interface including an arrangement of downlink reference symbols, the method comprising: determining a period of time for which the type of terminal device specific data are not scheduled for transmission to the terminal device; selecting at least one reference symbol from the arrangement of downlink reference symbols in dependence on the determined period of time; and suppressing transmission of the at least one reference symbol to indicate to the terminal device the period of time for which the type of terminal device specific data are not scheduled for transmission to the terminal device, wherein the radio interface comprises a plurality of Orthogonal Frequency Division Multiplexing (OFDM) sub-carriers spanning a system frequency bandwidth, and wherein the base station is configured such that the radio interface supports a first carrier for communicating with a first class of terminal device using a first group of the OFDM sub-carriers distributed across the system frequency bandwidth, and a second carrier for communicating with a second class of terminal device on a second group of the OFDM sub-carriers distributed across a restricted frequency bandwidth, wherein the restricted frequency bandwidth is narrower than and within the system frequency bandwidth, and the terminal device is a terminal device of the second class operating on the second carrier.",1,high,"The text describes a method for optimizing wireless communication by suppressing the transmission of reference symbols to certain terminal devices during periods where their specific data is not scheduled for transmission. This can help reduce energy consumption and improve overall efficiency in the wireless telecommunications system, which are key aspects of green technology.",1 | |
| 8986882,"1. A current collector for an electrode, comprising: a base portion; a plurality of primary projections projecting from the base portion, each of the plurality of primary projections having a top surface and a side surface connecting the top surface and the base portion and being connected to the base portion from each of bottom surfaces of the plurality of primary projections; and a plurality of secondary projections projecting from the top surface of each of the plurality primary projections, wherein: each of the plurality of primary projections has a cylindrical shape of which base shape is circular ellipsoidal or polygonal, the plurality of primary projections are disposed, in a matrix pattern on the base portion in a plan view: the plurality of primary projections are made of a material having a same composition as the base portion.",0,high,"The claim text describes a current collector for an electrode, which is not inherently a green technology. It does not mention any specific environmental benefits or the use of renewable energy sources.",0 | |
| 8870275,"1. A device for reducing aerodynamic drag of a ground vehicle, the device comprising: a tubing having an intake port, an exit port, and a plurality of venturis; and, a compressed air source being fluidly connected to the intake port; wherein the plurality of venturis is disposed between the intake port and the exit port; and, wherein each venturi from among the plurality of venturis has a throat and a venturi opening on an outer periphery of the venturi throat to remove a portion of a fluid from a boundary layer of the ground vehicle.",0,high,"This claim describes a device for reducing aerodynamic drag in a ground vehicle using venturis and compressed air. While the technology may improve fuel efficiency, it does not inherently relate to green technology as it does not involve the production or utilization of renewable energy sources.",0 | |
| 9358723,"1. A method for manufacturing a housing including a main portion comprising at least one wall defining an opening having a perimeter, the at least one wall having a rib and an inner wall extending therefrom about the perimeter of the opening, and a cover having an edge defining a perimeter, the cover comprising a rib extending from the edge about the perimeter of the cover, the method comprising: abutting the main portion and the cover such that the inner wall of the main portion contacts an inner surface of the cover; and vibrating the cover relative to the main portion to at least partially melt the inner wall and/or the inner surface of the cover to attach the cover to the main portion; wherein the cover rib and inner wall define an air chamber therebetween, and the air chamber facilitates vibration of the cover relative to the inner wall to attach the cover to the inner wall by friction welding.",1,high,"The claim describes a manufacturing method for creating a housing using friction welding, which is a green technology used to join materials without the need for adhesives or solvents. The air chamber between the cover rib and inner wall facilitates the vibration necessary for the friction welding process.",0 | |
| 8739133,"1. An information processing system for facilitating debugging of a multi-threaded application, the information processing system comprising: a memory; a processor communicatively coupled to the memory; and a debugger configured to receive debugging requests from a user via a graphical user interface and communicatively coupled to the memory and the processor, wherein the debugger is configured to:",0,high,"This claim describes an information processing system for debugging multi-threaded applications, which is not inherently related to green technology. Green technology typically refers to technologies that reduce or eliminate negative impacts on the environment. This claim does not mention any environmental benefits or considerations.",0 | |
| 9526062,"1. A method of locating a sink for gathering data in a wireless sensor network, the method comprising: relaying, via at least some sensors among a plurality of sensors, to direct data to the sink, at least some of the plurality of the sensors being capable of acting as the sink and one of which is currently acting as the sink; determining, by a positioning entity, respective locations of active sensors and relay sensors among the plurality of the sensors, the positioning entity choosing a lead sensor; selecting, at the lead sensor, two or more of the active sensors or the relay sensors among the plurality of the sensors as candidate sinks; finding, at the lead sensor, the suitability of respective candidate sinks to act as the sink for gathering data from the plurality of the sensors according to a calculation producing a result indicating the suitability of the respective candidate sinks for communication with the plurality of the sensors, the calculation estimating a maximum throughput of data targeted to be achieved if a respective candidate sink acts as the sink; comparing, at the lead sensor, the result for the respective candidate sinks to determine the most suitable candidate sink; and transferring, based on the comparison, the role of the current sink to the determined most suitable candidate sink as a destination for the data.",0,high,"The text describes a method for managing data gathering in a wireless sensor network, but it does not mention any specific green technology or environmental application.",0 | |
| 9119146,"1. A method comprising: determining a duration of a discontinuous reception cycle for a user terminal, wherein the beginning of the cycle triggers a first active period during which the user terminal is in an active mode; determining an interval between periodic channel quality indicator reports for the user terminal; aligning the discontinuous reception cycle with the interval between the periodic channel quality indicator reports such that the periodic channel quality indicator is transmitted within the first active period of the discontinuous reception cycle; receiving the periodic channel quality indicator during the first active period of the discontinuous reception cycle, obtaining an up-to-date channel quality indicator for the discontinuous reception cycle; and scheduling the user terminals for downlink transmission by taking the received periodic channel quality indicator into account.",0,high,"The text describes a method for managing communication between user terminals and a network, but it does not mention any specific green technology or environmental considerations.",0 | |
| 8741286,"1. A chimeric thrombin-cleavable derivative of factor X, wherein at least one of arginine, lysine and serine of the chimeric derivative of factor X corresponding to residues at positions 387, 391 and 419, respectively, of SEQ ID NO:1 is replaced by alanine, and wherein a native activation peptide of the factor X is replaced by a fusion protein comprising",0,high,"This claim describes a genetically modified protein, which is not inherently green technology. Green technology typically involves the use of renewable resources, energy efficiency, or pollution reduction. This claim does not mention any of these concepts.",0 | |
| 9267117,1. A composition comprising a reducing agent capable of converting 5-formylcytosine or 5-carboxycytosine to 5-hydroxymethylcytosine; T4 β-glucosyltransferase (BGT) and a UDP derivative selected from the group consisting of UDP-glucose and UDP-azidoglucose.,0,high,"This claim does not mention any technology or process related to green energy or environmental sustainability. It describes a composition of chemical compounds, including a reducing agent and a UDP derivative, and a specific enzyme, T4 β-glucosyltransferase (BGT). While some of these compounds may have applications in various industries, including biotechnology and pharmaceuticals, there is no indication that they are related to green technology.",1 | |
| 9021143,"1. A processor comprising: an input/output (I/O) hub including a first logic to generate a second interrupt signal responsive to detection of a first interrupt signal received from an input/output (I/O) device coupled to the processor, the first interrupt signal to indicate that read data associated with a read request is available; at least one core to:",0,high,"This claim describes a processor design, which is not inherently related to green technology. The text does not mention any environmental considerations or energy efficiency improvements.",0 | |
| 8519178,"1. A method for the purification of a prostaglandin by supercritical fluid chromatography, said method comprising using a stationary phase and a mobile phase comprising carbon dioxide, wherein the stationary phase is a non-chiral stationary phase selected from the group consisting of 4 ethyl pyridine, 2-ethyl pyridine and pyridine urea or a chiral stationary phase and the prostaglandin is a compound of formula (I), a compound of formula (II), or a compound of formula (IV): wherein, V is C; W is X is CONR Y is Z is C R R R R Halo is fluorine, chlorine, bromine or iodine.",0,high,"The claim describes a method for purifying prostaglandins using supercritical fluid chromatography with carbon dioxide as the mobile phase and specific stationary phases. While carbon dioxide is a commonly used green solvent, the focus of the claim is on the purification method and the specific stationary phases, not on the environmental benefits of the solvent itself. Therefore, the claim does not directly relate to green technology.",0 | |
| 9424417,"1. A method for authenticating a computing device to access functionalities, comprising: receiving, in the computing device, a first signal from a proximity beacon device; obtaining, from the received first signal, information that indicates whether the proximity beacon device has detected movement; determining whether the obtained information from the received first signal matches stored data corresponding to the validity of a known location of the proximity beacon device; performing an abbreviated authentication operation for the computing device to access the functionalities in response to determining that the obtained information from the received first signal matches the stored data; and performing a normal authentication operation for the computing device to access the functionalities in response to determining that the obtained information from the received first signal does not match the stored data.",0,high,"This claim describes a method for device authentication using a proximity beacon, but it does not mention any specific green technology or environmental benefits.",0 | |
| 9769309,1. An communication auxiliary comprising: a beacon and an application;,0,high,"The claim does not mention any green technology or environmental aspect. It describes a communication system with a beacon, application, and user interface.",0 | |
| 9012655,"1. A compound having a sulfur-containing ring, or prodrugs or pharmaceutically acceptable salts thereof, of one of Formulas I: in which E is —CH R additionally, R additionally, R R R and R",0,low,,1 | |
