Transformer connection phase determination device and method

What is claimed is: 1. A transformer connection phase determination device, comprising: a processor configured to execute a process, the process comprising: acquiring a power value consumed by at least one consumer connected to a transformer connected to any phase corresponding to a combination of two of a plurality of distribution lines, and acquiring respective current values flowing in each of the plurality of distribution lines, in association with a time axis; applying a filter that attenuates low frequency components in a current value caused by the power value and in the respective current values flowing in the plurality of respective power distribution lines; computing respective correlation values indicating correlation between the current values caused by the power values to which the filter has been applied, and the respective current values flowing in the plurality of respective power distribution lines to which the filter has been applied; and determining the phase that the transformer is connected to, based on the respective correlation values. 2. The transformer connection phase determination device of claim 1 , wherein the low frequency components attenuated by the filter are frequency components representing a daily cycle of power consumed by the consumer. 3. The transformer connection phase determination device of claim 1 , wherein the filter is defined by a filter coefficient optimized so as to maximize an indicator based on a difference between a correlation value indicating a lowest correlation out of the respective correlation values, and a correlation value indicating a second lowest correlation out of the respective correlation values. 4. The transformer connection phase determination device of claim 3 , wherein the indicator is the difference, or an average of a plurality of the differences computed using the respective current values caused by power consumed by a plurality of consumers, or an average of standard deviations of the plurality of the differences. 5. The transformer connection phase determination device of claim 1 , wherein determination of the phase to which the transformer is connected determines the phase corresponding to a combination of distribution lines that excludes the distribution line corresponding to the correlation value indicating a lowest correlation to be the phase to which the transformer is connected. 6. The transformer connection phase determination device of claim 1 , wherein the process further comprises acquiring a power quantity consumed by the at least one consumer, and converting the acquired power quantity to a current value. 7. The transformer connection phase determination device of claim 6 , wherein, when respective power quantities consumed by a plurality of respective consumers is acquired, the conversion includes treating a summed value of the respective power quantities as a power quantity consumed by a single hypothetical consumer. 8. A transformer connection phase determination method, comprising: acquiring a power value consumed by at least one consumer connected to a transformer connected to any phase corresponding to a combination of two of a plurality of distribution lines, and acquiring respective current values flowing in each of the plurality of distribution lines, in association with a time axis; applying a filter that attenuates low frequency components in a current value caused by the power value and in the respective current values flowing in the plurality of respective power distribution lines; computing respective correlation values indicating correlation between the current values caused by the power values to which the filter has been applied, and the respective current values flowing in the plurality of respective power distribution lines to which the filter has been applied; and by a processor, determining the phase that the transformer is connected to, based on the respective correlation values. 9. The transformer connection phase determination method of claim 8 , wherein the low frequency components attenuated by the filter are frequency components representing a daily cycle of power consumed by the consumer. 10. The transformer connection phase determination method of claim 8 , wherein the filter is defined by a filter coefficient optimized so as to maximize an indicator based on a difference between a correlation value indicating a lowest correlation out of the respective correlation values, and a correlation value indicating a second lowest correlation out of the respective correlation values. 11. A non-transitory recording medium storing a transformer connection phase determination program that causes a computer to execute a process, the process comprising: acquiring a power value consumed by at least one consumer connected to a transformer connected to any phase corresponding to a combination of two of a plurality of distribution lines, and acquiring respective current values flowing in each of the plurality of distribution lines, in association with a time axis; applying a filter that attenuates low frequency components in a current value caused by the power value and in the respective current values flowing in the plurality of respective power distribution lines; computing respective correlation values indicating correlation between the current values caused by the power values to which the filter has been applied, and the respective current values flowing in the plurality of respective power distribution lines to which the filter has been applied; and determining the phase that the transformer is connected to, based on the respective correlation values. 12. The non-transitory recording medium of claim 11 , wherein, in the process, the low frequency components attenuated by the filter are frequency components representing a daily cycle of power consumed by the consumer. 13. The non-transitory recording medium of claim 11 , wherein, in the process, the filter is defined by a filter coefficient optimized so as to maximize an indicator based on a difference between a correlation value indicating a lowest correlation out of the respective correlation values, and a correlation value indicating a second lowest correlation out of the respective correlation values.