Optical medium reproduction device and optical medium reproduction method

The invention claimed is: 1. An optical medium reproduction device, comprising: a detection unit configured to generate detection signals of respective channels based on a division of a cross-section of a beam that returns from the optical medium into a plurality of regions and divides at least one channel corresponding to the region at an outer side in a radial direction, at least one channel corresponding to the region that is different in position in a tangential direction, and a channel corresponding to the other regions, and, based on the generation of the detection signals of the channels, generate the detection signal of at least one of the channels based on execution of a weighting process and an addition process on a signal in a region among the plurality of regions; a multi-input equalizer unit configured to include a plurality of equalizer units to which the respective detection signals of the plurality of channels are supplied, and generate an equalized signal based on detection signals of the plurality of channels; and a binarization unit configured to execute a binarization process on the equalized signal to obtain binary data. 2. The optical medium reproduction device according to claim 1 , wherein the multi-input equalizer unit is configured as a multi-input adaptive equalizer unit, and the optical medium reproduction device further comprises an equalization error calculation unit configured to calculate an equalization error by an equalization target signal that is obtained based on a binarization detection result of the binarization unit, the equalized signal and, supply the equalization error to the adaptive equalizer unit as a control signal for adaptive equalization. 3. The optical medium reproduction device according to claim 2 , wherein the multi-input adaptive equalizer unit is further configured to execute a partial response equalization process based on the detection signals of the plurality of regions, the binarization unit is further configured to execute a maximum likelihood decoding process as the binarization process executed on the equalized signal, and the equalization error calculation unit is further configured to calculate an equalization error based on the equalization target signal obtained by a convolution process of the binarization detection result and the equalized signal. 4. The optical medium reproduction device according to claim 1 , wherein a value of a coefficient, to set a ratio of the weighting process, is controlled to reduce signal deterioration caused by one of radial comatic aberration or spherical aberration. 5. The optical medium reproduction device according to claim 1 , wherein a value of a coefficient, to set a ratio of the weighting process, is controlled to reduce signal deterioration caused by one of defocus or tangential comatic aberration. 6. The optical medium reproduction device according to claim 1 , wherein a value of a coefficient, to set a ratio of the weighting process, is controlled to reduce signal deterioration caused by one of detrack or parallactic movement. 7. The optical medium reproduction device according to claim 1 , wherein the detection unit includes divided detectors corresponding to the plurality of regions, and the detection signals of the plurality of regions are extracted from a photodetector. 8. The optical medium reproduction device according to claim 1 , wherein an optical path conversion element to separate the plurality of regions is provided in an optical path that leads to a plurality of detectors via an objective lens, and a plurality of beams separated by the optical path conversion element are input to different detectors. 9. The optical medium reproduction device according to claim 1 , wherein lands and grooves are alternately provided in the optical medium, and information is recorded on both the lands and the grooves. 10. A method, comprising: generating detection signals of respective channels by dividing a cross-section of a beam returning from an optical medium into a plurality of regions and dividing at least one channel corresponding to the region at an outer side in a radial direction, at least one channel corresponding to the region that is different in position in a tangential direction, and a channel corresponding to the other regions, and, based on the generation of the detection signals of the channels, generating the detection signal of at least one of the channels by weighting and adding a signal in a region among the plurality of regions; generating an equalized signal by a multi-input equalizer unit based on the detection signals of the plurality of channels; and executing a binarization process on the equalized signal by a binarization unit to obtain binary data. 11. An optical medium reproduction device, comprising: an optical filter configured to, based on an incident beam returning from the optical medium, generate a plurality of signals having space-optically different bands in a linear-density direction and a track-density direction; and a plurality of electrical filters to which the plurality of signals are supplied, wherein a reproduction signal is based on combination of outputs of the plurality of electrical filters. 12. The optical medium reproduction device according to claim 11 , wherein the optical filter is a beam splitter having incident angle dependence. 13. The optical medium reproduction device according to claim 1 , wherein one of radial aberration or spherical aberration is detected by distribution of tap coefficients of FIR filters corresponding to the plurality of equalizer units. 14. The optical medium reproduction device according to claim 1 , wherein one of defocus or tangential comatic aberration is detected by distribution of tap coefficients of FIR filters corresponding to the plurality of equalizer units. 15. The optical medium reproduction device according to claim 1 , wherein one of detrack or parallactic movement is detected by distribution of tap coefficients of FIR filters corresponding to the plurality of equalizer units.