| 9169210,1. A compound of the general formula: wherein X and X′ are independently O or S; A is unsubstituted or substituted phenyl wherein the substituents are independently 1 to 5H; halo; nitro; cyano; hydroxy; amino (—NR B is E is unsubstituted or substituted (C wherein R G is H or CN; provided that: 1) when E is unsubstituted or substituted (C 2) when E is a substituted (C wherein R,0,high,"This claim text describes a chemical compound and its properties as an inhibitor of carbonic anhydrase, which is not directly related to green technology.",0 | |
| 8410955,"1. A module comprising: a radio transceiver device; an actuator; and an activation device,",0,high,"This claim does not mention any green technology or environmental considerations. It describes a module with a radio transceiver, actuator, and activation device, and their functions.",0 | |
| 9126682,"1. A method comprising: operating an aerial vehicle in a hover-flight orientation, wherein the aerial vehicle is connected to a tether that defines a tether sphere having a radius based on a length of the tether, wherein the tether is connected to a ground station; while the aerial vehicle is in the hover-flight orientation, positioning the aerial vehicle at a first location that is substantially on the tether sphere, wherein the first location is substantially downwind of the ground station; transitioning the aerial vehicle from the hover-flight orientation to a forward-flight orientation, such that the aerial vehicle moves from the tether sphere, wherein the aerial vehicle has attached flow, and wherein a tension of the tether is reduced; and operating the aerial vehicle in the forward-flight orientation to ascend at an angle of ascent to a second location that is substantially on the tether sphere, wherein the second location is substantially downwind of the ground station.",0,high,"The claim describes a method for operating an aerial vehicle using a tether, which does not inherently relate to green technology. While the method could potentially be used for renewable energy applications, such as wind energy, the claim text itself does not provide sufficient information to make that determination.",0 | |
| 9647788,"1. A system, comprising: a memory that stores instructions associated with components; and a processor that executes the instructions stored in the memory to facilitate performance of operations by the components, the components comprising:",0,high,The claim does not mention any specific green technology or environmental benefit. It is a generic description of a system with components that receive and process input signals to generate output signals.,0 | |
| 9816821,"1. A portable electronic device having a housing, comprising: a global navigation satellite system receiver that produces satellite location data from received satellite signals; an accelerometer in the housing that detects movement of the portable electronic device and that produces corresponding accelerometer signals; wherein the accelerometer comprises at least one vibrating element; a sensor with a magnetic element that measures how the portable electronic device is oriented with respect to the Earth's magnetic field and that produces corresponding compass signals; and processing circuitry in the housing that computes where the portable electronic device is geographically located based on the satellite location data, the accelerometer signals, and the compass signals, wherein the processing circuitry in the portable electronic device uses at least the compass signals to compute a geographic location of the portable electronic device and wherein the processing circuitry in the portable electronic device uses the compass signals at least to compute a heading change of the portable electronic device.",0,high,"The claim describes a portable electronic device with a global navigation satellite system receiver, an accelerometer, and a compass sensor. While these components can be found in green technologies such as electric vehicles or renewable energy systems for monitoring and controlling their movement or orientation, the claim itself does not mention any specific green technology application. Instead, it appears to be a general description of a portable electronic device with various sensors and processing capabilities.",0 | |
| 9224440,"1. A method of writing data to a memory device, the method comprising: receiving and buffering data in a first volatile memory space; modifying the buffered data responsive to receiving a command including a flush portion issued with a last write command; based on a determination that the flush portion of the command is active, storing the modified buffered data in a second volatile memory space; and writing at least portions of the modified buffered data from the second volatile memory space to a first non-volatile memory device.",0,high,The claim does not mention any green technology or environmental considerations. It is focused on a method for writing data to a memory device.,0 | |
| 9668236,"1. A method for monitoring User Equipment (UE) reachability in a wireless communication system, comprising: receiving, by a Mobility Management Entity (MME), a monitoring request message for UE reachability including a maximum response time from a Home Subscriber Server (HSS); detecting, by the MME, the UE reachability when the UE will become reachable for paging in case that extended Discontinuous Reception (DRX) is applied to the UE; and sending, by the MME, a UE reachability notification to a Service Capability Exposure Function (SCEF) before a next paging occasion of the UE, wherein the maximum response time indicates a time during which the UE maintains a reachable state so that downlink data is reliably delivered to the UE, and wherein an occasion when the UE reachability notification is transmitted is determined by taking into consideration the maximum response time.",0,high,This claim does not mention any specific green technology. It is about a method for monitoring UE reachability in a wireless communication system.,1 | |
| 8400040,"1. A permanent magnet type rotary electric machine comprising a stator with a stator core and coils provided into slots of the stator core, and a rotor that is disposed so as to face the stator with a gap, the rotor having a rotor core and permanent magnets buried into the rotor core by being incorporated into permanent magnet slots formed at an outer circumferential-side portion of the rotor core so as to be a plurality of poles, wherein the permanent magnet slot for each pole is divided at least into four permanent magnet slot segments along an outer circumferential direction in the rotor core so that the permanent magnet slot segments of all poles are arranged along the outer circumferential direction in a row as a whole while having rest core-portions between respective adjacent permanent magnet slot segments, and in the rest core-portions between the respective adjacent permanent magnet slot segments in the rotor core, a width of a first rest core-portion at a middle of each pole and a width of a second rest core-portion between each pair of adjacent poles of different polarities are formed larger than that of the other rest-core portions.",1,high,"This claim describes a type of electric machine, specifically a permanent magnet rotary electric machine, which is a common technology used in renewable energy systems such as wind turbines and electric vehicles. The use of permanent magnets and the design of the rotor core to optimize magnetic field and reduce energy loss aligns with green technology goals of energy efficiency and reduced environmental impact.",1 | |
| 8686745,"1. An apparatus for measuring water content and salt concentration in a multiphase fluid flow in a subsea installation for petroleum production, the apparatus comprising: a capacitive sensor located in a pipe section through which the multiphase fluid flow passes; a signal generator connected to the capacitive sensor; a first measuring transducer for measuring a voltage across the capacitive sensor; a second measuring transducer for measuring a current through the capacitive sensor; and an output circuit for generating first and second output signals indicative of the salt concentration and water content, respectively, in the multiphase fluid flow based on signals emitted by the first and second measuring transducers; wherein the output circuit is configured to determine a phase difference between the signals emitted by the first and second measuring transducers and generate the first output signal based on said phase difference.",0,high,The text describes a device for measuring water content and salt concentration in a multiphase fluid flow in a subsea petroleum production installation. It does not mention any specific green technology or sustainability aspect.,0 | |
| 8807240,"1. A gas-engine-powered handheld working machine, comprising: a cylindrical gas cartridge holding therein a liquefied gas fuel and having a discharge nozzle for supplying therefrom the gas fuel, the gas cartridge having a central axis passing through the discharge nozzle; a machine body including an engine capable of running on the gas fuel supplied from the discharge nozzle of the gas cartridge, the machine body having a bottom surface; a cartridge cover for covering the gas cartridge; a cartridge holding unit including a cartridge rotation mechanism, wherein the cartridge rotation mechanism includes an operation lever manually operable to rotate the gas cartridge about a central axis thereof, the operation lever projecting outwardly from the cartridge cover; and a working unit driven by the engine, wherein when the handheld working machine is disposed in a normal rest position in which the handheld working machine is placed on a horizontal plane with the bottom surface of the machine body lying flat on the horizontal plane, the gas cartridge is disposed in a substantially vertical position with the discharge nozzle directed downwards while the central axis of the gas cartridge extends substantially perpendicular to the horizontal plane, so that the discharge nozzle of the gas cartridge maintains a downwardly directed orientation even when the gas cartridge is tilted forward or backward depending on use of the gas-engine-powered handheld working machine.",0,high,"The claim describes a gas-engine-powered handheld working machine, which is not considered green technology as it relies on fossil fuels for operation.",0 | |
| 8579191,"1. Apparatus comprising: an automated transaction machine including: at least one power supply, a power controller, at least one processor,",0,high,The claim does not mention any specific green technology or environmental benefit. It only describes the components of an automated transaction machine and its power management system.,0 | |
| 9558960,"1. A substrate processing method comprising: a coating step that applies a coating liquid to a substrate having a front surface on which a pattern is formed, thereby forming a coating film on the substrate; a film removing step that heats the substrate to gasify components of the coating film thereby to reduce a thickness of the film; and a film curing step that is performed after or simultaneously with the film removing step and that heats the substrate to cure the coating film through crosslinking reaction, wherein the film removing step is performed under conditions ensuring that an average thickness of the cured coating film is not greater than 80% of an average thickness of the coating film before being subjected to the film removing step.",0,high,"The process described in the claim text involves the use of heat to remove and cure the coating film, which is not a characteristic of green technology. Instead, it appears to be a conventional manufacturing process.",0 | |
| 9141577,1. An apparatus comprising: a converged protocol stack having hardware and including:,0,high,The claim does not mention any specific green technology or environmental benefit. It only describes a converged protocol stack for data transmission over wired and wireless networks.,0 | |
| 9667257,"1. A method of manufacturing a programmable logic device having a plurality of logic blocks, comprising: grouping the logic blocks into two or more partitions; and inserting specific operating instructions into a logic unit of the programmable logic device to control external access to the two or more partitions, control programming of the two or more partitions and control operation of and interconnection between the two or more partitions during operation of the programmable logic device; wherein inserting specific operating instructions into the logic unit to control operation of and interconnection between the two or more partitions during operation of the programmable logic device comprises inserting specific operating instructions into the logic unit to control how the two or more partitions access a shared resource of the programmable logic device.",0,high,"This claim describes a method of manufacturing a programmable logic device, which is not inherently related to green technology. The focus is on the design and manufacturing of the device, not on its environmental impact.",0 | |
