A robot device determines an error associated with equipment included in a data center environment. The robot device may compare the error to candidate errors for which the robot device is already trained to resolve. Based on a result of the comparison, the robot device may perform, in a control environment, candidate maintenance operations in association with resolving the error. The robot device may learn a set of actions associated with successfully resolving the error, based on performing the candidate maintenance operations. The robot device may perform maintenance operations associated with the error. Performing the maintenance operations may include applying the learned set of actions.

A numerical controller capable of temporarily executing dedicated function software includes a dedicated function software reading unit configured to read, in response to a reading condition being satisfied, the dedicated function software into a primary storage area mainly accessed by a CPU, dedicated function software execution unit configured to execute the dedicated function software as a process in response to an execution condition being satisfied, and a dedicated function software termination unit configured to stop execution of the process of the dedicated function software and delete the dedicated function software from the primary storage area in response to a termination condition being satisfied.

A method for maintenance of a machine among a fleet of machines includes receiving a service request corresponding to the machine. The method further includes obtaining a service architecture corresponding to the fleet of machines. The service architecture includes a service dictionary and a plurality of classification schemes organized in a tree data structure. The method also includes processing the service request based on the service dictionary and a text parsing technique to generate a list of descriptive words. The method includes generating a recommendation based on the list of descriptive words and the service architecture. The recommendation includes at least one of an on-line repair activity, an on-site repair activity and a part replacement activity. The method also includes servicing the fault condition of the machine based on the recommendation.

A management system of a fusion splicer for selecting an appropriate maintenance base when the fusion splicer malfunctions. The management system includes a determination unit configured to determine a type of a failure mode of the fusion splicer, an acquisition unit configured to acquire position information of the fusion splicer, and a selection unit configured to select an appropriate maintenance base on the basis of the type of the failure mode determined by the determination unit and the position information of the fusion splicer acquired by the acquisition unit.

A numerical controller, which is configured to control maintenance of a machine tool, includes a mode shift part configured to shift an operation mode of the machine tool to a maintenance mode, on the basis of input of a trigger for starting the maintenance of the machine tool, an operation execution part configured to make the machine tool operate on the basis of predetermined maintenance contents; and an output control part configured to control output of an operation result of the machine tool, as a maintenance result. The mode shift part returns the operation mode of the machine tool to a normal operation mode, after the output of the maintenance result by the output control part.

A car body repair system and a method thereof are provided. The system includes a scan apparatus, a processor and an adjustment mechanism. The scan apparatus scan a car body to obtain current surface curve information related to a deformed three-dimension surface of the car body that is damaged. The processor obtains the current surface curve information and initial surface curve information related to an original three-dimension surface of the car body that has not been damaged. The processor compares the current surface curve information and the initial surface curve information to obtain deformation information. The adjustment mechanism adjusts the surface of the car body according to the deformation information to recover the car body to an initial state corresponding to the initial surface curve information. Accordingly, the repair efficiency is improved, and a high standard degree of repair is achieved.

A method is specified for monitoring an electronic control unit for a motor vehicle. An electronic control unit with a monitoring circuit, which contains at least one sensor component, is provided. A measured value is recorded by means of the at least one sensor component, on the basis of which an actual value of a characteristic value representative for the thermal, mechanical and/or chemical loading of the control unit is determined and compared with a predetermined set-point value. A signal is emitted as a function of the result of the comparison. A device and a control unit are additionally specified.

An initial customized electronic work scope is created for an individual industrial asset. The initial electronic work scope is created according to the set of rules defined in the tree-like data structure and uses the determined condition of the asset. The initial customized electronic work scope is not necessarily the same as other work scopes of other industrial assets the same asset type. The initial customized electronic work scope defines an ordered sequence for removing a plurality of individual mechanical parts of the individual asset.

An intrinsically-safe handheld field maintenance tool includes a controller, a process communication module, and a display. The process communication module is configured to communicate with a field device using a process communication protocol. The display is coupled to the controller. A user interface module is also coupled to the controller and is configured to receive user input. The controller is configured to detect a user input help request and provide a video output on the display in response to the user input help request.

A wireless operation system is configured by including a wireless operation terminal including an inputting device that inputs an operation instruction to cause a machine to execute a predetermined operation and a wireless transmitting device that wirelessly transmits the operation instruction input from the inputting device; a position detecting device that detects a position of the wireless operation terminal; and a permitted operation setting device that sets a permitted operation that the wireless operation terminal is allowed to execute in accordance with the position of the wireless operation terminal detected by the position detecting device.