Abstract: A consumable-goods reordering system in which a system controller has access to the signals transmitted by each smart appliance relevant to the environment being monitored, such as a home. Each appliance monitors a particular physical condition that is related to the appliance's usage of a consumable good, senses changes in the condition being monitored, and reports states of the condition. Meanwhile, the system controller memorizes and maintains the states of various processing events, such as when an appliance reported a particular state of the monitored condition. By considering the information reported by the multiple smart appliances, as well as by accounting for the states corresponding to the various events, the system controller is able to continually update a representation of the state of the monitored environment. Having such context awareness enables the system controller to generate intelligently various reorder messages for transmission to the various suppliers of the consumables.

Abstract: Systems, methods and apparatus are provided for monitoring soil properties including soil moisture and soil temperature during an agricultural input application. Embodiments include a soil moisture sensor and/or a soil temperature sensor mounted to a seed firmer for measuring moisture and temperature in a planting trench. Additionally, systems, methods and apparatus are provided for adjusting depth based on the monitored soil properties.

Abstract: Described herein are techniques related to a tap-to-wake and tap-to-login system. This Abstract is submitted with the understanding that it will not be used to interpret or limit the scope and meaning of the claims. A tap-to-wake and tap-to-login system allows a user of a near field device to wake up a computing platform from a deep sleep state using a bump/tap without having to move a mouse or enter a keyboard stroke.

Abstract: A hydronic distribution system includes self-regulating valves networked together and operable to share valve temperature and valve position information with a microprocessor or other type of controller. The microprocessor runs one or more algorithms that process the temperatures and positions of the valves and then computes a desired speed for one or more variable speed pumps within the system. Controlling the pumps to operate at the desired speed and still maintain the correct amount of process fluid flow needed by the system reduces the overall energy use of the hydronic distribution system, saves on the operational lives of the pumps, and increases system efficiency.

Abstract: The program directs a computer processor to implement a method that dynamically operates one or more appliances. The method estimates a time period for a user to arrive at a location, wherein the estimated time period is based on one or more time constraints, and identifies one or more appliances needed based on at least an instruction set. The method further generates and sends one or more operating commands to the identified one or more appliances based on the estimated time period, updates the estimated time period based on a change in the one or more time constraints, and generates and sends one or more updated operating commands to the identified one or more appliances, based on the updated estimated time period. The method may further detect a current location of the user and receive travel data that corresponds to the one or more time constraints.

Abstract: Environmental condition controller and method for controlling an environmental condition in an area of a building. The controller stores a predictive model generated by a neural network training engine, and a previously calculated environmental condition adjustment value (yn?1). The controller receives an environmental condition target value (xref), and an environmental condition measured value (x). The controller recursively calculates an environmental condition adjustment value (yn) by executing a neural network inference engine using the predictive model for inferring the environmental condition adjustment value (yn) based on the previously calculated environmental condition adjustment value (yn?1), the environmental condition target value (xref), the environmental condition measured value (x), and an adaptive proportionality value (k). The controller also generates and transmits a command based on the environmental condition adjustment value (yn).

Abstract: A filament for use with a printer head of a 3D printer includes an exterior surface and an interior surface having color selectively applied thereto, where the color of the interior surface is visible through the exterior surface, and where the color is applied only to the interior surface such that the color remains substantially isolated from components of the printer head when traveling therethrough.

Abstract: In one embodiment, a method includes identifying removal of a module from a network device comprising a plurality of fans during an online removal process while the network device is operational, reducing fan speed in the network device to allow a hinged door to move to a closed position covering an opening from which the module was removed, and increasing the fan speed to maintain cooling in the network device.

Abstract: The present invention provides a system for conservation and efficient use of energy through controlling and monitoring of devices, the system comprising at least one structure, wherein the structure comprises at least one zone, wherein the zone comprises at least one sensor configured to capture ambient data; at least one device; and at least one processing controller connected to the sensor and the device, the processing controller configured to receive the ambient data from the sensor and operating parameters from the device; a user module configured to receive input parameters from a plurality of users; an admin module configured to provide pre-defined parameters for operating the device adapted in the zone of the structure and manage and view the device adapted in the zone of the structure; a central processing module, connected to the structure, the user module, and the admin module through wired and/or wireless connection, the central processing module configured to process the data received from the p

Abstract: Disclosed herein are an apparatus and method for verifying and correcting degree of 3D-printed joints movement. A method for correcting a print position of a three-dimensional (3D) object is performed by a 3D object print position correction apparatus, and includes setting at least one adjacent mesh of a 3D object in which multiple shells are connected to each other through a joint structure, calculating movement degree information for the joint structure of the 3D object using the set adjacent mesh, and correcting a print position of the 3D object such that the print position matches the calculated movement degree information.

Abstract: Systems, methods, and software to facilitate management of industrial operations are disclosed herein. In at least one implementation, a portable HMI device is connected to a display system via a video interface, wherein the video interface provides interchangeability between a plurality of different display systems. A plurality of applications is stored in the portable HMI device. A remote navigation interface of the portable HMI device receives a selection transmitted from a remote navigation device, wherein the selection is associated with an industrial operation application of the applications displayed on the display system. The portable HMI device processes the selection of the industrial operation application and responsively executes the industrial operation application to communicate with an application server.

