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1
US10901375B2
Chaotic system anomaly response by artificial intelligence
Publication/Patent Number: US10901375B2 Publication Date: 2021-01-26 Application Number: 16/264,671 Filing Date: 2019-01-31 Inventor: Muraleedhara, Kesavanand   Jedda, Ahmed   Pinto, Paulo   Assignee: MORGAN STANLEY SERVICES GROUP INC.   IPC: G05B13/02 Abstract: A system for detecting and responding to an anomaly in a chaotic environment, comprising one or more autonomous agent devices and a central server comprising a processor and non-transitory memory. The memory stores instructions that cause the processor to receive a first set of sensor readings from one or more remote electronic sensors, during a first time window, the sensor readings recording pseudo-Brownian change in one or more variables in the chaotic environment; determine, based on the first set of sensor readings, an expected range of the one or more variables during a second time window after the first time window; receive a second set of sensor readings from the one or more remote electronic sensors during the second time window recording change in the one or more variables; determine, based on the second set of sensor readings, that one variable of the one or more variables is not within the expected range; and cause the one or more autonomous agent devices to attempt to mitigate a potential harm indicated by the one variable being outside of the expected range.
2
US2021132554A1
CHAOTIC SYSTEM ANOMALY RESPONSE BY ARTIFICIAL INTELLIGENCE
Publication/Patent Number: US2021132554A1 Publication Date: 2021-05-06 Application Number: 17/124,403 Filing Date: 2020-12-16 Inventor: Muraleedhara, Kesavanand   Jedda, Ahmed   Pinto, Paulo   Assignee: Morgan Stanley Services Group Inc.   IPC: G05B13/02 Abstract: A system for detecting and responding to an anomaly in a chaotic environment, comprising one or more autonomous agent devices and a central server comprising a processor and non-transitory memory. The memory stores instructions that cause the processor to receive a first set of sensor readings from one or more remote electronic sensors, during a first time window, the sensor readings recording pseudo-Brownian change in one or more variables in the chaotic environment; determine, based on the first set of sensor readings, an expected range of the one or more variables during a second time window after the first time w window; receive a second set of sensor readings from the one or more remote electronic sensors during the second time window recording change in the one or more variables: determine, based on the second set of sensor readings, that one variable of the one or more variables is not within the expected range; and cause the one or more autonomous agent devices to attempt to mitigate a potential harm indicated by the one variable being outside of the expected range.
3
US2021143696A1
AXIAL FIELD ROTARY ENERGY DEVICE HAVING PCB STATOR WITH NON-LINEAR TRACES
Publication/Patent Number: US2021143696A1 Publication Date: 2021-05-13 Application Number: 16/934,416 Filing Date: 2020-07-21 Inventor: Guedes pinto paulo   Schuler, Ben   Assignee: Infinitum Electric, Inc.   IPC: H02K3/26 Abstract: An axial field rotary energy device can include rotors having magnets and an axis of rotation. A stator assembly can be located axially between the rotors. The stator assembly can include PCB panels. Each PCB panel can have layers. Each layer can include coils. Each coil can have radial traces relative to the axis. The radial traces can include non-linear radial traces coupled by arch traces that are transverse to the non-linear radial traces.
4
US2021143697A1
AXIAL FIELD ROTARY ENERGY DEVICE WITH PCB STATOR PANEL HAVING THERMALLY CONDUCTIVE LAYER
Publication/Patent Number: US2021143697A1 Publication Date: 2021-05-13 Application Number: 16/934,729 Filing Date: 2020-07-21 Inventor: Lee, Rich   Lee, Randal A.   Guedes pinto paulo   Assignee: Infinitum Electric, Inc.   IPC: H02K3/26 Abstract: An axial field rotary energy device has a PCB stator panel assembly between rotors with an axis of rotation. Each rotor has a magnet. The PCB stator panel assembly includes PCB panels. Each PCB panel can have layers, and each layer can have conductive coils. The PCB stator panel assembly can have a thermally conductive layer that extends from an inner diameter portion to an outer diameter portion thereof.
