Abstract: 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.

Abstract: A method and system for capturing and annotating measurement data includes communicatively connecting a mobile computing device to one or more measurement devices, and receiving measurement data from the one or more measurement devices. The mobile computing device stores the received measurement data and annotates the stored measurement data with metadata. The metadata includes group identifying information that associates the stored measurement data with other data having similar group identifying information. In at least one embodiment, measurement data is automatically associated with the group identifying information based on the measurement data being captured within a predetermined amount of time of each other or within a predetermined distance of each other as determined by a positioning system.

Abstract: 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.

Abstract: 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.

Abstract: A method, system, and computer-readable medium for sharing measurement data with a remote device includes establishing, by a mobile computing device at an equipment site, a first communication connection with a measurement device that is configured to measure data with respect to equipment at the equipment site. The mobile computing device receives measurement data by way of the first communication connection. While remaining at the equipment site, the mobile computing device receives a request to share the measurement data with a selected contact via a remote device. In response, a second communication connection is established with the remote device, the measurement data to be shared is identified, and the identified measurement data is communicated to the remote device for review by the selected contact. Prior to establishing a communication connection with the remote device, permission to communicate the measurement data to the selected contact may be obtained from a gatekeeper.

Abstract: A system for measuring a device under test (DUT) includes a computing device and a measurement device that measures an electrical or physical parameter of the DUT. The computing device receives and stores measurement data in a DUT record associated with the DUT. The computing device further obtains a first image of the DUT, displays the first image as a reference image with a first reference frame, receives a live image of the DUT from an image sensor, and displays the live image with a second reference frame that corresponds to the first reference frame. A cursor on the live image moves according to movement of the image sensor relative to the DUT. A second image of the DUT is obtained, wherein the second image is substantially aligned with the reference image based on an alignment of the cursor with the second reference frame. The second image is stored in the DUT record.

Abstract: A smart phone user captures video and still images of a motor and makes a sound recording of his observations. The images and recordings are tagged with a date/time stamp, a serial number, bar code, matrix code, RFID code, or geolocation and sent wirelessly to an infrared camera. The infrared camera has a collocation application that reads the tag and creates a folder which holds the infrared image and the auxiliary information from the smartphone related to an asset. The collocation program also adds icons to the infrared image. By operating the user interface (not shown) of the infrared camera, the user may select an icon to view the images and listen to the sound recording.

Abstract: A method and system for capturing measurement data from a measurement device using a mobile computing device is provided. A mobile computing device is communicatively connected to one or more measurement devices, and receives measurement data from the one or more measurement devices. The mobile computing device stores the received measurement data. In some embodiments, the measurement devices have less storage space than the mobile computing device, and so the mobile computing device is capable of storing more measurements than the measurement devices are capable of storing. The mobile computing device is also capable of presenting the stored measurement data as a graph of a time series of values, which would not be possible using only the measurement device given its smaller memory.

Abstract: A system for measuring a device under test (DUT) includes a computing device and a measurement device that measures an electrical or physical parameter of the DUT. The computing device receives and stores measurement data in a DUT record associated with the DUT. The computing device further obtains a first image of the DUT, displays the first image as a reference image with a first reference frame, receives a live image of the DUT from an image sensor, and displays the live image with a second reference frame that corresponds to the first reference frame. A cursor on the live image moves according to movement of the image sensor relative to the DUT. A second image of the DUT is obtained, wherein the second image is substantially aligned with the reference image based on an alignment of the cursor with the second reference frame. The second image is stored in the DUT record.

Abstract: Systems and techniques for obtaining and maintaining maintenance records for various assets are described. In one embodiment, a computing device may be wirelessly coupled to a measurement device when the computing device is placed in proximity with the computing device. Upon measuring one or more parameters of a device under test (DUT), the measurement device may provide the measured parameters to the computing device in the form of measurement data. In some embodiments, the computing device associates the measured parameters with the corresponding DUT from which the measurements were obtained and provides the associated measured parameter to, for example, a service provider for future access. In another embodiment, the measurement device itself is configured to associate the measurement parameters with the DUT and provide the associated measurement parameters to the service provider.

Abstract: A method and system for comparing measurements of a device under test (DUT) to measurements taken of similar equipment are provided. The method includes communicatively connecting a mobile computing device to one or more measurement devices, and receiving measurement data from the one or more measurement devices. The mobile computing device determines an equipment identifier of the DUT, and retrieves information associated with the equipment, which may include previous measurements of other devices or reference documents. The mobile computing device presents the retrieved information along with the received measurement data for comparison.