Abstract: In one implementation, a system for hybrid cooling control of a computing system includes a coordinated controller engine to: determine a number of liquid loop set-points and a number of air loop set-points, determine a number of system parameters corresponding to the number of liquid loop set-points and the number of air loop set-points, determine a correlation factor for the number of system parameters; and alter the number of liquid loop set-points and the number of air loop set-points based on the correlation factor to lower an energy consumption or to maximize energy reuse of a number of cooling resources associated with the number of system parameters.

Abstract: A method of correcting an overlay includes: forming a first pattern on a first substrate; forming a second pattern on the first pattern; obtaining a first overlay error profile of the second pattern and obtaining a first overlay correction profile from the first overlay error profile; forming a third pattern on the second pattern; obtaining a second overlay error profile of the third pattern and obtaining a second overlay correction profile from the second overlay error profile; and forming the second pattern on a second substrate, wherein the forming of the second pattern on the second substrate includes: determining whether the second overlay correction profile has a non-correctable model parameter; and when the second overlay correction profile has the non-correctable model, obtaining a preliminary correction profile to correct a position of the second pattern to be formed on the second substrate.

Abstract: In an example, a system and method for centering in a high-performance interconnect (HPI) are disclosed. When an interconnect is powered up from a dormant state, it may be necessary to “center” the clock signal to ensure that data are read at the correct time. A multi-phase method may be used, in which a first phase comprises a reference voltage sweep to identify an optimal reference voltage. A second phase comprises a phase sweep to identify an optimal phase. A third sweep comprises a two-dimensional “eye” phase, in which a plurality of values within a two-dimensional eye derived from the first two sweeps are tested. In each case, the optimal value is the value that results in the fewest bit error across multiple lanes. In one example, the second and third phases are performed in software, and may include testing a “victim” lane, with adjacent “aggressor” lanes having a complementary bit pattern.

Abstract: A prescription management system is used by an orthodontic or dental lab and a plurality of prescribing users who send prescriptions for customized orthodontic or dental appliances to the lab. The prescriptions are stored in a database selectively accessible by the lab and plurality of prescribing users. A digital workspace is provided in the system in which the lab or prescribing users may create designs for the customized appliances. The designs of the appliances are stored in the database. A tracking record of fabrication of the appliances is stored in the database. A plurality of billings are simultaneously generated in response to the submissions and storage of the prescriptions, the designs of the customized appliances and the fabrication of the designed customized appliances.

Abstract: A method for controlling a semiconductor manufacturing facility includes measuring output change amounts of differential pressure sensors in the facility when pressure conditions change by a number of fans. The fans are then classified into different groups and subgroups and control sequences of the subgroups are determined based on the change amounts. Difference values are then calculated, and a control signal is generated to adjust the rotation speed of the fans.

Abstract: A method and device for outputting a torque of a walking assistance device is provided. The method and device may determine a degree of progress in a gait cycle based on data received through wireless communication, calculate a torque corresponding to the determined degree of progress, and output the torque to a driver of the walking assistance device. However, when the data received through wireless communication is not updated data, the method and device may determine reference data based on a reference pattern, and update the data using the determined reference data.

Abstract: The present invention provides an enhanced setup of a 3D-printing device, especially to a laser powder bed fusion 3D-printing device. It is for this purpose, that data relating to previously printed products are stored in a database. When a new product is to be printed, the features of the new product are matched with features of previously printed products stored in the database. Accordingly, a suggestion for setting-up the 3D-printing device based on corresponding previously printed products and their setup parameters can be automatically determined and applied to the 3D-printing device.

Abstract: A hardware processor may be coupled to a communication network and receive charging requests and discharging requests from a plurality of prosumer facilities via the communication network. One or more energy storage systems may be coupled to an energy grid and able to charge from and discharge to the energy grid, and may communicate with the hardware processor via the communication network. Based on the charging requests and discharging requests, an energy schedule may be generated. The energy schedule may include a first set of the prosumer facilities from which charge requests are accepted, and a second set of prosumer facilities from which discharge requests are accepted. One or several energy storage systems may be controlled or triggered to charge or discharge repeatedly via the energy grid according to an updated energy schedule (e.g., regularly updated).

Abstract: A method for real-time control of thermal loads in a data center includes storing, in a database, a heat generation data associated with an electronic equipment located in a predetermined area of the data center, transmitting the heat generation data to a data analysis system in communication with a tunable temperature controller, the heat generation data provides a real-time input of an amount of heat generated in the predetermined area, the data analysis system receives and analyzes the heat generation data to determine whether the amount of heat generated in the predetermined area exceeds current settings of the tunable temperature controller, and in response to the amount of heat generated exceeding the current settings of the tunable temperature controller, updating the current settings to provide an amount of cooling that compensates for the amount of heat generated in the predetermined area in association with the electronic equipment.