Optical medium reproduction apparatus and optical medium reproduction method

1 . A reproduction apparatus comprising: a detection unit configured to: divide a section of a beam returning from an optical medium into at least first and second regions corresponding, respectively, to first and second channels, wherein the first region includes an outer region in a radial direction of the beam, wherein the second region includes an outer region in a tangential direction of the beam, and form detected signals corresponding to the respective channels; a multi-input equalizer component comprising equalizer units supplied with the respective detected signals corresponding to the channels, and configured to perform computing on outputs of the equalizer units and to output an equalized signal based on the computing; and a binarization unit configured to perform binarization processing on the equalized signal to obtain binary data. 2 . The reproduction apparatus according to claim 1 , wherein the multi-input equalizer component comprises a multi-input adaptive equalizer component configured to output the equalized signal, and wherein the apparatus further comprises an equalization error computing unit configured to: obtain equalization error data based, at least in part, on an equalization target signal and on the equalized signal, wherein the equalization target signal is obtained based, at least in part, on the binary data, and supply the equalization error data to the adaptive equalizer unit to control adaptive equalization. 3 . The reproduction apparatus according to claim 2 , wherein: the multi-input adaptive equalizer component is configured to perform partial response equalization processing on the detected signals corresponding to the respective channels, the binarization processing by which the binary data is obtained comprises maximum likelihood decoding processing, the equalization target signal is obtained by performing convolution with the binary data, and the equalization error computing unit is configured to obtain the equalization error data by computing using the equalization target signal and the equalized signal. 4 . The reproduction apparatus according to claim 1 , wherein the detection unit includes photodetectors divided to correspond to the regions and configured to obtain the detected signals. 5 . The reproduction apparatus according to claim 4 , further comprising an optical path conversion element configured to separate the beam returning from the optical medium into the regions, wherein the optical path conversion element is disposed in an optical path through an object lens and to the detectors, and wherein the regions of the beam separated by the optical path conversion element are input to respective detectors. 6 . The reproduction apparatus according to claim 1 , wherein the optical medium includes alternating lands and grooves, and wherein information is recorded on both the lands and grooves. 7 . A method comprising: dividing a section of a beam returning from an optical medium into at least first and second regions corresponding, respectively, to first and second channels, wherein the first region includes an outer region in a radial direction of the beam, wherein the second region includes an outer region in a tangential direction of the beam; forming detected signals corresponding to the respective channels; supplying the detected signals corresponding to the channels to respective equalizer units; using a multi-input equalizer component comprising the equalizer units to perform computing on outputs of the equalizer units and to output an equalized signal based on the computing; and performing binarization processing on the equalized signal to obtain binary data. 8 . A reproduction apparatus comprising: an optical filter configured to provide electrical signals corresponding to regions of an optical beam returning from an optical medium, the optical beam being incident on the optical filter, the regions of the optical beam corresponding to different bands in a line density direction and/or a track density direction; and electric filters configured to provide outputs based, at least in part, on the electrical signals provided by the optical filter, wherein the reproduction apparatus is configured to obtain a reproduced signal by combining the outputs of the electric filters. 9 . The reproduction apparatus according to claim 8 , wherein the optical filter includes a beam splitter having incident angle dependency. 10 . The reproduction apparatus according to claim 8 , wherein the regions of the optical beam include a first region comprising one or more outer portions of the optical beam in the track density direction, a second region comprising one or more outer portions of the optical beam in the line density direction, and a third region comprising a central portion of the optical beam. 11 . The reproduction apparatus according to claim 10 , wherein the one or more outer portions of the first region include first and second outer portions, and wherein the second region of the optical beam is between the first and second outer portions of the first region. 12 . The reproduction apparatus according to claim 10 , wherein the one or more outer portions of the second region include first and second outer portions, and wherein the first region of the optical beam is between the first and second outer portions of the second region. 13 . The reproduction apparatus according to claim 10 , wherein the regions of the optical beam further include a fourth region comprising one or more portions of the optical beam between the second and third regions of the optical beam in the line density direction. 14 . The reproduction apparatus according to claim 10 , wherein the one or more outer portions of the second region include a first outer portion of the optical beam in the line density direction, and wherein the third region further includes a second outer portion of the optical beam in the line density direction. 15 . The reproduction apparatus according to claim 8 , wherein the regions of the optical beam include a first region comprising one or more outer portions of the optical beam in the line density direction, a second region comprising a central portion of the optical beam, a third region comprising a first outer portion of the optical beam in a track density direction, and a fourth region comprising a second outer portion of the optical beam in the track density direction, wherein the third region further includes one or more portions of the optical beam adjacent to the first region and the second outer portion of the optical beam in the track density direction, and wherein the fourth region further includes one or more portions of the optical beam adjacent to the first region and the first outer portion of the optical beam in the track density direction. 16 . The reproduction apparatus according to claim 8 , wherein the regions of the optical beam include a first region comprising one or more outer portions of the optical beam in a track density direction, a second region comprising a first outer portion of the optical beam in the line density direction, a third region comprising a central portion of the optical beam, and a fourth region comprising a second outer portion of the optical beam in the line density direction. 17 . The reproduction apparatus according to claim 16 , wherein the one or more outer portions of the first region include first and second outer portions, and wherein the second and fourth regions of the optical beam are between the first and second outer portions of the first regio