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Shang Data Lab @UCSD 7

The method of claim 1 , wherein the one or more features extracted comprise one or more salient features.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 8)

test

The method of claim 1 , 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.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 7)

test

The method of claim 1 , 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.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 6)

test

The method of claim 1 , wherein determining a quantity and a frequency of neural spikes to generate based on a temporal coding scheme comprises:\n determining a probability of generating a neural spike in each time step based on a level of each of the one or more of the features extracted.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 5)

test

The method of claim 2 , wherein the mapping is non-linear.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 4)

test

The method of claim 2 , wherein the mapping is linear.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 3)

test

The method of claim 1 , 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.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 2)

test

A method 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.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

open

(16147106, 1)

test

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, 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 an integrated memory controller to couple the first processor, the second processor, and the graphics processor to a system memory.

Utility

["712", "224000"]

2018-09

2019-04

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.

['15647123', '14976228', '13991877', '14976220', '14645836']

open

(16145156, 1)

test

The system of claim 1 further comprising a shared cache coupled to and shared by the first processor, the second processor, and the graphics processor.

Utility

["712", "224000"]

2018-09

2019-04

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.

['15647123', '14976228', '13991877', '14976220', '14645836']

open

(16145156, 2)

test

The system of claim 2 wherein the first processor comprises a plurality of simultaneous multi-threaded (SMT) cores to simultaneously execute multiple threads including the first type of instructions.

Utility

["712", "224000"]

2018-09

2019-04

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.

['15647123', '14976228', '13991877', '14976220', '14645836']

none

(16145156, 3)

test

The system of claim 3 wherein the second processor comprises a digital signal processor (DSP).

Utility

["712", "224000"]

2018-09

2019-04

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.

['15647123', '14976228', '13991877', '14976220', '14645836']

none

(16145156, 4)

test

The system of claim 1 wherein the vector mask registers are smaller than 512-bits.

Utility

["712", "224000"]

2018-09

2019-04

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.

['15647123', '14976228', '13991877', '14976220', '14645836']

none

(16145156, 5)

test

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 determining a probability of generating a neural spike in each time step based on a level of each of the one or more of the features extracted.

Utility

["382", "156000"]

2018-09

2019-02

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.

['14289890', '14265268', '15298137', '14850046', '15993482']

none

(16147106, 14)

test

An article, comprising:\n a non-transitory computer-readable medium having instructions stored thereon that, when executed by one or more computer processors, cause the computer processors 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.

Utility

["726", "023000"]

2018-09

2019-04

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.

['14285611', '12797904', '13693272', '11850855', '15633289']

open

(16142524, 20)

test

An amplification waveguide device, comprising:\n a first waveguide comprising a first core layer, the first core layer configured to direct light through the first waveguide; a light amplifier comprising an active layer, the active layer configured to amplify light that is incident on the active layer from the first waveguide to generate amplified light; and a second waveguide on a same layer as the light amplifier, the second waveguide comprising a second core layer, the second core layer configured to direct amplified light that is incident on the second core layer from the light amplifier through the second waveguide.

Utility

["385", "014000"]

2018-09

2019-03

Amplification waveguide devices and beam steering apparatuses including the same may include a first core layer through which light is directed, an active layer that amplifies light incident thereof from the first core layer to generate amplified light, and a second core layer that directs amplified light that is incident on the second core layer from the active layer therethrough.

['15708843', '15691327', '10117445', '11372981', '09968974']

open

(16134366, 1)

test

The amplification waveguide device of claim 1 , wherein the second core layer is associated with a nonlinear coefficient that is less than a nonlinear coefficient of the active layer.

Utility

["385", "014000"]

2018-09

2019-03

Amplification waveguide devices and beam steering apparatuses including the same may include a first core layer through which light is directed, an active layer that amplifies light incident thereof from the first core layer to generate amplified light, and a second core layer that directs amplified light that is incident on the second core layer from the active layer therethrough.

