A scanner camera having a filter for filtering out a predefined wavelength is provided. The predefined wavelength associated with product packaging watermarks that is read by the scanner camera using the filter.

An image processing apparatus comprises: first and generation units that generate color signal components for luminance and color signal components for color difference, respectively, in a first color space from an input image signal; an integration unit that integrates the color signal components for luminance and color difference to generate color signal components common for luminance and color difference; a processing unit that performs nonlinear processing on the color signal components common for luminance and color difference; a separation unit that generates luminance and color difference signals in a second color space from the signal that has undergone the nonlinear processing; and a band limiting unit that performs band limitation processing on the color difference signals. A characteristic of the band limitation processing is set on the basis of frequency characteristics of the luminance color difference signals.

A method for displaying images is provided, including displaying, by an electronic device, a first image obtained from an image sensor; displaying, by the electronic device, a plurality of second images together with the first image, wherein each second image is generated based on the first image and a respective image filter; and responsive to a selection of at least one second image, generating a third image based on the first image and the selected second image's respective image filter and displaying the third image in place of the first image.

An imaging element includes a plurality of photoelectric conversion sections. The photoelectric conversion sections are arrayed on a substrate to receive light incident through a dual-pass filter that has transmission bands for visible light and a predetermined range of near-infrared light. The photoelectric conversion sections include a visible light photoelectric conversion section and a near-infrared light photoelectric conversion section. The visible light photoelectric conversion section includes a red light photoelectric conversion section, a green light photoelectric conversion section, and a blue light photoelectric conversion section.

A solid-state imaging element comprising a visible light detection area including a first visible light pixel for receiving first visible light, a second visible light pixel for receiving second visible light having a wavelength different from a wavelength of the first visible light, and a third visible light pixel for receiving third visible light having a wavelength different from the wavelengths of the first visible light and the second visible light; and a near infrared light detection area including a first near infrared pixel for receiving first near infrared light, a second near infrared light pixel for receiving second near infrared light having a wavelength different from a wavelength of the first near infrared light, and a third near infrared light pixel for receiving third near infrared light having a wavelength different from the wavelengths of the first near infrared light and the second near infrared light.

An image capturing device includes: an image capturing element having a first image capturing region that captures an image of a photographic subject and outputs a first signal, and a second image capturing region that captures an image of the photographic subject and outputs a second signal; a setting unit that sets an image capture condition for the first image capturing region to an image capture condition that is different from an image capture condition for the second image capturing region; a correction unit that performs correction upon the second signal outputted from the second image capturing region, for employment in interpolation of the first signal outputted from the first image capturing region; and a generation unit that generates an image of the photographic subject that has been captured by the first image capturing region by employing a signal generated by interpolating the first signal according to the second signal as corrected by the correction unit.

In a line sensor including color filters that are periodically disposed in a light-receiving-element row, a problem called a mixture of colors occurs. A mixture of colors occurs when light that has been transmitted through a color filter differing from a color filter corresponding to a light receiving element is incident upon the light receiving element. In a CMOS sensor 107 including a light-receiving-element row in which a plurality of photodiodes 1204 are disposed side by side in a main scanning direction and a plurality of color filters 1202 that are disposed in correspondence with the plurality of photodiodes 1204, the center of each color filter 1202 is displaced in a direction of the center of the light-receiving-element row from the center of the photodiode 1204 corresponding to the color filter.

Disclosed is a biochemical-immunological hybrid biosensor. The biochemical-immunological hybrid biosensor includes a reaction strip in the form of a porous membrane through which a sample moves by capillary action. The reaction strip can simultaneously measure heterogeneous multiple biomarkers through both a biochemical analysis and an immunoassay in an independent manner based on membrane chromatography to diagnose a particular disease.

An image sensor includes a plurality of first pixel groups each having a main sensitivity to light of a corresponding one of a plurality of wavelength bands, and a second pixel group having the main sensitivity to a wavelength band including the plurality of wavelength bands. Each of the plurality of first pixel groups and the second pixel group includes a plurality of polarization pixel groups having the main sensitivity to each of polarization components having three or more polarization azimuths. A ratio of the number of pixels in the plurality of polarization pixel groups in the second pixel group to a total number of pixels on the image sensor is larger than a ratio of the number of pixels in the plurality of polarization pixel groups in each of the plurality of first pixel groups to the total number of pixels.

A system includes a storage device storing a set of instructions and at least one processor in communication with the storage device. When executing the instructions, the at least one processor is configured to cause the system to obtain a first operation mode of the optical filter and determine a brightness value of visible light of ambient light. The at least one processor may also cause the system to obtain a brightness threshold related to the first operation mode, compare the brightness value of the visible light of the ambient light with the brightness threshold, and determine whether a switching condition is satisfied based on the comparison result. Upon the determination that the switching condition is satisfied, the at least one processor may further cause the system to switch the first operation mode of the optical filter to a second operation mode.