Patent application number | Description | Published |
20120065783 | THERMODYNAMIC MODELING FOR ENCLOSURES - Systems and methods for modeling the behavior of an enclosure for use by a control system of an HVAC system are described. A model for the enclosure that describes the behavior of the enclosure for use by the control system is updated based on a weather forecast data. The weather forecast data can include predictions more than 24 hours in the future, and can include predictions such as temperature, humidity and/or dew point, solar output, precipitation. The model for the enclosure can also be updated based on additional information and data such as historical weather data such as temperature, humidity, wind, solar output and precipitation, occupancy data, such as predicted and/or detected occupancy data, calendar data, and data from the one or more weather condition sensors that sense current parameters such as temperature, humidity, wind, precipitation, and/or solar output. The model for the enclosure can be updated based also on an enclosure model stored in a database, and/or on enclosure information from a user. The model can be updated based on active testing of the enclosure which can be performed automatically or in response to user input. The testing can include heating and/or cooling the enclosure at times when the enclosure is not likely to be occupied. | 03-15-2012 |
20120066168 | OCCUPANCY PATTERN DETECTION, ESTIMATION AND PREDICTION - Systems and methods are described for predicting and/or detecting occupancy of an enclosure, such as a dwelling or other building, which can be used for a number of applications. An a priori stochastic model of occupancy patterns based on information of the enclosure and/or the expected occupants of the enclosure is used to pre-seed an occupancy prediction engine. Along with data from an occupancy sensor, the occupancy prediction engine predicts future occupancy of the enclosure. Various systems and methods for detecting occupancy of an enclosure, such as a dwelling, are also described. | 03-15-2012 |
20120125559 | TEMPERATURE CONTROLLER WITH TIME TO TARGET DISPLAY - A thermostat is described for controlling air temperature in a building. The time associated with causing the controlled air temperature to reach a target temperature is estimated and displayed to a user. Input from a user indicating the target temperature can be received and the estimating and displaying can be carried out in real time. The thermostat can be wall-mounted or the user input can be received and estimated time can be displayed using a remote device, for example that communicates wirelessly with other components of the HVAC system. | 05-24-2012 |
20120130679 | THERMOSTAT FACILITATING USER-FRIENDLY INSTALLATION THEREOF - A thermostat for controlling an HVAC system and related systems, methods, and computer program products for facilitating user-friendly installation of the thermostat are described. For one embodiment, automated installation verification is performed by the thermostat by automatically sensing which wires have been inserted, selecting a candidate HVAC operating function (e.g., heating or cooling) that is consistent with a subset of HVAC signal types indicated by the inserted wires, applying control signals to the HVAC system to invoke that HVAC operating function, and processing a time sequence of acquired temperature readings to determine whether that HVAC operating function was successfully carried out. For one embodiment, the initial automated testing of the heating and cooling functions are only carried out at times for which such heating or cooling function would normally be invoked during normal operation of the thermostat. Automated determination of a heat pump call convention is also described. | 05-24-2012 |
20120186774 | CONTROL UNIT WITH AUTOMATIC SETBACK CAPABILITY - Methods for controlling temperature in a conditioned enclosure such as a dwelling are described that include an “auto-away” and/or “auto-arrival” feature for detecting unexpected absences which provide opportunities for significant energy savings through automatic adjustment of the setpoint temperature. According to some preferred embodiments, when no occupancy has been detected for a minimum time interval, an “auto-away” feature triggers a changes of the state of the enclosure, and the actual operating setpoint temperature is changed to a predetermined energy-saving away-state temperature, regardless of the setpoint temperature indicated by the normal thermostat schedule. The purpose of the “auto away” feature is to avoid unnecessary heating or cooling when there are no occupants present to actually experience or enjoy the comfort settings of the schedule, thereby saving energy. | 07-26-2012 |
