Abstract: A method for using a geometrical probe (5) with a spindle (3) of a machine tool (1), wherein a probe fetch waiting state of the machine tool (1), at least one temperature parameter related to a temperature of the spindle (3) of the machine tool (1) is determined by measuring at least one temperature value for the spindle (3), and time for fetching the geometrical probe (5) is determined depending on the at least one temperature parameter.

Abstract: The system generally includes a crosspoint switch in a local data collection system having multiple inputs and multiple outputs including a first input connected to a first sensor and a second input connected to a second sensor. The multiple outputs include a first output and a second output configured to be switchable between a condition in which the first output is configured to switch between delivery of a first sensor signal and a second sensor signal and a condition in which there is simultaneous delivery of the first sensor signal and the second sensor signal. Each of multiple inputs is configured to be individually assigned to any of the multiple outputs. The local data collection system includes multiple data acquisition units each having an onboard card set configured to store calibration information and maintenance history.

Abstract: The system generally includes a crosspoint switch in a local data collection system having multiple inputs and multiple outputs including a first input connected to a first sensor and a second input connected to a second sensor. The multiple outputs include a first output and a second output configured to be switchable between a condition in which the first output is configured to switch between delivery of a first sensor signal and a second sensor signal and a condition in which there is simultaneous delivery of the first sensor signal and the second sensor signal. Each of multiple inputs is configured to be individually assigned to any of the multiple outputs. The local data collection system includes multiple data acquisition units each having an onboard card set configured to store calibration information and maintenance history. The local data collection system is configured to manage data collection bands.

Abstract: The system generally includes a crosspoint switch in a local data collection system having multiple inputs and multiple outputs including a first input connected to a first sensor and a second input connected to a second sensor. The multiple outputs include a first output and a second output configured to be switchable between a condition in which the first output is configured to switch between delivery of a first sensor signal and a second sensor signal and a condition in which there is simultaneous delivery of the first sensor signal and the second sensor signal. Each of multiple inputs is configured to be individually assigned to any of the multiple outputs. The local data collection system includes multiple data acquisition units each having an onboard card set configured to store calibration information and maintenance history. The local data collection system is configured to manage data collection bands.

Abstract: The system generally includes a crosspoint switch in a local data collection system having multiple inputs and multiple outputs including a first input connected to a first sensor and a second input connected to a second sensor. The multiple outputs include a first output and a second output configured to be switchable between a condition in which the first output is configured to switch between delivery of a first sensor signal and a second sensor signal and a condition in which there is simultaneous delivery of the first sensor signal and the second sensor signal. Each of multiple inputs is configured to be individually assigned to any of the multiple outputs. The local data collection system includes multiple data acquisition units each having an onboard card set configured to store calibration information and maintenance history. The local data collection system is configured to manage data collection bands.

Abstract: An HVAC system may include a VAV box including a damper movable between a first damper position and a second damper position and an HVAC controller that is mounted remotely from the VAV box. The HVAC controller may be configured to control the VAV box in accordance with a temperature set point entered into the HVAC controller and may be programmed with a test and balance procedure. In some cases, the HVAC controller may also be programmed with functionality that facilitates an installer or other technician in configuring and/or reconfiguring the VAV box. This may include providing a user interface that supports a test and balance procedure of the VAV box. Such functionality may be user-accessible via the user interface of the HVAC controller, and in some cases, may be used to drive the damper of the VAV box between various damper positions as well as perform other functionality.

Abstract: A method of controlling an electrical power network in which a sudden event which may lead to loss or excess of generation or load. The electrical power network comprises plural controllers, each controller configured to control an apparatus connected to the power network at a different respective location in the electrical power network. The method comprises determining the occurrence of the sudden and receiving synchronised quantities in each of the controllers each of the quantities corresponding to one of frequency and angle at respective different locations in the electrical power network. The method further comprises generating a control output from each controllers in dependence on the received plural quantities, each control output controlling its respective apparatus, each controller generating the control output independent of operation of any other controller and on an ongoing basis in dependence on ongoing receipt of the plural quantities.

Abstract: According to some embodiments, a system to improve heat transfer for a data center may include a substantially cylindrical data center tower. The data center tower may include a data center tower bottom having at least one bottom opening to receive external air and a data center tower top, smaller than the data center tower bottom, having a top opening to expel air containing heat, created by the data center, via the Venturi effect. A plurality of hydrophilic bladders may be located proximate to at least a portion of a side of the data center tower, and plurality of data center computer servers may be arranged proximate to the side of the data center tower. In some embodiments, a heat capturing bottom portion of the side of the data center tower is formed of transparent material and/or a translucent material.

Abstract: Disclosed is a method and apparatus for mitigating temperature spikes and dissipating heat. The apparatus for mitigating temperature spikes and dissipating heat comprises one or more heatsinks, one or more sensors, one or more phase change materials and one or more processors coupled to the one or more sensors. The one or more processors may be configured to obtain one or more sensor measurements and may be configured to determine whether to store heat or dissipate heat based on the one or more sensor measurements. In response to a determination to dissipate heat, the one or more processors may be configured to dissipate heat from the one or more processors, the one or more phase change materials or both using the one or more heatsinks. Furthermore, in response to a determination to store heat, store heat from the one or more processors using the one or more phase change materials.

Abstract: A system and method capable of encoding design intent for an article of manufacture wherein the original design intent encoding is abstract from any particular manufacturing process or machine, but allows for dynamic process adjustment accounting for real-world variations of stock material such that the design intent is preserved and the processing time and effort are not significantly affected. Because design intent is preserved, tool selection and machine process can be optimized to maximize quality and minimize manufacturing time and cost.

