Abstract: A client device installed with a client application having a graphical user interface (GUI) may be configured to (i) at a given time during a runtime session of the client application, identify a set of GUI elements within the GUI of the client application that is to be represented in a generic visualization of the GUI, (ii) generate a dataset that encodes the generic visualization of the GUI, wherein the generated dataset comprises a respective data structure for each GUI element in the identified set that encodes information for rendering a generic representation of the GUI element, and (iii) after generating the dataset that encodes the generic visualization of the GUI, transmit the generated dataset that encodes the generic visualization of the GUI to a back-end platform associated with a provider of the client application.

Abstract: An inference process visualization system is configured to generate inference process visualization data for a medical scan indicating an inference process flow of plurality of sub-models applied to the medical scan and further indicating a plurality of inference data for the medical scan generated by applying the plurality of sub-models in accordance with the inference process flow. The inference process visualization system is further configured to facilitate display of the inference process visualization data via an interactive interface.

Abstract: A medical scan viewing system is configured to: generate inference data via at least one inference function, based the at least one medical scan and further based on receiver operating characteristic (ROC) parameters that include at least one ROC set point; present for display, via an interactive user interface, medical image data corresponding to the at least one medical scan, the inference data and a ROC adjustment tool; generate, in response to user interaction with the ROC adjustment tool, at least one adjusted ROC set point; generate updated inference data via the at least one inference function, based the at least one medical scan and further based on the at least one adjusted ROC set point; and present for display, via the interactive user interface, the medical image data corresponding to the at least one medical scan and the updated inference data.

Abstract: A client device installed with a client application having a graphical user interface (GUI) may be configured to (i) at a given time during a runtime session of the client application, identify a set of GUI elements within the GUI of the client application that is to be represented in a generic visualization of the GUI, (ii) generate a dataset that encodes the generic visualization of the GUI, wherein the generated dataset comprises a respective data structure for each GUI element in the identified set that encodes information for rendering a generic representation of the GUI element, and (iii) after generating the dataset that encodes the generic visualization of the GUI, transmit the generated dataset that encodes the generic visualization of the GUI to a back-end platform associated with a provider of the client application.

Abstract: A computing platform may be configured with technology for presenting information about a given runtime session of a given client application in the form of a timeline view comprising a time-sorted listing of line items for log events recorded during the given runtime session, wherein each log event's line item includes (i) timing information, (ii) a textual descriptor log event, and (iii) an indication of one or more contextual values associated with the respective log event.

Abstract: A client device installed with a client application comprising a configurable rules engine may be configured to (i) receive configuration data for a given rule related to the client application's observability behavior that comprises (a) a trigger event and (b) a set of one or more actions, (ii) based on the received configuration data, configure the configurable rules engine of the client application to execute the given rule, and (iii) initiate a runtime session of the client application during which the configurable rules engine of the client application executes the given rule by (a) monitoring for the trigger event, (b) while monitoring for the trigger event, detecting an occurrence of the trigger event, and (c) based on detecting the occurrence of the trigger event, causing the set of one or more actions to be carried out.

Abstract: A medical scan viewing system is configured to: generate inference data via at least one inference function, based the at least one medical scan and further based on receiver operating characteristic (ROC) parameters that include at least one ROC set point; present for display, via an interactive user interface, medical image data corresponding to the at least one medical scan, the inference data and a ROC adjustment tool; generate, in response to user interaction with the ROC adjustment tool, at least one adjusted ROC set point; generate updated inference data via the at least one inference function, based the at least one medical scan and further based on the at least one adjusted ROC set point; and present for display, via the interactive user interface, the medical image data corresponding to the at least one medical scan and the updated inference data.

Abstract: An inference process visualization system is configured to generate inference process visualization data for a medical scan indicating an inference process flow of plurality of sub-models applied to the medical scan and further indicating a plurality of inference data for the medical scan generated by applying the plurality of sub-models in accordance with the inference process flow. The inference process visualization system is further configured to facilitate display of the inference process visualization data via an interactive interface.

Abstract: A medical scan viewing system is configured to: generate inference data via at least one inference function, based the at least one medical scan and further based on receiver operating characteristic (ROC) parameters that include at least one ROC set point; present for display, via an interactive user interface, medical image data corresponding to the at least one medical scan, the inference data and a ROC adjustment tool; generate, in response to user interaction with the ROC adjustment tool, at least one adjusted ROC set point; generate updated inference data via the at least one inference function, based the at least one medical scan and further based on the at least one adjusted ROC set point; and present for display, via the interactive user interface, the medical image data corresponding to the at least one medical scan and the updated inference data.

Abstract: A system operates by receiving a medical scan and a medical report corresponding to the medical scan, wherein the medical report was written by a medical professional in conjunction with review of the medical scan; generating automated assessment data by performing an inference function on the medical scan by utilizing a computer vision model trained on a plurality of medical scans; generating human assessment data by performing an extraction function on the medical report; generating consensus data by performing a consensus function on the automated assessment data and the human assessment data, wherein performing the consensus function includes comparing the automated assessment data to the human assessment data; and transmitting a retroactive discrepancy notification, wherein the retroactive discrepancy notification indicates the medical scan is flagged in response to determining the consensus data indicates the automated assessment data compares unfavorably to the human assessment data.