Abstract: Embodiments of systems and methods to provide a firmware update to devices configured in a redundant configuration in an Information Handling System (IHS) are disclosed. In an illustrative, non-limiting embodiment, an IHS may include computer-executable instructions to receive a request for a secret known by the IHS, and attest the RAC by verifying that the public key exists in a manifest that is configured to store identifying information about a plurality of devices configured in the IHS. The request is signed using a private key of a first asymmetric key pair generated by a Remote Access Controller (RAC). Using a second public key of a second asymmetric key pair, the instructions encrypt the requested secret; and send the encrypted secret to the RAC, wherein the RAC is configured to use the second private key of the second asymmetric key pair to decrypt the encrypted secret.

Abstract: A computing device may determine a respective disk access usage of flash memory of the computing device by each of a plurality of applications. The computing device may compare the respective disk access usage of the flash memory by each of the plurality of applications with a respective application-specific disk access overuse threshold to determine disk access overuse of the flash memory by an application of the plurality of applications. The computing device may, in response to determining the disk access overuse of the flash memory by the application, terminate the application.

Abstract: A computer-implemented method for automating a content release comprising the steps of: determining a content release plan associated with a content release, wherein the content release plan includes a plurality of line items, wherein each line item identifies a content item to be released; parsing the plurality of line items included in the content release plan to build a deployment graph, wherein the deployment graph identifies a plurality of deployment tasks to be executed to complete the content release; executing the content release plan by performing the plurality of deployment tasks according to a schedule identified in the content release plan; and updating the content release plan based on one or more real-time statuses of the plurality of deployment tasks.

Abstract: A power machine can include a control device and a hydraulic circuit that can include a hydraulic pump in communication with a hydraulic motor that is configured to operate with infinitely variable displacement. The control device can be configured to determine a control value based on a commanded travel speed for the power machine and a pressure in the hydraulic circuit, and control a run-time displacement of the hydraulic motor based upon the determined control value.

Abstract: An embodiment provides a method for measuring an amount of total organic fluoride content of a PFAS containing sample, including: placing a sample comprising a PFAS compound in a measurement device, wherein the measurement device comprises an oxidation cell and a non-oxidation cell, wherein the oxidation cell comprises a boron-doped diamond electrode; measuring, using the measurement device, an amount of total inorganic fluoride of the sample before an oxidation; applying an electrical potential to a portion of the sample in the oxidation cell, wherein the electrical potential oxidizes the PFAS compound; measuring, using the measurement device, an amount of total organic fluoride of the sample after the oxidation to provide a measurement signal of the total organic fluoride; and determining a first derivative of the measurement signal of the total organic fluoride. Other aspects are described and claimed.

Abstract: Disclosed herein are systems, apparatuses, methods, and non-transitory computer readable media related to display constructs that can be fixed or movable. The display constructs can be configured to facilitate media display at opposite sides. The display constructs may be is at least partially transparent and can be viewed therethrough. Various interactive capabilities with the display construct are disclosed, as well as various installation component and kits. Further disclosed are wireless chargers embedded in fixtures and/or real assets of a facility.

Abstract: Disclosed herein are systems, apparatuses, methods, and non-transitory computer readable media related to a display construct coupled to a structure (e.g., a vision window). The structure can be a supportive structure such as a fixture. The display construct is configured to facilitate media display and is at least partially transparent. The vision window may be a tintable window, e.g., a window in which its tint is electrically controllable (e.g., an electrochromic window). Various interactive capabilities with the display construct are disclosed (e.g., via a touch screen).

Abstract: Embodiments provide methods for validating secure delivery of an IHS (Information Handling System) by confirming that the packages by which the IHS was delivered include only the packages used to ship the IHS from a factory or other trusted entity. During factory provisioning of the IHS, a shipping certificate is uploaded to the IHS, where the certificate includes shipping identifiers that are each associated with a package used to ship the IHS. Upon receiving packages by which the IHS has been shipped, shipping identifiers, such as bar codes and RFID codes, are collected from the received packages. The shipping identifiers collected from the received packages are compared against the shipping identifiers from the shipping certificate in order to validate the plurality of received packages as the same packages that were used to ship the IHS.

