Abstract: A controller configured to: acquire a temperature of a first component and a temperature of a second component; and adjust a thermal resistance of a medium between the first component and the second component based on the acquired temperature of the first component, the acquired temperature of the second component, a first temperature limit of the first component, and a second temperature limit of the second component.

Abstract: An air conditioner control device includes: a receiver that receives measurement values for ambient temperatures of air conditioners installed inside a facility; and a controller that adjusts setting temperatures for cooling operations (or heating operations) of each of the air conditioners to values that are less (or values that are greater) than the measurement values for each of the air conditioners, when at least one of the measurement values received by the receiver is greater (or less) than a target temperature inside the facility.

Abstract: Techniques for controlling a bottom hole assembly (BHA) to follow a planned wellbore path include determining sensor measurements from the BHA; determining a model of BHA dynamics based on the sensor measurements from the BHA; determining a weighting factor that corresponds to a drilling objective; determining an objective function comprising the drilling objective, weighted by the weighting factor, and one or more constraints; determining a control input to the BHA that satisfies the objective function and the one or more constraints; and applying the control input to the BHA.

Abstract: A method includes receiving, by an edge controller, data relating to a first space. The edge controller controls operation of an edge device affecting a characteristic of the first space and that is associated with a first building equipment domain. The method further includes analyzing, by the edge controller, the data to determine whether the data satisfies a condition. If the condition is satisfied, the edge controller controls operation of the edge device using the data. If the condition is not satisfied, the edge controller (a) transmits a request to a cloud controller to analyze the data based on information obtained by the cloud controller regarding at least one of a second space or a second building equipment domain, (b) receives a response to the request from the cloud controller, and (c) controls operation of the edge device using the response from the cloud controller.

Abstract: A method of operating a process control system and a process control system are provided by the disclosure. In one embodiment, the process control system includes: (1) an optical sensor configured to monitor a production process within a process chamber and generate optical data therefrom, (2) an operational controller configured to perform critical functions to determine processing conditions of the production process from the optical data, wherein the critical functions are directed by critical function controls, (3) an adaptable management controller configured to provide the critical function controls to the operational controller, wherein the adaptable management controller is hierarchically isolated from the operational controller during the critical functions.

Abstract: An adjusting system includes a system optimization device, a central control device, at least one air conditioning load device, at least one indoor area environment sensing device, and at least one outdoor area external environment sensing device. The at least one air conditioning load device is configured to obtain an air conditioning load parameter according to an air conditioning load in the space area. The at least one indoor area environment sensing device is configured to obtain an indoor environment parameter. The at least one outdoor area external environment sensing device is configured to obtain an outdoor environment parameter. The system optimization device receives the indoor environment parameter, the outdoor environment parameter, and the air conditioning load parameter and calculates to obtain a control parameter. The central control device controls the supply temperature of the water chiller according to the control parameter.

Abstract: A method for robotic adaptive production includes modifying program instructions online while performing production activities in response to detecting a change in the production environment. A robotic adaptive production method includes modifying program instructions online while performing production activities to minimize a production task cycle time or improve a production task quality. A robotic adaptive production method includes estimating a relationship between a control parameter and a sensor input; and modifying the control parameter online to achieve an updated parameter based on the estimating. A robotic adaptive production method includes receiving sensor input relating to robotic performance during the performance of production tasks and online optimizing a process parameter based on robotic performance during the performance of the production tasks.

Abstract: A load-moving system and a method for controlling the load-moving system for a heat treating furnace are described where the method includes detecting and transmitting signals and positions of the load-moving system as the load-moving system traverses a plurality of positions into, in, and out of the heat treating furnace. The signals being detected include one or more of: current, torque, or power used by the load-moving system at a determined position and/or time.

Abstract: A system and method for climate control of an environment in a building are provided. The system includes a first loop and second loop for circulating a heating medium. The system also includes a boiler, an energy optimizer and a controller. The method involves circulating a heating medium, providing heat to the heating medium, and controlling the boiler based on various inputs.

Abstract: Computer systems and associated methods for cooling computer components are disclosed herein. One embodiment of a computer system includes a computer cabinet having an air inlet spaced apart from an air outlet. The computer system also includes heat exchangers positioned in the computer cabinet, and a heat removal system in fluid communication with the heat exchangers. The computer system additionally includes at least one sensor for monitoring heat transfer between the computer cabinet and the room. The computer system further includes a control system operatively coupled to the at least one sensor, the control system including a computer-readable medium holding instructions for determining whether heat transfer between the computer cabinet and the room is balanced based on information from the sensor, and if not, adjusting a parameter to balance the heat transfer.

Abstract: A numerical controller that achieves detection of a lifetime of a belt in a machine whose axis and motor are interconnected by the belt includes a axis pulse acquisition unit obtaining a pulse of a axis provided in a machining tool to be controlled, a motor pulse acquisition unit obtaining a pulse of the motor driving the axis, a axis revolution speed calculation unit calculating a revolution speed of the axis based on the obtained axis pulse, a motor revolution speed calculation unit calculating a revolution speed of the motor from the obtained motor pulse, a substantial slip distance calculation unit calculating a substantial slip distance of the belt from the axis revolution speed and the motor revolution speed, and a belt lifetime determination unit determining that the belt has reached the end of its lifetime when the substantial slip distance of the belt exceeds a predetermined threshold.

