Man-machine confrontation dispatching training simulation system and method for UHV power grid
A training simulation system and power grid simulation technology, applied in the direction of educational tools, instruments, teaching models, etc., can solve the problems of strong personal subjectivity, weak correlation of power grid operation characteristics, poor experience, etc., to achieve scientific and Intelligence, high intelligence and scientificity, the effect of improving quality and efficiency
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Embodiment 1
[0056] Example 1: figure 1 It is a schematic structural diagram of the man-machine confrontation scheduling training simulation system of a specific embodiment of the present invention; as figure 1 The invention provides a human-machine confrontation scheduling training simulation system for UHV power grid, including a system server module and a trainee client module.
[0057] The student client module is used to set the initial system parameters and convert the control operations of the students into control events and send them to the system server module. The initial system parameters include the operation mode, training theme and difficulty level of the questions;
[0058] The system server module includes: power grid simulation calculation module, power grid weak link identification module and automatic questioning module;
[0059] The power grid simulation calculation module is used to perform simulation calculation of scheduling execution results for the control events...
Embodiment 2
[0064] Embodiment 2: On the basis of the above embodiments, this embodiment further provides the constituent modules of the power grid weak link identification module. figure 2 It is a schematic diagram of the framework of the power grid weak link identification module in a specific embodiment of the present invention; figure 2 As shown: the power grid weak link identification module includes a first module (ie module 1), a second module (ie module 2), a third module (ie module 3), a fourth module (ie module 4), and a fifth module (ie Module 5), the sixth module (ie module 6), the seventh module (ie module 7) and the eighth module (ie module 8);
[0065] The first module is used to form all breaking branches and node information according to the input grid section information;
[0066] The second module is used to analyze the topology of the power grid structure change according to all the breaking branches and node information formed by the first module, and output the pow...
Embodiment 3
[0074] Embodiment 3: On the basis of the above embodiments, this embodiment further provides the composition of an automatic question generating module. Such as image 3 As shown, the automatic questioning module includes the power grid risk assessment module, the fault equipment sorting module and the fault equipment selection module,
[0075] The power grid risk assessment module is used to perform grid risk assessment and calculate the grid risk index caused by each disconnection device according to the grid risk situation and disconnection equipment sent from the grid weak link identification module;
[0076] The faulty equipment sorting module is used to divide the faulty equipment into topics according to the grid risk indicators and divide the difficulty level of the starting equipment in each topic, and finally sort the breaking equipment in each level according to the grid risk indicators;
[0077] The faulty device selection module is used to select the highest-rank...
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