Abstract: Participants as requestors using a requesting network element request one or more tokenization processors to generate tokens that represent a sanitized version of data such that the resultant tokens are amenable to comparison across participants. As circumstances warrant, one or more such tokens can be submitted to the tokenization processor(s) to privately retrieve the original data. Role-based access control scope parameters and tokenization processor-specific tokenization processor secrets can be embedded into reversible tokens that remain invariant under updating of the tokenization processor secrets across tokenization processors.

Abstract: A method for execution by a computer generating a virtual reality environment utilizing a group of object representations by identifying an exclusion asset and modifying a set of common illustrative assets to exclude the exclusion asset to produce a redacted set of common illustrative assets. The method further includes rendering a portion of the redacted set of common illustrative asset to produce a redacted set of common illustrative asset video frames and selecting a subset of the redacted set of common illustrative asset video frames to produce a common portion of video frames for the virtual reality environment. The method further includes rendering representations of object representations to produce remaining portions of the video frames for the virtual reality environment. The method further includes linking the common portion and the remaining portions of the video frames to produce the virtual reality environment for interactive consumption.

Abstract: The present invention relates to peripheral perfusion measurement. In order to provide more detailed peripheral perfusion characteristics for better knowledge about a current situation, a device (10) for peripheral perfusion measurement is provided that comprises an image data input (12), a data processor (14) and an output interface (16). The image data input receives at least one perfusion angiographic 2D X-ray image of a region of interest of a subject's foot and a 3D foot-model comprising spatial perfusion-related parameters. The data processor registers the 3D foot-model with the foot in the at least one perfusion angiographic X-ray image. The registering comprises a pose-estimation of the foot in the 2D X-ray image. The information is mapped between the 2D image and the 3D foot-model based on the pose-estimation. Image processing modification instructions are identified based on the mapped information.

Abstract: Systems and methods are provided for configuring automatic playback settings on a media playback device. A graphical user interface displays automatic playback settings and receives selections of customized settings for automatic playback. The settings can include context granularity for automatic playback, limiting autoplay to when the media playback device is connected to a wireless network, and activating an audible notification when automatic playback of media content is beginning. An initial queue of media content is selected for playback on the media playback device. The system ascertains whether autoplay is enabled for a particular situation. If autoplay is enabled, the system automatically generates a queue of media that is related to the initial queue and initiates playback on the media playback device after the initial queue concludes.

Abstract: Systems and procedures are provided for validating an IHS (Information Handling System) as operating using only factory-provisioned firmware. During factory provisioning of the IHS, a signed inventory certificate is uploaded to the IHS that includes an inventory identifying firmware for use in the operation of the IHS. Upon delivery and initialization of the IHS, the inventory certificate is retrieved by a pre-boot validation process. An inventory of firmware used by hardware components of the IHS is then collected. The validation process compares the collected inventory of firmware against the inventory of factory-provisioned firmware from the inventory certificate in order to validate the IHS is operating using only factory-provisioned firmware. A validation failure is signaled when the comparison indicates that a hardware component is not operating using the factory-provisioned firmware specified in the inventory certificate.

Abstract: Various embodiments provide methods for validating hardware modifications of an IHS (Information Handling System) by confirming that a hardware modification corresponds to a hardware component supplied for installation in the IHS by a trusted entity. During factory provisioning of an IHS, an inventory certificate that specifies the factory installed IHS hardware is uploaded to the IHS and is also stored for ongoing support of the IHS. Upon a hardware component being supplied for installation in the IHS by a trusted entity, the inventory of the stored inventory certificate is updated to identify the supplied component and the updated certificate is transmitted to the IHS. An inventory of detected hardware components of the IHS is compared against the inventory from the updated inventory certificate in order to validate the detected hardware of the IHS includes the component, supplied by the trusted entity, that is identified in the updated inventory certificate.

