Trademark Overview
On Friday, August 30, 2024, a trademark application was filed for VIRTUAL ENERGY SUPERVISOR with the United States Patent and Trademark Office. The USPTO has given the VIRTUAL ENERGY SUPERVISOR trademark a serial number of 98726036. The federal status of this trademark filing is NON-FINAL ACTION - MAILED as of Saturday, March 8, 2025. This trademark is owned by Emacx Systems, Inc.. The VIRTUAL ENERGY SUPERVISOR trademark is filed in the Advertising, Business and Retail Services, Computer & Software Products & Electrical & Scientific Products, Construction & Repair Services, and Computer & Software Services & Scientific Services categories with the following description:
Electronic controllers for measuring and controlling power demands in real-time to avoid peak demands of a utility grid; electronic devices for curtailing loads to ensure that the power demands of a utility grid remains below a predetermined threshold; electronic devices for facilitating building-wide load reduction; electronic devices for detecting the need for load shedding of a utility grid, communicating the demand to participating users, and automating the load shedding, kWh-harvesting and verifying compliance with the terms of a Demand Response Program; electronic devices for monitoring and controlling demand loads to prevent an overload of a utility grid; electronic devices for monitoring and comparing actual power usage of a utility grid with target values and for controlling and reducing the load of designated equipment based on assigned priority levels and user parameters
Maintenance of energy systems, namely, intelligent peak load control systems
Electrical load audit services
Providing temporary use of non-downloadable computer software for energy usage monitoring, metering, and analysis; Providing temporary use of non-downloadable software for online energy usage management, namely, monitoring of the electrical grid; Providing temporary use of non-downloadable software for measuring and controlling power demands in real-time to avoid peak demands of a utility grid, for curtailing loads to ensure that the power demands of a utility grid remains below a predetermined threshold, for facilitating building-wide load reduction, for detecting the need for load shedding of a utility grid, communicating the demand to participating users, and automating the load shedding, kWh-harvesting and verifying compliance with the terms of a Demand Response Program, for monitoring and controlling demand loads to prevent an overload of a utility grid, for monitoring and comparing actual power usage of a utility grid with target values and for controlling and reducing the load o...