| 9270150,"1. A generator comprising: a rotor ring having a peripheral channel with respective left and right sidewall portions and a central web portion arranged between the left and right sidewall portions, opposite faces of the central web portion carrying respective first and second sets of magnetic elements; a stator ring with a peripheral portion that is sized and adapted to be at least partially received in the peripheral channel of the rotor ring between the left and right sidewalls, the peripheral portion having left and right inner faces carrying respective first and second sets of stator teeth, respectively, each of the stator teeth having windings or coils, the rotor ring being constructed and arranged to rotate relative to the stator ring, the positioning of the stator ring relative to the rotor ring establishing first and second axial air gaps between the first and second sets of magnetic elements and the first and second sets of stator teeth; and one or more sets of rolling gap supports bearing between the stator ring and the rotor ring so as to maintain first and second axial air gaps.",0,high,"The claim describes a generator design, but it does not mention any specific environmental benefits or the use of renewable energy sources.",0 | |
| 9076702,"1. A frontside-illuminated barrier infrared photodetector comprising: a transparent carrier substrate; a plurality of pixels, each pixel of the plurality of pixels comprising an absorber layer, a barrier layer on the absorber layer, a collector layer on the barrier layer, a backside electrical contact coupled to the absorber layer, and a frontside common electrical contact coupled to the collector layer, wherein:",1,high,"The use of indium tin oxide, indium gallium zinc oxide, and aluminum as thin film materials in the photodetector is common in green technology, particularly in solar cells and other optoelectronic devices.",1 | |
| 9732640,"1. A method for controlling and monitoring an electromagnet ( 8 ) that incorporates a solenoid through which a current can be passed in a first direction and in an opposite second direction such that the electromagnet selectively positions an element between two predetermined positions, the method comprising: providing an H bridge that controls the solenoid, said H bridge having a first transistor connecting a first terminal of the solenoid to a voltage source ( at the microcontroller ( verifying whether the element controlled by the electromagnet (",0,high,"This text describes a method for controlling an electromagnet using an H bridge circuit. While there is no explicit mention of the technology being green, there is no indication of any environmental benefits or sustainability aspects. The focus is on the technical details of the electromagnet control method.",0 | |
| 9414312,"1. A communication device comprising: a memory; and a processor coupled to the memory and configured to: create a first packet for transmission to an apparatus, the first packet storing last data to be transmitted in a contention-free period assigned to the communication device, create a second packet for transmission to the apparatus, based at least in part on a link quality of a link between the communication device and the apparatus: determine to which one of the first packet and the second packet first information is to be added, the first information being configured to indicate presence of remaining data to be transmitted in the contention-free period, and determine to which one of the first packet and the second packet second information is to be added, the second information being configured to indicate absence of remaining data to be transmitted in the contention-free period, transmit the first packet including at least one of the first information and the second information to the apparatus within the contention-free period, and transmit the second packet to the apparatus within the contention-free period and after the transmission of the first packet.",0,high,"This claim describes a communication device and its functionality, but it does not mention any specific green technology or environmental benefits.",0 | |
| 9318636,"1. A light concentrating optic for use with a photovoltaic device, comprising: a light pipe having a first end portion for receiving light and a second end portion for outputting concentrated light; an optical element coupled to the light pipe on the first end portion and configured to form an optical interface between the light pipe and the optical element, the optical element having at least one light transmitting surface facing toward the light pipe that is configured to redirect incident light entering the optical element to disperse the light to fall incident on side walls of the light pipe to increase homogeneity and intensity of light through the second end portion; and a convex lens coupled to the optical element via a first interface material, wherein the first interface material has an index of refraction different from the convex and the optical element.",1,high,"This claim describes a component for a photovoltaic device, which is a green technology. The component is designed to increase the homogeneity and intensity of light, which is essential for improving the efficiency of solar panels. The use of a convex lens and an optical element to redirect and concentrate light further demonstrates the green technology application.",1 | |
| 9644898,"1. A thermal management system comprising: a first hydraulic system for circulating a first hydraulic fluid to at least a first hydraulically activated component, said first hydraulic system comprising a first pump, a first case drain line, a first reservoir, and a first return line coupled between said first hydraulically activated component and said first reservoir; a second hydraulic system for circulating a second hydraulic fluid to at least a second hydraulically activated component, said second hydraulic system comprising a second pump, a second reservoir, and a second case drain line coupled between said second pump and said second reservoir; and a sealed heat transfer device coupled between said first reservoir and said second case drain line, said sealed heat transfer device is not in flow communication with either of said first reservoir and said second case drain line, wherein said sealed heat transfer device is configured to transfer heat from the second hydraulic fluid to the first hydraulic fluid such that a temperature of the first hydraulic fluid in said first reservoir is stabilized above a threshold temperature that corresponds to a threshold amount of hydraulic power for operation of said first hydraulically operated component, wherein said sealed heat transfer device comprises: a cold interface coupled to said first hydraulic system; a hot interface coupled to said second hydraulic system; a sealed tube extending longitudinally between said cold interface and said hot interface; and a working fluid disposed within said tube in an amount such that said working fluid exists partially in a liquid phase and partially in a vapor phase within said tube throughout an operating temperature range of said sealed heat transfer device, wherein said sealed heat transfer device further comprises a wicking structure extending longitudinally within at least a portion of said tube, said wicking structure configured to induce liquid to flow therethrough due to capillary action.",1,high,"The claim describes a thermal management system that utilizes a sealed heat transfer device to transfer heat from one hydraulic fluid to another, stabilizing the temperature of the first hydraulic fluid above a threshold temperature. This system can potentially reduce energy consumption and improve efficiency by allowing the use of lower-grade heat from the second hydraulic fluid to heat the first hydraulic fluid, rather than relying on external energy sources. The use of a wicking structure within the sealed heat transfer device also indicates an attempt to optimize the heat transfer process and improve overall system performance.",1 | |
| 9812663,"1. A light-emitting device comprising: a first electrode comprising indium, tin and oxygen; a light-emitting layer over the first electrode, the light-emitting layer comprising a phosphorescent material; a second electrode over the light-emitting layer; a protective layer over and in contact with the second electrode, the protective layer comprising: wherein the protective layer is not in contact with the first electrode.",0,high,The claim does not mention any environmental benefits or green technology aspects. It only describes the composition and structure of a light-emitting device.,0 | |
| 8944109,"1. A diaphragm pressure expansion vessel ( 1 ) for connection to a piping network, comprising two vessel parts ( 2 , 3 ) which are connected to each other in a circumferential connecting region ( 4 ) in a pressure-tight and fluid-tight manner, wherein the closed vessel interior ( 10 ) which is formed by the two vessel parts ( 2 , 3 ) is separated by a diaphragm ( 5 ) into a water chamber ( 6 ) and a gas chamber, wherein the water chamber ( 6 ) is connectable via a connecting pipe ( 7 ) to the piping network, wherein the diaphragm ( 5 ) is formed from an at least single-layered plastic and is of bubble-shaped design, wherein the gas chamber is formed by the diaphragm interior ( 9 ) and by the vessel interior ( 10 ) between that side of the diaphragm ( 5 ) which faces away from the water chamber ( 6 ) and the adjacent vessel part ( 2 ), wherein that side of the diaphragm ( 5 ) which faces away from the water chamber ( 6 ) is provided with perforations ( 8 ).",0,high,"This text describes a diaphragm pressure expansion vessel, which is not inherently a green technology. It does not mention any specific environmental benefits or sustainability features. The text focuses on the design and construction of the vessel itself.",0 | |
| 8655128,"1. Optical fiber bundles for an optical irradiator, the optical irradiator comprising light emitting devices configured for emission of light, the optical fiber bundles respectively configured with an incidence end, for propagating light incoming from the light emitting devices to the incidence end corresponding thereto, the output optical fiber bundle having and end portion at an exit end providing an output section of the optical irradiator configured to collect light from the light emitting devices as propagated by the fiber bundles externally output said collected light; the optical fiber bundles respectively comprising; a bundle of optical fibers, the optical fibers having distal ends thereof integrated together as an integrated portion, the optical fibers each comprising a core made of glass, and a coating configured to clad the core, the coating is made of resin having a smaller refractive index than the core, the integrated portion formed by a fusion integration of distal ends of terminal-stripped cores exposed by removing the coatings of the optical fibers; and a glass pipe filled up with the terminal-stripped cores of the optical fibers, wherein the terminal-stripped cores of the optical fibers and the glass pipe are completely integrated in the integrated portion, wherein the integrated portion being formed in a partial conical shape having a decreasing outside diameter as the integrated portion extends toward a front end thereof so as to make smaller the angle of incidence than the incidence angle to the front end face of the integrated portion by the internal reflection of a side surface of the integrated portion wherein the optical fiber bundles are respectively configured with an incidence end disposed adjacent to one of the light emitting devices, and wherein all of the optical fibers consisted in optical fiber bundles are bundled at an exit end as one output optical fiber bundle.",1,high,"The claim describes an optical irradiator using optical fiber bundles, which is a common green technology used in solar energy and other renewable energy applications. The optical fibers are made of glass, a sustainable material, and are integrated using a fusion process, which is an energy-efficient manufacturing method. The use of optical fibers for energy transfer is a common green technology in various applications, including solar energy concentration and fiber optic sensors for monitoring renewable energy systems.",1 | |
| 8796273,"1. A method for treating, alleviating, or reducing an enteroviral infection caused by a serotype of poliovirus 1 (PV1) or enterovirus 71 (EV71) comprising administering 3-ethoxy-6-{2-[1-(6-methyl-pyridazin-3-yl)-piperidin-4-yl]-ethoxy}-benzo[d]isoxazole or a pharmaceutically acceptable salt thereof to a subject suffering from said infection, and further comprising administering a second anti-enteroviral agent, wherein the second anti-enteroviral agent is rupintrivir or enviroxime.",0,high,"This claim relates to a pharmaceutical treatment for enteroviral infections, specifically those caused by poliovirus 1 or enterovirus 71. It does not mention any green technology or sustainability aspects.",1 | |
