Embodiments herein provide methods of monitoring temperatures of fluid delivery conduits for delivering fluids to, and other components external to, a processing volume of a processing chamber used in electronic device fabrication manufacturing, and monitoring systems related thereto. In one embodiment, a method of monitoring a processing system includes receiving, through a data acquisition device, temperature information from one or more temperature sensors and receiving context information from a system controller coupled to a processing system comprising the processing chamber. Here, the one or more temperature sensors are disposed in one or more locations external to a processing volume of a processing chamber. The context information relates to instructions executed by the system controller to control one or more operations of the processing system.

Embodiments herein provide methods of monitoring temperatures of fluid delivery conduits for delivering fluids to, and other components external to, a processing volume of a processing chamber used in electronic device fabrication manufacturing, and monitoring systems related thereto. In one embodiment, a method of monitoring a processing system includes receiving, through a data acquisition device, temperature information from one or more temperature sensors and receiving context information from a system controller coupled to a processing system comprising the processing chamber. Here, the one or more temperature sensors are disposed in one or more locations external to a processing volume of a processing chamber. The context information relates to instructions executed by the system controller to control one or more operations of the processing system.

A controller of a shock absorber has a differential path configured to perform derivative compensation on the basis of a difference between a target pressure and a detected pressure or on the basis of the detected pressure, multiply the compensated value by a negative gain, and output a resulting value of the multiplication, and obtains an electric current instruction applied to a pressure control solenoid valve.

A controller of a shock absorber has a differential path configured to perform derivative compensation on the basis of a difference between a target pressure and a detected pressure or on the basis of the detected pressure, multiply the compensated value by a negative gain, and output a resulting value of the multiplication, and obtains an electric current instruction applied to a pressure control solenoid valve.

An approach for interfacing a management control system with geographically dispersed electromechanical systems is described. Service messages are used to access services supported by a number of different types of electromechanical systems. The services of the systems are exposed through the service messages, and the systems are treated as service providers without the need to account for the different types, makes, models, and vendors of the systems when accessing them. Thus, similar to the way that a client device requests services from a server in a networked computing environment, the management control system can interact with the electromechanical systems to request services. The protocol of the service messages does not need to be changed as electromechanical systems are added, replaced, or updated, and new services and support for additional hardware can be added and updated as needed without changing the management control system.

A system for controlling lighting devices at one or more light-enabled facilities includes a portable electronic device with an app that communicates with a gateway controller at each facility, and/or a remote server. The portable electronic device pairs with a gateway controller upon arrival at the facility. The portable electronic device may receive available scenes from the gateway controller upon arrival, or from the remote server before arrival, and it may select scenes for the gateway controller to implement. Each scene will adjust various hardware settings of the lighting devices to alter the optical characteristics of emitted light at various times. The system also may use geolocation data to identify and schedule lighting services at various light-enabled facilities in a geographic area.

A method of analyzing events for an electrical system includes: receiving event stream(s) of events occurring in the electrical system, the events being identified from captured energy-related signals in the system; analyzing, an event stream(s) of the events to identify different actionable triggers therefrom, the different triggers including a scenario in which a group of events satisfies one or more predetermined triggering conditions; analyzing, over time, the different actionable triggers to identify a combination of occurring and/or non-occurring actionable triggers which satisfies a predefined trigger combination condition and an analysis time constraint; and in response to the observation of the combination, taking one or more actions to address the events. The analysis time constraint can be a time period duration and/or sequence within which time-stamped data of events in the event stream(s) and the associated actionable triggers are considered or not considered in the analysis to identify the combination.

A method of analyzing events for an electrical system includes: receiving event stream(s) of events occurring in the electrical system, the events being identified from captured energy-related signals in the system; analyzing, an event stream(s) of the events to identify different actionable triggers therefrom, the different triggers including a scenario in which a group of events satisfies one or more predetermined triggering conditions; analyzing, over time, the different actionable triggers to identify a combination of occurring and/or non-occurring actionable triggers which satisfies a predefined trigger combination condition and an analysis time constraint; and in response to the observation of the combination, taking one or more actions to address the events. The analysis time constraint can be a time period duration and/or sequence within which time-stamped data of events in the event stream(s) and the associated actionable triggers are considered or not considered in the analysis to identify the combination.

The present disclosure relates to a method and a device for triggering a specified operation, and belongs to the field of smart home technologies. The method includes obtaining a wireless signal received by a receiving device and sent by a specified signal source, determining whether a disturbance occurs in the first wireless signal, obtaining a signal quality characteristic of the wireless signal if it is determined that a disturbance occurs in the wireless signal; determining whether the signal quality characteristic matches with predetermined characteristic sample; and triggering the intelligent device to perform the specified operation if the signal quality characteristic matches with the predetermined characteristic sample.

The present disclosure relates to a method and a device for triggering a specified operation, and belongs to the field of smart home technologies. The method includes obtaining a wireless signal received by a receiving device and sent by a specified signal source, determining whether a disturbance occurs in the first wireless signal, obtaining a signal quality characteristic of the wireless signal if it is determined that a disturbance occurs in the wireless signal; determining whether the signal quality characteristic matches with predetermined characteristic sample; and triggering the intelligent device to perform the specified operation if the signal quality characteristic matches with the predetermined characteristic sample.