20130099011 | ENERGY EFFICIENCY PROMOTING SCHEDULE LEARNING ALGORITHMS FOR INTELLIGENT THERMOSTAT - A user-friendly programmable thermostat is described that includes receiving an immediate-control input to change set point temperature, controlling temperature according to the set point temperature for a predetermined time interval, and then automatically resetting the set point temperature upon the ending of the predetermined time interval such that the user is urged to make further immediate-control inputs. A schedule for the programmable thermostat is automatically generated based on the immediate-control inputs. Methods are also described for receiving user input relating to the user's preference regarding automatically generating a schedule, and determining whether or not to automatically adopt an automatically generated schedule based on the received user input. | 04-25-2013 |
20130103621 | INTELLIGENT CONTROLLER PROVIDING TIME TO TARGET STATE - The current application is directed to intelligent controllers that continuously, periodically, or intermittently calculate and display the time remaining until a control task is projected to be completed by the intelligent controller. In general, the intelligent controller employs multiple different models for the time behavior of one or more parameters or characteristics within a region or volume affected by one or more devices, systems, or other entities controlled by the intelligent controller. The intelligent controller collects data, over time, from which the models are constructed and uses the models to predict the time remaining until one or more characteristics or parameters of the region or volume reaches one or more specified values as a result of intelligent controller control of one or more devices, systems, or other entities. | 04-25-2013 |
20130103622 | AUTOMATED CONTROL-SCHEDULE ACQUISITION WITHIN AN INTELLIGENT CONTROLLER - The current application is directed to intelligent controllers that initially aggressively learn, and then continue, in a steady-state mode, to monitor, learn, and modify one or more control schedules that specify a desired operational behavior of a device, machine, system, or organization controlled by the intelligent controller. An intelligent controller generally acquires one or more initial control schedules through schedule-creation and schedule-modification interfaces or by accessing a default control schedule stored locally or remotely in a memory or mass-storage device. The intelligent controller then proceeds to learn, over time, a desired operational behavior for the device, machine, system, or organization controlled by the intelligent controller based on immediate-control inputs, schedule-modification inputs, and previous and current control schedules, encoding the desired operational behavior in one or more control schedules and/or sub-schedules. | 04-25-2013 |
20140058567 | HVAC SCHEDULE ESTABLISHMENT IN AN INTELLIGENT, NETWORK-CONNECTED THERMOSTAT - HVAC schedules may be programmed for a thermostat using a combination of pre-existing schedules or templates and automated schedule learning. For example, a pre-existing schedule may be initiated on the thermostat and the automated schedule learning may be used to update the pre-existing schedule based on users' interactions with the thermostat. The preexisting HVAC schedules may be stored on a device or received from a social networking service or another online service that includes shared HVAC schedules. | 02-27-2014 |
20140094972 | INTELLIGENT CONTROLLER PROVIDING TIME TO TARGET STATE - The current application is directed to intelligent controllers that continuously, periodically, or intermittently calculate and display the time remaining until a control task is projected to be completed by the intelligent controller. In general, the intelligent controller employs multiple different models for the time behavior of one or more parameters or characteristics within a region or volume affected by one or more devices, systems, or other entities controlled by the intelligent controller. The intelligent controller collects data, over time, from which the models are constructed and uses the models to predict the time remaining until one or more characteristics or parameters of the region or volume reaches one or more specified values as a result of intelligent controller control of one or more devices, systems, or other entities. | 04-03-2014 |
20140101082 | AUTOMATED PRESENCE DETECTION AND PRESENCE-RELATED CONTROL WITHIN AN INTELLIGENT CONTROLLER - The current application is directed to intelligent controllers that use sensor output and electronically stored information, including one or more of electronically stored rules, parameters, and instructions, to determine whether or not one or more types of entities are present within an area, volume, or environment monitored by the intelligent controllers. The intelligent controllers select operational modes and modify control schedules with respect to the presence and absence of the one or more entities. The intelligent controllers employ feedback information to continuously adjust the electronically stored parameters and rules in order to minimize the number of incorrect inferences with respect to the presence or absence of the one or more entities and in order to maximize the efficiency by which various types of systems controlled by the intelligent controllers carry out selected operational modes. | 04-10-2014 |
