Abstract: A system and method for cleaning of heat exchanger tubes including an assembly, an indexer, and a communication device provided with specialized software and programming. The indexer includes orthogonally arranged first and second arms. A trolley and sensors are provided on the indexer arms. One or more lances are provided on the trolley to deliver water jets into the openings. Sensors measure displacement as the trolley is moved relative to the heat exchanger's face plate. An operator controls the system from a distance away using the communication device. During setup, the pattern of the face plate is learned and mapped utilizing information from the sensors as one of the inputs. This information is utilized to help navigate the face plate during a subsequent cleaning operation. A kit for retrofitting existing X-Y indexers is also disclosed.

Abstract: A control system controls tenant services to various tenants by obtaining tenant attributes for each tenant, with respect to a particular workload. A model is generated that models tenant usage performance for a set of best performing tenants. The model is then applied to a remainder of the tenants to obtain a metric indicative of a likely tenant capacity for incremental usage of the workload. The control system controls the services provided to the tenant based upon the likelihood of adoption metric.

Abstract: A method implemented by a computer system, the computer-implemented method comprising receiving dimensions of a building surface, including a surface length and a surface height; receiving dimensions of a surface material unit, including a material length and a material height; receiving design parameters defining a three-dimensional design over the building surface; partitioning the three-dimensional design into a plurality of three-dimensional segments based on both the three-dimensional design and the dimensions of the surface material; and generating a set of milling instructions for cutting a plurality of surface material units into the plurality of three-dimensional segments.

Abstract: Method, and corresponding system, for receiving and adaptively compressing sensor data for an operating manufacturing machine. The method includes determining the sensor data values at the working tool positions based on a time correlation of the values of the sensor data relative to time and the working tool positions relative to time. Tool control magnitude values relative to the working tool positions are determined based on the process data. The method further includes determining a magnitude differential, relative to the working tool positions, between the sensor data values and the tool control magnitude values. Scoring data is determined by applying a scoring function to the magnitude differential. The magnitude differential data is compressed based at least in part on the scoring data. The method further includes decompressing the magnitude differential data and determining the sensor data values versus the working tool positions based on the magnitude differential data.

Abstract: A sensor mounting device (100) of the present disclosure includes: a power supply unit (110) configured to generate power that is to be supplied to the device; a sensor (120) configured to acquire information of the environment around of the device; a first control unit (130) configured to give an instruction based on the information acquired by the sensor (120); and a second control unit (150) configured to control the device in accordance with the instruction of the first control unit (130). Power to the sensor (120) and the first control unit (130) is directly supplied from the power supply unit (110). Power to the second control unit (150) is supplied from the power supply unit (110) via a switching unit (140) whose ON/OFF state is controlled by the first control unit (130).

Abstract: Systems and methods for coordinating distributed energy storage in accordance with embodiments of the invention are illustrated. One embodiment includes a power distribution network, including a set of nodes, wherein a node includes a controllable load, an uncontrollable load, and a local controller, a substation connected to each node in the set of nodes by a set of distribution lines, and a global controller including a processor, a memory, and a communications device, wherein the global controller obtains load parameters from at least one node, calculates coordination parameters for each node based on the obtained load parameters, and asynchronously provides the coordination parameters to each of the nodes in the set of nodes, and wherein each node independently obtains coordination parameters, and controls the operation of its controllable load using the local controller based on the coordination parameters and a local load profile describing at least the uncontrollable load.

Abstract: In an air-conditioning system that divides a room to be air-conditioned into a plurality of areas and controls air-conditioning of each of the plurality of areas, a set temperature of an occupied area in which somebody is present is determined as a target temperature of the occupied area. Target temperatures of unoccupied areas in which nobody is present are determined such that the air-conditioning mode set for the occupied area weakens stepwise from an adjacent area located next to the occupied area toward a distal area located farthest from the occupied area.

Abstract: Systems, methods and apparatuses are provided for reducing peak energy demand and to smooth intermittent energy profiles from onsite variable energy sources and loads. Some embodiments use system level and device level analysis and optimization to adaptively adjust the operation of a behind the meter energy storage (BMES) to smooth out energy generation variabilities and follow a reference load signal, including at short time resolutions.

Abstract: A cargo-neutral climate control diagnostic system for a climate controlled mobile container includes a controller configured and disposed to be connected to one or more climate control components. The controller is configured and disposed to identify a cargo-neutral test opportunity and conduct a test to determine an operational state of the one or more climate control components of the climate controlled mobile cargo container while maintaining a desired environment.

Abstract: A method for operating a fluid dispenser is provided. The method includes receiving, by the fluid dispenser, an interrogation signal from a remote electronic device, and in response to receiving the interrogation signal, transmitting, by the fluid dispenser and to the remote electronic device, an identification of a fluid type of the fluid stored within the fluid dispenser. The method further includes dispensing fluid from the fluid dispenser in response to an actuation request and based upon a fluid-specific setting received from the remote electronic device. A method for programming a fluid dispenser is also provided. The method includes detecting, by a remote electronic device, a fluid type of a fluid stored within the fluid dispenser, and transmitting one of a first fluid-specific setting and a second fluid-specific setting to the fluid dispenser based upon a detected fluid type of fluid stored within the fluid dispenser.