| 9411055,"1. A photon-counting detector configured to detect photons included in multi-energy radiation, the photon-counting detector comprising: a pixel area configured to absorb the photons incident thereto; and bias circuits configured to supply one of a bias voltage and a bias current to electronic devices in the pixel area, wherein",0,high,"This claim describes a photon-counting detector, which is a type of sensor used in various applications, including scientific research and industrial processes. However, it does not mention any specific connection to green technology. The adjustable bias voltage and current are likely used for improving the detector's performance, but they do not inherently make the technology green.",0 | |
| 9685679,"1. An electrode assembly comprising: a first electrode stair including at least one first electrode unit; and a second electrode stair including at least one second electrode unit having an area different from that of the first electrode unit, wherein the first electrode stair and the second electrode stair are stacked to be adjacent, separated by at least one separator as a boundary therebetween and including one or more electrode laminates having steps formed by a difference between the areas of the first electrode stair and the second electrode stair, wherein an electrode of the at least one first electrode units includes:",0,high,"This claim text describes a specific design for an electrode assembly used in batteries, which does not inherently relate to green technology. While batteries can be used in green technologies such as electric vehicles or renewable energy storage, the claim text itself does not mention any environmental benefits or sustainability aspects.",0 | |
| 8435759,"1. An isolated plasmid, wherein the plasmid is a native plasmid found in a Clostridium botulinum type A strain and encodes BoNT/A3, wherein the Clostridium botulinum type A strain is Loch Maree.",0,high,"This claim is about a specific plasmid found in a bacterial strain and its encoded protein, BoNT/A3. It does not mention any green technology or environmental application.",0 | |
| 9460429,"1. A method of collecting tolls through an app in a mobile device comprising: receiving position information of a plurality of toll gantries from a database, wherein said toll gantries comprise a main gantry, an on ramp gantry and an off ramp gantry; reading GPS location data from a mobile device; creating a plurality of trip segments based on said GPS location data wherein direction of the mobile device is calculated; determining whether the mobile device is travelling on a toll road; calculating the time when the vehicle is passing through a gantry using the position information of said toll gantries and trip segments; calculating toll charges based on said plurality of trip segments and a time when said mobile device travels through said toll gantries; communicating with a toll road reinforcement system; generating a toll charge transaction; notifying user of the mobile device on the toll charges; processing payment of the toll charges.",0,high,"The claim text describes a method for collecting tolls through an app on a mobile device, it does not mention any green technology or environmental benefits.",0 | |
| 8816865,1. A method of calculating the quality of a steam mixture comprising the steps of: passing the steam mixture from a high pressure region to a low pressure region through a first pressure reducer; heating the steam mixture in the low pressure region; measuring both the temperature and pressure of the steam in both the high pressure region and the low pressure region; and calculating the quality of the steam mixture from the measured temperatures and pressures.,0,high,"This claim describes a method for calculating the quality of steam, which is not inherently a green technology. While steam can be produced from renewable sources, the method itself does not involve any green technology components or processes.",1 | |
| 9750784,"1. A method for the treatment and/or prophylaxis of physiological and/or pathophysiological conditions, selected from the group consisting of arthrosis, traumatic cartilage injuries, arthritis, pain, allodynia and hyperalgesia, comprising intraarticular administration to a patient in need of said treatment of a pharmaceutical preparation comprising pepstatin and/or one of its physiologically acceptable salts, solvates, prodrugs and stereoisomers, including mixtures thereof in all ratios, and one or more excipients and/or adjuvants, said preparation formulated for intraarticular administration for the treatment and/or prophylaxis of said physiological and/or pathophysiological conditions, wherein the pharmaceutical preparation is formulated for administration weekly to yearly, and wherein the pharmaceutical preparation is administered weekly to yearly.",0,high,This claim relates to pharmaceutical treatments and does not mention any green technology or environmental considerations.,0 | |
| 9752987,"1. A system, comprising: a first chamber configured to contain a first hydride generation reagent; a second chamber configured to contain a second hydride generation reagent; a first plunger configured to translate within the first chamber and cause a displacement of the first hydride generation reagent; a second plunger configured to translate within the second chamber and cause a displacement of the second hydride generation reagent; and a base coupling the first plunger and the second plunger together, the base vertically movable relative to the first chamber and the second chamber.",0,high,The claim does not mention any specific green technology or environmental benefit. It only describes a system with hydride generation reactants and plungers.,0 | |
| 8394877,"1. A pattern forming material comprising a copolymer selected from the group consisting of a block copolymer and a graft copolymer comprising two homopolymer chains whose ratio between N/(Nc−No) values of respective monomer units is 1.4 or more, where N represents total number of atoms in the monomer unit, Nc represents a number of carbon atoms in the monomer unit, No represents a number of oxygen atoms in the monomer unit, and wherein the copolymer is dissolved in a cellosolve-based solvent.",0,high,The claim does not mention any environmental benefits or green technology aspects. It only describes a specific copolymer and its solvent.,1 | |
| 8428205,"1. A communications apparatus, comprising: a first wireless communications module providing a first wireless communications service and communicating with a first communications device in compliance with a first protocol; a second wireless communications module providing a second wireless communications service and communicating with a second communications device in compliance with a second protocol; and a clock source shared by the first and the second communications modules and providing a reference clock to the first and the second communications modules, wherein the first wireless communications module detects a request from the second wireless communications module for activating the clock source, determines whether the reference clock has been stably generated by the clock source, and adjusts an electrical characteristic of the clock source to facilitate the reference clock output from the clock source to achieve a target frequency when the reference clock has not been stably generated.",0,high,The claim does not mention any green technology or environmental considerations. It is focused on the design and functionality of a communications apparatus and its clock source.,0 | |
| 9850349,"1. A room temperature-curable organopolysiloxane composition comprising: (A) an alkoxysilyl-ethylene group-terminated organopolysiloxane having in one molecule at least one group represented by the following structural formula (1) wherein R 1 represents an alkyl group that has 1 to 20 carbon atoms and may have one or more substituent groups, and when said alkyl group has 3 or more carbon atoms it may be a cycloalkyl group; R 2 represents a hydrocarbon group that has 1 to 20 carbon atoms and may have one or more substituent groups; a represents an integer of 1 to 3; and n represents an integer of 0 to 10; (B) an organopolysiloxane in an amount of 10 to 250 parts by mass with respect to 100 parts by mass of said component (A), and represented by the following general formula (2) wherein R 2 represents a hydrocarbon group that has 1 to 20 carbon atoms and may have one or more substituent groups; and m represents a number at which the organopolysiloxane exhibits a viscosity of 10 to 1,000,000 mPa·s at 25° C.; and (C) a curing catalyst in an amount of 0.001 to 20 parts by mass with respect to 100 parts by mass of said component (A).",0,high,"The claim text describes a specific chemical composition for a room temperature-curable organopolysiloxane, which does not inherently relate to green technology. The absence of any mention of environmental benefits or sustainability makes it unlikely that this is a green technology.",0 | |
| 9838867,"1. A system, comprising: a first device; and a second device, wherein the first device comprises: wherein the second device comprises:",1,high,"This claim describes a power sharing system between two devices, which is a common feature in green technology to reduce power consumption and extend battery life. The power management circuits are specifically mentioned, which are key components in energy efficient systems.",0 | |
| 9450272,"1. A block copolymer electrolyte, comprising: a plurality of linear block copolymer molecules comprising first linear, ionically-conductive polymer blocks and second linear polymer blocks, the block copolymer molecules having molecular weights greater than about 100,000 Daltons, each block copolymer molecule spanning a plurality of contiguous lamellar domains wherein; a first lamellar domain comprises a plurality of first linear, ionically-conductive polymer blocks having molecular weights between about 500 and 10,000 Daltons and a salt, the first domain forming a conductive portion of the electrolyte material; and a second lamellar domain comprises a plurality of second linear polymer blocks having molecular weights between about 500 and 10,000 Daltons, the second domain adjacent to the first lamellar domain and forming a structural portion of the electrolyte material; wherein the block copolymer molecules each contains more than five blocks.",0,high,"This claim describes a specific type of electrolyte material for batteries, which does not inherently relate to green technology. The focus is on the chemical composition and structure of the electrolyte material, rather than its environmental impact or sustainability.",0 | |
| 9570495,"1. A solid-state imaging device, comprising: a substrate having a charge accumulation region, wherein the charge accumulation region is formed within the substrate; a transparent electrode; and a photoelectric conversion region configured to generate signal charges to be accumulated in the charge accumulation region, wherein the photoelectric conversion region is provided on and is in contact with the charge accumulation region and with the substrate, wherein the photoelectric conversion region comprises a material that is not transparent and that blocks light from entering the charge accumulation region, wherein about 1.8×10",0,high,"The claim describes a solid-state imaging device that generates signal charges in a photoelectric conversion region. However, the photoelectric conversion region is not transparent and blocks light from entering the charge accumulation region, which is not consistent with green technology as it does not involve the use of renewable energy or energy efficiency.",0 | |
| 9133053,"1. A crystallizing glass solder for high-temperature applications, wherein said crystallizing glass solder is free of PbO and contains, in percent by weight on an oxide basis, 25 to 40%, SiO 2 ; <2, Al 2 O 3 ; 8.4 to 11.2%, B 2 O 3 ; 45 to 60%, BaO; 0 to 5%, CaO; 4.4 to 7.0%, MgO; and 4.4 to 15% of a sum total of MgO, CaO and SrO.",0,high,"The claim describes a crystallizing glass solder for high-temperature applications, which is not inherently a green technology. The absence of lead (PbO) is not a defining characteristic of green technology, and the presence of other elements such as silicon dioxide (SiO2), aluminum oxide (Al2O3), barium oxide (BaO), calcium oxide (CaO), magnesium oxide (MgO), and strontium oxide (SrO) do not indicate green technology.",0 | |