5
US2021143691A1
AXIAL FIELD ROTARY ENERGY DEVICE WITH SEGMENTED PCB STATOR HAVING THERMALLY CONDUCTIVE LAYER
Publication/Patent Number: US2021143691A1 Publication Date: 2021-05-13 Application Number: 16/934,872 Filing Date: 2020-07-21 Inventor: Lee, Rich   Lee, Randal A.   Guedes pinto paulo   Assignee: Infinitum Electric, Inc.   IPC: H02K1/18 Abstract: An axial field rotary energy device has a PCB stator panel assembly between rotors with an axis of rotation. Each rotor has a magnet. The PCB stator panel assembly includes PCB panels. Each PCB panel can have layers, and each layer can have conductive coils. The PCB stator panel assembly can have a thermally conductive layer that extends from an inner diameter portion to an outer diameter portion thereof. Each PCB panel comprises discrete, PCB radial segments that are mechanically and electrically coupled together to form the respective PCB panels.
6
US2021143695A1
AXIAL FIELD ROTARY ENERGY DEVICE WITH PCB STATOR HAVING INTERLEAVED PCBS
Publication/Patent Number: US2021143695A1 Publication Date: 2021-05-13 Application Number: 16/933,522 Filing Date: 2020-07-20 Inventor: Park, Jerad   Lee, Rich   Guedes pinto paulo   Preston, Mark   Assignee: Infinitum Electric, Inc.   IPC: H02K3/26 Abstract: An axial field rotary energy device with a PCB stator having interleaved PCBs is disclosed. The device can include rotors that have magnets and an axis of rotation. A stator assembly can be located axially between the rotors to operate electrical phases. The stator assembly can include PCB panels. Each PCB panel can have layers, and each PCB panel can be designated to one of the electrical phases. Each electrical phase of the stator assembly can be provided by a plurality of the PCB panels. In addition, the PCB panels for each electrical phase can be axially spaced apart from and intermingled with each other.
7
US2021135549A1
AXIAL FIELD ROTARY ENERGY DEVICE HAVING PCB STATOR AND VARIABLE FREQUENCY DRIVE
Publication/Patent Number: US2021135549A1 Publication Date: 2021-05-06 Application Number: 17/147,690 Filing Date: 2021-01-13 Inventor: Lee, Randal A.   Guedes pinto paulo   Schuler, Ben   Lee, Rich   Assignee: Infinitum Electric, Inc.   IPC: H02K11/33 Abstract: An axial field rotary energy device or system includes an axis, a PCB stator and rotors having respective permanent magnets. The rotors rotate about the axis relative to the PCB stator. A variable frequency drive (VFD) having VFD components are coupled to the axial field rotary energy device. An enclosure contains the axial field rotary energy device and the VFD, such that the axial field rotary device and the VFD are integrated together within the enclosure. In addition, a cooling system is integrated with the enclosure to cool the axial field rotary energy device and the VFD.
8
US2021135526A1
AXIAL FIELD ROTARY ENERGY DEVICE HAVING PCB STATOR AND VARIABLE FREQUENCY DRIVE
Publication/Patent Number: US2021135526A1 Publication Date: 2021-05-06 Application Number: 17/145,675 Filing Date: 2021-01-11 Inventor: Guedes pinto paulo   Lee, Rich   Park, Jerad   Schuler, Ben   Preston, Mark   Gray, Michael   Assignee: Infinitum Electric, Inc.   IPC: H02K3/26 Abstract: An axial field rotary energy device or system includes an axis, a PCB stator and rotors having respective permanent magnets. The rotors rotate about the axis relative to the PCB stator. A variable frequency drive (VFD) having VFD components are coupled to the axial field rotary energy device. An enclosure contains the axial field rotary energy device and the VFD, such that the axial field rotary device and the VFD are integrated together within the enclosure. In addition, a cooling system is integrated with the enclosure to cool the axial field rotary energy device and the VFD.
