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1,485,400 | The composition of claim 21 , wherein the ferrichrome or alpha-cyclodextrin comprises between 0.0001% and 30% of the composition. | 22 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.662902 | 0 | 0 | 0 | 0 | 219.376676 | none | (16144657, 22) | 0.535523 | 1 | 0.626474 | 0.617379 | 1 | 0.869479 | 0.626474 | 0.867768 | 0.743201 | test | 1.89286 | 424 | false |
1,485,401 | The composition of claim 21 , wherein the effective amount of sodium bicarbonate pyridoxal-5-phosphate, or arginine is between 0.0001% and 15% of the composition. | 23 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.660287 | 0 | 0 | 0 | 0 | 218.511194 | none | (16144657, 23) | 0.535606 | 1 | 0.626473 | 0.617387 | 1 | 0.733212 | 0.626473 | 0.870386 | 0.754523 | test | 1.89286 | 424 | false |
1,485,402 | The method of claim 19 , wherein the composition is formulated for topical administration to affect gram positive bacteria, fungus, Propionibacterium acnes , or Staphylococcus epidermidis on the skin of the mammal. | 26 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.673505 | 0 | 0 | 0 | 0 | 222.88543 | none | (16144657, 26) | 0.535187 | 1 | 0.626479 | 0.61735 | 1 | 0.852494 | 0.626479 | 0.865914 | 0.72197 | test | 1.89286 | 424 | false |
1,485,403 | The system according to claim 16 , wherein said electronic device is selected from the group consisting of a radiation transmitter, a radiation receiver, a radiation transceiver, a transistor, a diode, an electronic circuit, a camera and a processor. | 17 | 16,126,565 | Utility | 3 | ["700", "119000"] | 6 | 2018-09 | 2019-01 | 2 | A system of solid free form fabrication (SFF) is disclosed. The system comprises: receiving SFF data collectively pertaining to a three-dimensional shape of the object and comprising a plurality of slice data each defining a layer of the object. The system also comprises, for each of at least a few of the layers, dispensing a building material on a receiving medium, straightening the building material, and selectively ablating the building material according to respective slice data. | 97 | 1 | 1 | 1 | 1 | ['15704575', '13677376', '15227049', '13642903', '16335299'] | 281.06995 | 172.793054 | 44 | 0 | 11 | 0.649466 | 1 | 1 | 0 | 0 | 182.545353 | closed | (16126565, 17) | 0.507566 | 1 | 0.441634 | 0.448227 | 1 | 0.446628 | 0.441634 | 0.521163 | 0.459938 | test | 1.72 | 700 | false |
1,485,404 | The system according to any of claim 14 , wherein said foreign element is an electronic device, and said controller is configured for forming a conductive track in electrical contact with said electronic device. | 16 | 16,126,565 | Utility | 3 | ["700", "119000"] | 6 | 2018-09 | 2019-01 | 2 | A system of solid free form fabrication (SFF) is disclosed. The system comprises: receiving SFF data collectively pertaining to a three-dimensional shape of the object and comprising a plurality of slice data each defining a layer of the object. The system also comprises, for each of at least a few of the layers, dispensing a building material on a receiving medium, straightening the building material, and selectively ablating the building material according to respective slice data. | 97 | 1 | 1 | 1 | 1 | ['15704575', '13677376', '15227049', '13642903', '16335299'] | 281.06995 | 172.793054 | 44 | 0 | 11 | 0.622933 | 0 | 0 | 0 | 0 | 175.087823 | none | (16126565, 16) | 0.512287 | 1 | 0.40596 | 0.416593 | 1 | 0.516758 | 0.40596 | 0.585856 | 0.510855 | test | 1.72 | 700 | false |
1,485,405 | The system according to claim 14 , further comprising a robotic arm configured for placing said foreign element in said cavity. | 15 | 16,126,565 | Utility | 3 | ["700", "119000"] | 6 | 2018-09 | 2019-01 | 2 | A system of solid free form fabrication (SFF) is disclosed. The system comprises: receiving SFF data collectively pertaining to a three-dimensional shape of the object and comprising a plurality of slice data each defining a layer of the object. The system also comprises, for each of at least a few of the layers, dispensing a building material on a receiving medium, straightening the building material, and selectively ablating the building material according to respective slice data. | 97 | 1 | 1 | 1 | 1 | ['15704575', '13677376', '15227049', '13642903', '16335299'] | 281.06995 | 172.793054 | 44 | 0 | 11 | 0.657103 | 1 | 0 | 1 | 0 | 184.691925 | open | (16126565, 15) | 0.507579 | 1 | 0.378061 | 0.391013 | 1 | 0.582256 | 0.378061 | 0.583313 | 0.511291 | test | 1.72 | 700 | false |
1,485,406 | The system according to any of claim 1 , wherein said controller is configured for ablating a cavity in at least one of said layers, to allow placing a foreign element in said cavity. | 14 | 16,126,565 | Utility | 3 | ["700", "119000"] | 6 | 2018-09 | 2019-01 | 2 | A system of solid free form fabrication (SFF) is disclosed. The system comprises: receiving SFF data collectively pertaining to a three-dimensional shape of the object and comprising a plurality of slice data each defining a layer of the object. The system also comprises, for each of at least a few of the layers, dispensing a building material on a receiving medium, straightening the building material, and selectively ablating the building material according to respective slice data. | 97 | 1 | 1 | 1 | 1 | ['15704575', '13677376', '15227049', '13642903', '16335299'] | 281.06995 | 172.793054 | 44 | 0 | 11 | 0.559803 | 0 | 0 | 0 | 0 | 157.343804 | none | (16126565, 14) | 0.516739 | 1 | 0.405164 | 0.416321 | 1 | 0.459177 | 0.405164 | 0.437077 | 0.436941 | test | 1.72 | 700 | false |
1,485,407 | The system according to any of claim 1 , further comprising a drying system for at least partially removing solvent from said building material, prior to said straightening. | 13 | 16,126,565 | Utility | 3 | ["700", "119000"] | 6 | 2018-09 | 2019-01 | 2 | A system of solid free form fabrication (SFF) is disclosed. The system comprises: receiving SFF data collectively pertaining to a three-dimensional shape of the object and comprising a plurality of slice data each defining a layer of the object. The system also comprises, for each of at least a few of the layers, dispensing a building material on a receiving medium, straightening the building material, and selectively ablating the building material according to respective slice data. | 97 | 1 | 1 | 1 | 1 | ['15704575', '13677376', '15227049', '13642903', '16335299'] | 281.06995 | 172.793054 | 44 | 0 | 11 | 0.467502 | 1 | 0 | 1 | 0 | 131.400721 | open | (16126565, 13) | 0.520949 | 1 | 0.375732 | 0.390253 | 1 | 0.422633 | 0.375732 | 0.460855 | 0.51628 | test | 1.72 | 700 | false |
1,485,408 | The system according to any of claim 1 , wherein said ablation system comprises a Computer Numeric Controlled (CNC) system. | 12 | 16,126,565 | Utility | 3 | ["700", "119000"] | 6 | 2018-09 | 2019-01 | 2 | A system of solid free form fabrication (SFF) is disclosed. The system comprises: receiving SFF data collectively pertaining to a three-dimensional shape of the object and comprising a plurality of slice data each defining a layer of the object. The system also comprises, for each of at least a few of the layers, dispensing a building material on a receiving medium, straightening the building material, and selectively ablating the building material according to respective slice data. | 97 | 1 | 1 | 0 | 1 | ['15704575', '13677376', '15227049', '13642903', '16335299'] | 281.06995 | 172.793054 | 44 | 0 | 11 | 0.606254 | 0 | 0 | 0 | 0 | 170.399659 | none | (16126565, 12) | 0.513463 | 1 | 0.40575 | 0.416521 | 1 | 0.448751 | 0.40575 | 0.44114 | 0.372356 | test | 1.72 | 700 | false |
1,485,409 | A battery module comprising:\n an array formed by arranging a plurality of battery cells; an elastic body disposed with respect to the array; a restraining member configured to restrain the array via the elastic body in an arranging direction of the battery cells; a plurality of harnesses configured to extend in the arranging direction and have connecting terminals of tips thereof connected to electrode terminals of the predetermined battery cells; and a binding member configured to bind the plurality of harnesses into a harness bundle, wherein a binding position of the harnesses which is caused by the binding member is located at a side opposite to the elastic body relative to a connecting position between the electrode terminal and the connecting terminal, and the harness that branches off from the binding member has a flexure between the binding position of the harnesses which is caused by the binding member and the connecting position between the electrode terminal and the connecting terminal. | 1 | 16,083,154 | Utility | 1 | ["429", "099000"] | 0 | 2018-09 | 2019-03 | 9 | Provided is a battery module, which includes an array for battery cells; an elastic body disposed with respect to the array, a restraining member that restrains the array via the elastic body in an arranging direction of the battery cells, a plurality of harnesses that extend in the arranging direction and have connecting terminals of tips thereof connected to electrode terminals of the predetermined battery cells, and a binding member that binds the plurality of harnesses into a harness bundle. A binding position of the harnesses which is caused by the binding member is located at a side opposite to the elastic body relative to a connecting position between the electrode terminal and the connecting terminal, and the harness that branches off from the binding member has a flexure between the binding position and the connecting position. | 97 | 1 | 1 | 1 | 1 | ['15511539', '15525191', '15505843', '15506808', '15542842'] | 365.14755 | 213.714156 | 27 | 0 | 6 | 0.945342 | 1 | 0 | 1 | 0 | 345.189491 | open | (16083154, 1) | 0.525897 | 1 | 0.859477 | 0.826119 | 1 | 0.346748 | 0.859477 | 0.195635 | 0.280877 | test | 2.30159 | 429 | true |
