Abstract: A system for controlling a parameter of a plant associated with a substrate processing chamber is disclosed. A measuring circuit measures a response of the plant associated with the substrate processing chamber when the parameter of the plant is changed. A model generating circuit determines a delay and a gain of the plant based on the response. The model generating circuit generates a model of the plant based on the delay, the gain, and a time constant of the plant. A predicting circuit receives a set point for the parameter and a measurement of the parameter, generates a value of a prediction of the parameter based on the set point for the parameter and the measurement of the parameter using the model, wherein the value of the prediction of the parameter does not include the delay, compares the value of the prediction of the parameter with the set point to generate a control signal, and controls the parameter of the plant based on the control signal.

Abstract: A cooling system, e.g. for a hot aisle/cold aisle datacenter system, can detect local pressure differences between the hot and cold aisle by way of a conduit containing a temperature sensor positioned between the hot aisle and cold aisle. The temperature sensor can detect a temperature of airflow between the aisles by the temperature sensor in the conduit. This conduit is defined by a frame or insert that includes a first opening and a second opening separated by a nonzero distance and that is configured to penetrate a containment element separating the hot aisle and cold aisle. The cooling system can, based on the interstitial temperature, determine a direction of flow of the airflow between the hot region and the cold region and detect recirculation between the hot region and the cold region based on the direction of flow.

Abstract: Systems and methods for providing efficient modeling and measurement of critical dimensions and/or overlay registrations of wafers are disclosed. Efficiency is improved in both spectral dimension and temporal dimension. In the spectral dimension, efficiency can be improved by allowing different numerical aperture (NA) models to be used for different wavelengths in electromagnetic calculations, effectively providing a balance between computation speed and accuracy. In the temporal dimension, different NA models may be used at different iterations/stages in the process, effectively improving the computation speed without sacrificing the quality of the final result.

Abstract: In embodiments, a system may comprise a circuit component to perform a function; and a supervisor component (e.g., a safety component) coupled to the circuit component to monitor proper functioning of the circuit component. The circuit component may be configured to initiate provision of diagnostic information to the supervisor component, or to indicate to the safety component whether the circuit component will be responsive to a query from the safety component for diagnostic information.

Abstract: The present disclosure includes a heating, ventilation, and air conditioning (HVAC) system having a control system suitable to control operation of a device in the HVAC system. The control system may include a zone control panel that may control operation of the device using power-line communication. Accordingly, the zone control panel and the device may be both communicatively and electrically coupled via one or more power lines. To that end, the zone control panel may determine a primary address identifying the device and/or a secondary address indicating the one or more power lines electrically coupled to the device. Further, the zone control panel may communicate with and/or coordinate operation of the device by transmitting data messages to the device via the one or more power lines based on the primary address and/or the secondary address.

Abstract: Deriver extracts, based on a power adjustment quantity provided from a power supply utility, a plurality of candidate combinations of power facilities that are candidates that achieve the power adjustment quantity from among a plurality of power facilities. Deriver derives a group of candidate combinations of power facilities that includes the plurality of candidate combinations of power facilities extracted. Selector selects a combination of power facilities that achieves the power adjustment quantity from among the group of candidate combinations of power facilities based on response information of each power facility in the past, the response information being information in response to a DR request.

Abstract: A plant control system includes a plant system and a control system controlling the plant system. Runtime conditions of an operating point of the plant control system are received. The runtime conditions include a runtime state of the plant system, a runtime output of the plant system, and a runtime control action applied to the plant system. Reference conditions of a reference point corresponding to the operating point are determined. Stability radius measures of a state difference, an output difference, and a control action difference are computed.

Abstract: A method for improving mobile sensor based monitoring is provided. The method includes continuously receiving in real time via sensors integrated within a wearable device of a user, vital sign data and movement based data associated with the user. Additionally, environmental data is continuously received via sensors located within a geographical area of the user. The vital sign data, movement based data, environmental data, and medical data are analyzed and current and future mental and physical conditions for the user are predicted. Recommended actions associated with modifying the current and future mental and physical conditions for the user are generated and presented. Current physical conditions for the user are monitored to determine if the recommended actions have been executed.

Abstract: Examples are disclosed that relate cooling an electronic device based on power load. One disclosed example includes a controller configured to obtain a first measure of a power load, apply a filter to obtain a first filtered power load value, set a first thermal setpoint based at least on the first filtered power load value, determine a first temperature of the device, and adjust a response of the cooling mechanism based at least on the first thermal setpoint. The controller is further configured to obtain a second measure of the power load at a different time, apply the filter to obtain a second filtered power load value, set a second thermal setpoint based at least on the second filtered power load value, determine a second temperature of the device, and adjust the response of the cooling mechanism based at least on the second thermal setpoint.

Abstract: Methods, devices, and computer-readable media for providing integrative comfort a structure are described herein. One method includes determining a comfort preference associated with a user of a mobile device, the comfort preference including a plurality of aspects of physical comfort, storing the comfort preference in a memory, and modifying a respective operation of a plurality of connected devices in a portion of a structure to provide the comfort preference in the portion of the structure responsive to a distance between the mobile device and the portion of the structure being less than a particular threshold.