Abstract: A mobile computing device establishes a first communication connection with a remotely-located server and receives at least one work order from the server. The work order indicates one or more measurement tasks associated with specified equipment to be measured and one or more required measurement tools for performing each measurement task. The work order is displayed to a user, and in response to the user bringing the mobile computing device into a communication range of a required measurement tool for at least one measurement task in the work order, the mobile computing device establishes a second communication connection with the required measurement tool and receives measurement data pertaining to the specified equipment. In response to receipt of the measurement data, the mobile computing device automatically associates the measurement data with one or more specific data entry fields of the work order pertaining to the measurement task performed.

Abstract: A method and system for capturing and annotating measurement data includes communicatively connecting a mobile computing device to one or more measurement devices, and receiving measurement data from the one or more measurement devices. The mobile computing device stores the received measurement data and annotates the stored measurement data with metadata. The metadata includes group identifying information that associates the stored measurement data with other data having similar group identifying information. In at least one embodiment, measurement data is automatically associated with the group identifying information based on the measurement data being captured within a predetermined amount of time of each other or within a predetermined distance of each other as determined by a positioning system.

Abstract: A method, system, and computer-readable medium for sharing measurement data with a remote device includes establishing, by a mobile computing device at an equipment site, a first communication connection with a measurement device that is configured to measure data with respect to equipment at the equipment site. The mobile computing device receives measurement data by way of the first communication connection. While remaining at the equipment site, the mobile computing device receives a request to share the measurement data with a selected contact via a remote device. In response, a second communication connection is established with the remote device, the measurement data to be shared is identified, and the identified measurement data is communicated to the remote device for review by the selected contact. Prior to establishing a communication connection with the remote device, permission to communicate the measurement data to the selected contact may be obtained from a gatekeeper.

Abstract: A method and system for capturing measurement data from a measurement device using a mobile computing device is provided. A mobile computing device is communicatively connected to one or more measurement devices, and receives measurement data from the one or more measurement devices. The mobile computing device stores the received measurement data. In some embodiments, the measurement devices have less storage space than the mobile computing device, and so the mobile computing device is capable of storing more measurements than the measurement devices are capable of storing. The mobile computing device is also capable of presenting the stored measurement data as a graph of a time series of values, which would not be possible using only the measurement device given its smaller memory.

Abstract: 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.

Abstract: A smart phone user captures video and still images of a motor and makes a sound recording of his observations. The images and recordings are tagged with a date/time stamp, a serial number, bar code, matrix code, RFID code, or geolocation and sent wirelessly to an infrared camera. The infrared camera has a collocation application that reads the tag and creates a folder which holds the infrared image and the auxiliary information from the smartphone related to an asset. The collocation program also adds icons to the infrared image. By operating the user interface (not shown) of the infrared camera, the user may select an icon to view the images and listen to the sound recording.

Abstract: A method and system for comparing measurements of a device under test (DUT) to measurements taken of similar equipment are provided. The method includes communicatively connecting a mobile computing device to one or more measurement devices, and receiving measurement data from the one or more measurement devices. The mobile computing device determines an equipment identifier of the DUT, and retrieves information associated with the equipment, which may include previous measurements of other devices or reference documents. The mobile computing device presents the retrieved information along with the received measurement data for comparison.

Abstract: Systems and techniques for obtaining and maintaining maintenance records for various assets are described. In one embodiment, a computing device may be wirelessly coupled to a measurement device when the computing device is placed in proximity with the computing device. Upon measuring one or more parameters of a device under test (DUT), the measurement device may provide the measured parameters to the computing device in the form of measurement data. In some embodiments, the computing device associates the measured parameters with the corresponding DUT from which the measurements were obtained and provides the associated measured parameter to, for example, a service provider for future access. In another embodiment, the measurement device itself is configured to associate the measurement parameters with the DUT and provide the associated measurement parameters to the service provider.

Abstract: A baseband measurement system includes a host and a Digital Immediate Frequency (DIF) subsystem. The DIF subsystem includes both hardware and software components, such as, for example, a microprocessor and its associated software, a FPGA, one or more ASICs, and memory. The baseband measurements are processed using the FPGA, ASICs, and the microprocessor and its software. The microprocessor controls the flow of the data in and out of the memory and distributes the processing tasks to both the hardware and software components in a cooperative manner. The microprocessor orchestrates the measurements and processing by operating as a measurement state machine. Selection of the proper component is based on the type of measurement and its processing requirements, as well as the current state of the hardware and software components. The host receives the processed data and performs post-processing operations if needed. The host also displays the processed data.