1,485,410 | The fuel module system of claim 13 , further comprising a containment vessel that collects and stores the flow of the material through the second filter. | 14 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 1 | 0 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.619182 | 1 | 0 | 1 | 0 | 119.232094 | open | (16136646, 14) | 0.485123 | 1 | 0.72831 | 0.703991 | 1 | 0.494733 | 0.72831 | 0.594483 | 0.491479 | test | 2.32653 | 123 | false |
1,485,411 | The battery module according to claim 1 , wherein:\n the elastic body is disposed between the battery cells in the array; and the plurality of harnesses are led from one arrangement end and the other arrangement end of the array for the battery cells toward the elastic body. | 3 | 16,083,154 | Utility | 1 | ["429", "099000"] | 0 | 2018-09 | 2019-03 | 9 | Provided is a battery module, which includes an array for battery cells; an elastic body disposed with respect to the array, a restraining member that restrains the array via the elastic body in an arranging direction of the battery cells, a plurality of harnesses that extend in the arranging direction and have connecting terminals of tips thereof connected to electrode terminals of the predetermined battery cells, and a binding member that binds the plurality of harnesses into a harness bundle. A binding position of the harnesses which is caused by the binding member is located at a side opposite to the elastic body relative to a connecting position between the electrode terminal and the connecting terminal, and the harness that branches off from the binding member has a flexure between the binding position and the connecting position. | 97 | 1 | 1 | 1 | 1 | ['15511539', '15525191', '15505843', '15506808', '15542842'] | 365.14755 | 213.714156 | 27 | 0 | 6 | 0.844369 | 0 | 0 | 0 | 0 | 308.319444 | none | (16083154, 3) | 0.528717 | 1 | 0.873594 | 0.839106 | 1 | 0.515604 | 0.873594 | 0.383876 | 0.4767 | test | 2.30159 | 429 | true |
1,485,412 | The fuel module system of claim 1 , further comprising a purge component that activates a flow of the material through the second filter to cleanse and remove debris therefrom and restrains passage of the material to the outlet. | 13 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 1 | 0 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.665976 | 1 | 0 | 1 | 0 | 128.242959 | open | (16136646, 13) | 0.478612 | 1 | 0.729619 | 0.704518 | 1 | 0.474391 | 0.729619 | 0.43735 | 0.47676 | test | 2.32653 | 123 | false |
1,485,413 | The method of claim 19 , wherein said method is repeated on a daily, a monthly, quarterly or annual basis. | 20 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.472365 | 0 | 0 | 0 | 0 | 156.321458 | none | (16144657, 20) | 0.541553 | 1 | 0.626384 | 0.617901 | 1 | 0.646087 | 0.626384 | 0.733947 | 0.535883 | test | 1.89286 | 424 | false |
1,485,414 | The fuel module system of claim 1 , wherein the portion of the engine is a combustion chamber. | 2 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.782328 | 0 | 0 | 0 | 0 | 150.648031 | none | (16136646, 2) | 0.464743 | 0 | 0.755478 | 0.726404 | 1 | 0.26429 | 0.755478 | 0.376117 | 0.327682 | test | 2.32653 | 123 | false |
1,485,415 | The fuel module system of claim 1 , further comprising a first sensor that is configured to detect a first pressure reading for the compressed gas in the container, wherein the first pressure reading is utilized to ascertain an adjustment to the first pressure by the regulator. | 3 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.788339 | 1 | 0 | 1 | 0 | 151.80558 | open | (16136646, 3) | 0.461625 | 0 | 0.733023 | 0.705883 | 1 | 0.474853 | 0.733023 | 0.42623 | 0.445617 | test | 2.32653 | 123 | false |
1,485,416 | The fuel module system of claim 3 , further comprising a second sensor that is configured to detect a second pressure reading for the compressed gas after receipt into the inlet, wherein the second pressure reading is utilized to ascertain an adjustment to the first pressure by the regulator. | 4 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 1 | 0 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.71039 | 1 | 0 | 1 | 0 | 136.795381 | open | (16136646, 4) | 0.472438 | 1 | 0.730857 | 0.705015 | 1 | 0.578064 | 0.730857 | 0.572554 | 0.551622 | test | 2.32653 | 123 | false |
1,485,417 | The fuel module system of claim 4 , further comprising a third sensor that is configured to detect a third pressure reading for the compressed gas after the regulator adjusts the compressed gas from the first pressure to the second pressure, wherein the third pressure reading is utilized to ascertain an adjustment to a pressure by the regulator for a subsequent portion of material being processed by the fuel module system. | 5 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 1 | 0 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.687714 | 1 | 0 | 1 | 0 | 132.428772 | open | (16136646, 5) | 0.475589 | 1 | 0.730225 | 0.704762 | 1 | 0.727207 | 0.730225 | 0.63447 | 0.582804 | test | 2.32653 | 123 | false |
1,485,418 | The fuel module system of claim 5 , further comprising a fourth sensor that is configured to detect a fourth pressure reading for the compressed gas after deliver from the outlet, wherein the fourth pressure reading is utilized to ascertain an adjustment to a pressure by the regulator for a subsequent portion of material being processed by the fuel module system. | 6 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 1 | 0 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.702313 | 1 | 0 | 1 | 0 | 135.240119 | open | (16136646, 6) | 0.47356 | 1 | 0.730632 | 0.704925 | 1 | 0.686586 | 0.730632 | 0.640567 | 0.605584 | test | 2.32653 | 123 | false |
1,485,419 | The fuel module system of claim 1 , further comprising a temperature sensor that is further configured to detect a first temperature reading for the compressed gas in the fuel module system, wherein the first temperature reading is utilized to adjust the first temperature to a second temperature and the second temperature is a within a predefined range of values for the engine based on a size of the engine and a number of pistons of the engine. | 7 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.713246 | 1 | 0 | 1 | 0 | 137.345427 | open | (16136646, 7) | 0.472041 | 0 | 0.730937 | 0.705047 | 1 | 0.542496 | 0.730937 | 0.49182 | 0.634933 | test | 2.32653 | 123 | false |
1,485,420 | The fuel module system of claim 7 , further comprising one or more lines that cycle a portion of liquid through a body surrounding a portion of the gas path to adjust the compressed gas from the first temperature to the second temperature. | 8 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.713644 | 1 | 0 | 1 | 0 | 137.421971 | open | (16136646, 8) | 0.471986 | 0 | 0.730948 | 0.705052 | 1 | 0.507577 | 0.730948 | 0.588006 | 0.51578 | test | 2.32653 | 123 | false |
1,485,421 | The fuel module system of claim 1 , further comprising a flow rate sensor that is further configured to detect a first flow rate reading for the compressed gas in the fuel module system, wherein the first flow rate reading is utilized to adjust the first flow rate to a second flow rate with the regulator and the second flow rate is a within a predefined range of values for the engine based on a size of the engine and a number of pistons of the engine. | 9 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 1 | 0 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.768983 | 1 | 0 | 1 | 0 | 148.078336 | open | (16136646, 9) | 0.464307 | 1 | 0.732486 | 0.705668 | 1 | 0.503082 | 0.732486 | 0.457808 | 0.517812 | test | 2.32653 | 123 | false |
1,485,422 | The fuel module system of claim 1 , further comprising:\n a first sectional module that includes the first filter, the regulator, the inlet, and a first portion of the gas path; a second sectional module that includes the second filter, a second portion of the gas path, and the outlet, wherein the first portion of the gas path and the second portion of the gas path are in fluid communication with one another; and the first sectional module and the second module are removeably coupled. | 10 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.757374 | 1 | 0 | 1 | 0 | 145.84279 | open | (16136646, 10) | 0.465917 | 0 | 0.732164 | 0.705539 | 1 | 0.471997 | 0.732164 | 0.443885 | 0.440828 | test | 2.32653 | 123 | false |
