Endoscope apparatus and operating method of endoscope apparatus

What is claimed is: 1. An endoscope apparatus comprising: a light source configured to emit illumination light including light in a first wavelength band included in a blue wavelength band, light in a first narrowband included in a green wavelength band, and light in a second narrowband having a same light absorption coefficient of hemoglobin as that of the light in the first narrowband; an imager configured to capture an image of return light from an object that receives the illumination light so as to acquire a first image that is an image of the object in the first wavelength band, a first narrowband image that is an image of the object in the first narrowband, and a second narrowband image that is an image of the object in the second narrowband; and a processor including hardware, the processor being configured to implement: acquiring scattering characteristics information that is information about scattering characteristics of the object based on a comparison result between the first narrowband image and the second narrowband image; and generating an observation image using the first image, the first narrowband image, and the scattering characteristics information. 2. The endoscope apparatus as defined in claim 1 , wherein the processor acquires a change amount between the scattering characteristics in the first narrowband and the scattering characteristics in the second narrowband as the scattering characteristic information. 3. The endoscope apparatus as defined in claim 2 , wherein the scattering characteristics are scattering characteristics of a cell nucleus included in the object. 4. The endoscope apparatus as defined in claim 2 , wherein the processor acquires the scattering characteristics information based on a ratio between a pixel value of the first narrowband image and a pixel value of the second narrowband image. 5. The endoscope apparatus as defined in claim 2 , wherein the processor acquires the scattering characteristics information based on a subtraction result between a pixel value of the first narrowband image and a pixel value of the second narrowband image. 6. The endoscope apparatus as defined in claim 2 , wherein the processor acquires a scattering characteristics image having a pixel value equivalent to the change amount as the scattering characteristic information, performs a correction process on the scattering characteristics image thus acquired, and generates the observation image using the scattering characteristics image after the correction process. 7. The endoscope apparatus as defined in claim 1 , wherein the processor generates the observation image from the first image and the first narrowband image, and performs a highlighting process on the observation image by a highlighting amount controlled in accordance with hemoglobin content. 8. The endoscope apparatus as defined in claim 7 , wherein the processor makes the highlighting amount larger in an area having higher hemoglobin content in the observation image. 9. The endoscope apparatus as defined in claim 1 , wherein the processor generates the observation image from the first image and the first narrowband image, and performs a highlighting process on the observation image by a highlighting amount or with content controlled in accordance with an observation scene. 10. The endoscope apparatus as defined in claim 9 , wherein the processor generates the observation image from the first image and the first narrowband image, and performs the highlighting process with first content on the observation image in a first mode, whereas the processor generates a second observation image, and performs the highlighting process with second content different from the first content on the second observation image in a second mode, the second observation image being an image of the object in a wavelength band of white light. 11. The endoscope apparatus as defined in claim 9 , wherein the processor makes the highlighting amount smaller as a motion amount of the object is larger. 12. The endoscope apparatus as defined in claim 9 , wherein the processor makes the highlighting amount smaller in magnifying observation than in observation other than the magnifying observation, the magnifying observation magnifying the object for imaging. 13. The endoscope apparatus as defined in claim 9 , wherein the processor makes the highlighting amount smaller in an area where an object other than tissue is imaged in the observation image than in an area where the tissue is imaged in the observation image. 14. The endoscope apparatus as defined in claim 1 , wherein the processor performs a highlighting process on a specific channel image out of a plurality of channel images included in the observation image. 15. The endoscope apparatus as defined in claim 1 , wherein the processor performs a color conversion process on the observation image based on the scattering characteristics information. 16. The endoscope apparatus as defined in claim 1 , wherein the light in the first narrowband is light having a wavelength with a maximum value of the light absorption coefficient of the hemoglobin. 17. The endoscope apparatus as defined in claim 16 , wherein the light in the first narrowband is light having a wavelength of 540 nm, and the light in the second narrowband is light having any one of wavelengths of 570 and 450 nm. 18. The endoscope apparatus as defined in claim 1 , wherein the light in the first narrowband is light having a wavelength with a minimum value of the light absorption coefficient of the hemoglobin. 19. The endoscope apparatus as defined in claim 18 , wherein the light in the first narrowband is light having a wavelength of 500 nm, and the light in the second narrowband is light having a wavelength of 530 nm. 20. An operating method of an endoscope apparatus comprising: emitting illumination light including light in a first wavelength band included in a blue wavelength band, light in a first narrowband included in a green wavelength band, and light in a second narrowband having a same light absorption coefficient of hemoglobin as that of the light in the first narrowband; capturing an image of return light from an object that receives the illumination light so as to acquire a first image that is an image of the object in the first wavelength band, a first narrowband image that is an image of the object in the first narrowband, and a second narrowband image that is an image of the object in the second narrowband; acquiring scattering characteristics information that is information about scattering characteristics of the object based on a comparison result between the first narrowband image and the second narrowband image; and generating an observation image using the first image, the first narrowband image, and the scattering characteristics information.