Biological-information obtaining apparatus and method thereof

What is claimed is: 1. A biological-information obtaining apparatus comprising: light-emitting means for emitting light; image-capturing means for capturing images, in time sequence, obtained by irradiating a living body with the light emitted and by causing the light to be transmitted through or reflected by the living body, the image-capturing means being sensitive to at least two color components; extreme generation means for generating a maximum value and a minimum value, in time sequence, of each of the color components for certain regions of the captured images; and oxygen-saturation calculation means for calculating oxygen saturation on the basis of the maximum value and the minimum value of each of the color components. 2. The biological-information obtaining apparatus according to claim 1 , wherein the light-emitting means emits white light. 3. The biological-information obtaining apparatus according to claim 1 , wherein the color components include red and blue. 4. The biological-information obtaining apparatus according to claim 1 , wherein the extreme generation means generates, for each of the color components, the maximum value and the minimum value in the time sequence from averages of the color component for the entirety of the captured images. 5. The biological-information obtaining apparatus according to claim 1 , wherein the extreme generation means generates, for each of the color components, the maximum value and the minimum value in the time sequence from averages of the color component for predetermined regions of the captured images. 6. A biological-information obtaining apparatus comprising: light-emitting means for emitting white light; image-capturing means for capturing images, in time sequence, obtained by irradiating a living body with the light emitted and by causing the light to be transmitted through or reflected by the living body, the image-capturing means being sensitive to at least red and blue color components; extreme generation means for generating a maximum value and a minimum value, in time sequence, of each of the color components for certain regions of the captured images; and oxygen-saturation calculation means for calculating, on the basis of the maximum value and the minimum value of each of the color components, oxygen saturation by solving an equation of {(Rc−Bc)−(Re−Be)}/{Bc−Be}=[(Re−Be)×{S×Eo(λ 1 )+(1−S)×Er(λ 1 )}]/[Be×{S×Eo(λ 2 )+(1−S)×Er(λ 2 )}], where Rc represents the maximum value of the red component, Bc represents the maximum value of the blue component, Re represents the minimum value of the red component, Be represents the minimum value of the blue component, S represents oxygen saturation, Eo(λ) represents a known absorbance coefficient of oxyhemoglobin at a wavelength λ, Er(λ) represents a known absorbance coefficient of deoxyhemoglobin at a wavelength λ, and λ 1 and λ 2 represent specific values of wavelength λ. 7. A method of obtaining biological information, the method being performed by a biological-information obtaining apparatus including light-emitting means for emitting white light, and image-capturing means for capturing images, in time sequence, obtained by irradiating a living body with the light emitted and by causing the light to be transmitted through or reflected by the living body, the image-capturing means being sensitive to at least red and blue color components, the method comprising the steps of: generating a maximum value and a minimum value, in time sequence, of each of the color components for certain regions of the captured images; and calculating oxygen saturation by solving an equation of {(Rc−Bc)−(Re−Be)}/{Bc−Be}=[(Re−Be)×{S×Eo(λ 1 )+(1−S)×Er(λ 1 )}]/[Be×{S×Eo(λ 2 )+(1−S)×Er(λ 2 )}], where Rc represents the maximum value of the red component, Bc represents the maximum value of the blue component, Re represents the minimum value of the red component, Be represents the minimum value of the blue component, S represents oxygen saturation, Eo(λ) represents a known absorbance coefficient of oxyhemoglobin at a wavelength λ, Er(λ) represents a known absorbance coefficient of deoxyhemoglobin at a wavelength λ, and λ 1 and λ 2 represent specific values of wavelength λ. 8. A biological-information obtaining apparatus comprising: a light-emitting unit configured to emit light; an image-capturing unit configured to capture images, in time sequence, obtained by irradiating a living body with the light emitted and by causing the light to be transmitted through or reflected by the living body, the image-capturing unit being sensitive to at least two color components; an extreme generation unit configure to generate a maximum value and a minimum value, in time sequence, of each of the color components for certain regions of the captured images; and an oxygen-saturation calculation unit configured to calculate oxygen saturation on the basis of the maximum value and the minimum value of each of the color components. 9. A biological-information obtaining apparatus comprising: a light-emitting unit configured to emit white light; an image-capturing unit configured to capture images, in time sequence, obtained by irradiating a living body with the light emitted and by causing the light to be transmitted through or reflected by the living body, the image-capturing unit being sensitive to at least red and blue color components; an extreme generation unit configured to generate a maximum value and a minimum value, in time sequence, of each of the color components for certain regions of the captured images; and an oxygen-saturation calculation unit configured to calculate, on the basis of the maximum and the minimum of each of the color components, oxygen saturation by solving an equation of {(Rc−Bc)−(Re−Be)}/{Bc−Be}=[(Re−Be)×{S×Eo(λ 1 )+(1−S)×Er(λ 1 )}]/[Be×{S×Eo(λ 2 )+(1−S)×Er(λ 2 )}], where Rc represents the maximum value of the red component, Bc represents the maximum value of the blue component, Re represents the minimum value of the red component, Be represents the minimum value of the blue component, S represents oxygen saturation, Eo(λ) represents a known absorbance coefficient of oxyhemoglobin at a wavelength λ, Er(λ) represents a known absorbance coefficient of deoxyhemoglobin at a wavelength λ, and λ 1 and λ 2 represent specific values of wavelength λ.