Abstract: In one implementation, a method can include receiving historical data characterizing a detected operational characteristic of a first industrial machine of a plurality of industrial machines in a cluster. The method can also include determining an operational envelop associated with the first industrial machine from the historical data. The operational envelop can be indicative of a range of values of an operating parameter of the first industrial machine. The method can further include determining an operating parameter recommendation, the determining can include using the operational envelop and a user input as operational constraints associated with one or more of the plurality of industrial machines. The method can also include rendering, in a graphical user interface display space, a visual representation of the operating parameter recommendation.

Abstract: A controller assembly allows an adjusted flow of water through a hydronic emitter in order to heat or cool an environmental entity. The controller assembly operates in two phases: a calibration phase and an operational phase. During the calibration phase, the controller assembly discovers a valve position where water starts to flow through the hydronic emitter based on signals from a temperature sensor and/or a sound sensor. The temperature sensor may be mounted in close proximity of the emitter inlet so that the controller assembly can detect when the temperature starts to change. The sound sensor may be mounted on the valve body to detect a rushing water sound that is associated with a start of the water flow. The discovered valve position is subsequently used by the controller assembly to adjust water flow between a minimum flow and a maximum flow.

Abstract: A heating, ventilation, and air conditioning (HVAC) energy management control system includes an HVAC system configured to deliver at least one of heated air and cooled air to a targeted area; and a computing server including an HVAC energy analytics engine in signal communication with the HVAC system. The HVAC energy analytics engine is configured to actively learn historical data of the HVAC system based on at least one of the heated air and the cooled air produced over a time period. The HVAC energy analytics engine determines a predicted energy consumption of the HVAC system based on the historical data, and the HVAC system operates based on the predicted energy consumption.

Abstract: The present invention provides a system and method which combines field mapping and control software to effectively manage end gun parameters to adjust for changes in weather conditions and positional/terrain changes. According to a first preferred embodiment, the present invention preferably provides a system which monitors a mapped set of boundaries and preferably receives data regarding a variety of weather factors including wind monitoring (speed, direction, averages, and gusts) and preferably makes adjustments to the system to adjust and modify the shape of a desired distribution area based on the weather factors.

Abstract: A hierarchical wireless power management system using a remote control device to control multiple slave controllers is disclosed. The control module of the remote control device comprises a processing circuit, a wireless signal transmission circuit, and a storage unit. The wireless signal transmission circuit is adapted for transmitting a control signal to a corresponding slave controller. The storage unit is storing settings related to the slave controllers. The remote control device manage the operations of slave controllers with a capability of doing a group controlling under the hierarchical architecture, based upon settings comprising a hierarchical grouping distribution architecture changeably set by a managing user and respective corresponding identification codes of the slave controllers set by the managing user.

Abstract: A multi-element device includes a plurality of memory elements, each of which includes a memory array, access circuitry to control access to the memory array, and power control circuitry. The power control circuitry, which includes one or more control registers for storing first and second control values, controls distribution of power to the access circuitry in accordance with the first control value, and controls distribution of power to the memory array in accordance with the second control value. Each memory element also includes sideband circuitry for enabling a host system to set at least the first control value and the second control value in the one or more control registers.

Abstract: A mobile work machine includes a frame and a ground engaging element movably supported by the frame and driven by an engine to drive movement of the mobile work machine. The mobile work machine also includes a container movably supported by the frame and an actuator configured to controllably drive movement of the container relative to the frame. The work machine also includes a control system configured to generate an actuator control signal, indicative of a commanded movement of the actuator, and provide the actuator control signal to the actuator to control the actuator to perform the commanded movement and an image sensor coupled to the mobile work machine, the image sensor being configured to capture an image of the container. The work machine also includes an angle determination system, communicatively coupled to the control system, configured to determine an angle of the container relative to the image sensor, based on the image of the container.

Abstract: A program code generating method for tilted plane machining makes the machine tool generate required program codes for machining a plurality of planes with various direction features. The method comprises: obtaining step of obtaining directional features of a first reference plane and a second reference plane; transformation step of obtaining coordinate transformations parameters between the directional features of the first reference plane and the second reference plane by coordinate transformations; testing step of making a tool shaft and a worktable of the machine tool perform a testing motion; and combining step of generating a combination code by adding the coordinate transformations parameters in the program codes applied to machining of the first reference plane, thereby making the machine tool subsequently perform machining on the second reference plane after performing machining on the first reference plane by using the combination code. A device for titled plane machining is also provided.

Abstract: A building management system includes building equipment operable generate training data relating to behavior of a building system and a controller configured to perform a system identification process that includes generating a prediction error function based on the training data and a system model, generating initial guesses of one or more parameters of the system model, running an optimization problem of the prediction error function for a first group of iterations, discarding, after the first group of iterations, a portion of the initial guesses based on one or more criteria and ranking a remaining portion of the initial guesses, running the optimization problem of the prediction error function for a top-ranked initial guess of the remaining portion to local optimality to identify a first set of values of the one or more parameters, and identifying the one or more parameters as having the first set of values.

Abstract: Techniques are described for implementing automated control systems for target battery systems based at least in part on battery state information gathered from active excitation of the batteries, such as to maximize battery life while performing other battery power use activities. The excitation of a target battery system may occur while it is in use, by repeatedly introducing small defined variations as input to the battery system while the battery system is otherwise used to supply or receive electricity. Corresponding small variations in output of the battery system from the excitation activities are then measured by hardware sensors, aggregated and analyzed to generate a current model of the internal state of the one or more batteries, and then used to assist in controlling further operations of the battery system, including in some cases to update a previously existing model of the battery system.