1,485,423 | The fuel module system of claim 1 , wherein the first filter removes contaminants for the first pressure that is above 3100 psi. | 11 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.692861 | 0 | 0 | 0 | 0 | 133.419894 | none | (16136646, 11) | 0.477166 | 0 | 0.75313 | 0.725534 | 1 | 0.680828 | 0.75313 | 0.588047 | 0.600119 | test | 2.32653 | 123 | false |
1,485,424 | The composition of claim 1 , wherein the concentration of base is between 0.0001% and 15% of the composition. | 9 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.887884 | 0 | 0 | 0 | 0 | 293.830778 | none | (16144657, 9) | 0.52839 | 1 | 0.626581 | 0.616762 | 1 | 0.617736 | 0.626581 | 0.709184 | 0.470128 | test | 1.89286 | 424 | false |
1,485,425 | The composition of claim 1 , further comprising an enhancer. | 10 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.887127 | 1 | 0 | 1 | 0 | 293.580051 | open | (16144657, 10) | 0.526123 | 1 | 0.598374 | 0.591149 | 1 | 0.501634 | 0.598374 | 0.536846 | 0.506389 | test | 1.89286 | 424 | false |
1,485,426 | The composition of claim 1 , wherein the enhancer is proline, phenylalanine, or omeprazole and the concentration is between 0.0001% and 10% of the composition. | 11 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 0 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.794978 | 0 | 0 | 0 | 0 | 263.085045 | none | (16144657, 11) | 0.531337 | 1 | 0.626537 | 0.617017 | 1 | 0.565004 | 0.626537 | 0.653806 | 0.467917 | test | 1.89286 | 424 | false |
1,485,427 | The composition of claim 1 , wherein the composition is for use on a dermal surface. | 12 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.616539 | 0 | 0 | 0 | 0 | 204.033368 | none | (16144657, 12) | 0.536992 | 1 | 0.626452 | 0.617506 | 1 | 0.512987 | 0.626452 | 0.50312 | 0.397487 | test | 1.89286 | 424 | false |
1,485,428 | The composition of claim 1 , wherein the base comprises sodium bicarbonate, arginine, or pyridoxal-5-phosphate and the chelator comprises alpha-cyclodextrin. | 13 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.743589 | 0 | 0 | 0 | 0 | 246.078431 | none | (16144657, 13) | 0.532967 | 1 | 0.626513 | 0.617158 | 1 | 0.576323 | 0.626513 | 0.747733 | 0.534725 | test | 1.89286 | 424 | false |
1,485,429 | The composition of claim 1 , wherein the composition is formulated in a cr\u00e9me, gel, lotion, spray, solution patch, solution, or suspension. | 14 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.706622 | 0 | 0 | 0 | 0 | 233.844995 | none | (16144657, 14) | 0.534138 | 1 | 0.626495 | 0.61726 | 1 | 0.54165 | 0.626495 | 0.579435 | 0.454792 | test | 1.89286 | 424 | false |
1,485,430 | A method of promoting and maintaining health in a mammal comprising administering the composition of claim 1 to the mammal, wherein the composition is used to promote skin health, to promote wound care, or to treat or prevent infection, psoriasis, or acne. | 19 | 16,144,657 | Utility | 4 | ["424", "054000"] | -1 | 2018-09 | 2019-08 | 50 | The present invention relates to non-toxic consumable compositions and formulations comprising chelator and base having synergistic effects on microbial metabolism and/or growth and/or pathogenic effectors and their use to promote and maintain health in mammals. The current invention also relates to non-toxic consumable compositions comprising more than one chelator and/or more than one base. The present invention further relates to methods for selecting said chelator and base composition and methods for detecting conditions in which selected compositions may be used. The present invention relates to the synergistic compositions and methods of their use for maintaining health, promoting health and treating diseases. | 97 | 1 | 1 | 0 | 1 | ['14775959', '14654525', '15066557', '13866722', '12288449'] | 330.93356 | 202.03758 | 358 | 23 | 298 | 0.63289 | 1 | 0 | 1 | 0 | 209.444635 | open | (16144657, 19) | 0.534187 | 1 | 0.59825 | 0.591844 | 1 | 0.789213 | 0.59825 | 0.774402 | 0.745485 | test | 1.89286 | 424 | false |
1,485,431 | The fuel module system of claim 1 , wherein the first filter removes contaminants for the second pressure that is below 100 psi. | 12 | 16,136,646 | Utility | 1 | ["123", "527000"] | 2 | 2018-09 | 2019-03 | 2 | A fuel module system is provided. The fuel module system can be mounted on a chassis of a vehicle and deliver a material from a container to an engine at a regulated pressure and a target temperature for optimization of the vehicle. The flow of material can be from the one or more containers to the fuel module system and then to a portion of the engine, wherein the material housed within the one or more containers has a first temperature, a first pressure, and a first flow rate and at the delivery to the portion of engine, the material is adjusted by the fuel module system. | 97 | 1 | 0 | 1 | 1 | ['13632256', '10837077', '14085369', '14148104', '13835989'] | 192.5638 | 181.837332 | 88 | 1 | 1 | 0.784926 | 0 | 0 | 0 | 0 | 151.148402 | none | (16136646, 12) | 0.464383 | 0 | 0.755546 | 0.726429 | 1 | 0.662917 | 0.755546 | 0.566845 | 0.610179 | test | 2.32653 | 123 | false |
1,485,432 | A method for inducing melanocyte apoptosis in a subject comprising: contacting the subject with a compound having the structure of formula (III): wherein:\n R1, R2, R3, R4, R5, R6, R7, R8, R9, and R10 are independently selected from the group consisting of hydrogen and methyl; \n or a crystalline form, hydrate, or cosmetically or pharmaceutically acceptable salt thereof. | 23 | 16,121,353 | Utility | 2 | ["514", "414000"] | -1 | 2018-09 | 2018-12 | 24 | The present invention relates to compounds, compositions, and methods for brightening skin. The compounds, compositions, and methods of the present invention generally involve compounds produced by a Malassezia yeast, and chemical analogs thereof. In addition to skin brightening applications, the compounds, compositions, and methods of the present invention may be used to modulate melanocyte activity, induce melanocyte apoptosis, agonize an arylhydrocarbon receptor (AhR), improve hyperpigmentation caused by a hyperpigmentation disorder, and modulate melanin production, melanosome biogenesis, and melanosome transfer. | 97 | 1 | 1 | 1 | 1 | ['15455932', '14112631', '11349339', '14540140', '15974190'] | 893.2351 | 459.949268 | 34 | 2 | 33 | 0.965509 | 1 | 1 | 1 | 0 | 862.426206 | open | (16121353, 23) | 0.761053 | 1 | 0.726745 | 0.730175 | 1 | 0.846478 | 0.726745 | 0.684178 | 0.638956 | test | 1.84906 | 514 | false |
1,485,433 | The apparatus of claim 13 , wherein the processor circuit is configured for executing at least the substitute of the network service based on:\n obtaining an executable resource for execution of at least the substitute of the network service for the one or more identified endpoint devices; and activating the execution of at least the substitute of the network service in response to detecting the unavailability of the network service via the wide area network connection, including sending a notification to the one or more identified endpoint devices of the activating. | 14 | 16,135,121 | Utility | 1 | ["709", "224000"] | -1 | 2018-09 | 2019-01 | 48 | In one embodiment, a method comprises detecting, by an access network computing node, a network service provided by a service provider for one or more identified endpoint devices via a wide area network connection, the access network computing node within an access network providing connections for the one or more identified endpoint devices to access the network service via the wide area network connection; detecting an unavailability of the network service via the wide area network connection; and supplying, by the access network computing node, at least a substitute of the network service for the one or more identified endpoint devices in response to the detected unavailability of the network service via the wide area network connection. | 97 | 1 | 1 | 0 | 1 | ['14192999', '14034325', '13802619', '14499687', '14103628'] | 288.84488 | 170.141952 | 66 | 0 | 10 | 0.899752 | 0 | 0 | 0 | 0 | 259.888747 | none | (16135121, 14) | 0.504005 | 1 | 0.237102 | 0.263792 | 1 | 0.646826 | 0.237102 | 0.646412 | 0.54619 | test | 2.86364 | 709 | false |
1,485,434 | The apparatus of claim 10 , wherein the network interface circuit is configured for detecting the network service based on at least one of:\n detecting associated network traffic between the one or more identified endpoint devices and the service provider via the wide area network connection; or receiving, from the one or more identified endpoint devices, a registration that specifies the corresponding identified endpoint device is configured for accessing the network service. | 12 | 16,135,121 | Utility | 1 | ["709", "224000"] | -1 | 2018-09 | 2019-01 | 48 | In one embodiment, a method comprises detecting, by an access network computing node, a network service provided by a service provider for one or more identified endpoint devices via a wide area network connection, the access network computing node within an access network providing connections for the one or more identified endpoint devices to access the network service via the wide area network connection; detecting an unavailability of the network service via the wide area network connection; and supplying, by the access network computing node, at least a substitute of the network service for the one or more identified endpoint devices in response to the detected unavailability of the network service via the wide area network connection. | 97 | 1 | 1 | 0 | 1 | ['14192999', '14034325', '13802619', '14499687', '14103628'] | 288.84488 | 170.141952 | 66 | 0 | 10 | 0.853471 | 0 | 0 | 0 | 0 | 246.520671 | none | (16135121, 12) | 0.506991 | 1 | 0.23673 | 0.263756 | 1 | 0.496442 | 0.23673 | 0.600205 | 0.550741 | test | 2.86364 | 709 | false |
