Resource estimation system and resource estimation method

The invention claimed is: 1. A resource estimation system comprising circuitry configured to: acquire potential information indicating potentials of a plurality of electrodes having a predetermined positional relationship measured at a plurality of positions in water, the potentials depending to an electric field generated in water by resources in the bottom of water; perform principal component analysis or independent component analysis using the potentials of the plurality of electrodes indicated by the potential information to remove a noise contained in the measured potentials; and estimate the presence of resources in the bottom of water based on the potential from which the noise has been removed, wherein the circuitry performs extraction of a separation component of a signal related to the resources or exclusion of separation components of the noise from separation components obtained by performing the principal component analysis or the independent component analysis based on a contribution rate or the amount of component load of the separation component obtained by the principal component analysis or the independent component analysis, and performs reconstruction of values of the separation components to calculate the potential from which the noise has been removed. 2. The resource estimation system according to claim 1 , wherein the circuitry determines the separation component of the noise in descending order of the contribution rate or an absolute value of the amount of component load. 3. The resource estimation system according to claim 1 , wherein the circuitry determines the separation component of the signal related to the resources in ascending order of the contribution rate or an absolute value of the amount of component load. 4. The resource estimation system according to claim 1 , wherein the circuitry acquires potential information for calibration and potential information for estimation of resources, and performs extraction of the separation component of the signal related to the resources or exclusion of the separation component of the noise based on the potential information for calibration, and performs reconstruction of a value of the separation component based on the potential information for estimation of resources. 5. The resource estimation system according to claim 1 , wherein the circuitry acquires environmental information indicating an environment at a plurality of positions in the water, and removes the noise based also on the environmental information. 6. The resource estimation system according to claim 1 , further comprising: the plurality of electrodes; and an electrometer configured to measure the potential of the electrodes at a plurality of positions in water and inputting potential information indicating the measured potential to the circuitry. 7. The resource estimation system according to claim 6 , further comprising: a moving body that moves in water, wherein the plurality of electrodes are arranged at different positions of the moving body. 8. The resource estimation system according to claim 1 , wherein the circuitry acquires moving body information indicating a state of a moving body to which a plurality of electrodes are connected and that moves in the water at a plurality of positions in the water, and removes the noise based also on the moving body information. 9. A resource estimation method in an operation method of a resource estimation system, the resource estimation method comprising: a potential information acquisition step of acquiring potential information indicating potentials of a plurality of electrodes having a predetermined positional relationship measured at a plurality of positions in water, the potentials depending to an electric field generated in water by resources in the bottom of water; a noise removal step of performing principal component analysis or independent component analysis using the potentials of the plurality of electrodes indicated by the potential information acquired in the potential information acquisition step to remove noise contained in the measured potentials; a resource estimation step of estimating the presence of resources in the bottom of water based on the potential from which the noise has been removed in the noise removal step; and a step of extracting a separation component of a signal related to the resources or exclusion of separation components of the noise from separation components obtained by performing the principal component analysis or the independent component analysis based on a contribution rate or the amount of component load of the separation component obtained by the principal component analysis or the independent component analysis, and performing reconstruction of values of the separation components to calculate the potential from which the noise has been removed. 10. The resource estimation method according to claim 9 , further comprising: a movement step of moving the electrodes at a constant water depth.