['15708843', '15691327', '10117445', '11372981', '09968974']

none

(16134366, 2)

test

A method, comprising:\n at an electronic device with a touch-sensitive display and one or more cameras:\n displaying, on the touch-sensitive display, a user interface of an application, wherein:\n the user interface includes a representation of a field of view of at least one of the one or more cameras; \n the representation of the field of view is displayed at a first magnification; \n the representation of the field of view is updated over time based on changes to current visual data detected by at least one of the one or more cameras; and \n the field of view includes at least a portion of a three-dimensional space; \n \n while displaying the representation of the field of view, detecting a first touch input on the touch-sensitive display; \n in response to detecting the first touch input, adding and displaying on the touch-sensitive display a measurement point at a first location in the representation of the field of view that corresponds to a first location in the three-dimensional space; and \n after adding the measurement point and while continuing to display the representation of the field of view:\n as the field of view of the one or more cameras moves, updating the displayed representation of the field of view, and continuing to display on the touch-sensitive display the measurement point at a location in the representation of the field of view that corresponds to the first location in the three-dimensional space; and \n detecting a second touch input at a location on the touch-sensitive display that corresponds to a current location of the measurement point in the representation of the field of view; \n \n in response to detecting the second touch input, enlarging display of at least a portion of the representation of the field of view from the first magnification to a second magnification, greater than the first magnification, wherein:\n the enlarged display of the portion of the representation of the field of view includes the current location of the measurement point in the field of view; and \n the enlarged display of the portion of the representation of the field of view includes the location of the second touch input; \n \n while displaying the enlarged portion of the representation of the field of view, and while continuing to detect the second touch input:\n detecting movement of the field of view of the one or more cameras or movement of the second touch input; and \n in response to detecting movement of the field of view of the one or more cameras or movement of the second touch input, moving the measurement point within the representation of the field of view in accordance with the movement of the field of view of the one or more cameras or the movement of the second touch input while continuing to display on the touch-sensitive display an enlarged portion of the representation of the field of view that includes the measurement point.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

open

(16145015, 1)

test

The spectrometer of claim 1 , wherein the reaction chamber comprises a combustion chamber or an oxidation or pyrolysis chamber.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 22)

test

The spectrometer of claim 1 , further comprising a CO 2 separation unit downstream of the reaction chamber.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 21)

test

The spectrometer of claim 1 , further comprising a counter gas supply for supplying counter gas to the separation chamber outlet, the counter gas being caused to flow in a direction generally opposed to the direction of incidence of the sample ions thereat.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 20)

test

The spectrometer of claim 15 , wherein the pumping arrangement is further connected to the reaction chamber, the system further comprising a pumping controller for controlling the pumping arrangement so as maintain the pressure in the reaction chamber between around 50 kPa (0.5 Atm) and 200 kPa (2 Atm).

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 19)

test

The spectrometer of claim 1 , wherein the reaction chamber is at atmospheric pressure in use.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 18)

test

The spectrometer of claim 16 , further comprising a pumping controller for controlling the pumping arrangement so that the pressure, P sampling , within the desolvation chamber, is at least twice the pressure, P sep , in the separation chamber.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 17)

test

The method of claim 1 , wherein:\n the one or more cameras are located at a first fixed position on the electronic device on a back side of the electronic device opposite the touch-sensitive display on a front side of the electronic device, the touch-sensitive display including a second fixed position that is closest to the first fixed position on the back side of the device; the user interface includes:\n a first affordance that is displayed in a portion of the touch-sensitive display that is away from the second fixed position and which, when activated, adds a measurement point to the displayed representation of the field of view, and \n one or more second affordances displayed in accordance with a first orientation of the electronic device; and \n the method includes:\n detecting movement of the electronic device to a second orientation; and \n in response to detecting the movement of the electronic device to the second orientation:\n updating display of the one or more second affordances in accordance with the second orientation of the electronic device; and \n continuing to display the first affordance in the portion of the touch-sensitive display that is away from the second fixed position.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 2)

test

The spectrometer of claim 15 , wherein the pumping arrangement is further connected to the separation chamber for adjusting the pressure therein.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 16)

test

The spectrometer of claim 1 , wherein the desolvation region is formed within a desolvation chamber, the sample introduction system further comprising a heated gas supply connected to the desolvation chamber for supply of a heated gas thereto.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 14)

test

The spectrometer of claim 1 , wherein the desolvation region further includes a heated channel positioned therein, at or adjacent to the separation chamber inlet.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 13)

test

The spectrometer of claim 11 , further comprising a power supply arranged to supply AC and/or DC voltages to the electrodes, wherein the power supply is configured to supply a first DC voltage to the second electrode arrangement so as to deflect sample ions away from the first direction defining the first axis, wherein the power supply is configured to supply a second DC voltage to the first electrode arrangement so as to accelerate sample ions in a direction having a component perpendicular with the said first axis, and further wherein the power supply is configured to apply an AC voltage to the first electrode arrangement at a frequency that guides the sample ions into the separation chamber outlet.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 12)

