Patent application number | Description | Published |
20120271576 | SYSTEMS AND METHODS FOR ANALYZING ENERGY USAGE - A system for analyzing energy usage measures one or more parameters indicative of energy usage for a plurality of sub-circuits, where the sampling rate for the measuring is substantially continuous, and automatically transmits information related to at least one of the measured parameters at a rate that enables monitoring of current energy usage. The system further detects a significant change in a measured parameter, determines whether the significant change in the measured parameter is caused by a change in energy usage, and automatically transmits information related to the significant change in the measured parameter caused by the change in energy usage after detecting the significant change. | 10-25-2012 |
20120323382 | SYSTEMS AND METHODS TO ASSESS AND OPTIMIZE ENERGY USAGE FOR A FACILITY - A system for assessing energy usage reads read at least one computer-aided design (CAD) file relating to the architecture of a facility and extracts information from the CAD file for use in determining static energy characteristics corresponding to the architecture of the facility, acquires information for use in determining dynamic energy characteristics of the facility, and calculates a predicted energy usage of the facility based at least in part on the static and dynamic energy characteristics. The system further acquires data from at least one sensor configured to measure actual energy usage of the facility in real-time and calculates the actual energy usage of the facility. When the actual energy usage exceeds the predicted energy usage, the system transmits an alert to a user and determines corrective measures to reduce energy usage. | 12-20-2012 |
20130134962 | ENERGY SEARCH ENGINE METHODS AND SYSTEMS - Systems and methods dynamically assess energy efficiency by obtaining a minimum energy consumption of a system, receiving in a substantially continuous way a measurement of actual energy consumption of the system, and comparing the minimum energy consumption to the measurement of actual energy consumption to calculate a substantially continuous energy performance assessment. The system further provides at least one of a theoretical minimum energy consumption based at least in part on theoretical performance limits of system components, an achievable minimum energy consumption based at least in part on specifications for high energy efficient equivalents of the system components, and the designed minimum energy consumption based at least in part on specifications for the system components. | 05-30-2013 |
20140214220 | SYSTEMS AND METHODS TO ASSESS AND OPTIMIZE ENERGY USAGE FOR A FACILITY - A system for assessing energy usage reads read at least one computer-aided design (CAD) file relating to the architecture of a facility and extracts information from the CAD file for use in determining static energy characteristics corresponding to the architecture of the facility, acquires information for use in determining dynamic energy characteristics of the facility, and calculates a predicted energy usage of the facility based at least in part on the static and dynamic energy characteristics. The system further acquires data from at least one sensor configured to measure actual energy usage of the facility in real-time and calculates the actual energy usage of the facility. When the actual energy usage exceeds the predicted energy usage, the system transmits an alert to a user and determines corrective measures to reduce energy usage. | 07-31-2014 |
20140222231 | ENERGY SEARCH ENGINE METHODS AND SYSTEMS - Systems and methods dynamically assess energy efficiency by obtaining a minimum energy consumption of a system, receiving in a substantially continuous way a measurement of actual energy consumption of the system, and comparing the minimum energy consumption to the measurement of actual energy consumption to calculate a substantially continuous energy performance assessment. The system further provides at least one of a theoretical minimum energy consumption based at least in part on theoretical performance limits of system components, an achievable minimum energy consumption based at least in part on specifications for high energy efficient equivalents of the system components, and the designed minimum energy consumption based at least in part on specifications for the system components. | 08-07-2014 |
20140222232 | ENERGY SEARCH ENGINE METHODS AND SYSTEMS - Systems and methods dynamically assess energy efficiency by obtaining a minimum energy consumption of a system, receiving in a substantially continuous way a measurement of actual energy consumption of the system, and comparing the minimum energy consumption to the measurement of actual energy consumption to calculate a substantially continuous energy performance assessment. The system further provides at least one of a theoretical minimum energy consumption based at least in part on theoretical performance limits of system components, an achievable minimum energy consumption based at least in part on specifications for high energy efficient equivalents of the system components, and the designed minimum energy consumption based at least in part on specifications for the system components. | 08-07-2014 |