| 9034126,"1. In a pyrotechnic smoke kit for generating a smoke screen comprising a composition mixture of a light-metal powder as a metallic reduction agent, potassium nitrate and, optionally, potassium perchlorate as the main oxidation agent and at least one carbonate as an additional auxiliary oxidation agent, as well as substances splitting off nitrogen and at least one sublimable or evaporable non-toxic smoke-forming substance, the improvement wherein said composition includes dicarboxylic acids selected from the group consisting of aliphatic and aromatic dicarboxylic acids as a stabilizer, having a percent by weight share in the range of from 0.1 to 5%, for inhibiting the formation of gaseous ammonia.",0,high,"The claim describes a pyrotechnic smoke kit, which is not a green technology as it involves the use of explosives and potentially hazardous chemicals.",0 | |
| 8544206,"1. A method of making a growing medium, comprising: providing a dehydrated bulking agent, including coir; and compressing said dehydrated bulking agent, including coir, at a volume-to-volume ratio greater than about 3:1; wherein said compressed growing medium is not hydrophobic and maintains a compressed shape without a water soluble binder until hydrated.",1,high,"This claim describes a method of creating a growing medium using a dehydrated bulking agent, coir, which is a sustainable and renewable resource. The compression of the coir at a high ratio does not result in hydrophobic properties, making it suitable for water retention and plant growth. This technology is commonly used in hydroponics and other soilless cultivation systems, contributing to the reduction of water usage and the promotion of sustainable agriculture.",1 | |
| 8576693,"1. A multi-carrier modem, the modem comprising: a receiver configured to receive a waveform comprising a plurality of spectrally overlapping carrier signals from at least two of a plurality of remote units, wherein the plurality of spectrally overlapping carrier signals are modulated using an inverse Fourier transform algorithm; a transmitter; a processor coupled to the transmitter, wherein the processor outputs data for transmission to the transmitter, wherein the processor applies an inverse Fourier transform algorithm to the data provided to the transmitter; a controller programmed to instruct the transmitter to transmit a predetermined identifier on at least one of the spectrally overlapping carrier signals, the predetermined identifier identifying to a first remote unit a range of the plurality of spectrally overlapping carrier signals for the first remote unit to receive control information.",0,high,"The claim text describes a multi-carrier modem using inverse Fourier transform algorithm for modulation and demodulation. However, it does not mention any specific environmental benefits or energy efficiency improvements related to green technology.",0 | |
| 9140590,"1. A system comprising: a plurality of sensors; a first logic unit coupled to an output of at least one sensor of the plurality of sensors, the first logic unit estimating user dynamics in response to an output signal from the at least one sensor; second logic unit coupled to the first logic unit, the second logic unit generating a sampling rate value of a first MEMS sensor in response to an output signal from the first logic unit, and wherein the first MEMS sensor comprises a selectable sampling rate and wherein the selectable sampling rate is selected in response to the generated sampling rate value.",0,high,"The claim does not mention any specific green technology or environmental application. It describes a system with sensors and logic units, and the logic units are adjusting the sampling rate of a MEMS sensor based on user dynamics, but there is no indication that this system is related to green technology.",0 | |
| 9656414,"1. A method of fabricating a casting for a microfluidic device comprising a 3-dimensional microfluidic network in a single layer composition, said method comprising the steps of: (A) providing a master mold for forming said microfluidic device, said master mold comprising at least one loop element and a membrane element extending outwardly from and connected to said loop element (B) surrounding said master mold with a resin; (C) curing said resin to form an elastomeric casting surrounding said master mold and having a negative configuration of said master mold; and (D) removing said master mold from said casting, wherein a microchannel cavity is formed by said loop element and a planar gap is formed by said membrane element in said casting, and wherein at least a portion of said loop element passes through said planar gap of said casting as said master mold is extracted from said casting.",1,high,"The text describes a method for creating a microfluidic device using a 3-dimensional microfluidic network in a single layer composition. This process involves using a master mold made of potentially renewable materials, such as resin, and curing it to create an elastomeric casting. This technology is commonly used in green and sustainable applications, such as in biotechnology and environmental monitoring, due to its small size, low power consumption, and potential for mass production.",1 | |
| 9513246,"1. An integrated circuit system comprising: an active layer of a semiconductor die, the active layer comprising an active circuit; a measuring layer vertically integrated with the semiconductor die, the measuring layer comprising a sensor configured to generate an indication of a pH of a fluid, and the measuring layer configured to provide the indication of the pH of the fluid to the active circuit; a fluid path configured to provide the fluid from external to the integrated circuit system to the sensor; and a signal transmission layer comprising a coil configured to transmit a signal indicative of the pH of the fluid from the integrated circuit system.",1,high,"The claim describes a semiconductor system with integrated pH sensor and signal transmission capabilities, which can be used in various green technologies such as water treatment, agriculture, and environmental monitoring.",1 | |
| 9387966,"1. A lid for a container, comprising: a lid cover adapted for covering at a top opening of said container, wherein said lid cover has a drinking hole and an air vent spacedly formed at a peripheral portion of said lid cover to maximize a distance between said drinking hole and said air vent; and an enclosure arrangement which comprises a drinking hole plug movably extended from said lid cover detachably engaged with and sealed at said drinking hole, and a vent plug movably extended from said lid cover detachably engaged with and sealed at said air vent, wherein said drinking hole plug and said vent plug are two individual plugs that said drinking hole plug and said vent plug selectively and individually cover at said drinking hole and said air vent respectively, wherein said enclosure arrangement further comprises a vent plug pit indently provided on said lid cover at a position adjacent to said air vent, wherein said vent plug is selectively engaged with one of said air vent and said vent plug pit.",0,high,"This claim describes a lid design for a container, which does not inherently relate to green technology. The focus is on the design and functionality of the lid, not on its environmental impact or sustainability.",1 | |
| 8702964,"1. A method of detecting soil macronutrient, plant nutrient uptake, phosphate contaminant in ground water, phosphate contaminant in rivers and phosphate poison in agriculture products, comprising: introducing a monobasic phosphate (H",0,high,"This method does not involve the production or use of renewable energy or energy efficiency, nor does it reduce greenhouse gas emissions. It is a laboratory technique for detecting phosphate contamination.",1 | |
| 8950898,"1. An illumination device comprising: a discrete driver module comprising (i) circuitry for supplying power to and controlling at least one light-emitting diode, and (ii) a connector for electrically connecting to a source of power; a discrete lighting module configured for electrical connection to but otherwise physically separate from the driver module, the lighting module comprising (i) at least one light-emitting diode, (ii) a mechanism for mounting the lighting module within a recessed-can lighting fixture, and (iii) a temperature sensor for measuring a temperature of the at least one light-emitting diode, wherein the driver module and the lighting module are collectively sized to fit within the recessed-can lighting fixture.",0,high,"The claim describes an illumination device with a separate driver module and lighting module, but it does not mention any specific green technology or energy efficiency feature.",0 | |
| 9326122,"1. User Equipment (UE) arranged for packet-based device-to-device (D2D) discovery operations, the UE being enabled for proximity services, the UE configured to: receive signaling from an enhanced node B (eNB) indicating resources allocated for D2D discovery; configure a discovery packet in accordance with a predetermined configuration to have at least a discovery payload and a cyclic-redundancy check (CRC), the discovery payload to include discovery-related content; and transmit the discovery packet on at least some of the indicated resources for receipt by a receiving UE.",0,high,"This claim relates to wireless communication technology, specifically 4G LTE or 5G, and does not mention any green technology or environmental considerations.",0 | |
| 8453150,"1. A computing device-implemented method, comprising: receiving, at the computing device, threads of a multithread application associated with a first group; receiving, at the computing device, a thread of a second application associated with a second group; identifying, by the computing device and based on receiving the threads of the multithread application, the multithread application; and adjusting, by the computing device, a memory scheduling scheme for the multithread application based on the identification of the multithread application.",0,high,The claim does not mention any specific green technology or environmental benefit. It is focused on a computing device method for multithreading and memory scheduling.,0 | |
| 9408385,1. A composition comprising: a) N-{2-[3-chloro-5-(trifluoromethyl)-2-pyridinyl]ethyl}-2-trifluoromethylbenzamide; and b) an insecticide selected from the group consisting of rynaxypyr and ethiprole; wherein the (a)/(b) weight ratio is from 1/125 to 125/1.,0,high,"This claim describes a specific chemical composition for an insecticide, which is not inherently related to green technology. Green technology typically involves the use of renewable resources, energy efficiency, or pollution reduction, and this claim does not mention any of those concepts.",0 | |
| 8689046,"1. A method for recovery of a server, the method comprising: sending transaction requests from clients to the server through a network; receiving the transaction requests at the server; logging a start transaction in an intention log at the start of each transaction request; logging a complete transaction in the intention log at completion of each transaction request; taking a checkpoint at predetermined times, the checkpoint defining a recovery state for the server; asynchronously mirroring the checkpoint to a recovery server; logging a checkpoint taken in the intention log at the start of each taking a checkpoint; logging a checkpoint mirroring complete at completion of the mirroring to the recovery server; and maintaining the intention log at the recovery server by asynchronously mirroring start transactions from the server to the recovery server and synchronously mirroring complete transactions from the server to the recovery server.",0,high,"The claim describes a method for server recovery, which does not inherently relate to green technology. The method focuses on transaction processing and logging, which are not directly related to environmental sustainability.",1 | |
| 8864921,"1. A method comprising: annealing a strip of steel, the strip of steel having a variable thickness in its length direction with at least thicker sections having a length of at most two meters and thinner sections having a length of at most two meters, such that the strip has a repetitive thickness variation, wherein the strip has been cold rolled to form the thicker and thinner sections, wherein the maximum temperature and/or the soaking temperature of the strip of steel during the annealing is kept within a range with a width of 100° C., wherein thicker and thinner sections of the strip of steel are selectively heated to anneal the strip of steel and recrystallize the thinner sections, wherein the selective heating is performed using induction heating at a single constant frequency between 5 and 50 kHz to heat the thicker sections to a selected temperature and a single constant power density, wherein the same frequency and the same power density are simultaneously applied to the thicker and thinner sections, and cooling the annealed strip, the strip to be cut into pieces called tailor rolled blanks, wherein the annealing is performed by continuous annealing.",0,high,"The claim describes a method for annealing a strip of steel with repetitive thickness variation, which is not inherently related to green technology. The method uses induction heating and continuous annealing, which are common industrial processes and not necessarily green. The claim does not mention any specific environmental benefits or energy efficiency improvements.",0 | |