1,485,435 | The UE according to claim 12 ,\n wherein the SDU type field discriminates at least whether at least the data of the SDU is of Internet protocol (IP) type for V2X, IP type for non-V2X, non-IP type for V2X or non-IP type for non-V2X. | 13 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.565156 | 0 | 0 | 0 | 0 | 200.951651 | none | (16087473, 13) | 0.531207 | 0 | 0.754793 | 0.732435 | 0 | 0.922602 | 0.754793 | 0.591803 | 0.654311 | test | 2.15 | 455 | false |
1,485,436 | A user equipment (UE) for transmitting a data unit in a wireless communication system, the UE comprising:\n a radio frequency (RF) unit, and a processor configured to control the RF unit, the processor configured to: generate a protocol data unit (PDU) including a service data unit (SDU) containing vehicle-to-everything (V2X) data generated at an upper layer; and control the RF unit to transmit the PDU, wherein the PDU includes an SDU type field set to a value indicating that the SDU is of a V2X type and an additional field indicating an application or protocol type corresponding to data of the SDU. | 12 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.728824 | 1 | 0 | 1 | 0 | 259.146833 | open | (16087473, 12) | 0.526846 | 0 | 0.731397 | 0.710942 | 0 | 0.592414 | 0.731397 | 0.448898 | 0.417372 | test | 2.15 | 455 | false |
1,485,437 | The method according to claim 9 ,\n wherein the upper layer is an intelligent transport systems (ITS) layer. | 11 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.61691 | 0 | 0 | 0 | 0 | 219.353864 | none | (16087473, 11) | 0.530552 | 0 | 0.754574 | 0.732172 | 0 | 0.60826 | 0.754574 | 0.625763 | 0.560236 | test | 2.15 | 455 | false |
1,485,438 | The method according to claim 9 ,\n wherein the SDU type field discriminates at least whether at least the data of the SDU is of Internet protocol (IP) type for V2X, IP type for non-V2X, non-IP type for V2X or non-IP type for non-V2X. | 10 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.541354 | 0 | 0 | 0 | 0 | 192.488227 | none | (16087473, 10) | 0.531508 | 0 | 0.754894 | 0.732555 | 0 | 0.931189 | 0.754894 | 0.669957 | 0.690756 | test | 2.15 | 455 | false |
1,485,439 | A method of transmitting a data unit by a user equipment (UE) in a wireless communication system, the method comprising:\n generating a protocol data unit (PDU) including a service data unit (SDU) containing vehicle-to-everything (V2X) data generated at an upper layer; and transmitting the PDU, wherein the PDU includes an SDU type field set to a value indicating that the SDU is of a V2X type and an additional field indicating an application or protocol type corresponding to data of the SDU. | 9 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.727527 | 1 | 0 | 1 | 0 | 258.685746 | open | (16087473, 9) | 0.526862 | 0 | 0.731403 | 0.710949 | 0 | 0.640364 | 0.731403 | 0.285993 | 0.389874 | test | 2.15 | 455 | false |
1,485,440 | The UE according to claim 5 ,\n wherein the upper layer is an intelligent transport systems (ITS) layer. | 8 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.592352 | 0 | 0 | 0 | 0 | 210.621622 | none | (16087473, 8) | 0.530863 | 0 | 0.754678 | 0.732297 | 0 | 0.635664 | 0.754678 | 0.624845 | 0.503988 | test | 2.15 | 455 | false |
1,485,441 | The UE according to claim 5 ,\n wherein the processor transfers the SDU to the upper layer when the UE supports the application or protocol type and deletes the SDU when the UE does not support the application or protocol type. | 7 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.544299 | 0 | 0 | 0 | 0 | 193.535654 | none | (16087473, 7) | 0.531471 | 0 | 0.754881 | 0.73254 | 0 | 0.884143 | 0.754881 | 0.580199 | 0.69338 | test | 2.15 | 455 | false |
1,485,442 | The UE according to claim 12 ,\n wherein the upper layer is an intelligent transport systems (ITS) layer. | 14 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.578601 | 0 | 0 | 0 | 0 | 205.732212 | none | (16087473, 14) | 0.531037 | 0 | 0.754736 | 0.732366 | 0 | 0.614424 | 0.754736 | 0.605018 | 0.498397 | test | 2.15 | 455 | false |
1,485,443 | The UE according to claim 5 ,\n wherein the SDU type field discriminates at least whether at least the data of the SDU is of Internet protocol (IP) type for V2X, IP type for non-V2X, non-IP type for V2X or non-IP type for non-V2X. | 6 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.595679 | 0 | 0 | 0 | 0 | 211.804518 | none | (16087473, 6) | 0.530821 | 0 | 0.754664 | 0.73228 | 0 | 0.930101 | 0.754664 | 0.622914 | 0.657715 | test | 2.15 | 455 | false |
1,485,444 | The method according to claim 1 ,\n wherein the upper layer is an intelligent transport systems (ITS) layer. | 4 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.595333 | 0 | 0 | 0 | 0 | 211.68168 | none | (16087473, 4) | 0.530825 | 0 | 0.754666 | 0.732282 | 0 | 0.498586 | 0.754666 | 0.49567 | 0.467168 | test | 2.15 | 455 | false |
1,485,445 | The method according to claim 1 ,\n wherein the SDU is transferred to the upper layer when the UE supports the application or protocol type and is deleted when the UE does not support the application or protocol type. | 3 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.56505 | 0 | 0 | 0 | 0 | 200.913842 | none | (16087473, 3) | 0.531208 | 0 | 0.754794 | 0.732435 | 0 | 0.780323 | 0.754794 | 0.563594 | 0.558908 | test | 2.15 | 455 | false |
1,485,446 | The method according to claim 1 ,\n wherein the SDU type field discriminates at least whether the data of the SDU is of Internet protocol (IP) type for V2X, IP type for non-V2X, non-IP type for V2X or non-IP type for non-V2X. | 2 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.60208 | 0 | 0 | 0 | 0 | 214.080448 | none | (16087473, 2) | 0.53074 | 0 | 0.754637 | 0.732247 | 0 | 0.895163 | 0.754637 | 0.579494 | 0.594599 | test | 2.15 | 455 | false |
1,485,447 | A method of receiving a data unit by a user equipment (UE) in a wireless communication system, the method comprising:\n receiving a protocol data unit (PDU); and transferring a service data unit (SDU) included in the PDU to an upper layer or deleting the SDU based on an additional field in the PDU when an SDU type field in the PDU is set to a value indicating a vehicle-to-everything (V2X) type, wherein the additional field indicates an application or protocol type corresponding to data of the SDU. | 1 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.653284 | 1 | 0 | 1 | 0 | 232.287257 | open | (16087473, 1) | 0.527802 | 0 | 0.731736 | 0.711342 | 0 | 0.604676 | 0.731736 | 0.243112 | 0.361456 | test | 2.15 | 455 | false |
1,485,448 | A non-transitory computer-readable medium storing instructions that, when executed by at least one processor of a machine, cause the machine to perform operations comprising:\n for an image frame of a sequence of image frames:\n extracting, utilizing a neurosynaptic core circuit comprising a plurality of electronic synapse devices interconnecting a plurality of electronic neurons to a plurality of electronic axons, one or more features from the image frame; \n determining a quantity and a frequency of neural spikes to generate based on a temporal coding scheme; and \n generating one or more neural spikes based on the quantity and the frequency determined, wherein the one or more neural spikes encode the one or more features extracted. | 19 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.783618 | 1 | 0 | 1 | 0 | 292.125771 | open | (16147106, 19) | 0.53259 | 1 | 0.41083 | 0.423006 | 1 | 0.119632 | 0.41083 | 0.44261 | 0.390344 | test | 1.87179 | 382 | false |
1,485,449 | The system of claim 10 , wherein the one or more features extracted comprise one or more discriminative features. | 18 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.750934 | 0 | 0 | 0 | 0 | 279.94141 | none | (16147106, 18) | 0.534855 | 1 | 0.440203 | 0.449668 | 1 | 0.578863 | 0.440203 | 0.540972 | 0.517934 | test | 1.87179 | 382 | false |
1,485,450 | The system of claim 10 , wherein the one or more features extracted comprise one or more salient features. | 17 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.748498 | 0 | 0 | 0 | 0 | 279.033453 | none | (16147106, 17) | 0.534853 | 1 | 0.440227 | 0.44969 | 1 | 0.633075 | 0.440227 | 0.516574 | 0.35306 | test | 1.87179 | 382 | false |
