SYSTEMS AND METHODS FOR INTUITIVE MODELING OF COMPLEX NETWORKS IN A DIGITAL ENVIRONMENT
First Claim
1. A computer system for modeling a topology of an electrical power system, the topology divided into a plurality of power system components, the computer system comprising:
- a processor;
a memory coupled to the processor, the memory configured to maintain a component database, a component control engine, and a power system topology modeling engine;
a display device coupled to the processor and configured for displaying the topology of the electrical power system; and
an input device coupled to the processor;
the input device being operative to;
select one of the plurality of power system components stored in the component database as a selected component,position the selected component within a framework, andinterface the selected component with other selected components within the frameworkthe processor being operative to;
execute instructions within the component control engine to control the position of the selected components within the framework, andexecute instructions within the power system topology modeling engine to render the topology of the electrical system after the selected components have been positioned.
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Accused Products
Abstract
A system for modeling a topology of an electrical power system is disclosed. The system can include a processor, a memory, a display device, and an input device. The memory device can be coupled to the processor and configured to maintain a component database, a component control engine, and a power system topology modeling engine. The display device can be coupled to the processor and configured for displaying the topology of the electrical power system. The input device can be coupled to the processor and can be operative to select one of the plurality of power system components stored in the component database as a selected component, position the selected component within a framework, and interface the selected component with other selected components within the framework. The processor can be operative to execute instructions within the component control engine to control the position of the selected components within the framework and execute instructions within the power system topology modeling engine to render the topology of the electrical system after the selected components have been positioned.
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Citations
22 Claims
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1. A computer system for modeling a topology of an electrical power system, the topology divided into a plurality of power system components, the computer system comprising:
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a processor; a memory coupled to the processor, the memory configured to maintain a component database, a component control engine, and a power system topology modeling engine; a display device coupled to the processor and configured for displaying the topology of the electrical power system; and an input device coupled to the processor; the input device being operative to; select one of the plurality of power system components stored in the component database as a selected component, position the selected component within a framework, and interface the selected component with other selected components within the framework the processor being operative to; execute instructions within the component control engine to control the position of the selected components within the framework, and execute instructions within the power system topology modeling engine to render the topology of the electrical system after the selected components have been positioned. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A computer-implemented method for modeling a topology of an electrical power system, the topology divided into a plurality of power system components, comprising:
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selecting a one of the plurality of power system components; positioning the selected one of the plurality of power system components relative to an existing power system component in a framework; interfacing the selected one of the plurality of power system components with the existing power system component in the framework; and rendering the interfaced power system components as the electrical power system topology. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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Specification