Abstract: A resuscitation device is described that can include an electronic circuit board, a shaft that is operably coupled with the electronic circuit board and has a head, a gas-bag adjacent to the head and configured to store gas, and a valve operably coupled to the gas-bag. The electronic circuit board can actuate the shaft to move. The moving of the shaft can cause the head to compress the gas-bag. The compression of the gas-bag can cause the gas-bag to release gas. Related apparatuses, systems, methods, techniques and articles are also described.

Abstract: The subject matter described herein generally relates to determining whether any surgical instruments are missing on a surgical tray, and, if any instrument is missing, identifying the missing instrument(s). In one aspect, a server can receive, from a camera device, a matrix code and a bitmap of an image of a tray having a first plurality of instruments. The server can detect the tray based on the matrix code. The server can receive, from a database, a list of a second plurality of instruments configured to be stored in the detected tray. The server can detect the first plurality of instruments stored in the tray by using the bitmap. The server can compare the preset list of the second plurality of instruments with the detected first plurality of instruments to generate an output characterizing whether any instruments is missing from the tray and an identification of the missing instrument(s).

Abstract: A device is described that can include a probe, a mobile device, and at least one processor. The probe can examine a corresponding anatomical part of a body. The mobile device can have a camera to take an image of the anatomical part of the body. The mobile device can execute a patient-application to process the image. The at least one processor can be configured to transmit the processed image to a server via a communication network. Related apparatuses, systems, methods, techniques and articles are also described.

Abstract: In some aspects of the present disclosure, a touch-panel interface includes a plurality of receivers, wherein each of the receivers is coupled to one or more receive lines of a touch panel, and each of the receivers includes a switch capacitor network and an amplifier. The touch-panel interface also includes controller configured to control switches in the switch capacitor network of each of one or more of the receivers to operate each of the one or more of the receivers in one of a plurality of different receiver modes.

Abstract: The present invention relates to the field of radiopharmaceuticals for in vivo imaging, in particular to radiotracer compositions which comprises 18F-labelled c-Met binding peptides. The invention provides said compositions, as well as associated automated methods of preparation and cassettes.

Abstract: Provided in some embodiments are systems and methods for simulating a well. Embodiments include, for each lateral of a well, obtaining wellbore directional survey data identifying a path of the lateral, generating (using the wellbore directional survey data) a geographic information system (GIS) virtual wellbore path, obtaining wellbore tubing, perforation and casing data for the lateral. Generating (using the wellbore tubing and perforation data) a tubing extensible three dimensional (X3D) file including data corresponding to X3D virtual tubing path. Generating (using the wellbore casing data) a casing X3D file including data corresponding to an X3D virtual casing path for the lateral. Generating a well X3D file for the well (including links to the tubing and casing X3D files) that can be provided to an X3D application of a remote computing device for generating a 3D simulation of the well.

Abstract: A method for authenticating a storage device includes sending encrypted host device data from a host device to the storage device for a current authentication session, receiving encrypted storage device specific data and an encrypted first output string from the storage device based on the encrypted host device data sent to the storage device, and authenticating the storage device based on the encrypted storage device specific data and the encrypted first output string from the storage device.

Abstract: The present invention relates to the field of radiopharmaceuticals for in vivo imaging, in particular to automated methods for the preparation and purification of 18F-labelled tau imaging radiotracers. Also provided are interchangeable cassettes useful in the methods, and the use of automated synthesizers and cassettes in the methods.

Abstract: In some aspects of the present disclosure, a method for touch-panel processing is provided. The method includes receiving a plurality of sensor signals from a touch panel, wherein each one of the plurality of sensor signals corresponds to a respective one of a plurality of channels of the touch panel. The method also includes, for each one of the received sensor signals, converting the received sensor signal into one or more respective digital values. The method further includes, for each one of the received sensor signals, performing digital processing on the one or more respective digital values using a respective one of a plurality of processing engines to generate one or more respective processed digital values. The method further includes performing additional processing on the processed digital values.

Abstract: A mechanism is described for facilitating non-invasive and non-skin piercing monitoring of blood glucose according to one embodiment. A method of embodiments, as described herein, includes receiving a body part including a finger, where the body part in the placement area causes interruptions in the running of a light. The method may further include detecting initial readings corresponding to the interruptions, the initial readings including signals, where a signal is generated each time the light is interrupted while passing through the body part, calculating absolute values based on the initial readings, and computing a final glucose reading based on the absolute values.

Abstract: A mechanism is described for facilitating non-invasive and non-skin piercing monitoring of blood hemoglobin according to one embodiment. A method of embodiments, as described herein, includes receiving a body part including a finger, where the body part in the placement area causes one or more sets of interruptions in the running of a light, where each set of interruptions includes a plurality of interruptions, and detecting initial readings corresponding to interruptions of the one or more sets of interruptions, the initial readings including signals, where an analog signal is generated each time the light is interrupted while passing through the body part. The method may further include calculating absolute values based on average raw values, where calculating includes computing an average absolute value based on the absolute values, and computing a final hemoglobin reading based on the average absolute value.