Abstract: An example device includes a processor configured to receive a plurality of voltage values corresponding to voltage nodes in a first portion of a power system and determine, for each voltage node, a respective value of first and second voltage-constraint coefficients. The processor is also configured to receive a power value corresponding to a connection point of the first portion of the power system with a second portion of the power system and determine for the connection point, a respective value of first and second power-constraint coefficients. The processor is also configured to cause at least one energy resource connected to the first portion of the power system to modify an output power of the at least one energy resource based on the value of the first and second voltage-constraint coefficients for each voltage node and the value of the first and second power-constraint coefficients.

Abstract: An additive management system is disclosed. The system includes an additive selection system, which selects an additive for dispensing into a working fluid. The system also includes an additive dispensing system having a fluid sensing chamber with sensors. The system also includes an additive delivery system, which delivers the selected additive to the additive dispensing system, and a processor which causes the fluid sensing chamber to receive a sample of the working fluid, receives measurement signals from the one or more fluid parameter sensors corresponding with the values of fluid parameters of the working fluid, and determines values for fluid parameters of the working fluid based on the measurement signals. The processor also causes the additive delivery system to deliver the selected additive to the additive dispensing system and causes the additive dispensing system to dispense the selected additive into the working fluid through the fluid sensing chamber.

Abstract: To provide an arrangement capable of detecting spindle failure in a machine tool using an existing servo control device, without providing separate external sensors, a failure analysis device or the like. A servo control device (22), which detects failure of a spindle of a machine tool including the spindle, a feed shaft, and a positioning servomotor that is installed to the feed shaft and is for deciding the position of the spindle, includes: a feedback acquisition unit (222) that acquires a feedback signal of the positioning servomotor; and an analysis/detection unit 226 that analyzes the feedback signal acquired to detect failure of the spindle.

Abstract: A window is described, comprising a frame, a sash, a window pane mounted in the sash, a computer system, the computer system comprising a housing, the housing configured to be mounted into a receiving area of the frame, into the sash, into a window valence, or into a window casing. A processing device is located within the housing. Non-transitory memory located within the housing configured to store instructions to be executed by the processing device, a network interface, at least a first sensor fixed to the casing, frame, or window pane, the first sensor coupled to the computer system, wherein the computer system is configured to take at least a first action in response to at least a first sensor reading from the first sensor.

Abstract: A system and method for capturing automation data from an automated system uses a multi-array populated by an automation controller with automation data including timing data defined by a controller clock. The multi-array includes at least one member corresponding to a sensor sensing a state of the member and a plurality of member-defined data elements, which may correspond to a start time and end time of the member state. Automation data is captured from the controller multi-array by a computing device in communication with the controller including a first data table corresponding with the controller multi-array for efficient collection of the automation data from the controller memory, and a second data table for associating each data element with its defining member and storing the associated data in a historical database which may be used for analysis of cycle time data of a member, device or operation of the automated system.

Abstract: An augmented virtual model of a commercial structure, such as a processing plant and/or a manufacturing plant which includes a virtual design, as built data and experiential measurement data. A User may view the augmented model in a virtual reality setting based with the content presented to the user based upon a location of the user at the time of viewing. Aspects of the Augmented Virtual Model are updated over time and utilized to track performance.

Abstract: A feed sensor detects location of a wood log to be moved with a feed mechanism in relation to a predetermined point in a device. A control circuit controls a feed mechanism to feed the log for a preset length on the basis of the location of the log detected by the feed sensor. The control circuit controls the cutting mechanism to cut a wood block from a log longer than the predetermined length when the feed mechanism has fed the log for the preset length and a splitting mechanism to split the wood block cut from the log.

Abstract: The invention relates to an apparatus comprising an electromechanical device, a control unit and a motion detector, wherein said electromechanical device is controllable by said control unit via a control signal, wherein said motion detector is configured such that said mechanical movement of said electromechanical device is determined and wherein said motion detector provides a motion detector signal. The invention also relates to a method for operating an electromechanical device. The technical problem of providing an apparatus with an electromechanical device, the reliability as well as the power consumption of which is improved, is solved in that the control unit is configured such that it can be influenced by the phase difference between the control signal and the motion detector signal.

Abstract: An air conditioner and a method for controlling an air conditioner are provided. The method may include acquiring a top view image for an indoor space using an imaging device and calculating a height of a ceiling in which an indoor device may be mounted; determining whether an image is a human body or an obstacle, with respect to at least one image included in the to view image; and performing control of the indoor device to allow air flow to avoid an obstacle and be discharged toward a human body by controlling driving of an indoor fan or one or more discharge vane provided in the indoor device.