Curvature sensor and endoscope apparatus

What is claimed is: 1. A curvature sensor for sensing a curvature of a flexible, linear detection target, the curvature sensor comprising: a light source configured to generate light having a predetermined wavelength band; a light guide provided along the detection target, wherein the light guide is configured to guide the light generated by the light source; a plurality of sensing parts having light absorbability and provided along a longitudinal direction of the light guide, wherein the plurality of sensing parts have absorption spectral characteristics respectively, wherein the absorption spectral characteristics have different intrinsic absorption patterns at the wavelength band, and wherein characteristic absorption bands having intrinsic characteristic absorption patterns in the absorption spectral characteristics of each of the plurality of sensing parts are included in the wavelength band; a light detector configured to: receive light which is guided through the light guide from the light source and which passes through the plurality of sensing parts; and detect the light in detection wavelength band including the characteristic absorption bands; and a calculator configured to compute a curvature of the detection target based on a rate of change in intensity of the light detected by the light detector, wherein the number of the characteristic absorption bands included in the wavelength band is equal to or larger than the number of the plurality of sensing parts, and wherein each of the plurality of sensing parts has different light absorptivity in each characteristic absorption band, the light absorptivity having a predetermined value other than zero. 2. The curvature sensor according to claim 1 , wherein the absorption spectral characteristic of one of the plurality of sensing parts has same part as the absorption spectral characteristic of another one of the plurality of sensing parts other than the characteristics absorption bands of the wavelength band. 3. The curvature sensor according to claim 1 , wherein the plurality of sensing parts comprises one of resin containing coloring matter, dielectric films, and a combination of the resin containing the coloring matter and the dielectric films. 4. The curvature sensor according to claim 1 , wherein the light guide comprises: a core; and a cladding surrounding the core and comprising a plurality of storage sections arranged along the longitudinal direction of the light guide to store the plurality of sensing parts, wherein the plurality of sensing parts comprise resin containing coloring matter, and wherein the resin has flexibility which is equal to flexibility of the cladding. 5. The curvature sensor according to claim 1 , wherein the light detector has the detection wavelength band including a plurality of detection wavelength regions, and one of the detection wavelength regions overlaps part of another one of the detection wavelength regions. 6. The curvature sensor according to claim 1 , wherein the light source is configured to radiate light including at least a part of wavelength components of the characteristic absorption bands. 7. The curvature sensor according to claim 1 , wherein the light guide comprises: a core; and a cladding surrounding the core and comprising a plurality of storage sections arranged along the longitudinal direction of the light guide to store the plurality of sensing parts, wherein the plurality of sensing parts comprise dielectric films, and a member whose refractive index is higher than refractive index of the core is brought into intimate contact with one surface of each of the dielectric films which is opposed to the other surface contacting the core. 8. A curvature sensor for sensing a curvature of a flexible, linear detection target, the curvature sensor comprising: a light source configured to radiate a plurality of types of light of different wavelength bands with time difference; a light guide provided along the detection target, wherein the light guide is configured to guide the light radiated from the light source; a plurality of sensing parts having light absorbability and provided along a longitudinal direction of the light guide, wherein the plurality of sensing parts have absorption spectral characteristics respectively, wherein the absorption spectral characteristics have different intrinsic absorption patterns at the wavelength bands, and characteristic absorption bands having intrinsic characteristic absorption patterns in the absorption spectral characteristics of each of the plurality of sensing parts are included in the wavelength band; a light detector configured to: receive light which is guided through the light guide from the light source and which passes through the plurality of sensing parts; and detect the light in detection wavelength band including the characteristic absorption bands; and a calculator configured to compute a curvature of the detection target based on a rate of change in intensity of the light which is detected by the light detector, wherein the number of the characteristic absorption bands included in the wavelength band is equal to or larger than the number of the plurality of sensing parts, and wherein each of the plurality of sensing parts has different light absorptivity in each characteristic absorption band, the light absorptivity having a predetermined value other than zero. 9. An endoscope apparatus comprising: the curvature sensor according to claim 1 ; and an insertion section, wherein the insertion section is the detection target whose curvature is to be sensed by the curvature sensor. 10. The curvature sensor according to claim 1 , wherein the light guide is configured to emit the light of the wavelength band having substantially uniform light intensity over all wavelength components included in the characteristic wavelength bands.