| 8663519,"1. A method for production of a fibre-reinforced plastics material profiled part, comprising: supplying at least one tubular fibre braid that is braided from a plurality of fibre threads, wherein a polymer matrix is arranged within the at least one tubular fibre braid; flattening the at least one tubular fibre braid; subsequently enclosing a longitudinal portion of the at least one flattened tubular fibre braid in a moulding press, wherein the moulding press compresses said longitudinal portion according to an intended profile of the plastics material profiled part; heating the moulding press; opening the moulding press to release the at least one fibre braid; drawing the at least one fibre braid through the open moulding press to position a further longitudinal portion of the at least one fibre braid in the moulding press; and enclosing the further longitudinal portion in the moulding press.",1,high,"This process uses a polymer matrix, which is a common component in green technologies such as composite materials and bioplastics. The use of fibre threads and the process of braiding and flattening them suggest the production of a composite material, which is a green technology. Additionally, the use of a moulding press to shape the material into a specific profile is a common method used in the production of green technologies such as solar panels and wind turbine blades.",1 | |
| 9218151,"1. An information processing device comprising: a resource information acquisition unit that acquires first resource information and second resource information, a controller unit that performs control to generate a screen on which an operation to execute the image processing is accepted in accordance with a resource corresponding to the second resource information among the resources included in the first resource information, wherein the first resource information comprises resources required to execute the predetermined image processing, and wherein the controller unit performs the control to generate the screen when all the required resources of the first resource information are included in the second resource information acquired from the image processing device.",0,high,The claim does not mention any specific green technology or environmental consideration. It is about an information processing device and its control mechanism.,0 | |
| 9443916,"1. An organic light emitting display (OLED) device comprising: a substrate; a first pixel electrode, a second pixel electrode, and a third pixel electrode formed on the substrate; a first bank layer and a second bank layer formed on the substrate; and a first organic light emitting layer, a second organic light emitting layer, and a third organic light emitting layer formed on the first pixel electrode, the second pixel electrode, and the third pixel electrode, respectively, wherein the first organic light emitting layer overlaps the second organic light emitting layer on the first bank layer, wherein all of an overlapping portion of the first organic light emitting layer and an overlapping portion of the second organic light emitting layer are directly above the first bank layer, and wherein all of the overlapping portions of the first and second organic light emitting layers are not directly above either of the first or second pixel electrode.",1,high,"OLED is a type of green technology used in displays, specifically in energy-efficient and eco-friendly screens. The claim describes the structure of an OLED device, which further emphasizes its classification as green technology.",1 | |
| 9093588,"1. A semiconductor light emitting device comprising: an n-type semiconductor layer including a nitride semiconductor; a p-type semiconductor layer provided on a side of [0001] direction of the n-type semiconductor layer and including a nitride semiconductor; a first well layer provided between the n-type semiconductor layer and the p-type semiconductor layer, the first well layer having a band gap energy smaller than a band gap energy of the n-type semiconductor layer and smaller than a band gap energy of the p-type semiconductor layer, and including a nitride semiconductor; a first barrier layer provided between the first well layer and the n-type semiconductor layer, in contact with the first well layer, the first barrier layer having a band gap energy larger than the band gap energy of the first well layer, and including a nitride semiconductor; an Al-containing layer provided between the first well layer and the p-type semiconductor layer, in contact with the first well layer, the Al-containing layer having a band gap energy larger than the band gap energy of the first barrier layer, having a lattice constant smaller than a lattice constant of the n-type semiconductor layer, and having a composition of Al an intermediate layer provided between the Al-containing layer and the p-type semiconductor layer, in contact with the Al-containing layer, having a band gap energy larger than the band gap energy of the first well layer, and including a nitride semiconductor, the intermediate layer having a first portion and a second portion provided between the first portion and the p-type semiconductor layer, a band gap energy of the first portion being smaller than a band gap energy of the second portion.",0,high,"The claim describes a semiconductor device, but it does not mention any specific environmental benefits or the use of renewable energy sources. The focus is on the composition and structure of the semiconductor layers, not on their environmental impact.",0 | |
| 9541122,"1. An outboard motor configured to be mounted on a hull, comprising: an engine including a crankshaft disposed parallel to a gravity axis and a cylinder block, the crankshaft including a crank journal constituting a main rotation axis of the crankshaft, a crank pin connected to a piston through a connecting rod, and a crank arm connecting the crank pin to the crank journal in an eccentric state, the cylinder block including a journal supporting part rotatably supporting an outer circumferential surface of the crank journal; a vertical shaft connected to the crankshaft to be rotated around the gravity axis; a thrust bearing disposed between the journal supporting part and the crank arm in an axial direction of the crankshaft; and an urger disposed at a position between the crankshaft and the vertical shaft to urge the crankshaft upward in a direction parallel with the gravity axis.",0,high,"The claim describes a detailed design of an internal combustion engine outboard motor, which is not considered green technology due to its reliance on fossil fuels for operation.",0 | |
| 9031688,"1. A nesting data generation device that generates nesting data for cutting off a part from a work supported by a plurality of support projections, the device comprising: a nesting data generating unit that generates the nesting data by arranging a geometry of the part on the work, wherein the nesting data generating unit is configured to perform, upon arranging the geometry of the part on the work, an avoidance process for avoiding an impediment to the cutting off of the part from the work based on a positional relationship between the geometry of the part and an X-pitch and a Y-pitch of the plurality of support projections on which the work is supported, wherein the nesting data generating unit is configured to perform, as the avoidance process, a preparation processing for arranging the geometry of the part so as to avoid the part from dropping off from the plurality of support projections in a preparation processing unit, and wherein the preparation processing unit includes a center of mass (CoM) calculating processing unit that calculates a CoM based on the geometry of the part, an arrangement angle refinement processing unit that determines an arrangement of the part on the plurality of support projections based on the CoM of the part, and an outline-expansion processing unit that expands an outline of the geometry of the part with respect to the arrangement of the part on the plurality of support projections.",1,high,"The claim describes a device for generating nesting data for cutting parts from a work, which includes an avoidance process for optimizing the arrangement of the parts on the work to minimize material waste and improve cutting efficiency. This process involves calculating the center of mass of each part and adjusting its arrangement on the work based on this information to prevent the part from dropping off during the cutting process. This optimization of material usage and reduction of waste are key aspects of green technology.",0 | |
| 9580873,"1. A multilayered structure comprising at least one fine cellulose fiber nonwoven fabric layer composed of fine cellulose fibers, wherein said fine cellulose fibers that form the fine cellulose fiber nonwoven fabric layer have a mean fiber diameter of 0.005 μm to 0.5 μm, said multilayered structure has a mean thickness of 10 μm to 200 μm, a density of 0.10 g/cm wherein the proportion of fine cellulose fibers contained in the fine cellulose fiber nonwoven fabric layer is 50% by weight to 100% by weight, wherein the total sum of the basis weight of the fine cellulose fiber nonwoven fabric layer is 1 g/m wherein the multilayered structure has been subjected to waterproofing treatment using a crosslinking agent.",1,high,"The claim describes a multilayered structure made of fine cellulose fibers, which is a renewable resource. The fibers have a mean diameter within the range of typical plant fibers, and the structure is used in a nonwoven fabric, a common application for green technologies. The waterproofing treatment using a crosslinking agent does not detract from the green nature of the technology.",1 | |
| 9367211,"1. A method for preparing an interface tab in a web browser, comprising: receiving a request to create the interface tab in the web browser, using a processor; associating page content with the interface tab; defining a limit on computing resource usage to be applied to loading of the interface tab and page content, using the processor, which limit is less than available computing resources, the limit being defined as a percentage of the available computing resources; creating the interface tab using the limit on the computing resource usage defined; and redefining the limit on computing resource usage upon selection of the interface tab via a graphical user interface; categorizing content objects in the page content of the interface tab into smaller content objects and larger content objects; determining the limit on computing resource usage for loading the page content into the interface tab; and visually loading the smaller content objects in the graphical user interface followed by the larger content objects when the available computing resources are limited according to the percentage of the available computing resources defined.",0,high,The claim does not mention any specific green technology or environmental benefit. It is focused on web browser interface development and resource management.,0 | |
| 9762243,"1. An apparatus comprising: a first input/output (I/O) interface circuit having a maximum voltage rating, the first I/O interface circuit comprising a level shifter and an output stage; and a reference voltage bias generator coupled to the first I/O interface circuit, to a supply voltage, and to a first ground potential, wherein",0,high,"This claim describes an electronic circuit, specifically an apparatus with a first I/O interface circuit, a reference voltage bias generator, and a voltage divider circuit. While some electronic components can be considered green, such as solar panels or energy-efficient power supplies, this claim does not mention any green technology or energy efficiency. Instead, it focuses on the design of the circuit itself.",0 | |