20140195012 | AUTOMATED CONTROL-SCHEDULE ACQUISITION WITHIN AN INTELLIGENT CONTROLLER - The current application is directed to intelligent controllers that initially aggressively learn, and then continue, in a steady-state mode, to monitor, learn, and modify one or more control schedules that specify a desired operational behavior of a device, machine, system, or organization controlled by the intelligent controller. An intelligent controller generally acquires one or more initial control schedules through schedule-creation and schedule-modification interfaces or by accessing a default control schedule stored locally or remotely in a memory or mass-storage device. The intelligent controller then proceeds to learn, over time, a desired operational behavior for the device, machine, system, or organization controlled by the intelligent controller based on immediate-control inputs, schedule-modification inputs, and previous and current control schedules, encoding the desired operational behavior in one or more control schedules and/or sub-schedules. | 07-10-2014 |
20140222217 | THERMODYNAMIC MODELING FOR ENCLOSURES - Modeling the behavior of an enclosure for use by a control system of an HVAC system is described. A model for the enclosure that describes the enclosure's behavior for use by the control system is updated based on weather forecast data. The weather forecast data can include predictions more than 24 hours in the future, and can include predictions on temperature, humidity and/or dew point, solar output, precipitation. The model for the enclosure can also be updated based on additional information and data. The model for the enclosure can be updated based also on an enclosure model stored in a database, and/or enclosure information from a user. The model can be updated based on active testing of the enclosure which can be performed automatically or in response to user input. The testing can include heating and/or cooling the enclosure at times when the enclosure is not likely occupied. | 08-07-2014 |
20140316581 | Systems and Methods for Energy-Efficient Control of an Energy-Consuming System - Systems and methods are provided for efficiently controlling energy-consuming systems, such as heating, ventilation, or air conditioning (HVAC) systems. For example, an electronic device used to control an HVAC system may encourage a user to select energy-efficient temperature setpoints. Based on the selected temperature setpoints, the electronic device may generate or modify a schedule of temperature setpoints to control the HVAC system. | 10-23-2014 |
20140346239 | THERMOSTAT FACILITATING USER-FRIENDLY INSTALLATION THEREOF - A thermostat for controlling an HVAC system and related systems, methods, and computer program products for facilitating user-friendly installation of the thermostat are described. For one embodiment, automated installation verification is performed by the thermostat by automatically sensing which wires have been inserted, selecting a candidate HVAC operating function (e.g., heating or cooling) that is consistent with a subset of HVAC signal types indicated by the inserted wires, applying control signals to the HVAC system to invoke that HVAC operating function, and processing a time sequence of acquired temperature readings to determine whether that HVAC operating function was successfully carried out. For one embodiment, the initial automated testing of the heating and cooling functions are only carried out at times for which such heating or cooling function would normally be invoked during normal operation of the thermostat. Automated determination of a heat pump call convention is also described. | 11-27-2014 |
20140364966 | INTELLIGENT CONTROLLER PROVIDING TIME TO TARGET STATE - The current application is directed to intelligent controllers that continuously, periodically, or intermittently calculate and display the time remaining until a control task is projected to be completed by the intelligent controller. In general, the intelligent controller employs multiple different models for the time behavior of one or more parameters or characteristics within a region or volume affected by one or more devices, systems, or other entities controlled by the intelligent controller. The intelligent controller collects data, over time, from which the models are constructed and uses the models to predict the time remaining until one or more characteristics or parameters of the region or volume reaches one or more specified values as a result of intelligent controller control of one or more devices, systems, or other entities. | 12-11-2014 |
Patent application number | Description | Published |