test

The spectrometer of claim 8 , wherein the electrodes of the separation region comprise a first electrode arrangement arranged to generate both a DC and an AC electric field and further comprise a second electrode arrangement arranged to generate a DC electric field that accelerates ions in a direction having a component perpendicular to the said first direction defining the said first axis so as to be directed by the first electrode arrangement along the said first flow path towards the separation chamber outlet, but to cause unwanted solvent ions, having a second mass to charge ratio or range of mass to charge ratios, different to the said first mass to charge ratio or range of ratios, and unwanted non-ionised solvent to be directed away from the separation chamber outlet.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 11)

test

The spectrometer of claim 8 , wherein the first electrode arrangement is arranged to generate an asymmetric AC electric field so as to cause unwanted ions to be dispersed within the separation chamber whilst sample ions are directed toward the separation chamber outlet.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 10)

test

The spectrometer of claim 8 , wherein the unwanted ions have a higher or lower mass to charge ratio or range of mass to charge ratios than that or those of the sample ions, the DC and/or AC component of the first electrode arrangement guiding the said sample ions toward the separation chamber outlet whilst dispersing the said relatively heavier or lighter unwanted ions.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 9)

test

The spectrometer of claim 1 , wherein the electrodes of the separation chamber comprise a first electrode arrangement arranged to generate a DC and/or an AC electric field, so as to cause sample ions, having a first mass to charge ratio or range of mass to charge ratios, to be directed along the said first flow path towards the separation chamber outlet, but to cause unwanted ions, having a second mass to charge ratio or range of mass to charge ratios, different to the said first mass to charge ratio or range of ratios, and unwanted non-ionised solvent to be directed away from the separation chamber outlet.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

none

(16130760, 8)

test

The spectrometer of claim 1 , wherein the desolvation region is formed within a desolvation chamber, the sample introduction system further comprising a pumping arrangement connected to the desolvation chamber for adjusting the pressure within the desolvation chamber.

Utility

["250", "288000"]

2018-09

2019-01

A sample introduction system for a spectrometer comprises a desolvation region that receives or generates sample ions from a solvent matrix and removes at least some of the solvent matrix from the sample ions. A separation chamber downstream of the desolvation region has a separation chamber inlet communicating with the desolvation region, for receiving the desolvated sample ions along with non-ionised solvent and solvent ion vapours. The separation chamber has electrodes for generating an electric field within the separation chamber, defining a first flow path for sample ions between the separation chamber inlet and a separation chamber outlet. Unwanted solvent ions and non-ionised solvent vapours are directed away from the separation chamber outlet. The sample introduction system has a reaction chamber with an inlet communicating with the separation chamber outlet, for receiving the sample ions from the separation chamber and for decomposing the received ions into smaller products.

['15402108', '09938277', '15887520', '10966325', '14764047']

open

(16130760, 15)

test

The method of claim 1 , wherein:\n the user interface of the application includes one or more affordances that correspond to operations of the application, including a capture affordance; and the method includes:\n detecting a third touch input on the capture affordance; and \n in accordance with a determination that the third touch input meets first media capture criteria, initiating capture of media of a first type that includes a sequence of images of the field of view of at least one of the one or more cameras.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 3)

test

The method of claim 3 , including:\n in accordance with a determination that the third touch input meets second media capture criteria, initiating capture of media of a second type that includes a single image of the field of view of at least one of the one or more cameras.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 4)

test

The method of claim 1 , including:\n prior to displaying the user interface of the application:\n displaying a control panel user interface that includes a plurality of controls, wherein a first control in the plurality of controls corresponds to the application; and \n detecting a touch input activating the first control; and, \n in response to detecting the touch input activating the first control, displaying the user interface of the application.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 5)

test

The non-transitory computer readable storage medium of claim 11 , wherein the one or more programs include instructions which, when executed by the electronic device, cause the electronic device to:\n determine a distance between the electronic device and the first location in the three-dimensional space that corresponds to the measurement point; wherein:\n in accordance with a determination that the determined distance is less than a first threshold distance, a magnification factor between the first magnification and the second magnification is a first magnification factor; \n in accordance with a determination that the determined distance is greater than a second threshold distance, the magnification factor is a second magnification factor; and \n in accordance with a determination that the determined distance is between the first threshold distance and the second threshold distance, the magnification factor is a respective magnification factor, between the first magnification factor and the second magnification factor, that depends on the determined distance.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 17)

