Embodiments determine anomalies in sensor data generated by a sensor. Embodiments receive a first time window of clean sensor data generated by the sensor, the clean sensor data including anomaly free data, and determine if the clean sensor data includes a cyclic pattern. When the clean sensor data has a cyclic pattern, embodiments divide the first time window into a plurality of segments of equal length, where each equal length includes the cyclic pattern. Embodiments convert the first time window and each of the plurality of segments into corresponding curves using Kernel Density Estimation (“KDE”). For each of the plurality of segments, embodiments determine a Kullback-Leibler (“KL”) divergence value between corresponding curves of the segment and the first time window to generate a plurality of KL divergence values.

A biological signal of a subject is acquired so as to calculate biological information from the acquired biological signal. When the biological information has been determined to be anomaly, whether the biological information is one that was calculated under a high-accuracy condition is determined. When the biological information is determined to be one that was calculated under the high-accuracy condition, a notice is given based on a first criterion. In the other cases, a notice is given based on a second criterion. Thereby, it is possible to provide an abnormality notification system that can give a necessary notification appropriately while suppressing unnecessary notification, by changing the criteria for notification in accordance with the accuracy of the determined biological information when the biological information of the subject was determined to be anomaly.

A parking assist system and method for aligning a capture resonator mounted on a vehicle with a source resonator, charging pad, disposed on a ground surface is disclosed. The parking assist system includes a vehicle GPS receiver, a vehicle external sensor, an ultra-wide band (UWB) sensor, a controller; and a display device. The controller is configured to process information collected from the vehicle GPS receiver, the vehicle external sensor, and the UWB sensor to determine the location of the source resonator and to calculate a path to park the vehicle such that the capture resonator is aligned with the source resonator. A rendering of a trajectory path is displayed on a display device. The calculated path may be communicated to an autonomous driving system to autonomously maneuvering the vehicle into a parking space such that the capture resonator is aligned with the source resonator.

A computer-implemented method, system, and computer-readable medium for automatically generating a combined display of measurement data representing a combined measurement, such as a multiphase parameter, includes establishing, by a mobile computing device, communication connections with a plurality of measurement devices configured to generate measurement data. The mobile computing device receives the measurement data generated by the plurality of measurement devices, and in response to information indicative of the measurement data representing related parts of a combined measurement, the mobile computing device automatically groups the measurement data received from the measurement devices and automatically displays the grouped measurement data in a combined display that shares at least one axis of measurement. In at least one embodiment, the combined measurement is a multiphase parameter, such as a three-phase electrical parameter, and the combined display is a graph in which the measurement data shares at least one axis of measurement, such as time.

A computer-implemented method, system, and computer-readable medium for automatically generating a combined display of measurement data representing a combined measurement, such as a multiphase parameter, includes establishing, by a mobile computing device, communication connections with a plurality of measurement devices configured to generate measurement data. The mobile computing device receives the measurement data generated by the plurality of measurement devices, and in response to information indicative of the measurement data representing related parts of a combined measurement, the mobile computing device automatically groups the measurement data received from the measurement devices and automatically displays the grouped measurement data in a combined display that shares at least one axis of measurement. In at least one embodiment, the combined measurement is a multiphase parameter, such as a three-phase electrical parameter, and the combined display is a graph in which the measurement data shares at least one axis of measurement, such as time.

Systems and methods are provided for updating a workflow by resolving information of the workflow. The systems and methods may be configured to obtain sensor data describing an operation of the workflow, obtain information describing the workflow, determine whether the sensor data is consistent with the information based on predefined criteria, in response to determining that the sensor data is not consistent with the information, determine whether to resolve the sensor data, in response to determining whether to resolve the sensor data, resolve the sensor data to satisfy the predefined criteria or determining that the sensor data is unresolved, and update the workflow based on the resolved sensor data.

Systems and methods are provided for updating a workflow by resolving information of the workflow. The systems and methods may be configured to obtain sensor data describing an operation of the workflow, obtain information describing the workflow, determine whether the sensor data is consistent with the information based on predefined criteria, in response to determining that the sensor data is not consistent with the information, determine whether to resolve the sensor data, in response to determining whether to resolve the sensor data, resolve the sensor data to satisfy the predefined criteria or determining that the sensor data is unresolved, and update the workflow based on the resolved sensor data.

Systems and methods are provided for updating a workflow by resolving information of the workflow. The systems and methods may be configured to obtain sensor data describing an operation of the workflow, obtain information describing the workflow, determine whether the sensor data is consistent with the information based on predefined criteria, in response to determining that the sensor data is not consistent with the information, determine whether to resolve the sensor data, in response to determining whether to resolve the sensor data, resolve the sensor data to satisfy the predefined criteria or determining that the sensor data is unresolved, and update the workflow based on the resolved sensor data.

A calibration assembly may be used with an endoscopic imaging system having a field of view. The calibration assembly may comprise an interface configured for constraining engagement with the endoscopic imaging system and a target coupled with the interface so as to be within the field of view. The target may include a plurality of calibration features. The calibration assembly may be reconfigurable from a first spatial arrangement between the target and the endoscopic imaging system to a second spatial arrangement between the target and the endoscopic imaging system. The calibration assembly may also comprise a processor configured to obtain, from the endoscopic imaging system, first and second images of at least some of the calibration features of the target at the first and second spatial arrangements. The processor may also generate calibration data for the endoscopic imaging system using the first and second images.

A calibration assembly may be used with an endoscopic imaging system having a field of view. The calibration assembly may comprise an interface configured for constraining engagement with the endoscopic imaging system and a target coupled with the interface so as to be within the field of view. The target may include a plurality of calibration features. The calibration assembly may be reconfigurable from a first spatial arrangement between the target and the endoscopic imaging system to a second spatial arrangement between the target and the endoscopic imaging system. The calibration assembly may also comprise a processor configured to obtain, from the endoscopic imaging system, first and second images of at least some of the calibration features of the target at the first and second spatial arrangements. The processor may also generate calibration data for the endoscopic imaging system using the first and second images.