| 8677592,"1. A method for separating electronic components, comprising the processing steps of: A) placing an assembly of electronic components on a manipulator, the assembly comprising a first substrate layer, a second component layer on the first substrate layer, and an outer conductive layer on the second component layer, B) transporting the electronic components with the manipulator relative to a first cutting tool and cutting to a first cutting depth of at least 10% or more of a thickness of the first and second layers of the assembly with the first cutting tool along first cutting lines such that the assembly is only partially cut through the thickness thereof to obtain a partially severed assembly of electronic components, C) transporting the partially severed assembly of electronic components with the manipulator relative to a second cutting tool and further cutting through the thickness of first and second layers of the partially severed assembly of electronic components to a second cutting depth along second cutting lines which overlap the first cutting lines so that the electronic components are at least substantially severed almost completely one from another, and D) separating the substantially severed electronic components along the cutting lines.",0,high,"The claim describes a method for separating electronic components, which does not inherently relate to green technology. The process described does not involve the use of renewable energy sources or the reduction of carbon emissions.",0 | |
| 9845426,1. A method of treating a well comprising: (A) forming a fluid comprising: (B) introducing the fluid into a well.,0,high,This claim does not mention any green technology or environmental benefit. It only describes a method for treating a well.,0 | |
| 9132940,"1. A reusable, multi-purpose bag, comprising: a flexible, resiliently deformable body comprising: wherein at least a portion of the anterior panel is bonded to at least a portion of the posterior panel by the second material, and wherein the second material comprises a melting point for melting onto the first material at or above the second degradation temperature and a hardening point below the second degradation temperature to bond the at least portion of the anterior panel and the at least portion of the posterior panel.",0,high,"The claim describes a reusable bag made of two panels bonded together using a melting point material. While the use of a reusable bag is a green practice, the claim itself does not mention any green technology or sustainable materials. The focus is on the bonding material and its melting and hardening properties.",1 | |
| 9727252,"1. A method, comprising: for each of a plurality of candidate snapshot schedules, each including a plurality of time instances at which snapshots are to be taken, determining, by a snapshot scheduler of a storage array and based on one or more pre-existing snapshot schedules, a maximum number of snapshots that are simultaneously scheduled in the one or more pre-existing snapshot schedules during the plurality of time instances within the candidate snapshot schedule; selecting by the snapshot scheduler at least one of the candidate snapshot schedules that are associated with a lowest maximum number of simultaneously scheduled snapshots; and from the selected candidate snapshot schedules, selecting by the snapshot scheduler a subject one of the candidate snapshot schedules based on respective start times of the selected candidate snapshot schedules.",0,high,The text does not mention any green technology or environmental considerations. It is focused on snapshot scheduling for a storage array.,0 | |
| 9070670,"1. An apparatus comprising: a die comprising: a host substrate, the surface of the die mounted on a facing of the host substrate; wherein the first transistor is a control switch of a switching power supply circuit and the second transistor is a synchronous switch in the switching power supply circuit.",0,high,The claim does not mention any green technology or environmental considerations. It is a description of a die with transistors used in a switching power supply circuit.,0 | |
| 9219701,"1. A method for implementing Link Aggregation Control Protocol (LACP) standard state machines in a distributed system which is divided as a Management Processor (MP), a Routing Processor (RP) and a Network Processor (NP) according to functions, comprising: after receiving a message at a physical port on a NP of a plurality of NPs, directly transmitting the message to a receive state machine without delivering to an RP - active on which a selection state machine operates; triggering the receive state machine, a periodic state machine, a multiplexer (MUX) state machine, and a sending state machine to operate in turn, wherein all of the receive state machine, the periodic state machine, the MUX state machine, and the sending state machine operate on the NP, these four state machines operate taking each physical link as a unit and they only need to operate on the NP at which the physical link is located; if there is a change in state machine data of at least one of the four state machines on the NP before and after the state machine operates, then synchronizing the changed state machine data of the state machine to the RP—active on which the selection state machine operates, and then triggering the selection state machine on the RP—active to operate and completing processing of the message according to a physical link selection state of the selection state machine on the RP—active; so as to reduce the number of the message deliveries between the NP and the RP—active since the five state machines are distributed in a way that the receive state machine, the periodic state machine, the MUX state machine and the sending state machine operate on the NP and the selection state machine operates on the RP—active.",1,high,"The text describes a method for implementing Link Aggregation Control Protocol (LACP) in a distributed system, which aims to reduce the number of message deliveries between network processors (NPs) and routing processors (RPs) by distributing certain state machines on the NPs and others on the RPs. This approach can potentially save energy and reduce carbon emissions by minimizing the communication overhead between network components.",1 | |
| 9851071,"1. A light source device, comprising: an excitation light source providing an excitation light; a wavelength conversion device located remotely from the excitation light source, including a wavelength conversion material for converting the excitation light into a converted light; a light introducing device for directing the excitation light onto the wavelength conversion material; and a light collecting device for collecting the converted light from the wavelength conversion material, wherein the light collecting device includes a first reflecting device for changing a traveling direction of the converted light toward an output port, wherein the light introducing device is an area surrounded by the first reflecting device which has different transmission and reflection properties than the first reflecting device, the area of the light introducing device being different from the output port, wherein an etendue of the light introducing device is less than or equal to ¼ of an etendue of the light collecting device.",0,high,The claim does not mention any specific green technology or environmental benefit. It is focused on the design of a light source device.,0 | |
| 8501762,"1. A compound of the formula (I), their stereoisomers, or pharmacologically acceptable salts: wherein R is H or halogen; when R is halogen, R each of R when R R R R each of R R R the said compounds exclude the following known compounds: 2,9-dihydroxy-3,10-dimethoxy-12-chloro-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,10-dihydroxy-3,9-dimethoxy-12-chloro-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 3,9,10-trimethoxy-2-hydroxy-12-chloro-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,9-dihydroxy-3,10-dimethoxy-12-bromo-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,10-dihydroxy-3,9-dimethoxy-12-bromo-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 3,9,10-trimethoxy-2-hydroxy-12-bromo-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,9-dihydroxy-3,10-dimethoxy-12-fluoro-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,9-dihydroxy-3,10-dimethoxy-12-iodo-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,3-methylenedioxyl-9-hydroxy-10-methoxy-12-chloro-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,3-methylenedioxyl-9,10-dimethoxy-12-chloro-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,3-methylenedioxyl-9-hydroxy-10-methoxy-12-bromo-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; 2,3-methylenedioxyl-9,10-dimethoxy-12-bromo-5,8,13,13a-tetrahydro-6H-dibenzo[a,g]quinolizine; when R is H; R each of R when R R R R each of R R R when R when R in the definition mentioned above, halogen is F, Cl, Br or I; any two of R",0,high,"The claim text describes a specific chemical compound and its stereoisomers, as well as the exclusion of certain known compounds. It does not mention any connection to green technology.",0 | |
| 9785920,"1. A method for a transaction in a vehicle, comprising: determining that a first mobile computing device and a second mobile computing device have connected to a same access point, the first mobile computing device being associated with a driver of a vehicle and the second mobile computing device being associated with a passenger; based at least in part on determining that the first mobile computing device and the second mobile computing device have connected to the same access point, registering, by a payment processing server, an association between the first mobile computing device and the second mobile computing device for processing of a payment transaction; receiving, by the first mobile computing device, input from the driver regarding a start of a trip with the passenger; at least partly before determining that the trip with the passenger has ended and at least partly before determining an amount of a fare for the trip: after determining that the trip with the passenger has ended:",0,high,"This claim describes a payment processing method for a vehicle trip, and there is no mention of any green technology or environmental considerations.",0 | |
| 9775729,1. A drug delivery system comprising a. a substrate; and b. a plurality of bioabsorbable polymer layers combined with said substrate; and at least one active agent combined with said substrate; wherein each of said plurality of bioabsorbable polymer layers comprises a separately sintered bioabsorbable polymer layer;,0,high,"This claim describes a drug delivery system, which is not inherently related to green technology. The use of bioabsorbable polymers does not necessarily make the technology green, as this term can have various meanings and applications. In this context, it refers to biocompatible and biodegradable materials, which are commonly used in medical devices and are not exclusive to green technology.",0 | |
| 9409880,1. A compound of the formula: wherein X each of Z X each of R each R R each R R,0,high,This claim does not mention any green technology or environmental benefits. It is a description of a chemical compound and its use in pharmaceutical synthesis.,0 | |
| 9552042,"1. A method of controlling a portable electronic device including a processor coupled to a touch-sensing controller, the method comprising: determining, by the processor of the portable electronic device, a first output voltage value of a battery of the portable electronic device; in response to determining the first output voltage value of the battery, identifying, by the processor, a first configuration file based on the first output voltage value of the battery, the first configuration file including an identification of a first number of pulses to be applied to drive electrodes that are driven by the touch-sensing controller to detect touches, a first drive voltage to drive the drive electrodes, and a first threshold capacitance value that is utilized to compare to signals received from sense electrodes coupled to the touch-sensing controller to detect touches, and loading, by the processor, into the touch-sensing controller coupled to the processor of the portable electronic device, the first configuration file identified by the processor such that the touch-sensing controller utilizes parameters including the first number of pulses and the first threshold capacitance value from the first configuration file to detect touches on the touch-sensitive display; determining, by the processor of the portable electronic device, a second output voltage value of a battery of the portable electronic device wherein the second output voltage is lower than the first output voltage; in response to determining the second output voltage value of the battery, identifying, by the processor, a second configuration file based on the second output voltage value of the battery, the second configuration file including an identification of a second number of pulses to be applied to the drive electrodes that are driven by the touch-sensing controller to detect touches, a second drive voltage to drive the drive electrodes, and a second threshold capacitance value that is utilized to compare to signals received from sense electrodes coupled to the touch-sensing controller to detect touches, and loading, by the processor, into the touch-sensing controller coupled to the processor of the portable electronic device, the second configuration file identified by the processor such that the touch-sensing