Abstract: A remote controller can be provided on any apparatus that employs feedback control from a native controller to add functionality to the apparatus where the native controller is not capable of providing such functionality independently.

Abstract: A method, a system, and computer readable medium for managing thermostatically controlled loads (TLCs). The method includes acquiring data from a plurality of TCLs including at least thermal parameters associated with each TCL of the plurality of TCLs and a regulation signal data and prioritizing the plurality of TCLs. The prioritization is based on a contribution of each TCL to an overall service. The method further includes generating an optimization curve based on the prioritization, determining an optimization attribute associated with each TCL of the plurality of TCLs, and outputting the optimization attribute associated with each TCL for a regulation period to each TCL. The optimization curve has at least reward criteria as an optimization parameter.

Abstract: The teachings of the present disclosure may be employed for buffering electric power in a virtual storage power plant. For example, a virtual power plant for buffering electric power may include: distributed electrical energy storage systems electrically interconnected by transmission lines of an electrical power plant network; a measuring device detecting a state of charge of each of the storage systems; and a control device adjusting the states of charge between a lower limit and an upper limit. The states of charge are adjusted as needed by means of a charge equalization including transmitting electrical equalization charges from energy storage systems having a relatively high state of charge to energy storage systems having a relatively low state of charge, via the electrical power plant network.

Abstract: A computer numerically controlled machine may include a movable head configured to deliver electromagnetic energy to a part of a working area in which the movable head may be commanded to cause delivery of the electromagnetic energy. The interior space may be defined by a housing and may include an openable barrier that attenuates transmission of light between the interior space and an exterior of the computer numerically controlled machine when the openable barrier is in a closed position. The computer numerically controlled machine may include an interlock that prevents emission of the electromagnetic energy when detecting that the openable barrier is not in the closed position. The commanding may result in the computer numerically controlled machine executing operations of a motion plan for causing movement of the movable head to deliver the electromagnetic energy to effect a change in a material at least partially contained within the interior space.

Abstract: According to some embodiments, system and methods are provided, comprising an installed product, including a plurality of components; a computer programmed with a damage metric model for the installed product, the damage metric model for providing an estimate of an extent of damage on one or more components; the computer programmed with a dynamic process control model for providing a dynamic response of the installed product with respect to its one or more operating parameters; the computer further programmed with a true-up model for providing a control action to reduce an uncertainty of the estimate provided by the damage metric model; the computer including a processor and a memory in communication with the processor, the memory storing the damage metric model and the true-up model; the memory storing additional program instructions, the processor operative with the additional program instructions to perform functions as follows: receiving an estimate output of the damage metric model, wherein the output in

Abstract: A method of manufacturing a component using an additive manufacturing system is provided. The method includes providing a build file on a controller of the additive manufacturing system. The build file includes at least one generating function, at least one seed value, and at least one function parameter. The method also includes generating a curve that corresponds to the component based on the at least one generating function, the at least one seed value, and the at least one function parameter. The method further includes positioning a material on a surface. The method further includes determining, using the controller, a plurality of set points for a consolidation device. The plurality of set points are located along the curve. The method also includes operating the consolidation device of the additive manufacturing system to consolidate the material.

Abstract: A control system for controlling a shared variable frequency drive for operating more than one mechanical systems of a grain bin. The control system includes at least one processor circuit that is configured to operate the shared VFD in both a first mode, wherein operating in the first mode results in operating a fan assembly of the grain bin, and a second mode, wherein operating in the second mode results in operating an unload sweep assembly within the grain bin.

Abstract: Systems and methods for automatic irrigation for a micro-climate areas and subterranean soil modeling are provided herein. Some methods include receiving collection of micro-climate data having weather data from a weather station that is proximate a target area, canopy imaging for the target area, depth-specific soil data for the target area, plant health data that includes stomatal conductance and evapotranspiration for plants in the target area, and selectively adjusting operation of an irrigation system so as to increase or decrease water applied to the target area based on analysis of the micro-climate data.

Abstract: A moveable head of a computer numerically controlled machine may deliver electromagnetic energy sufficient to cause a first change in a material at least partially contained within an interior space of the CNC machine. A feature of the material may be imaged using at least one camera present inside the interior space to update a position of the material, and the moveable head may be aligned to deliver electromagnetic energy sufficient to cause a second change in the material such that the second change is positioned on the material consistent with the first change and with an intended final appearance of the material. Methods, systems, and article of manufacture are described.

Abstract: The disclosure relates to a method, an apparatus and a computer-readable medium for device control. The method includes obtaining remaining battery energy, an operating power and a timing period for the device and determining a power change curve of the device when the remaining battery energy is insufficient to enable the device to operate with the operating power for the timing period. The method also includes adjusting the operating power of the device according to the power change curve of the device to enable the device to operate for the timing period.