1,485,451 | A user equipment (UE) for receiving a data unit in a wireless communication system, the UE comprising:\n a radio frequency (RF) unit, and a processor configured to control the RF unit, the processor configured to: control the RF unit to receive a protocol data unit (PDU); and transfer a service data unit (SDU) included in the PDU to an upper layer or delete the SDU based on an additional field in the PDU when an SDU type field in the PDU is set to a value indicating a vehicle-to-everything (V2X) type, and wherein the additional field indicates an application or protocol type corresponding to data of the SDU. | 5 | 16,087,473 | Utility | 4 | ["455", "422100"] | 2 | 2018-09 | 2019-04 | 32 | A user equipment (UE) may receive or transmit a protocol data unit (PDU). The PDU includes a service data unit (SDU) type field. The SDU type field may be set to a value indicating a vehicle-to-everything (V2X) type. When the SDU type field is set to a value indicating a V2X type, the PDU may include an additional field indicating an application or protocol type for data of an SDU in the PDU. | 97 | 0 | 0 | 1 | 0 | ['15739977', '15752876', '15475859', '14816968', '15121308'] | 355.5684 | 307.278936 | 24 | 0 | 4 | 0.66115 | 1 | 0 | 1 | 0 | 235.084167 | open | (16087473, 5) | 0.527702 | 0 | 0.731701 | 0.711301 | 0 | 0.583145 | 0.731701 | 0.335079 | 0.42653 | test | 2.15 | 455 | false |
1,485,452 | The method of manufacturing a laminated substrate according to claim 2 ,\n wherein the semi-sintered state is a state in which at least a portion of the low melting point metal remains unalloyed and a plurality of particles of the high melting point metal is connected by the low melting point metal. | 3 | 16,130,485 | Utility | 0 | ["174", "262000"] | -1 | 2018-09 | 2019-04 | 3 | A laminated substrate includes: a first substrate; a second substrate having a through-hole; a third substrate; a first adhesive layer bonding a rear surface of the first substrate and a front surface of the second substrate; a second adhesive layer bonding a rear surface of the second substrate and a front surface of the third substrate; a first post penetrating through the first adhesive layer, electrically connecting the first substrate to the second substrate, and made of an alloy of a high melting point metal and a low melting point metal; a second post penetrating through the second adhesive layer, electrically connecting the second substrate to the third substrate, and made of an alloy of the high melting point metal and the low melting point metal; and an electronic component fixed to the front surface of the third substrate and disposed in the through-hole of the second substrate. | 97 | 1 | 1 | 1 | 1 | ['13710805', '13818514', '12558527', '11003769', '13143490'] | 152.78165 | 146.437176 | 69 | 53 | 3 | 0.684641 | 0 | 0 | 0 | 0 | 104.600573 | none | (16130485, 3) | 0.484254 | 1 | 0.812496 | 0.779672 | 1 | 0.86064 | 0.812496 | 0.747008 | 0.736515 | test | 3.83333 | 174 | true |
1,485,453 | A method of manufacturing a laminated substrate, the method comprising:\n preparing a first adhesive sheet having a first through-hole; preparing a second adhesive sheet having a second through-hole and a third through-hole; preparing a second substrate having a fourth through-hole; forming a first post by applying a conductive paste, in which a high melting point metal and a low melting point metal are mixed, to a rear surface of a first substrate or a front surface of the second substrate and heating the applied conductive paste to enter a semi-sintered state; forming a second post by applying the conductive paste, in which the high melting point metal and the low melting point metal are mixed, to a rear surface of the second substrate or a front surface of a third substrate and heating the applied conductive paste to enter a semi-sintered state; fixing an electronic component to the front surface of the third substrate; and after the forming of the first post, the forming of the second post, and the fixing of the electronic component to the front surface of the third substrate, bonding the first substrate, the second substrate, and the third substrate by laminating the first substrate, the second substrate, and the third substrate in a state in which the first adhesive sheet is disposed between the rear surface of the first substrate and the front surface of the second substrate and the second adhesive sheet is disposed between the rear surface of the second substrate and the front surface of the third substrate, and pressing and heating the first substrate, the second substrate, and the third substrate in a lamination direction, wherein during the bonding, the first post is disposed in the first through-hole to electrically connect the first substrate to the second substrate by the first post, the second post is disposed in the second through-hole to electrically connect the second substrate to the third substrate by the second post, and the electronic component is disposed in the third through-hole and the fourth through-hole. | 2 | 16,130,485 | Utility | 0 | ["174", "262000"] | -1 | 2018-09 | 2019-04 | 3 | A laminated substrate includes: a first substrate; a second substrate having a through-hole; a third substrate; a first adhesive layer bonding a rear surface of the first substrate and a front surface of the second substrate; a second adhesive layer bonding a rear surface of the second substrate and a front surface of the third substrate; a first post penetrating through the first adhesive layer, electrically connecting the first substrate to the second substrate, and made of an alloy of a high melting point metal and a low melting point metal; a second post penetrating through the second adhesive layer, electrically connecting the second substrate to the third substrate, and made of an alloy of the high melting point metal and the low melting point metal; and an electronic component fixed to the front surface of the third substrate and disposed in the through-hole of the second substrate. | 97 | 1 | 1 | 0 | 1 | ['13710805', '13818514', '12558527', '11003769', '13143490'] | 152.78165 | 146.437176 | 69 | 53 | 3 | 0.756781 | 1 | 0 | 1 | 0 | 115.622247 | open | (16130485, 2) | 0.469707 | 1 | 0.795847 | 0.763233 | 1 | 0.836404 | 0.795847 | 0.766993 | 0.740788 | test | 3.83333 | 174 | true |
1,485,454 | A method, comprising:\n obtaining a stream of data comprising a record of software installations on a plurality of client devices, at least a portion of the software installations having been derived from user exposure to content provided on the client devices by a plurality of publishers; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that at least one of the client devices was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher in the plurality of publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 1 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 0 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.691152 | 1 | 0 | 1 | 0 | 114.293306 | open | (16142524, 1) | 0.478071 | 1 | 0.251894 | 0.274512 | 1 | 0.904262 | 0.251894 | 0.804694 | 0.879249 | test | 2.25714 | 726 | false |
1,485,455 | The system of claim 11 , wherein facilitating the adjustment comprises preventing at least one publisher from presenting content on the client devices. | 18 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.699734 | 0 | 0 | 0 | 0 | 115.712539 | none | (16142524, 18) | 0.478991 | 1 | 0.275239 | 0.295614 | 1 | 0.238978 | 0.275239 | 0.349294 | 0.263572 | test | 2.25714 | 726 | false |
1,485,456 | The system of claim 16 , wherein processing each batch record further comprises:\n processing the first record, the second record, and the third record using respective collections of detection algorithms,\n wherein each collection of detection algorithms is configured to detect a distinct set of anomalies. | 17 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.642678 | 0 | 0 | 0 | 0 | 106.277325 | none | (16142524, 17) | 0.488136 | 1 | 0.273319 | 0.294801 | 1 | 0.839684 | 0.273319 | 0.785826 | 0.906645 | test | 2.25714 | 726 | false |
1,485,457 | The system of claim 11 , wherein processing each batch record comprises:\n aggregating the batch record into a first record of organic software installations, a second record of non-incentivized software installations, and a third record of incentivized software installations. | 16 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.670386 | 0 | 0 | 0 | 0 | 110.859364 | none | (16142524, 16) | 0.483693 | 1 | 0.27425 | 0.295194 | 1 | 0.925572 | 0.27425 | 0.794549 | 0.940629 | test | 2.25714 | 726 | false |
1,485,458 | The system of claim 14 , wherein processing each batch record comprises:\n selecting, for each batch record, at least one detection algorithm from the plurality of detection algorithms. | 15 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.685165 | 0 | 0 | 0 | 0 | 113.303309 | none | (16142524, 15) | 0.481325 | 1 | 0.274748 | 0.295405 | 1 | 0.701015 | 0.274748 | 0.745105 | 0.811147 | test | 2.25714 | 726 | false |
1,485,459 | The system of claim 11 , wherein the batch anomaly detector comprises a plurality of detection algorithms, and wherein each detection algorithm is configured to detect at least one distinct anomaly from a plurality of detectable anomalies. | 14 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.675014 | 0 | 0 | 0 | 0 | 111.624552 | none | (16142524, 14) | 0.482952 | 1 | 0.274406 | 0.29526 | 1 | 0.442136 | 0.274406 | 0.65197 | 0.667158 | test | 2.25714 | 726 | false |