Abstract: Systems and methods for factory management of secured component verification in an Information Handling System (IHS) are described. In an embodiment, an IHS may include: a host processor; a security processor coupled to the host processor; and a memory coupled to the security processor, the memory having program instructions stored thereon that, upon execution by the host processor, cause the security processor to: obtain system information associated with the IHS from the security processor, sign the system information into a Secured Component Verification (SCV) certificate, issue the SCV to a cloud-based verification server. The verification server compares the system information with a stored golden copy of the system information, determines whether the comparison matches, and generates control information based upon the comparison. The host processor receives the control information from the cloud-based verification server, and controls the operation of the IHS based on the control information.

Abstract: Systems and procedures are provided for validating an IHS (Information Handling System) as operating using only factory-provisioned lockable devices. During factory provisioning of the IHS, a signed inventory certificate is uploaded to the IHS that includes an inventory of factory-provisioned lockable devices and also includes encrypted code(s) for accessing the lockable devices. Upon delivery and initialization of the IHS, the inventory certificate is retrieved by a pre-boot validation process. An inventory of detected lockable devices of the IHS is then collected. The validation process compares the collected inventory of detected lockable devices against the inventory of factory-provisioned lockable devices from the inventory certificate in order to validate the IHS is operating using only factory-provisioned lockable devices.

Abstract: A computer-implemented method for positioning a subject in medical imaging, comprising: receiving a first image (20) of a region of interest (14, 16) of the subject (S10); determining first positioning data based on the first image (20), wherein the first positioning data indicates an alignment of the region of interest (14, 16) relative to a first image acquisition unit used to acquire the first image (20) (S20); determining guidance data based on the first positioning data, wherein the guidance data comprises a guidance for an alignment of the region of interest (14, 16) relative to a second image acquisition unit used to acquire a second image (60) from a current alignment to a target alignment, wherein the target alignment is to correspond to that derived from the first positioning data (S30); providing the guidance data for acquiring the second image (60) (S40).

Abstract: A method of forecasting the combined impact the introduction of energy technology solutions will have on the energy consumption at a site, comprising: selecting a plurality of energy technology solutions suitable for use at the site; generating energy usage data for the site, the energy usage data comprising data usage for the site in predetermined time intervals over a predetermined duration; creating energy impact data for each selected energy technology solution for each predetermined time interval based on the energy usage data for that time interval; sequentially generating impacted energy data for each selected energy technology solution across each time interval, the impacted energy data generated for a preceding energy technology solution being used to generate the impacted energy data for a subsequent energy technology solution; following completion of the sequentially generated impacted energy data for each energy technology solution, summing for each time interval independently the impacted energy

Abstract: The present disclosure includes apparatus, methods, and systems for error detection for a semiconductor device. An apparatus includes a memory array, a detector array, and a detector coupled to the detector array. The detector is configured to detect an error in a portion of the detector array and output an output signal to memory components coupled to the detector array in response to detecting the error.

Abstract: Various embodiments provide methods for validating hardware modifications of an IHS (Information Handling System) by confirming that a hardware modification corresponds to a hardware component supplied for installation in the IHS by a trusted entity. During factory provisioning of an IHS, an inventory certificate that specifies the factory installed IHS hardware is uploaded to the IHS and is also stored for ongoing support of the IHS. Upon a hardware component being supplied for installation in the IHS by a trusted entity, the inventory of the stored inventory certificate is updated to identify the supplied component and the updated certificate is transmitted to the IHS. An inventory of detected hardware components of the IHS is compared against the inventory from the updated inventory certificate in order to validate the detected hardware of the IHS includes the component, supplied by the trusted entity, that is identified in the updated inventory certificate.