Automatic filtering method and device

The invention claimed is: 1. An automatic filtering method, comprising the steps of: (i) analyzing an input signal so as to obtain a frequency spectrum of the input signal; and (ii) selecting, on a basis of the frequency spectrum of the input signal, at least one filter from among a plurality of preset filters and filtering the input signal, the step (ii) including: determining, on the basis of the frequency spectrum of the input signal, a signal type included in the input signal; selecting, on a basis of the signal type included in the input signal, a corresponding filter corresponding to the signal type; filtering the input signal with use of a first parameter of the corresponding filter and setting a second parameter for the corresponding filter on a basis of a result of the filtering; and filtering the input signal with use of the second parameter set for the corresponding filter, the setting of the second parameter for the corresponding filter on the basis of the result of the filtering including: determining, on the basis of the result of the filtering, whether a type of signal which type corresponds to the corresponding filter has been filtered out; in a case where the determining shows that the type of signal which type corresponds to the corresponding filter has been filtered out, setting the first parameter of the corresponding filter as the second parameter; and in a case where the determining shows that the type of signal which type corresponds to the corresponding filter has not been filtered out, repeating a process of adjusting the first parameter of the corresponding filter and simulating a filtering result with use of the adjusted first parameter until the type of signal which type corresponds to the corresponding filter is filtered out and setting the adjusted first parameter as the second parameter. 2. The automatic filtering method according to claim 1 , further comprising the steps of: (iii) adjusting, on a basis of a fine adjustment measure fed back from a user, a parameter of the at least one filter selected; and (iv) filtering the input signal again with use of the adjusted parameter of the at least one filter selected. 3. The automatic filtering method according to claim 1 , wherein the signal type included in the input signal includes a signal having an electric power source frequency, a high-frequency signal having a constant cycle and frequency, and a high-frequency signal having a non-constant cycle and frequency. 4. An automatic filtering device, comprising: a signal processing unit configured to analyze an input signal so as to obtain a frequency spectrum of the input signal; and a first filtering unit configured to select, on a basis of the frequency spectrum of the input signal, at least one filter from among a plurality of preset filters and filter the input signal, the first filtering unit including: a first determining unit configured to determine, on the basis of the frequency spectrum of the input signal, a signal type included in the input signal; a first selecting unit configured to select, on a basis of the signal type included in the input signal, a corresponding filter corresponding to the signal type; a second determining unit configured to filter the input signal with use of a first parameter of the corresponding filter and set a second parameter for the corresponding filter on a basis of a result of the filtering; and a third filtering unit configured to filter the input signal with use of the second parameter set for the corresponding filter, the second determining unit being configured to carry out a task of determining, on the basis of the result of the filtering, whether a type of signal which type corresponds to the corresponding filter has been filtered out; a task of, in a case where the determining shows that the type of signal which type corresponds to the corresponding filter has been filtered out, setting the first parameter of the corresponding filter as the second parameter; and a task of, in a case where the determining shows that the type of signal which type corresponds to the corresponding filter has not been filtered out, repeating a process of adjusting the first parameter of the corresponding filter and simulating a filtering result with use of the adjusted first parameter until the type of signal which type corresponds to the corresponding filter is filtered out and setting the adjusted first parameter as the second parameter. 5. The automatic filtering device according to claim 4 , further comprising: an adjusting unit configured to adjust, on a basis of a fine adjustment measure fed back from a user, a parameter of the at least one filter selected; and a second filtering unit configured to filter the input signal again with use of the adjusted parameter of the at least one filter selected. 6. The automatic filtering device according to claim 4 , wherein the signal type included in the input signal includes a signal having an electric power source frequency, a high-frequency signal having a constant cycle and frequency, and a high-frequency signal having a non-constant cycle and frequency. 7. A weight measuring unit, comprising: an automatic filtering device according to claim 4 , the automatic filtering device being configured to filter an input signal so as to obtain a weight measuring signal; and a calculation module configured to calculate a weight on a basis of the weight measuring signal.