1,485,460 | The system of claim 11 , wherein processing the stream of data comprises:\n determining that a device blacklist identifies the at least one of the client devices. | 13 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.806273 | 0 | 0 | 0 | 0 | 133.330448 | none | (16142524, 13) | 0.461956 | 1 | 0.278845 | 0.297156 | 1 | 0.485303 | 0.278845 | 0.437508 | 0.54937 | test | 2.25714 | 726 | false |
1,485,461 | The system of claim 11 , wherein processing the stream of data comprises:\n sending each software installation record to the real-time anomaly detector when the software installation record is obtained. | 12 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.665745 | 0 | 0 | 0 | 0 | 110.09185 | none | (16142524, 12) | 0.484437 | 1 | 0.274094 | 0.295128 | 1 | 0.752638 | 0.274094 | 0.715893 | 0.84816 | test | 2.25714 | 726 | false |
1,485,462 | A system, comprising:\n one or more computer processors programmed to perform operations comprising:\n obtaining a stream of data comprising a record of software installations on a plurality of client devices, at least a portion of the software installations having been derived from user exposure to content provided on the client devices by a plurality of publishers; \n processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that at least one of the client devices was previously associated with fraudulent software installation activity; \n aggregating the stream of data to generate a batch record of software installations for each publisher in the plurality of publishers; \n processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and \n facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 11 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 0 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.669245 | 1 | 0 | 1 | 0 | 110.67067 | open | (16142524, 11) | 0.481581 | 1 | 0.251197 | 0.274235 | 1 | 0.911364 | 0.251197 | 0.795097 | 0.830085 | test | 2.25714 | 726 | false |
1,485,463 | The method of claim 1 , further comprising:\n identifying at least one of the client devices as being associated with the second anomaly; and adding the identified at least one of the client devices to a blacklist. | 10 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.653754 | 1 | 0 | 1 | 0 | 108.108938 | open | (16142524, 10) | 0.484064 | 1 | 0.250705 | 0.27404 | 1 | 0.421863 | 0.250705 | 0.383956 | 0.574042 | test | 2.25714 | 726 | false |
1,485,464 | The method of claim 1 , wherein facilitating the adjustment comprises preventing at least one publisher from presenting content on the client devices. | 9 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.694904 | 0 | 0 | 0 | 0 | 114.91374 | none | (16142524, 9) | 0.479764 | 1 | 0.275076 | 0.295545 | 1 | 0.2282 | 0.275076 | 0.32918 | 0.269549 | test | 2.25714 | 726 | false |
1,485,465 | The method of claim 7 , wherein processing each batch record further comprises:\n processing the first record, the second record, and the third record using respective collections of detection algorithms,\n wherein each collection of detection algorithms is configured to detect a distinct set of anomalies. | 8 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.595321 | 0 | 0 | 0 | 0 | 98.446017 | none | (16142524, 8) | 0.495733 | 1 | 0.271732 | 0.294132 | 1 | 0.826212 | 0.271732 | 0.787309 | 0.909798 | test | 2.25714 | 726 | false |
1,485,466 | The method of claim 1 , wherein processing each batch record comprises:\n aggregating the batch record into a first record of organic software installations, a second record of non-incentivized software installations, and a third record of incentivized software installations. | 7 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.568526 | 0 | 0 | 0 | 0 | 94.015031 | none | (16142524, 7) | 0.500033 | 1 | 0.270837 | 0.293757 | 1 | 0.898101 | 0.270837 | 0.790016 | 0.884014 | test | 2.25714 | 726 | false |
1,485,467 | The method of claim 5 , wherein processing each batch record comprises:\n selecting, for each batch record, at least one detection algorithm from the plurality of detection algorithms. | 6 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.598104 | 0 | 0 | 0 | 0 | 98.906291 | none | (16142524, 6) | 0.495286 | 1 | 0.271825 | 0.294171 | 1 | 0.699687 | 0.271825 | 0.756814 | 0.812044 | test | 2.25714 | 726 | false |
1,485,468 | The method of claim 1 , wherein the batch anomaly detector comprises a plurality of detection algorithms, and wherein each detection algorithm is configured to detect at least one distinct anomaly from a plurality of detectable anomalies. | 5 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.703429 | 0 | 0 | 0 | 0 | 116.323412 | none | (16142524, 5) | 0.478399 | 1 | 0.275363 | 0.295667 | 1 | 0.439994 | 0.275363 | 0.550173 | 0.62478 | test | 2.25714 | 726 | false |
1,485,469 | The method of claim 1 , wherein processing the stream of data comprises:\n determining that a device blacklist identifies the at least one of the client devices. | 4 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.715606 | 0 | 0 | 0 | 0 | 118.337145 | none | (16142524, 4) | 0.476449 | 1 | 0.275774 | 0.295841 | 1 | 0.486575 | 0.275774 | 0.418211 | 0.539917 | test | 2.25714 | 726 | false |
1,485,470 | The method of claim 1 , wherein processing the stream of data comprises:\n sending each software installation record to the real-time anomaly detector when the software installation record is obtained. | 3 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.646419 | 0 | 0 | 0 | 0 | 106.896024 | none | (16142524, 3) | 0.487536 | 1 | 0.273445 | 0.294854 | 1 | 0.729503 | 0.273445 | 0.702855 | 0.794999 | test | 2.25714 | 726 | false |
1,485,471 | The method of claim 1 , wherein the record of software installations comprises a timestamp, a client device identifier, and a publisher identifier. | 2 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.711354 | 0 | 0 | 0 | 0 | 117.633985 | none | (16142524, 2) | 0.47713 | 1 | 0.27563 | 0.29578 | 1 | 0.809601 | 0.27563 | 0.781033 | 0.79128 | test | 2.25714 | 726 | false |
1,485,472 | The system of claim 10 , wherein the temporal coding scheme is a stochastic temporal coding scheme, and the one or more neural spikes are generated within a pre-specified time window. | 16 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.714733 | 0 | 0 | 0 | 0 | 266.446043 | none | (16147106, 16) | 0.53483 | 1 | 0.440562 | 0.449989 | 1 | 0.538116 | 0.440562 | 0.74755 | 0.813367 | test | 1.87179 | 382 | false |
1,485,473 | The system of claim 11 , the operations further comprising:\n identifying at least one of the client devices as being associated with the second anomaly; and adding the identified at least one of the client devices to a blacklist. | 19 | 16,142,524 | Utility | 1 | ["726", "023000"] | 0 | 2018-09 | 2019-04 | 7 | A method, a system, and an article are provided for detecting and managing anomalies associated with content presentations. An example computer-implemented method includes: obtaining a stream of data including a record of software installations on a plurality of client devices; processing the stream of data using a real-time anomaly detector to detect a first anomaly indicating that a client device was previously associated with fraudulent software installation activity; aggregating the stream of data to generate a batch record of software installations for each publisher from a plurality of content publishers; processing each batch record of software installations using a batch anomaly detector to detect a second anomaly indicating that at least one of the publishers is associated with fraudulent software installation activity; and facilitating an adjustment of content presentations on the client devices, based on at least one of the detected first anomaly and the detected second anomaly. | 97 | 1 | 1 | 1 | 1 | ['14285611', '12797904', '13693272', '11850855', '15633289'] | 165.36636 | 152.8503 | 27 | 0 | 24 | 0.722162 | 1 | 0 | 1 | 0 | 119.421381 | open | (16142524, 19) | 0.473107 | 1 | 0.252883 | 0.274905 | 1 | 0.441667 | 0.252883 | 0.417227 | 0.671554 | test | 2.25714 | 726 | false |
1,485,474 | The system of claim 10 , wherein the temporal coding scheme is a rate code temporal coding scheme, and the one or more neural spikes are generated is within a pre-specified time window. | 15 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.695922 | 0 | 0 | 0 | 0 | 259.433429 | none | (16147106, 15) | 0.534817 | 1 | 0.440748 | 0.450155 | 1 | 0.182382 | 0.440748 | 0.688307 | 0.807311 | test | 1.87179 | 382 | false |
1,485,475 | The system of claim 11 , wherein the mapping is non-linear. | 13 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.634304 | 0 | 0 | 0 | 0 | 236.462929 | none | (16147106, 13) | 0.534776 | 1 | 0.441359 | 0.4507 | 1 | 0.574549 | 0.441359 | 0.529511 | 0.493571 | test | 1.87179 | 382 | false |
1,485,476 | The method according to claim 10 , which further comprises connecting the terminal-end interface to a selected sub-arm from a group of at least two sub-arms, wherein the terminal-end interface is connectable to an antenna-end interface via each of the sub-arms from the group of at least two sub-arms, wherein the at least one signal arm section is connected to the selected sub-arm. | 17 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.797427 | 0 | 0 | 0 | 0 | 218.93375 | none | (16139229, 17) | 0.502487 | 1 | 0.700633 | 0.680819 | 1 | 0.420311 | 0.700633 | 0.59504 | 0.343909 | test | 2.34783 | 455 | true |