9
US2021218304A1
AXIAL FIELD ROTARY ENERGY DEVICE HAVING PCB STATOR AND VARIABLE FREQUENCY DRIVE
Publication/Patent Number: US2021218304A1 Publication Date: 2021-07-15 Application Number: 16/999,837 Filing Date: 2020-08-21 Inventor: Schuler, Ben   Lee, Rich   Park, Jerad   Guedes pinto paulo   Preston, Mark   Gray, Michael   Assignee: Infinitum Electric, Inc.   IPC: H02K3/26 Abstract: An axial field rotary energy device or system includes an axis, a PCB stator and rotors having respective permanent magnets. The rotors rotate about the axis relative to the PCB stator. A variable frequency drive (VFD) having VFD components are coupled to the axial field rotary energy device. An enclosure contains the axial field rotary energy device and the VFD, such that the axial field rotary device and the VFD are integrated together within the enclosure. In addition, a cooling system is integrated with the enclosure to cool the axial field rotary energy device and the VFD.
10
US2020249639A1
EXPOSURE MINIMIZATION RESPONSE BY ARTIFICIAL INTELLIGENCE
Publication/Patent Number: US2020249639A1 Publication Date: 2020-08-06 Application Number: 16/264,668 Filing Date: 2019-01-31 Inventor: Muraleedhara, Kesavanand   Jedda, Ahmed   Pinto, Paulo   Assignee: Morgan Stanley Services Group Inc.   IPC: G05B13/02 Abstract: An artificial-intelligence system for manipulating resources to minimize exposure harm in a chaotic environment, comprising autonomous agent devices, remote electronic sensors, and a central server. The central server receives a first set of sensor readings from one or more remote electronic sensors, during a first time window, the sensor readings recording values of one or more variables in the chaotic environment; receives a critical time interval during which the chaotic environment may affect one or more of the resources and a maximum permitted risk exposure for the time interval; determines a weighted total risk exposure during the critical time interval from the chaotic environment and the resources within the chaotic environment; determines that the weighted total risk exposure exceeds the maximum permitted risk exposure; and causes the autonomous agent devices to manipulate the one or more resources to decrease the weighted total risk exposure.
11
US2020249640A1
CHAOTIC SYSTEM ANOMALY RESPONSE BY ARTIFICIAL INTELLIGENCE
Publication/Patent Number: US2020249640A1 Publication Date: 2020-08-06 Application Number: 16/264,671 Filing Date: 2019-01-31 Inventor: Muraleedhara, Kesavanand   Jedda, Ahmed   Pinto, Paulo   Assignee: Morgan Stanley Services Group Inc.   IPC: G05B13/02 Abstract: A system for detecting and responding to an anomaly in a chaotic environment, comprising one or more autonomous agent devices and a central server comprising a processor and non-transitory memory. The memory stores instructions that cause the processor to receive a first set of sensor readings from one or more remote electronic sensors, during a first time window, the sensor readings recording pseudo-Brownian change in one or more variables in the chaotic environment; determine, based on the first set of sensor readings, an expected range of the one or more variables during a second time window after the first time window; receive a second set of sensor readings from the one or more remote electronic sensors during the second time window recording change in the one or more variables; determine, based on the second set of sensor readings, that one variable of the one or more variables is not within the expected range; and cause the one or more autonomous agent devices to attempt to mitigate a potential harm indicated by the one variable being outside of the expected range.
12
US2020306013A1
DENTAL IMPLANT MADE OF ZIRCONIA OR ALUMINA WITH HEALING ELECTRICAL PROPERTIES AND ITS PRODUCTION METHOD
Publication/Patent Number: US2020306013A1 Publication Date: 2020-10-01 Application Number: 16/759,501 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Salgado, Pinto Paulo Filipe   Novais, Carvalho Óscar Samuel   Assignee: UNIVERSIDADE DO MINHO   IPC: A61C8/02 Abstract: The present disclosure relates to a dental implant which comprises in its interior vertical and radial channels terminating in the form of holes in the lateral and lower surfaces of the implant and wherein each channel is filled by electrically conductive material in order to promote multiple electric fields along the surface of the implant. Electric fields range from 5 to 100 mv. A dental implant is described defining an axis along its length, obtained from a sintered block, which comprises in its interior longitudinal and radial channels which terminate in the form of holes in the surface of the implant and wherein each channel comprises an electrically conductive material for promoting multiple electric fields along the surface of the implant.