controller utilizes parameters including the second number of pulses and the second threshold capacitance value from the second configuration file to detect touches on the touch-sensitive display, wherein the second number of pulses includes more pulses than the first number of pulses and the second drive voltage is lower than the first drive voltage; determining, by the processor of the portable electronic device, a third output voltage value of the battery of the portable electronic device, wherein the third output voltage is lower than the second output voltage; in response to determining the third output voltage value of the battery, identifying, by the processor, a third configuration file based on the third output voltage value of the battery, the third configuration file including an identification of a third number of pulses to be applied to the drive electrodes that are driven by the touch-sensing controller to detect touches, a third drive voltage to drive the drive electrodes, and a third threshold capacitance value that is utilized to compare to signals received from sense electrodes coupled to the touch-sensing controller to detect touches, and loading, by the processor, into the touch-sensing controller coupled to the processor of the portable electronic device, the third configuration file identified by the processor such that the touch-sensing controller utilizes parameters including the third number of pulses and the third threshold capacitance value from the third configuration file to detect touches on the touch-sensitive display, wherein the third number of pulses includes more pulses than the second number of pulses and the third drive voltage is lower than the second drive voltage; wherein the first configuration file differs from the second configuration file and the third configuration file, and wherein the second configuration file differs from the third configuration file.",1,high,"The text describes a method for controlling a portable electronic device, specifically a touch-sensing controller, based on the output voltage value of the battery. This method includes adjusting the number of pulses, drive voltage, and threshold capacitance value to optimize touch detection under different battery conditions. This is a common practice in green technology to conserve energy and extend battery life.",1 | |
| 9221950,"1. A polyamide resin composition comprising: (a) a polyamide composed mainly of a polyamide backbone composed of diamine units composed mainly of 1,5-pentanediamine and dicarboxylic acid units; and (b) a compound having a sterically hindered N atom which is N,N′-bis(formyl)-N,N′-bis(2,2,6,6-tetramethyl-4-piperidyl)-1,6-hexanediamine.",0,high,"The claim text describes a specific polyamide resin composition, which does not inherently relate to green technology. The absence of any mention of environmental benefits or sustainability makes it unlikely that this is a green technology.",0 | |
| 8924645,"1. A data storage apparatus, comprising: a cache layer; a processor in communication with the cache layer, the processor to dynamically enable or disable the cache layer via a cache layer enable line based on a data store access type, where the data store access type is one of a read access type and a write access type; and a read counter to track a read count of read accesses to a non-volatile data store and a write counter to track a write count of write accesses to the non-volatile data store, the read count and the write count to facilitate determining when to dynamically enable or disable the cache layer.",0,high,This claim describes a data storage apparatus with a cache layer and counters to track read and write accesses. It does not mention any specific green technology or environmental benefits.,0 | |
| 9263196,"1. A graphene-based electronic apparatus, comprising: a first electrode that includes: a layer of pseudo-capacitive material in contact with the three-dimensional open-cell graphene structure, wherein a surface area of the three-dimensional open-cell graphene structure is greater than a surface area of the metal foam substrate.",1,high,"The use of graphene, a material known for its high conductivity and sustainability, and the three-dimensional open-cell structure, which can be produced from renewable sources, indicates that this is a green technology. The larger surface area of the graphene structure compared to the metal foam substrate also suggests potential for increased energy efficiency.",1 | |
| 8782593,"1. A method comprising: retrieving a first component information of a secured portion of a package, wherein the first component information is encrypted, and wherein the step of retrieving comprises decrypting the first component information; generating a thermal resistance-network (R-network) from the decrypted first component information; and generating a temperature map of the package using the thermal R-network and a second component information of an unsecured portion of the package, wherein the secured portion and the unsecured portion are bonded to each other, wherein the step of generating the temperature map is performed by a computer.",0,high,The claim text does not mention any green technology or environmental considerations. It is focused on a method for generating a temperature map using encrypted data and thermal resistance networks.,0 | |
| 8879280,"1. A system comprising: a switching power supply operable to be fed a zero crossing voltage and to generate an output voltage, said output voltage having a voltage level set using a modulated gate signal; a circuit to set a ringing suppression time of the modulated gate signal to a first time period when the zero crossing voltage is below a predetermined voltage threshold and to a second time period when the zero crossing voltage is above the predetermined voltage threshold, the ringing suppression time corresponding to an initial oscillation of the zero crossing voltage caused by the modulated gate signal switching the switching power supply; and a pulse generation circuit that is operable to generate a pulse signal and feed to a counter a pulse train comprising generated pulse signals, wherein the ringing suppression time is operable of being set using an output of the counter or the pulse signal, wherein the output of the counter is selected as the ringing suppression time when input supply voltage falls to a level below the predetermined voltage threshold, and wherein a duration of the pulse generation circuit is selected as the ringing suppression time when the input supply voltage rises to a level above the predetermined voltage threshold, the input supply voltage being the zero crossing voltage.",0,high,The text describes a power supply system with no mention of renewable energy sources or energy efficiency improvements.,0 | |
| 9566758,"1. A product comprising a set of discrete units, the set of discrete units being reversibly assembled, or reversibly assemblable, into a structure, wherein: the units in the set are reversibly assembled, or are reversibly assemblable, into the structure according to a lattice geometry, wherein the units, when assembled according to the lattice geometry, together comprise a stretch-bend coupled material; a majority of the discrete units are each reversibly connected, or are reversibly connectable, to at least two other units in the set according to the lattice geometry; and wherein, in response to greater than minimal loading of the structure, a reversible deformation of at least part of the structure occurs.",0,high,"The claim does not mention any specific green technology or environmental benefit. It describes a product made of reversibly assembled units with a lattice geometry, which is not inherently related to green technology.",0 | |
| 9051209,"1. A glass-ceramic of the lithium aluminosilicate type, containing a β-quartz solid solution as the predominant crystalline phase and having for a thickness of 4 mm: an integrated optical transmission, T an optical transmission at 625 nm of more than 3.5%, an optical transmission at 950 nm between 40 and 70%, and an optical transmission at 1,600 nm between 50 and 75%, wherein its composition, expressed as percentages by weight of oxides, comprises:",0,low,,1 | |
| 9735942,"1. A method for wireless communications by a base station (BS), comprising: transmitting to a user equipment (UE), by the BS, on a first type of physical broadcast channel (PBCH) that has enhanced coverage relative to a second type of PBCH, wherein transmitting on the first type of PBCH comprises transmitting a PBCH and at least one repeated PBCH within a subframe, and wherein the first type of PBCH has a transmission time interval periodicity greater than 80 ms; transmitting on the second type of PBCH to the UE in the subframe, wherein the second type of PBCH is transmitted at a higher power spectral density (PSD) than a PSD for other downlink signals in the subframe; and transmitting on the second type of PBCH at a PSD that is not higher than a PSD for the other downlink transmission signals in a second subframe in which the first type of PBCH is not transmitted.",0,high,The claim does not mention any specific green technology or environmental benefit. It is focused on wireless communication methods and power spectral density adjustments.,1 | |
| 9095903,"1. A method comprising: providing a first composition that does not comprise polyvinylpyrrolidone, the first composition comprising at least one bromide ion; introducing into the first composition at least one first reducible metal ion and at least one first protecting agent; and reducing the at least one first reducible metal ion to at least one first metal nanowire ring.",0,high,"The claim does not mention any green technology or environmental benefits. It describes a method for producing metal nanowire rings, but does not indicate that this method is intended to be environmentally friendly or uses green technology.",0 | |
| 9838175,"1. A method for operating a user equipment (UE) in a wireless communication system, the method comprising: receiving, from an eNB, a specific subframe, the specific subframe including a physical downlink control channel (PDCCH) and a physical downlink shared channel (PDSCH), the PDCCH including downlink control information (DCI), wherein the DCI has a first predetermined length or a second predetermined second length, and the first predetermined length has an additional bit compared to the second predetermined length, and wherein each subframe for the UE is dynamically used as a normal subframe or a reduced power-almost blank subframe (r-ABS); dynamically selecting an eNB Tx power level from among a normal eNB Tx power level for the normal subframe and a reduced eNB Tx power level for the r-ABS, wherein the dynamically selecting comprises: demodulating the received PDSCH based on the selected Tx power level.",0,high,"This claim relates to wireless communication technology, specifically LTE (Long Term Evolution), and does not mention any green technology or environmental considerations.",0 | |
| 8566181,"1. A computer-implemented system of repair planning in a supply chain, the system comprising one or more memory units and one or more processing units collectively configured to: access an inventory plan representing the supply chain; access a replenishment requirement, the replenishment requirement existing at a controlling location in the supply chain; and generate a replenishment plan based on the replenishment requirement that meets the inventory plan for the supply chain, the replenishment plan comprising suggested repair orders generated according to one or more rules, wherein unserviceable parts in the supply chain are moved from locations in the supply chain to a repair vendor outside the supply chain and independent of control from the supply chain, repaired at the repair vendor, and moved from the repair vendor back to the supply chain to meet serviceable parts requirements at the locations in the supply chain according to the suggested repair orders, and wherein the suggested repair orders comprises a rule specifying logistics according to lane prioritization to move unserviceable parts and indicating start times to move the unserviceable parts from the supply chain for repair at the repair vendor at the latest possible time that allows the unserviceable parts to be moved from the supply chain to the repair vendor, repaired at the repair vendor, and moved from the repair vendor back to the supply chain in time to meet the serviceable parts requirements at the locations in the supply chain.",0,high,"The claim describes a computer system for managing a supply chain, specifically for generating repair plans and moving parts between locations. While the system may use energy-efficient hardware, the focus is on logistics and inventory management, not on producing or reducing greenhouse gas emissions. The claim does not mention any green technology or environmental benefits.",0 | |