Battery management apparatus

What is claimed is: 1. A battery state estimating apparatus, comprising: a voltage measuring unit configured to: measure a voltage of a battery cell during a plurality of charging cycles of the battery cell; and compare the measured voltage of the battery cell during charging of the battery cell to a predetermined reference charge voltage value in each of the plurality of charging cycles, in response to the measured voltage equaling the predetermined reference charge voltage value, measure an open circuit voltage (OCV) of the battery cell; and a control unit configured to: for each of the plurality of charging cycles, receive the OCV measured by the voltage measuring unit, calculate at least one of a voltage fluctuation for each of the plurality of charging cycles or an electric resistance fluctuation for each of the plurality of charging cycles based on a result obtained by processing the received OCV, determine at least one of: a voltage increase pattern or voltage decrease pattern over the plurality of charging cycles based on the calculated voltage fluctuation of a current charging cycle and pre-stored voltage fluctuation data corresponding to prior charging cycles, or a resistance increase pattern or resistance decrease pattern over the plurality of charging cycles based on the calculated electric resistance fluctuation of the current charging cycle and pre-stored electric resistance fluctuation data corresponding to prior charging cycles, determine one or more degrees of degradation of the battery cell according to at least one of the determined voltage increase pattern, voltage decrease pattern, resistance increase pattern or resistance decrease pattern, and change a preset control condition based on the determined one or more degrees to which degradation of the battery cell is changing. 2. The battery state estimating apparatus according to claim 1 , wherein the control unit is configured to change the preset control condition only in response to determining at least one of a first degree to which degradation of the battery cell is changing determined according to the voltage increase pattern or voltage decrease pattern or a second degree to which degradation of the battery cell is changing determined according to the resistance increase pattern or resistance decrease pattern to be an accelerated degradation or a linear degradation. 3. The battery state estimating apparatus according to claim 1 , wherein the preset control condition includes at least one of a C-rate or a charge termination voltage set for the battery cell, and wherein when a first degree to which degradation of the battery cell is changing determined according to the voltage increase pattern or voltage decrease pattern is determined to be an accelerated degradation or a linear degradation, the control unit is configured to: set an OCV of the battery cell previously measured at a start cycle of the determined voltage increase pattern or voltage decrease pattern as a reference OCV, calculate a voltage comparison value by comparing the set reference OCV with the OCV received from the voltage measuring unit, and change at least one of the C-rate or the charge termination voltage based on one or more voltage conversion values obtained by converting the calculated voltage comparison value according to one or more preset voltage conversion criteria. 4. The battery state estimating apparatus according to claim 3 , wherein the one or more preset voltage conversion criteria includes a first voltage conversion criterion according to which the calculated voltage comparison value is converted into a value corresponding to the C-rate, and a second voltage conversion criterion according to which the calculated voltage comparison value is converted into a value corresponding to the charge termination voltage, and the control unit is configured to: obtain a first voltage conversion value by converting the calculated voltage comparison value according to the first voltage conversion criterion, change the C-rate according to the obtained first voltage conversion value, obtain a second voltage conversion value by converting the calculated voltage comparison value according to the second voltage conversion criterion, and change the charge termination voltage according to the obtained second voltage conversion value. 5. The battery state estimating apparatus according to claim 3 , wherein the control unit is configured to change one or more of the preset voltage conversion criteria only in response to determining that the first degree to which degradation of the battery cell is changing is accelerated degradation and that at least one of the C-rate or the charge termination voltage is changed. 6. The battery state estimating apparatus according to claim 5 , wherein in response to an indication that the first degree to which degradation of the battery cell is changing is a linear degradation or a decelerated degradation, the control unit is configured to disregard an input to change one or more of the present voltage conversion criteria. 7. The battery state estimating apparatus according to claim 1 , wherein the preset control condition includes at least one of a C-rate or a charge termination voltage set for the battery cell, and wherein only when a second degree to which degradation of the battery cell is changing determined according to the resistance increase pattern or resistance decrease pattern is one of an accelerated degradation or a linear degradation, the control unit is configured to: set an electric resistance fluctuation of the battery cell previously measured at a start cycle of the determined resistance increase pattern or resistance decrease pattern as a reference electric resistance fluctuation, calculate a resistance comparison value by comparing the set reference electric resistance fluctuation with the calculated electric resistance fluctuation, and change at least one of the C-rate and the charge termination voltage based on one or more resistance conversion value obtained by converting the calculated resistance comparison value according to one or more preset resistance conversion criteria. 8. The battery state estimating apparatus according to claim 7 , wherein the one or more preset resistance conversion criteria includes a first resistance conversion criterion according to which the calculated resistance comparison value is converted into a value corresponding to the C-rate, and a second resistance conversion criterion according to which the calculated resistance comparison value is converted into a value corresponding to the charge termination voltage, and wherein the control unit is configured to: obtain a first resistance conversion value by converting the calculated resistance comparison value according to the first resistance conversion criterion, change the C-rate according to the obtained first resistance conversion value, obtain a second resistance conversion value by converting the calculated resistance comparison value according to the second resistance conversion criterion, and change the charge termination voltage according to the obtained second resistance conversion value. 9. The battery state estimating apparatus according to claim 7 , wherein the control unit is configured to change one or more of the preset resistance conversion criteria only in response to determining that the determined second degree to which degradation of the battery cell is changing is accelerated degradation and at least one of the C-rate and the charge termination voltage is changed. 10. The battery state estimating apparatus according to claim 9 , wherein in response to an indication that d