13
EP3701906A1
DENTAL IMPLANT MADE OF ZIRCONIA OR ALUMINA WITH HEALING ELECTRICAL PROPERTIES AND ITS PRODUCTION METHOD
Publication/Patent Number: EP3701906A1 Publication Date: 2020-09-02 Application Number: 18830295.4 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Salgado, Pinto Paulo Filipe   Novais, Carvalho Óscar Samuel   Assignee: Universidade do Minho   IPC: A61C8/02 Abstract: The present disclosure relates to a dental implant which comprises in its interior vertical and radial channels terminating in the form of holes in the lateral and lower surfaces of the implant and wherein each channel is filled by electrically conductive material in order to promote multiple electric fields along the surface of the implant. Electric fields range from 5 to 100 mv. A dental implant is described defining an axis along its length, obtained from a sintered block, which comprises in its interior longitudinal and radial channels which terminate in the form of holes in the surface of the implant and wherein each channel comprises an electrically conductive material for promoting multiple electric fields along the surface of the implant.
14
US2020306019A1
CERAMIC STRUCTURE FOR DENTAL APPLICATION, PROCESS AND ITS USES
Publication/Patent Number: US2020306019A1 Publication Date: 2020-10-01 Application Number: 16/759,651 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Salgado, Pinto Paulo Filipe   Novais, Carvalho Óscar Samuel   Assignee: UNIVERSIDADE DO MINHO   IPC: A61C13/00 Abstract: The present disclosure relates to a ceramic structure for dental application, preferably dental restoration, process for obtaining it and its uses. The process now disclosed comprises computer-controlled machining (CNC), particularly by milling, to obtain a ceramic structure, for example dental covers, which reach thicknesses between 0.05 and 0.4 millimeters.
15
EP3701902A1
CERAMIC STRUCTURE FOR DENTAL APPLICATION, PROCESS AND ITS USES
Publication/Patent Number: EP3701902A1 Publication Date: 2020-09-02 Application Number: 18822128.7 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Salgado, Pinto Paulo Filipe   Novais, Carvalho Óscar Samuel   Assignee: Universidade do Minho   IPC: A61C5/20 Abstract: The present disclosure relates to a ceramic structure for dental application, preferably dental restoration, process for obtaining it and its uses. The process now disclosed comprises computer-controlled machining (CNC), particularly by milling, to obtain a ceramic structure, for example dental covers, which reach thicknesses between 0.05 and 0.4 millimeters.
16
EP3701907A1
DENTAL IMPLANT WITH ELECTROSTIMULATION SYSTEM AND ITS PRODUCTION METHOD
Publication/Patent Number: EP3701907A1 Publication Date: 2020-09-02 Application Number: 18830296.2 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Novais, Carvalho Óscar Samuel   Salgado, Pinto Paulo Filipe   Soares, Madeira Sara Cristina   Assignee: Universidade do Minho   IPC: A61C8/02 Abstract: The present disclosure relates to a dental implant with electro-stimulation system by electric circuit comprising a plurality of overlapped discs wherein each disc comprises in its interior and in its upper end and lower end surfaces channels and respective holes, wherein each channel comprises an electrically conductive material comprised in said electric circuit. The channels further comprise a film that acts as a barrier between the material of the discs and the material of the electric circuit. The implant further comprises a battery or piezoelectric sensor that allows the creation of electric fields. This disclosure has the main advantage of stimulating bone growth throughout the whole surface of the implant as well as promoting an antimicrobial action through the electric fields.