Abstract: Aspects of the disclosure are related to a touch controller for use in a device having a processor and a touch sensor panel, the touch controller being coupled to the processor and the touch sensor panel, and further comprising: an analog front-end (AFE), wherein the AFE is configured to generate raw touch image data based on electrical signals generated by the touch sensor panel in response to one or more detected touches thereto; a coarse processing element configured to, in response to the processor being set to a sleep mode, coarsely process the raw touch image data to generate sparse data; and an embedded memory configured to store at least the sparse data, wherein the touch controller is configured to transmit a signal to the processor to wake the processor up and transmit the stored sparse data and new touch image data to the processor, wherein the processor performs gesture recognition based on the sparse data and the new touch image data.

Abstract: The subject matter described herein generally relates to determining whether any surgical instruments are missing on a surgical tray, and, if any instrument is missing, identifying the missing instrument(s). In one aspect, a server can receive, from a camera device, a matrix code and a bitmap of an image of a tray having a first plurality of instruments. The server can detect the tray based on the matrix code. The server can receive, from a database, a list of a second plurality of instruments configured to be stored in the detected tray. The server can detect the first plurality of instruments stored in the tray by using the bitmap. The server can compare the preset list of the second plurality of instruments with the detected first plurality of instruments to generate an output characterizing whether any instruments is missing from the tray and an identification of the missing instrument(s).

Abstract: In some aspects of the present disclosure, a method for touch-panel processing is provided. The method includes receiving a plurality of sensor signals from a touch panel, wherein each one of the plurality of sensor signals corresponds to a respective one of a plurality of channels of the touch panel. The method also includes, for each one of the received sensor signals, converting the received sensor signal into one or more respective digital values. The method further includes, for each one of the received sensor signals, performing digital processing on the one or more respective digital values using a respective one of a plurality of processing engines to generate one or more respective processed digital values. The method further includes performing additional processing on the processed digital values.

Abstract: In some aspects of the present disclosure, a touch-panel interface includes a plurality of receivers, wherein each of the receivers is coupled to one or more receive lines of a touch panel, and each of the receivers includes a switch capacitor network and an amplifier. The touch-panel interface also includes controller configured to control switches in the switch capacitor network of each of one or more of the receivers to operate each of the one or more of the receivers in one of a plurality of different receiver modes.

Abstract: Methods, devices, and computer program products for using touch orientation to distinguish between users are disclosed herein. In one aspect, a method of identifying a user of a touch device from a plurality of users of the touch device is described. The method includes receiving touch data from a touch panel of the touch device, the touch data indicating a user's touch on the touch screen. The method further includes determining an orientation of the user's touch based on the received touch data. Finally, the method includes identifying the user of the plurality of users which touched the device, based at least in part on the orientation of the touch.

Abstract: Systems and methods are disclosed for determining a touch position from data received from a touch panel. In one implementation, an apparatus for processing a touch input signal includes a processor that may be configured for parallel processing, a touch device, a memory, operably connected to the processor, and configured to store processor instructions. The processor instructions can configure the processor to receive a plurality of data points corresponding to a plurality of touch events on the touch device, determine a center of mass estimate from the plurality of data points, determine a search radius of center of mass estimate, and determine an optimal touch point position based on the center of mass estimate and the search radius using the processor.

Abstract: There is provided herein a new system and method of local attribute match filtering which operates in the local attribute domain via the use of complex wavelet transform technology. This approach is adaptable to address various noise types in seismic data and, more particularly, is well suited to reduce the noise in geophone data as long as an associated hydrophone signal is relatively noise-free.

Abstract: A method for authenticating a storage device includes sending encrypted host device data from a host device to the storage device for a current authentication session, receiving encrypted storage device specific data and an encrypted first output string from the storage device based on the encrypted host device data sent to the storage device, and authenticating the storage device based on the encrypted storage device specific data and the encrypted first output string from the storage device.

Abstract: Aspects of the disclosure are related to a touch controller for use in a device having a processor and a touch sensor panel, the touch controller being coupled to the processor and the touch sensor panel, and further comprising: an analog front-end (AFE), wherein the AFE is configured to generate raw touch image data based on electrical signals generated by the touch sensor panel in response to one or more detected touches thereto; a coarse processing element configured to, in response to the processor being set to a sleep mode, coarsely process the raw touch image data to generate sparse data; and an embedded memory configured to store at least the sparse data, wherein the touch controller is configured to transmit a signal to the processor to wake the processor up and transmit the stored sparse data and new touch image data to the processor, wherein the processor performs gesture recognition based on the sparse data and the new touch image data.