Battery system

What is claimed is: 1. A battery system comprising: a nickel hydride battery; and an electronic control unit configured to: store data indicating a corresponding relationship between an elapsed time from a start of use of the nickel hydride battery and a memory quantity from the start of use of the nickel hydride battery, the stored data comprising historical data corresponding individually to a plurality of conditions of use based on an open circuit voltage of the nickel hydride battery and a temperature of the nickel hydride battery, calculate, with reference to the stored data, a memory quantity within a time when classification of the conditions of use does not change, the memory quantity being a quantity indicating an amount of change in voltage resulting from a memory effect of the nickel hydride battery, and estimate a total memory quantity of the nickel hydride battery by integrating the calculated memory quantity into a previously estimated total memory quantity, wherein, in response to a condition of use changing, the memory quantity is calculated and integrated into the total memory quantity. 2. The battery system according to claim 1 , wherein the electronic control unit is configured to repeatedly carry out a total memory quantity estimation process for estimating the total memory quantity indicating an integrated value of the memory quantity, the total memory quantity estimation process being a process for calculating, with reference to data corresponding to the conditions of use during a predetermined period, the total memory quantity from a previously estimated total memory quantity at a start of the predetermined period and the conditions of use during the predetermined period, by adding a memory quantity generated during the predetermined period to the previously estimated total memory quantity at the start of the predetermined period. 3. The battery system according to claim 1 , wherein the stored data comprises data indicating a corresponding relationship between an n th root of the elapsed time and a generation speed of the memory quantity, an exponent of the n th root is determined such that the generation speed becomes constant with respect to the n th root of the elapsed time, the electronic control unit is configured to calculate, with reference to the stored data corresponding to the conditions of use during a predetermined period, the generation speed during the predetermined period, the electronic control unit is configured to calculate a product of the generation speed and an n th root of the predetermined period as the memory quantity generated during the predetermined period, and the electronic control unit is configured to estimate a total memory quantity at an end of the predetermined period by adding the calculated memory quantity to a previously estimated total memory quantity from a start of the predetermined period. 4. The battery system according to claim 1 , wherein the electronic control unit is configured to acquire a first condition of use at a time of stopping the battery system and a second condition of use at a time of activating the battery system, the electronic control unit is configured to determine, based on the first condition of use and the second condition of use, a condition of use in a stop period of the battery system from the time of stopping the battery system to the time of activating the battery system, and the electronic control unit is configured to calculate, with reference to the data corresponding to the determined condition of use, a memory quantity generated during the stop period.