17
EP3701904A1
DENTAL IMPLANT WITH FUNCTIONAL GRADIENT AND ITS PRODUCTION PROCESS
Publication/Patent Number: EP3701904A1 Publication Date: 2020-09-02 Application Number: 18830297.0 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Soares, Madeira Sara Cristina   Salgado, Pinto Paulo Filipe   Novais, Carvalho Óscar Samuel   Assignee: Universidade do Minho   IPC: A61C8/00 Abstract: The present disclosure describes a dental implant with functional gradient and respective obtention method, wherein the implant comprises an inner part of metal or metal alloy or titanium-based metal matrix composite which comprises on its surface a transition zone of rugose texture or surface pattern; an outer part composed of a ceramic or zirconia-based ceramic composite, and a diffusion protective film between the transition zone and the outer part described as an oxide and/or nitride protective film.
18
US2020289242A1
DENTAL IMPLANT WITH FUNCTIONAL GRADIENT AND ITS PRODUCTION PROCESS
Publication/Patent Number: US2020289242A1 Publication Date: 2020-09-17 Application Number: 16/759,614 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Soares, Madeira Sara Cristina   Salgado, Pinto Paulo Filipe   Novais, Carvalho Óscar Samuel   Assignee: UNIVERSIDADE DO MINHO   IPC: A61C8/00 Abstract: The present disclosure describes a dental implant with functional gradient and respective obtention method, wherein the implant comprises an inner part of metal or metal alloy or titanium-based metal matrix composite which comprises on its surface a transition zone of rugose texture or surface pattern; an outer part composed of a ceramic or zirconia-based ceramic composite, and a diffusion protective film between the transition zone and the outer part described as an oxide and/or nitride protective film.
19
US2020281693A1
DENTAL IMPLANT WITH ELECTROSTIMULATION SYSTEM AND ITS PRODUCTION METHOD
Publication/Patent Number: US2020281693A1 Publication Date: 2020-09-10 Application Number: 16/759,563 Filing Date: 2018-10-26 Inventor: Correia, Pereira Silva Filipe Samuel   Novais, Carvalho Óscar Samuel   Salgado, Pinto Paulo Filipe   Soares, Madeira Sara Cristina   Assignee: UNIVERSIDADE DO MINHO   IPC: A61C8/02 Abstract: The present disclosure relates to a dental implant with electro-stimulation system by electric circuit comprising a plurality of overlapped discs wherein each disc comprises in its interior and in its upper end and lower end surfaces channels and respective holes, wherein each channel comprises an electrically conductive material comprised in said electric circuit. The channels further comprise a film that acts as a barrier between the material of the discs and the material of the electric circuit. The implant further comprises a battery or piezoelectric sensor that allows the creation of electric fields. This disclosure has the main advantage of stimulating bone growth throughout the whole surface of the implant as well as promoting an antimicrobial action through the electric fields.
20
US2020204022A1
High Speed Induction Machine
Publication/Patent Number: US2020204022A1 Publication Date: 2020-06-25 Application Number: 16/227,639 Filing Date: 2018-12-20 Inventor: Karmaker, Haran Chandra   Chen, Edward Kuan-chen   Keck, James Arnold   Guedes pinto paulo   Assignee: TECO-Westinghouse Motor Company   IPC: H02K3/24 Abstract: In one embodiment, a high speed induction machine includes: a stator formed of a first plurality of laminations having a thickness of less than approximately 0.01 inch and a winding comprising a coil formed of Litz wire adapted about the stator; and a rotor adapted within the stator. The rotor may include: a rotor core formed of a second plurality of laminations having a second thickness of greater than approximately 0.10 inch and formed of high strength steel and sandwiched between a first end region including at least one first peripheral second lamination and a second end region including at least one second peripheral second lamination, the first end region having a first end ring retained by a first retaining ring adapted there around, the second end region having a second end ring retained by a second retaining ring adapted there around.
Total 8 pages