1,485,477 | The method according to claim 13 , which further comprises determining an activated input signal arm, the activated input signal arm being connected to the output signal arm of the switching unit. | 16 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.772636 | 0 | 0 | 0 | 0 | 212.127292 | none | (16139229, 16) | 0.504362 | 1 | 0.700327 | 0.680731 | 1 | 0.399747 | 0.700327 | 0.512818 | 0.512551 | test | 2.34783 | 455 | true |
1,485,478 | The method according to claim 13 , which further comprises:\n connecting a first switching unit to the terminal-end interface via at least two of the input signal arms, the first switching unit connects the selected input signal arm from the first group of input signal arms to an output signal arm of the first switching unit; and connecting a second switching unit to the terminal-end interface via at least two of the input signal arms of a second group of input signal arms, wherein a selected input signal arm from the second group of input signal arms is connected to an output signal arm of the second switching unit, wherein the at least one signal arm section forms the output signal arm of the second switching unit or is connected to the output signal arm of the second switching unit. | 15 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.831838 | 0 | 0 | 0 | 0 | 228.381252 | none | (16139229, 15) | 0.499884 | 1 | 0.701058 | 0.680941 | 1 | 0.474713 | 0.701058 | 0.607686 | 0.485497 | test | 2.34783 | 455 | true |
1,485,479 | The method according to claim 10 , which further comprises:\n determining a discrepancy in an estimated signal profile from an actually arising signal profile; and performing a fresh estimation of the future signal profile if the discrepancy is greater than a predetermined extent. | 14 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.688069 | 0 | 0 | 0 | 0 | 188.909466 | none | (16139229, 14) | 0.510757 | 1 | 0.699281 | 0.680428 | 1 | 0.700005 | 0.699281 | 0.740968 | 0.664959 | test | 2.34783 | 455 | true |
1,485,480 | The method according to claim 10 , which further comprises connecting a switching unit to the terminal-end interface via a first group of at least two input signal arms, wherein the at least one signal arm section forms an output signal arm of the switching unit or is connected to the output signal arm, wherein the switching unit connects a selected input signal arm from the first group of at least two input signal arms to the output signal arm. | 13 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.831457 | 0 | 0 | 0 | 0 | 228.276699 | none | (16139229, 13) | 0.499913 | 1 | 0.701054 | 0.680939 | 1 | 0.355737 | 0.701054 | 0.582065 | 0.381473 | test | 2.34783 | 455 | true |
1,485,481 | The method according to claim 10 , wherein the signal processing device is an amplifier device. | 12 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.775022 | 0 | 0 | 0 | 0 | 212.782444 | none | (16139229, 12) | 0.504181 | 1 | 0.700356 | 0.680739 | 1 | 0.503827 | 0.700356 | 0.600712 | 0.473526 | test | 2.34783 | 455 | true |
1,485,482 | The method according to claim 10 , which further comprises taking the signal type as a basis for setting up a signal-type-specific connection between the terminal-end interface and an antenna-end interface of the signal coupling device. | 11 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.855653 | 0 | 0 | 0 | 0 | 234.919676 | none | (16139229, 11) | 0.498082 | 1 | 0.701352 | 0.681025 | 1 | 0.525162 | 0.701352 | 0.558797 | 0.525166 | test | 2.34783 | 455 | true |
1,485,483 | The method according to claim 10 , which further comprises using a device for detecting a transmission signal to detect a transmission signal transmitted by the terminal-end interface. | 18 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.962396 | 0 | 0 | 0 | 0 | 264.225936 | none | (16139229, 18) | 0.49001 | 1 | 0.702667 | 0.681401 | 1 | 0.463219 | 0.702667 | 0.49799 | 0.376621 | test | 2.34783 | 455 | true |
1,485,484 | A synthetic inhibitor or auto-inhibitory protein comprising a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. | 1 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 0 | 1 | 0 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.665763 | 1 | 0 | 1 | 0 | 206.34881 | open | (16141491, 1) | 0.518294 | 0 | 0.70544 | 0.686725 | 0 | 0.562154 | 0.70544 | 0.505713 | 0.504606 | test | 1.43478 | 424 | false |
1,485,485 | The synthetic protein of claim 1 , wherein the Notch NRR is mutated relative to Notch NRR1 of SEQ ID NO: 8. | 3 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 0 | 1 | 0 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.635905 | 0 | 0 | 0 | 0 | 197.094741 | none | (16141491, 3) | 0.522023 | 0 | 0.72939 | 0.708653 | 0 | 0.916074 | 0.72939 | 0.69426 | 0.695737 | test | 1.43478 | 424 | false |
1,485,486 | The synthetic protein of claim 1 , further comprising a synthetic Notch receptor protein comprising a mutated Notch NRR. | 4 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 0 | 1 | 0 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.591311 | 1 | 0 | 1 | 0 | 183.273086 | open | (16141491, 4) | 0.521872 | 0 | 0.705081 | 0.68676 | 0 | 0.857149 | 0.705081 | 0.60954 | 0.607527 | test | 1.43478 | 424 | false |
1,485,487 | An engineered cell comprising the synthetic inhibitor or auto-inhibitory protein of claim 1 . | 5 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 1 | 1 | 1 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.699391 | 1 | 0 | 1 | 0 | 216.771604 | open | (16141491, 5) | 0.516677 | 1 | 0.705602 | 0.686709 | 0 | 0.576967 | 0.705602 | 0.640239 | 0.517949 | test | 1.43478 | 424 | false |
1,485,488 | The engineered cell of claim 5 , wherein the engineered cell is an engineered T cell. | 6 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 1 | 1 | 1 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.673332 | 0 | 0 | 0 | 0 | 208.695017 | none | (16141491, 6) | 0.520224 | 1 | 0.729561 | 0.708627 | 0 | 0.635374 | 0.729561 | 0.622454 | 0.68647 | test | 1.43478 | 424 | false |
1,485,489 | A synthetic Notch receptor protein comprising, from N-terminal to C-terminal and in covalent linkage, (i) a ligand binding domain (LBD), (ii) a mutated Notch NRR (Negative Regulatory Region), (iii) a transmembrane domain, and (iv) an intracellular domain, wherein the mutated Notch NRR is bound with high-affinity by a synthetic inhibitor protein comprising a mutated Notch NRR-binding scFV fused to a transmembrane domain. | 7 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 1 | 1 | 1 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.723245 | 1 | 0 | 1 | 0 | 224.164983 | open | (16141491, 7) | 0.51553 | 1 | 0.705717 | 0.686698 | 0 | 0.720321 | 0.705717 | 0.406919 | 0.5726 | test | 1.43478 | 424 | false |
1,485,490 | A method for operating a signal coupling device, the signal coupling device having at least one signal arm section that is connected or connectable for signaling purposes to a terminal-end interface of the signal coupling device, which comprises the steps of:\n determining at least one signal property of a signal present on the at least one signal arm section; using the at least one signal property as a basis for determining a signal type, the signal type determined is a time division duplex signal or a frequency division duplex signal; effecting a signal-type-specific control of a mode of at least one signal processing device; estimating a future signal profile of the signal that is present, the signal-type-specific control of the at least one signal processing device is effected on a basis of an estimated time profile; determining a standard of a communication being effected using the signal that is present; and determining the future signal profile on a basis of previously known properties of the standard. | 10 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.935807 | 0 | 0 | 0 | 0 | 256.926122 | none | (16139229, 10) | 0.49202 | 1 | 0.70234 | 0.681308 | 1 | 0.314904 | 0.70234 | 0.351631 | 0.273402 | test | 2.34783 | 455 | true |
1,485,491 | The method according to claim 1 , which further comprises using a device for detecting a transmission signal to detect a transmission signal transmitted by the terminal-end interface. | 9 | 16,139,229 | Utility | 2 | ["455", "552100"] | 1 | 2018-09 | 2019-01 | 50 | A method operates a signal coupling device. The signal coupling device contains at least one signal branch section which is or can be connected to a terminal-side interface of the signal coupling device using signaling. At least one signal property of a signal applied to the at least one signal branch section is determined. A signal type is determined on the basis of the at least one signal property. A time duplexing signal or a frequency duplexing signal is determined as the signal type. A signal-type-specific connection is established between the terminal-side interface and an antenna-side interface of the signal coupling device. | 97 | 1 | 1 | 1 | 1 | ['15326723', '15993856', '15643629', '15993648', '15272909'] | 274.55023 | 155.390602 | 42 | 0 | 2 | 0.876199 | 0 | 0 | 0 | 0 | 240.560672 | none | (16139229, 9) | 0.496528 | 1 | 0.701605 | 0.681098 | 1 | 0.436357 | 0.701605 | 0.424679 | 0.339058 | test | 2.34783 | 455 | true |