test

The non-transitory computer readable storage medium of claim 11 , wherein:\n the user interface is a first user interface of a plurality of user interfaces in the application; the first user interface corresponds to a measurement mode of the application; and a second user interface of the plurality of user interfaces corresponds to a levelling mode of the application.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 16)

test

The non-transitory computer readable storage medium of claim 11 , wherein the one or more programs include instructions which, when executed by the electronic device, cause the electronic device to:\n prior to displaying the user interface of the application:\n display a control panel user interface that includes a plurality of controls, wherein a first control in the plurality of controls corresponds to the application; and \n detect a touch input activating the first control; and, \n in response to detecting the touch input activating the first control, display the user interface of the application.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 15)

test

The non-transitory computer readable storage medium of claim 13 , wherein the one or more programs include instructions which, when executed by the electronic device, cause the electronic device to:\n in accordance with a determination that the third touch input meets second media capture criteria, initiate capture of media of a second type that includes a single image of the field of view of at least one of the one or more cameras.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 14)

test

The non-transitory computer readable storage medium of claim 11 , wherein:\n the user interface of the application includes one or more affordances that correspond to operations of the application, including a capture affordance; and the one or more programs include instructions which, when executed by the electronic device, cause the electronic device to:\n detect a third touch input on the capture affordance; and \n in accordance with a determination that the third touch input meets first media capture criteria, initiate capture of media of a first type that includes a sequence of images of the field of view of at least one of the one or more cameras.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 13)

test

The non-transitory computer readable storage medium of claim 11 , wherein:\n the one or more cameras are located at a first fixed position on the electronic device on a back side of the electronic device opposite the touch-sensitive display on a front side of the electronic device, the touch-sensitive display including a second fixed position that is closest to the first fixed position on the back side of the device; the user interface includes:\n a first affordance that is displayed in a portion of the touch-sensitive display that is away from the second fixed position and which, when activated, adds a measurement point to the displayed representation of the field of view, and \n one or more second affordances displayed in accordance with a first orientation of the electronic device; and \n the one or more programs include instructions which, when executed by the electronic device, cause the electronic device to:\n detect movement of the electronic device to a second orientation; and \n in response to detecting the movement of the electronic device to the second orientation:\n update display of the one or more second affordances in accordance with the second orientation of the electronic device; and \n continue to display the first affordance in the portion of the touch-sensitive display that is away from the second fixed position.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

none

(16145015, 12)

test

A non-transitory computer readable storage medium storing one or more programs, the one or more programs comprising instructions which, when executed by an electronic device that includes a touch-sensitive display and one or more cameras, cause the electronic device to:\n display, on the touch-sensitive display, a user interface of an application, wherein:\n the user interface includes a representation of a field of view of at least one of the one or more cameras; \n the representation of the field of view is displayed at a first magnification; \n the representation of the field of view is updated over time based on changes to current visual data detected by at least one of the one or more cameras; and \n the field of view includes at least a portion of a three-dimensional space; \n while displaying the representation of the field of view, detect a first touch input on the touch-sensitive display; in response to detecting the first touch input, add and display on the touch-sensitive display a measurement point at a first location in the representation of the field of view that corresponds to a first location in the three-dimensional space; and after adding the measurement point and while continuing to display the representation of the field of view:\n as the field of view of the one or more cameras moves, update the displayed representation of the field of view, and continue to display on the touch-sensitive display the measurement point at a location in the representation of the field of view that corresponds to the first location in the three-dimensional space; and \n detect a second touch input at a location on the touch-sensitive display that corresponds to a current location of the measurement point in the representation of the field of view; \n in response to detecting the second touch input, enlarge display of at least a portion of the representation of the field of view from the first magnification to a second magnification, greater than the first magnification, wherein:\n the enlarged display of the portion of the representation of the field of view includes the current location of the measurement point in the field of view; and \n the enlarged display of the portion of the representation of the field of view includes the location of the second touch input; \n while displaying the enlarged portion of the representation of the field of view, and while continuing to detect the second touch input:\n detect movement of the field of view of the one or more cameras or movement of the second touch input; and \n in response to detecting movement of the field of view of the one or more cameras or movement of the second touch input, move the measurement point within the representation of the field of view in accordance with the movement of the field of view of the one or more cameras or the movement of the second touch input while continuing to display on the touch-sensitive display an enlarged portion of the representation of the field of view that includes the measurement point.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

