A manufacturing device monitoring system includes a plurality of manufacturing devices and a remote monitoring device. The manufacturing device includes a work unit, an equipment notifier, an error detector, and an error notifier. The error notifier determines whether or not an error detected by the error detector may be corrected by an operation from the remote monitoring device, notifies the remote monitoring device of the occurrence of the error in a case where the error can be corrected, and operates the equipment notifier to notify a first notification pattern in a case where the error cannot be corrected.

A test system is includes a management server which is configured to provide predefined test instructions, a monitoring system, and at least one execution entity. The monitoring system is configured to convert test instructions provided by the management server into operating instructions for setting a test configuration on a control unit of a system using predefined assignment logic. The at least one execution entity is configured to set the test configuration on the control unit of the system on the basis of operating instructions transmitted by the monitoring system to the at least one execution entity.

A diagnostic tool includes a processor, display, and memory storing instructions to perform scan tool functions (STF) including transmitting a message to a vehicle. The STF include first and second STF for first and second systems of the vehicle. Additional stored instructions are executable to display: a first user-interface screen (UIS) including a first user-selectable control (USC) for a first scanner job performable on the vehicle, and a second UIS in response to selection of the USC of the first UIS. The second UIS includes a first USC including an indicator of the first STF, and a second USC including an indicator of the second STF. In response to a selection of the first USC, a first message addressed to a component of the first system is transmitted. In response to a selection of the second USC, a second message addressed to a component of the second system is transmitted.

An information processing apparatus for controlling display on a user interface includes an acquisition unit, and a display control unit. The acquisition unit acquires information including an operated state indicating a state regarding an operation performed on each of a plurality of apparatuses, and an operating state indicating a state regarding an operating status of each of the plurality of apparatuses. The display control unit controls display of the information regarding an apparatus identified from among the plurality of apparatuses on the user interface, based on the information including the operated state and the operating state acquired by the acquisition unit.

A computer-implemented method of providing insurance discounts to risk averse home owners having standby generators. The method may include, with customer permission or affirmative consent, (1) receiving, at an insurance provider remote server, data that is indicative of whether a standby generator is associated with a home; (2) receiving, at the insurance provider remote server, data indicative of an amount of the home to which the standby generator is configured to supply power; and (3) determining data associated with the terms of the residential insurance coverage for the home based upon the data indicative of whether the standby generator is associated with the home and/or the data indicative of the amount of the home to which the standby generator is configured to supply power. The standby generator data may be generated or collected by a smart home controller, and transmitted to the insurance provider via wireless communication, for instance.

The present disclosure provides a computer-implemented method for recommending one or more control schemes for controlling peak loading conditions and abrupt changes in energy pricing of one or more built environments associated with renewable energy sources. The computer-implemented method includes collection of a first set of statistical data, fetching of a second set of statistical data, accumulation of a third set of statistical data, reception of a fourth set of statistical data and gathering of fifth set of statistical data. Further, the computer-implemented method includes analysis of the first set of statistical data, the second set of statistical data, the third set of statistical data, the fourth set of statistical data and the fifth set of statistical data. In addition, the computer-implemented method includes recommendation of one or more control schemes to a plurality of energy consuming devices and a plurality of energy storage and supply means.

A communication device for a control loop is provided having a control device and an actuator that is connected to the control device via a connection line and that has a sensor for determining a control variable. In this respect, the communication device has a first interface for connecting to the control line for a connection to the control device, a second interface for a connection to the actuator, and a third interface for a connection to a third system to transfer at least some of a communication on the connection line or data acquired therefrom to the third system.

System for diagnosing pneumatic control valve online include a sensor set having sensors, attached to a pneumatic control valve, for measuring the state of the pneumatic control valve, a smart data analyzer for processing sensor signal acquired in real time from the sensor set and generating pneumatic control valve state information for online automatic diagnosis of the pneumatic control valve, a data server for transmitting, to an online analysis server, the pneumatic control valve state information received in real time from the smart data analyzer and storing the pneumatic control valve state information for predetermined time period, the online diagnostic server for, by comparing the pneumatic control valve state information with pre-stored normal state data of the pneumatic control valve, determining whether the pneumatic control valve is in abnormal state and generating diagnostic information, and a client computer for displaying the diagnostic information received from the online diagnostic server.

A system for remote diagnostic analysis of a heating, ventilation and air condition (HVAC) system is provided. The system includes a thermostat in operable communication with at least one peripheral component of the HVAC system and configured to receive information relating to the at least one peripheral component, and a server in operable communication with the thermostat for receiving and analyzing the information. The server causes the at least one peripheral component to conduct a diagnostic test and analyzes the test result to perform a root cause analysis of a system malfunction.

The disclosure relates to an automation device of a group of automation devices, comprising: a communication interface configured to communicate with a second automation device of the group of automation devices via a communication network; wherein the communication interface is configured to receive a status message of the second automation device that indicates a state or a change in state of the second automation device; and a light source configured to emit a light signal indicating the state or the change in state of the second automation device in response to the receiving of the status message.