A vehicle diagnostic system includes a first diagnostic server including a diagnostic database having historical data matched with possible vehicle fixes, and configured to receive retrieved vehicle data and identify a most likely vehicle fix associated therewith. The first diagnostic server is associated with a first processing capability. The system additionally includes a second diagnostic server including a diagnostic algorithm operatively associated therewith and configured to identify a possible vehicle fix based on an assessment of the retrieved diagnostic data according to predefined criteria associated with the diagnostic algorithm. The second diagnostic server is associated with a second processing capability. A diagnostic router is disposable in communication with the first and second diagnostic servers and is configured to determine which one of the first and second diagnostic servers to send retrieved diagnostic data based on an assessment of the retrieved data and the first and second processing capabilities.

A computing system can register a measurement tool. The computing system can determine a selected vehicle for a vehicle data report and a selected measurement tool to perform a first tool measurement that excludes determining data from a vehicle data message. The computing system can determine a selected vehicle component for the first tool measurement by the selected measurement tool. The computing system can determine a spatial identifier for the first tool measurement. The computing system can determine the first tool measurement performed by the selected measurement tool. A radio transceiver of the computing system can receive radio signals carrying the first tool measurement from the selected measurement tool. The first tool measurement received by the radio transceiver can be provided to one or more processors of the computing system. The computing system can generate and output the vehicle data report that includes the first tool measurement.

A diagnostic device, in accordance with a marker condition setting function, sets marker conditions for adding markers to collected data. Next, the collected data are read out from a data collecting device. Next, in accordance with a marking function, markers are added to the collected data at points in time when the set marker conditions are satisfied. Then, in accordance with a file creation function, with reference to the markers of the collected data, the collected data that took place within a predetermined time range before and after the markers is extracted, and the collected data is stored in individual analysis files.

A device to verify main rotor swashplate positioning includes an inner surface of a first section and a gradient surface of a second section. The gradient surface of the second section may have a plurality of graduation indications. In one implementation, the inner surface of the first section at least partially defines a travel arc that is parallel to and concentric with the inner surface. In such an implementation, the device may be configured to move along the travel arc as it rotates about a collective sleeve to contact a swashplate lug.

A diagnostic system of a vehicle is provided herein. The system includes a control unit onboard the vehicle for controlling at least one of a vehicle system and a vehicle subsystem. A device prompts the control unit to diagnose an operating condition of the vehicle and report diagnostic data to the device. A light source onboard the vehicle is operable to project a diagnostic image onto a viewing surface located external to the vehicle.

A communication control apparatus includes a communicator for communicating with an electronic control unit (ECU), an interface connected to a diagnostic device, and a controller for activating a security diagnostic routing module when the diagnostic device is initially connected to the interface, and for performing routing between the electronic control unit (ECU) and the diagnostic device using the security diagnostic routing module.

A method comprises determining first and second measurements at different times. The first measurement includes a measurement of a signal output by a first vehicle component and the second measurement includes a measurement of a signal output by a second vehicle component, or the first measurement includes a measurement of a condition of the first vehicle component and the second measurement includes a measurement of a condition of the second vehicle component. A determination is made based at least in part on a difference between the first and second measurements exceeding a measurement threshold. The determination indicates that the first and/or second vehicle components is malfunctioning. The method includes outputting a notification indicating that the first and/or second vehicle components, which are matched with each other based on a common characteristic with respect to the vehicle, is malfunctioning. The first and second times are within a threshold amount of time.

A method for automatically establishing a communication connection to a vehicle at a repair shop work station, including the tasks of connecting a plurality of mobile communication interfaces to one of a plurality of vehicles, establishing biunique assignments of the vehicles to the particular mobile communication interfaces connected to the vehicles, one of the tasks of automatically detecting identification data of one of the plurality of mobile communication interfaces and/or of the particular assigned vehicle, which are located at the repair shop work station, or automatically detecting position coordinates of the plurality of mobile communication interfaces; transmitting the identification data or position coordinates to a vehicle testing device at the repair shop work station, and automatically establishing a communication connection between the vehicle testing device and the mobile communication interface located at the repair shop work station based on the detected identification data or the detected position coordinates.

Methods and systems for displaying information sets in determined orders are described. The information sets comprise vehicle service information. An order of information set identifiers associated with the information sets is based on vehicle identifying information of a subset of vehicles, and an additional search term comprising a symptom identifier and/or a vehicle component identifier of a component located on the vehicles. The information set identifiers of the group can be arranged according to a hierarchy of information set identifiers. The information sets are output to a vehicle service tool (VST) that displays the information sets. The VST can provide feedback data indicative of whether any aspect of an information set was selected while displayed. A server can aggregate feedback data received from multiple instances of displaying the information sets and determine a modified order for at least some of the information set identifiers of the previously determined group.

A system includes a non-transitory computer-readable storage medium. The non-transitory computer-readable storage medium has instructions stored thereon that, upon execution by a processor of a portable user device, cause the processor to wirelessly connect to a machine via a wireless transceiver of the portable user device, display a control interface for the machine on a user interface of the portable user device, receive a user input through the control interface regarding operation of a controllable component of the machine, and provide a command to the machine via the wireless transceiver based on the user input to facilitate remote operation of the controllable component of the machine.