An irrigation controller is disclosed together with associated methods and computer program products. User input specifying a requested start time may be received. A total desired watering time may be calculated. A total permissible watering time may be calculated. The start time may be moved back relative to the requested start time in response to determining that the total permissible watering time is less than the total desired watering time.

A programmable, refillable medication dispenser with scheduled metered medication unit dispensing, includes a main housing, a powered CPU with countdown timer, a multi-unit medication removable refillable cartridge with a (first) lock, a medication release control gate positioned at a medication outlet and connected to a (second) lock being a gate control mechanism, and an in-chamber medication unit sensor. A pharmacist will insert a medicine cartridge into the main housing, locking it in, and will program the CPU to permit a patient to activate dispensing according to a predetermined schedule, and then only when a medication unit is sensed in the chamber. A patient may receive the dispenser and activate medication dispensing according to the programmed schedule and dispense by the timer schedule, only when a medication unit is sensed in the chamber.

Some aspects include a schedule development method for a robotic floor-cleaning device that recognizes patterns in user input to automatically devise a work schedule.

A scent delivery system includes scent delivery units that are configured to deliver scent at a variable scent level by being turned on and off successively according to a variable duty cycle. The scent delivery units are associated with corresponding base scent settings. The scent delivery system also includes a central controller configured to control the scent delivery units by generating command data based on a scenting schedule that indicates a desired activation time for more than one implicated scent delivery unit. The scenting schedule is configured to further indicate a scent level bias to be applied to the base scent settings that are associated with different of the implicated scent delivery units. The central controller is configured to generate the command data, based upon a variation in the scent level bias, that takes into account a corresponding variation to duty cycles that are associated with different of the implicated scent delivery units and to communicate the command data to the different implicated scent delivery units.

A system including a power plant having thermal generating units that operate according to multiple possible operating modes, which are differentiated by a unique operational or maintenance schedule. The system further includes a hardware processor and machine readable storage medium on which is stored instructions that cause the hardware processor to execute a process related to optimizing the operational or maintenance schedule during a selected operating period. The process may include: receiving the selected operating period; selecting competing operating modes for the power plant during the selected operating period according to a selection criteria; simulating the operation of the power plant during the selected operating period for each of the competing operating modes and deriving simulation results therefrom; evaluating each of the simulation results pursuant to a cost function and, based thereupon, designating at least one of the competing operating modes as an optimized operating mode.

A scent delivery system includes scent delivery units that are configured to deliver scent at a variable scent level by being turned on and off successively according to a variable duty cycle. The scent delivery system also includes a central controller configured to control the scent delivery units by generating command data based on a scenting schedule that indicates a desired activation time for more than one scent delivery unit. The scenting schedule is configured to further indicate a scent level bias to be applied to base scent settings that are associated with different scent delivery units. The central controller is configured to generate the command data, based upon a variation in the scent level bias, that takes into account a corresponding variation to duty cycles associated with different scent delivery units and to communicate the command data to the different scent delivery units.

Provided is an analysis apparatus, including a work cost calculation unit configured to calculate a change in a work cost of a target plant when at least some target work, among work of an operator required to operate the target plant, is automatized. The analysis apparatus may include an automation cost calculation unit configured to calculate an automation cost for automatizing the target work; and a cost comparison unit configured to compare the work cost to the automation cost.

A process is provided for updating user settings in an energy management system for an electric and/or non-electric device. The energy management system has a communication interface, particularly a graphic user interface, for setting points in time concerning planned uses of the device. The process includes the steps of acquiring deviations between the points in time set on the part of the user and the actual points in time of using the device; evaluating the acquired deviations and deducing a possible systematic trend in the deviations, and displaying information to the user at the communication interface concerning a correction of already set future points in time concerning planned uses of the device.

Embodiments of the present disclosure provide systems and methods for controlling water flow in a water distribution system (e.g., irrigation system). In an irrigation system, an interrupt controller may receive control signals from an irrigation controller and data from sensors disposed in the irrigation system, and modify operations of components in the irrigation system based on the sensor data. Based on the analysis, the operation of the irrigation system may be interrupted or modified to optimize the supply of water. The interruption of the irrigation system may be controlled by shutting off the water supply to the entire irrigation system.

An automated manufacturing system and method is provided. The system includes a software system and a production system. The software system includes a design module, an engineering module, and a manufacturing module for the design, engineering, and subsequent production of a prefabricated building product. The production system includes a matrix of cells and a plurality of robotic production units configurable with a plurality of production tools. The matrix includes a number of columns and a number of rows, each column representing a product to be worked on and each row representing a type of work to be performed on each product. The system processes a building model and configures each cell to perform specific work with one or more robotic production units and one or more production tools. A prefabricated building product is built in stages as it moves from cell to cell.