Power generation system

What is claimed is: 1 . A power generation system, comprising: a plurality of power generation units; a plurality of energy storage units; a plurality of switch units for connecting or disconnecting the power generation units and the energy storage units; and a controller for controlling the switch units to disconnect one or more idle power generation units from their corresponding energy storage units when the idle power generation units stop operating and to connect the disconnected energy storage unit to one operating power generation unit of the plurality of power generation units based on states-of-charge of the energy storage units. 2 . The power generation system of claim 1 , wherein the controller is used to further connect the disconnected energy storage unit to the one operating power generation unit based on distances from the disconnected energy storage unit to the operating power generation units. 3 . The power generation system of claim 2 , wherein, when a state-of-charge of the disconnected energy storage unit is less than a lower threshold, the controller is used to control the switch units to connect the disconnected energy storage unit to the one operating power generation unit with a maximum of first indicators based on the first indicators of the operating power generation units, the first indicators having positive correlations with the states-of-charge and negative correlations with the distances. 4 . The power generation system of claim 2 , wherein, when a state-of-charge of the disconnected energy storage unit is less than a lower threshold, the controller is used to control the switch units to connect the disconnected energy storage unit to the one operating power generation unit with a minimum of first indicators based on the first indicators of the operating power generation units, the first indicators having negative correlations with the states-of-charge and positive correlations with the distances. 5 . The power generation system of claim 2 , wherein, when a state-of-charge of the disconnected energy storage unit is greater than a higher threshold, the controller is used to control the switch units to connect the disconnected energy storage unit to the one operating power generation unit with a maximum of second indicators based on the second indicators of the operating power generation units, the second indicators having negative correlations with the states-of-charge and negative correlations with the distances. 6 . The power generation system of claim 2 , wherein, when a state-of-charge of the disconnected energy storage unit is greater than a higher threshold, the controller is used to control the switch units to connect the disconnected energy storage unit to the one operating power generation unit with a minimum of second indicators based on the second indicators of the operating power generation units, the second indicators having positive correlations with the states-of-charge and positive correlations with the distances. 7 . The power generation system of claim 2 , wherein, when a state-of-charge of the disconnected energy storage unit is between a higher threshold and a lower threshold, the controller is used to control the switch units to connect the disconnected energy storage unit to the one operating power generation unit with a maximum of first indicators and second indicators based on the first indicators and the second indicators of the operating power generation units, the first indicators having positive correlations with the states-of-charge and negative correlations with the distances, the second indicators having negative correlations with the states-of-charge and negative correlations with the distances. 8 . The power generation system of claim 2 , wherein, when a state-of-charge of the disconnected energy storage unit is between a higher threshold and a lower threshold, the controller is used to control the switch units to connect the disconnected energy storage unit to the one operating power generation unit with a minimum of first indicators and second indicators based on the first indicators and the second indicators of the operating power generation units, the first indicators having negative correlations with the states-of-charge and positive correlations with the distances, the second indicators having positive correlations with the states-of-charge and positive correlations with the distances. 9 . The power generation system of claim 1 , wherein the controller is used to further connect the disconnected energy storage unit to the one operating power generation unit based on remaining life cycles of the energy storage units. 10 . The power generation system of claim 1 , wherein the controller is used to split a total power among the plurality of energy storage units electrically connected to one of the power generation units based on the states-of-charge of the energy storage units.