1,485,492 | The synthetic protein of claim 1 , wherein the Notch NRR comprises a Notch NRR1 of SEQ ID NO: 8. | 2 | 16,141,491 | Utility | 3 | ["424", "130100"] | 4 | 2018-09 | 2019-01 | 2 | Described herein are compositions, methods, and systems for modulating Notch receptor activation. Aspects of the invention relate to synthetic proteins comprising at least a Notch NRR (Negative Regulatory Region)-binding scFV fused to a transmembrane domain. Another aspect of the invention relates to drug-dependent synthetic proteins. Constructs and engineered cells comprising the synthetic proteins are additionally described herein. | 97 | 0 | 1 | 0 | 1 | ['15096971', '12541062', '12570267', '13396147', '15403058'] | 309.9435 | 299.942758 | 1,124 | 530 | 599 | 0.654061 | 0 | 0 | 0 | 0 | 202.721999 | none | (16141491, 2) | 0.521151 | 0 | 0.729473 | 0.708641 | 0 | 0.928667 | 0.729473 | 0.720118 | 0.717899 | test | 1.43478 | 424 | false |
1,485,493 | A system integrated on a semiconductor chip comprising:\n a first processor to process a first type of instructions; a second processor coupled to the first processor over an on-chip interconnect, the second processor to process a second type of instructions, wherein the second processor comprises a digital signal processor (DSP), the second processor comprising:\n a plurality of 512-bit vector registers including:\n a first source vector register to store a first plurality of data elements; \n a second source vector register to store a second plurality of data elements, each of the second plurality of data elements to be stored in a data element location in the second source vector register corresponding to a data element location of one of the first plurality of data elements in the first source vector register; and \n a destination vector register to store a blended combination of the first and second pluralities of data elements; \n \n a plurality of vector mask registers including a source vector mask register, the source vector mask register to store predicate data comprising a plurality of bits, a value of each bit of the plurality of bits to identify one of the first plurality of data elements or one of the second plurality of data elements; \n a decoder to decode an instruction specifying a data blend operation; and \n execution circuitry to perform the data blend operation, the execution circuitry to select a packed data element from the first plurality of data elements to be stored in a corresponding location in the destination vector register if a corresponding bit of the predicate data has a first value and to select a packed data element from the second plurality of data elements to be stored in the corresponding location in the destination vector register if the corresponding bit of the predicate data has a second value; \n a graphics processor coupled to the on-chip interconnect to perform graphics operations; and a shared cache coupled to and shared by the first processor, the second processor, and the graphics processor; an integrated memory controller to couple the first processor, the second processor, and the graphics processor to a system memory. | 8 | 16,145,156 | Utility | 1 | ["712", "224000"] | 0 | 2018-09 | 2019-04 | 15 | Embodiments of systems, apparatuses, and methods for performing a blend instruction in a computer processor are described. In some embodiments, the execution of a blend instruction causes a data element-by-element selection of data elements of first and second source operands using the corresponding bit positions of a writemask as a selector between the first and second operands and storage of the selected data elements into the destination at the corresponding position in the destination. | 97 | 1 | 1 | 0 | 1 | ['15647123', '14976228', '13991877', '14976220', '14645836'] | 232.43977 | 228.296056 | 44 | 0 | 24 | 0.58486 | 1 | 0 | 1 | 0 | 135.944744 | open | (16145156, 8) | 0.504383 | 1 | 0.579167 | 0.571689 | 1 | 0.481263 | 0.579167 | 0.553618 | 0.550745 | test | 1.71739 | 712 | false |
1,485,494 | The system of claim 1 further comprising a plurality of status registers to maintain data related to an execution state of the second processor. | 7 | 16,145,156 | Utility | 1 | ["712", "224000"] | 0 | 2018-09 | 2019-04 | 15 | Embodiments of systems, apparatuses, and methods for performing a blend instruction in a computer processor are described. In some embodiments, the execution of a blend instruction causes a data element-by-element selection of data elements of first and second source operands using the corresponding bit positions of a writemask as a selector between the first and second operands and storage of the selected data elements into the destination at the corresponding position in the destination. | 97 | 1 | 1 | 0 | 1 | ['15647123', '14976228', '13991877', '14976220', '14645836'] | 232.43977 | 228.296056 | 44 | 0 | 24 | 0.506814 | 1 | 0 | 1 | 0 | 117.803813 | open | (16145156, 7) | 0.512837 | 1 | 0.577238 | 0.570798 | 1 | 0.392582 | 0.577238 | 0.404224 | 0.513098 | test | 1.71739 | 712 | false |
1,485,495 | The system of claim 1 further comprising scalar execution circuitry to execute one or more scalar instructions, the scalar execution circuitry including a plurality of scalar registers. | 6 | 16,145,156 | Utility | 1 | ["712", "224000"] | 0 | 2018-09 | 2019-04 | 15 | Embodiments of systems, apparatuses, and methods for performing a blend instruction in a computer processor are described. In some embodiments, the execution of a blend instruction causes a data element-by-element selection of data elements of first and second source operands using the corresponding bit positions of a writemask as a selector between the first and second operands and storage of the selected data elements into the destination at the corresponding position in the destination. | 97 | 1 | 1 | 0 | 1 | ['15647123', '14976228', '13991877', '14976220', '14645836'] | 232.43977 | 228.296056 | 44 | 0 | 24 | 0.601303 | 1 | 0 | 1 | 0 | 139.766741 | open | (16145156, 6) | 0.502602 | 1 | 0.579573 | 0.571876 | 1 | 0.626265 | 0.579573 | 0.557464 | 0.567163 | test | 1.71739 | 712 | false |
1,485,496 | The system of claim 11 , wherein the mapping is linear. | 12 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.676863 | 0 | 0 | 0 | 0 | 252.328579 | none | (16147106, 12) | 0.534804 | 1 | 0.440937 | 0.450324 | 1 | 0.579488 | 0.440937 | 0.535504 | 0.489656 | test | 1.87179 | 382 | false |
1,485,497 | The system of claim 10 , wherein determining a quantity and a frequency of neural spikes to generate based on a temporal coding scheme comprises:\n mapping a level of each of the one or more of the features extracted to a number of neural spikes to generate. | 11 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.791774 | 0 | 0 | 0 | 0 | 295.166212 | none | (16147106, 11) | 0.534883 | 1 | 0.439799 | 0.449307 | 1 | 0.221251 | 0.439799 | 0.610872 | 0.563267 | test | 1.87179 | 382 | false |
1,485,498 | A system comprising:\n at least one processor; and a non-transitory processor-readable memory device storing instructions that when executed by the at least one processor causes the at least one processor to perform operations including:\n for an image frame of a sequence of image frames: \n extracting, utilizing a neurosynaptic core circuit comprising a plurality of electronic synapse devices interconnecting a plurality of electronic neurons to a plurality of electronic axons, one or more features from the image frame; \n determining a quantity and a frequency of neural spikes to generate based on a temporal coding scheme; and \n generating one or more neural spikes based on the quantity and the frequency determined, wherein the one or more neural spikes encode the one or more features extracted. | 10 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.826123 | 1 | 0 | 1 | 0 | 307.971512 | open | (16147106, 10) | 0.532619 | 1 | 0.410417 | 0.422637 | 1 | 0.247296 | 0.410417 | 0.548416 | 0.511754 | test | 1.87179 | 382 | false |
1,485,499 | The method of claim 1 , wherein the one or more features extracted comprise one or more discriminative features. | 9 | 16,147,106 | Utility | 5 | ["382", "156000"] | 11 | 2018-09 | 2019-02 | 47 | Embodiments of the invention provide a method for scene understanding based on a sequence of image frames. The method comprises converting each pixel of each image frame to neural spikes, and extracting features from the sequence of image frames by processing neural spikes corresponding to pixels of the sequence of image frames. The method further comprises encoding the extracted features as neural spikes, and classifying the extracted features. | 97 | 1 | 1 | 1 | 1 | ['14289890', '14265268', '15298137', '14850046', '15993482'] | 372.79114 | 351.488812 | 116 | 0 | 35 | 0.662195 | 0 | 0 | 0 | 0 | 246.860595 | none | (16147106, 9) | 0.534794 | 1 | 0.441082 | 0.450454 | 1 | 0.52845 | 0.441082 | 0.433751 | 0.458691 | test | 1.87179 | 382 | false |