20080285857 | Data Entry System and Method of Entering Data - A method and apparatus for entering words into a computer system. Letters contained in a desired word are entered by giving approximate location and directional information relative to any specified keyboard layout. The inputs need not correspond to specific keys on the keyboard, a sequence of ambiguous key-entries corresponding to individual words can be used to retrieve a word from the dictionary. The system tracks directional information of movement relative to a/the specific keyboard layout, reducing it to predetermined primary directions and translates this seemingly ambiguous information into accurate words from the dictionary. The system may also capture the user's intention (with regard to text entry) by observing the movements on the keyboard. | 11-20-2008 |
20100171700 | METHOD AND APPARATUS FOR TEXT ENTRY - A method and apparatus for text input is provided. The method includes the steps of dividing the letters of a keyboard into a plurality of zones each zone including one or more letters and designating a jumper key associated with each of the plurality of zones from the letters in each zone. A user indication of a selected jumper key is received and all of the keys in the zone associated with the selected jumper key are then selected. | 07-08-2010 |
20110047456 | Method and Apparatus for Text Input - A method and apparatus for text entry are provided. The method provides a keypad comprising four directional keys and a center selection key, and assigns a set of letters to each of the four directional keys. A representation of the set of letters assigned to each of the four directional keys is provided. A sequence of selected directional keys is received in accordance with a user input, and in accordance with the selected directional keys, the set of letters assigned to each of the selected directional keys are selectively passed to a parsing algorithm. The parsing algorithm determines a user intended text input based upon the passed sequence of letter groupings. | 02-24-2011 |
20130046544 | MULTIMODAL TEXT INPUT SYSTEM, SUCH AS FOR USE WITH TOUCH SCREENS ON MOBILE PHONES - A system and method for entering text from a user includes a programmed processor that receives inputs from the user and disambiguates the inputs to present word choices corresponding to the text. In one embodiment, inputs are received in two or more modalities and are analyzed to present the word choices. In another embodiment, a keyboard is divided into zones each of which represents two more input characters. A sequence of zones selected by the user is analyzed to present word choices corresponding to the zone selected. | 02-21-2013 |
20130271377 | DATA ENTRY SYSTEM AND METHOD OF ENTERING DATA - A method and apparatus for entering words into a computer system. Letters contained in a desired word are entered by giving approximate location and directional information relative to any specified keyboard layout. The inputs need not correspond to specific keys on the keyboard, a sequence of ambiguous key entries corresponding to individual words can be used to retrieve a word from the dictionary. The system tracks directional information of movement relative to a/the specific keyboard layout, reducing it to predetermined primary directions and translates this seemingly ambiguous information into accurate words from the dictionary. The system may also capture the user's intention (with regard to text entry) by observing the movements on the keyboard. | 10-17-2013 |
20140074458 | PROBABILITY-BASED APPROACH TO RECOGNITION OF USER-ENTERED DATA - A method for entering keys in a small key pad is provided. The method comprising the steps of: providing at least a part of keyboard having a plurality of keys; and predetermining a first probability of a user striking a key among the plurality of keys. The method further uses a dictionary of selected words associated with the key pad and/or a user. | 03-13-2014 |
20140204031 | DATA ENTRY SYSTEM AND METHOD OF ENTERING DATA - A method and apparatus for entering words into a computer system. Letters contained in a desired word are entered by giving approximate location and directional information relative to any specified keyboard layout. The inputs need not correspond to specific keys on the keyboard, a sequence of ambiguous key entries corresponding to individual words can be used to retrieve a word from the dictionary. The system tracks directional information of movement relative to a/the specific keyboard layout, reducing it to predetermined primary directions and translates this seemingly ambiguous information into accurate words from the dictionary. The system may also capture the user's intention (with regard to text entry) by observing the movements on the keyboard. | 07-24-2014 |
20140373050 | METHOD AND APPARATUS FOR CUSTOMIZING USER EXPERIENCE - A method for customizing a user communication experience is provided. The method includes the steps of receiving a user communication input and determining one or more communication input characteristics. Thereafter, one or more advertisements are provided to the user in accordance with the user communication input and the one or more determined communication characteristics. | 12-18-2014 |