open

(16145015, 11)

test

An electronic device, comprising:\n a touch-sensitive display; one or more cameras; one or more processors; and memory storing one or more programs, wherein the one or more programs are configured to be executed by the one or more processors, the one or more programs including instructions for:\n displaying, on the touch-sensitive display, a user interface of an application, wherein:\n the user interface includes a representation of a field of view of at least one of the one or more cameras; \n the representation of the field of view is displayed at a first magnification; \n the representation of the field of view is updated over time based on changes to current visual data detected by at least one of the one or more cameras; and \n the field of view includes at least a portion of a three-dimensional space; \n \n while displaying the representation of the field of view, detecting a first touch input on the touch-sensitive display; \n in response to detecting the first touch input, adding and displaying on the touch-sensitive display a measurement point at a first location in the representation of the field of view that corresponds to a first location in the three-dimensional space; and \n after adding the measurement point and while continuing to display the representation of the field of view:\n as the field of view of the one or more cameras moves, updating the displayed representation of the field of view, and continuing to display on the touch-sensitive display the measurement point at a location in the representation of the field of view that corresponds to the first location in the three-dimensional space; and \n detecting a second touch input at a location on the touch-sensitive display that corresponds to a current location of the measurement point in the representation of the field of view; \n \n in response to detecting the second touch input, enlarging display of at least a portion of the representation of the field of view from the first magnification to a second magnification, greater than the first magnification, wherein:\n the enlarged display of the portion of the representation of the field of view includes the current location of the measurement point in the field of view; and \n the enlarged display of the portion of the representation of the field of view includes the location of the second touch input; \n \n while displaying the enlarged portion of the representation of the field of view, and while continuing to detect the second touch input:\n detecting movement of the field of view of the one or more cameras or movement of the second touch input; and \n in response to detecting movement of the field of view of the one or more cameras or movement of the second touch input, moving the measurement point within the representation of the field of view in accordance with the movement of the field of view of the one or more cameras or the movement of the second touch input while continuing to display on the touch-sensitive display an enlarged portion of the representation of the field of view that includes the measurement point.

Utility

["345", "661000"]

2018-09

2019-11

An electronic device: displays a field of view of a camera at a first magnification and updates the displayed field of view over time based on changes detected by the camera. The field of view includes a view of a three-dimensional space. In response to a first touch input, the device adds a measurement point at a first location in the displayed field of view that corresponds to a first location in the three-dimensional space. As the camera moves, the device displays the measurement point at a location in the displayed field of view that corresponds to the first location in the three-dimensional space. In response to a second touch input corresponding to a current location of the measurement point in the displayed field of view, the device enlarges display of the displayed field of view around the measurement point from the first magnification to a second, greater magnification.

['16138779', '16145039', '16145045', '16145052', '14290952']

open

(16145015, 10)

test

A device for modifying haptic effects of a haptic enabled device, comprising:\n at least one processor configured to execute computer instructions to:\n determine a haptic output command including instructions to activate a haptic output device to perform an original haptic effect, \n determine a measure of control device use; \n determine a replacement haptic output command including instructions to activate the haptic output device to perform a modified haptic effect, instead of the original haptic effect, based on the measure of control device use.

Utility

["340", "573100"]

2018-09

2019-03

Devices and methods for modifying haptic effects are provided. The devices may include computer systems and haptic enabled devices. A haptic output command configured to produce desired haptic effects may be determined. Fatigue levels may be determined according to haptic effect density of performed haptic effects and inputs received from control devices. According to fatigue levels, modified haptic effects may be determined to replace the desired haptic effects and corresponding haptic output commands may be generated and output to haptic output devices.

['15807765', '15629109', '14727465', '15419953', '14213034']

open

(16132809, 27)

test

The device of claim 27 , wherein the processor is further configured to execute computer instructions to determine the measure of control device use by determining a number of at least one of trigger pulls, button presses, and joystick or joypad movements.

Utility

["340", "573100"]

2018-09

2019-03

Devices and methods for modifying haptic effects are provided. The devices may include computer systems and haptic enabled devices. A haptic output command configured to produce desired haptic effects may be determined. Fatigue levels may be determined according to haptic effect density of performed haptic effects and inputs received from control devices. According to fatigue levels, modified haptic effects may be determined to replace the desired haptic effects and corresponding haptic output commands may be generated and output to haptic output devices.

['15807765', '15629109', '14727465', '15419953', '14213034']