20140222486 | ENERGY SEARCH ENGINE METHODS AND SYSTEMS - Systems and methods dynamically assess energy efficiency by obtaining a minimum energy consumption of a system, receiving in a substantially continuous way a measurement of actual energy consumption of the system, and comparing the minimum energy consumption to the measurement of actual energy consumption to calculate a substantially continuous energy performance assessment. The system further provides at least one of a theoretical minimum energy consumption based at least in part on theoretical performance limits of system components, an achievable minimum energy consumption based at least in part on specifications for high energy efficient equivalents of the system components, and the designed minimum energy consumption based at least in part on specifications for the system components. | 08-07-2014 |
20140222665 | ENERGY SEARCH ENGINE METHODS AND SYSTEMS - Systems and methods dynamically assess energy efficiency by obtaining a minimum energy consumption of a system, receiving in a substantially continuous way a measurement of actual energy consumption of the system, and comparing the minimum energy consumption to the measurement of actual energy consumption to calculate a substantially continuous energy performance assessment. The system further provides at least one of a theoretical minimum energy consumption based at least in part on theoretical performance limits of system components, an achievable minimum energy consumption based at least in part on specifications for high energy efficient equivalents of the system components, and the designed minimum energy consumption based at least in part on specifications for the system components. | 08-07-2014 |
20140292533 | UNIVERSAL ENERGY INTERNET OF THINGS APPARATUS AND METHODS - A system to aggregate, filter, and share energy data for analysis receives first data associated with a first electrical circuit where the first data has a first protocol. The system samples the first data at a first sampling rate to generate first digital data where the first sampling rate is substantially continuous. Further, the system transmits at a reporting rate that is decoupled from the first sampling rate at least the first digital data over a network having a third protocol that is different from the first protocol. The network can be accessed by wired or wireless access and includes one or more servers in cloud configuration. | 10-02-2014 |
20140297210 | UNIVERSAL INTERNET OF THINGS APPARATUS AND METHODS - A system to aggregate, filter, and share data for analysis receives first data from a first sensor, system, or server where the first data has a first protocol. The system samples the first data at a first sampling rate to generate first digital data, where the first sampling rate is substantially continuous. Further, the system transmits at a reporting rate that is decoupled from the first second sampling rate at least the first digital data over a network having a third protocol that is different from the first protocol. The network can be accessed by wired or wireless access and includes one or more servers in cloud configuration. | 10-02-2014 |
20140303935 | UNIVERSAL INTERNET OF THINGS CLOUD APPARATUS AND METHODS - A system to analyze data and control devices that receives at a cloud-based server sensor data associated with a sensor. The sensor data conforms to a data protocol compatible with the cloud-based server. The system also receives dynamic data from a cloud-based source(s), accesses attributes of an asset related to the sensor, analyzes by the cloud-based server the sensor data, the dynamic data, and the attributes of the asset, generates a control signal based at least in part on an analysis of the sensor data, the dynamic data and the attributes of the asset, and transmits the control signal over a network to control the asset. | 10-09-2014 |
20140371935 | SYSTEM AND METHODS TO ASSESS, MANAGE AND CONTROL DISTRIBUTED RENEWABLE ENERGY RESOURCES ON A GRID OR MICROGRID AND ACHIEVE A 100% RENEWABLE ENERGY GRID OR MICROGRID FROM CLEAN, CARBON FREE, AND WATER CONSERVING DISTRIBUTED RENEWABLE ENERGY TECHNOLOGIES AND RESOURCES - Systems and methods dynamically measure, ascertain, and compare a local facility load with local renewable energy generation in substantially real time and determine whether excess energy exists from the local distributed renewable energy resource. Further, systems and methods forecast the available excess energy from the local distributed renewable energy resource that can be managed and controlled in increments. The increments can be fed to the grid for purchase, stored in a regional energy store, stored in a local energy store, or shed. | 12-18-2014 |
20140371936 | SYSTEM AND METHODS TO AGGREGATE INSTANT AND FORECASTED EXCESS RENEWABLE ENERGY - Systems and methods dynamically measure, ascertain, and compare a local facility load with local renewable energy generation in substantially real time and determine whether excess energy exists from the local distributed renewable energy resource. Further, systems and methods forecast the available excess energy from the local distributed renewable energy resources for acquisition to third parties. A pulse width modulation (PWM) controller permits delivery of acquired increments of the available excess renewable energy. | 12-18-2014 |
20140379156 | SYSTEM AND METHODS TO WIRELESSLY CONTROL DISTRIBUTED RENEWABLE ENERGY ON THE GRID OR MICROGRID - Systems and methods dynamically measure, ascertain, and compare a local facility load with local renewable energy generation in substantially real time and determine whether excess energy exists from the local distributed renewable energy resource. Further, systems and methods forecast the available excess energy from the local distributed renewable energy resources for acquisition to third parties and control a pulse width modulation (PWM) controller to deliver increments of the available excess renewable energy. | 12-25-2014 |