Abstract: Methods and systems for scheduling include implementing a schedule based on a path in a search tree having an optimal associated priority score. Each node in the search tree represents a scheduling unit formed from a priority queue that includes orders from multiple mutually compatible sets of orders. Each path through the search tree represents a sequence of orders and has an associated priority score.

Abstract: Modifications made by multiple controller devices to an environment model describing a shared automated environment can be coordinated. One of the controller devices can be designated as a coordinator, and any controller device other than the coordinator can send an update request to the coordinator. The coordinator can determine whether to accept or reject the requested modification and can report its determination to the requesting controller device. If the coordinator accepts the request, the coordinator can instigate operations to update the environment model across all controller devices of all users. If the coordinator rejects the request, the environment model is not updated. The controller device that made the request can update its local copy of the environment model and roll back the update if the request is rejected.

Abstract: Method for configuring, commanding and/or controlling a command and/or control interface (IN) of devices of a home automation installation, comprising the following steps: (E1) collecting a set of status queries (E) relating to at least one possible status of at least one home automation device (3), (E2) constituting a selection of at least one status query (SeIE) of the set of status queries (E), (E3) configuring an interface element (IN) on the basis of the selection of the at least one status query (SeIE), in such a way as to trigger transmission of a collection request (RC) comprising the selection, and obtaining, for each status query (E) of the selection, of at least one corresponding status indication (IDC) relating to at least one current status.

Abstract: A method for configuring a clean room (2) for the manufacture of pharmaceutical products and the manufacture of pharmaceutical products includes the steps: selecting a pharmaceutical product for the manufacture in the clean room (2); determining one or a plurality of specific devices (16) and/or one or a plurality of specific materials (18) for the manufacture of the selected pharmaceutical product; and assigning locations for the particular, respectively specific devices (16) and/or specific materials (18) in the clean room (2) and, that is, by using a navigation system (4). The navigation system (4) issues at least one notification (6, 8, 10, 12, 14) associated with a location in the clean room (2) indicating where the specific device (16) and/or the specific material (18) for the manufacture of the selected pharmaceutical product is/are to be placed.

Abstract: Novel tools and techniques for entertainment device communication to printing devices are provided. A system includes a printing device and media player coupled to the printing device. The media device may include a processor, and a non-transitory computer readable medium comprising instructions executable by the processor to obtain a content stream including at least one of an audio stream or a video stream, the content stream further including a data stream including a trigger associated with a printable model. The instructions may further be executable to obtain a 3-D model file associated with the printable model responsive to an occurrence of the trigger, transmit at least one of the 3-D model file or printing instructions based on the 3-D model file to the printing device, and print, via the printing device, the printable model based on the 3-D model file.

Abstract: A system and method for providing optimal irrigation or watering, and more specifically providing a soil sensor grid placed in the ground of a landscaped property, in commercial, residential or even agricultural areas. The soil sensor grid can allow for optimal water usage in a specified irrigation area by providing real time data to an irrigation system and a user to optimize water usage. A soil sensor grid, or moisture sensor grid, may be installed on a property, buried in the ground, to provide current and real time feedback of the current moisture levels of the soil. The moisture data is uploaded to the cloud and provided to a user and the irrigation system allowing a user to automatically or manually manipulate the irrigation system to properly water or irrigate different portions of the property based on the data from the soil sensor grid.

Abstract: The voltage and reactive power monitoring/control method includes: measurement data for the power system and data for the system equipment of the power system are used to calculate the system status for the power system at the time of measurement; data for a status estimation calculation result and predicted data for the power generation and load of the power system are used to predictively calculate a system status at a future time from the time of the power system measurement; a fluctuation component is obtained for the predicted value of the data obtained from the power system; the reactive power required to suppress the fluctuation component is obtained, as a required reactive power amount; a reactive power distribution subject is selected from a plurality of pieces of control subject equipment; an output distribution calculation is performed for the required reactive power amount for the selected control subject equipment.

Abstract: The power distribution system management device according to the present invention includes a communication unit that receives measurement values from a plurality of high-voltage sensors that each measure a voltage and a power flow of a power distribution line in a high-voltage system, and receives, from a plurality of smart meters that each measure an amount of power, information on the amount of power; and a voltage control unit that sections the power distribution line between two high-voltage sensors among the plurality of high-voltage sensors into a plurality of sections to estimate a voltage distribution along the power distribution line based on two of the measurement values received from the two high-voltage sensors and on the amount of power of each of the sections.

Abstract: An energy planning system that proposes an appropriate energy plan for a home includes: a sensor that senses a state of an energy facility in a home; a predictor that predicts a future lifestyle of a resident of the home; and a proposer that determines information about an energy plan for the home based on a result of the sensing by the sensor and the lifestyle predicted by the predictor, and outputs the information.

Abstract: A system and method for additive manufacturing of otherwise thermosetting polymers, such as PAI, is disclosed. The system includes fast-curing hardware that facilitates curing each deposited layer before a successive layer is deposited. This reduces the time to provide a finished part from weeks to hours.