An image reading apparatus (1) includes image sensors (20A, 20B). The image sensor (20A) includes light guides (21A, 22A) guiding light to a reading target (M), a lens body (8A) forming an image of reflected light derived from the light guided by the light guides (21A, 22A) and reflected from the reading target (M), light receiving elements (11A) converting the image of reflected light formed by the lens body (8A) into electrical signals, and a controller (14A) controlling exposure times of the light receiving elements (11A). The image sensor (20B) includes a lens body (8B) forming an image of transmitted light derived from the light guided by the light guide (22A) and transmitted through the reading target (M), light receiving elements (11B) converting the image of transmitted light formed by the lens body (8B) into electrical signals, and a controller (14B) controlling exposure times of the light receiving elements (11B).

An image reading apparatus (1) includes image sensors (20A, 20B). The image sensor (20A) includes light guides (21A, 22A) guiding light to a reading target (M), a lens body (8A) forming an image of reflected light derived from the light guided by the light guides (21A, 22A) and reflected from the reading target (M), light receiving elements (11A) converting the image of reflected light formed by the lens body (8A) into electrical signals, and a controller (14A) controlling exposure times of the light receiving elements (11A). The image sensor (20B) includes a lens body (8B) forming an image of transmitted light derived from the light guided by the light guide (22A) and transmitted through the reading target (M), light receiving elements (11B) converting the image of transmitted light formed by the lens body (8B) into electrical signals, and a controller (14B) controlling exposure times of the light receiving elements (11B).

An image reading apparatus (1) includes image sensors (20A, 20B). The image sensor (20A) includes light guides (21A, 22A) guiding light to a reading target (M), a lens body (8A) forming an image of reflected light derived from the light guided by the light guides (21A, 22A) and reflected from the reading target (M), light receiving elements (11A) converting the image of reflected light formed by the lens body (8A) into electrical signals, and a controller (14A) controlling exposure times of the light receiving elements (11A). The image sensor (20B) includes a lens body (8B) forming an image of transmitted light derived from the light guided by the light guide (22A) and transmitted through the reading target (M), light receiving elements (11B) converting the image of transmitted light formed by the lens body (8B) into electrical signals, and a controller (14B) controlling exposure times of the light receiving elements (11B).

An image reading apparatus (1) includes image sensors (20A, 20B). The image sensor (20A) includes light guides (21A, 22A) guiding light to a reading target (M), a lens body (8A) forming an image of reflected light derived from the light guided by the light guides (21A, 22A) and reflected from the reading target (M), light receiving elements (11A) converting the image of reflected light formed by the lens body (8A) into electrical signals, and a controller (14A) controlling exposure times of the light receiving elements (11A). The image sensor (20B) includes a lens body (8B) forming an image of transmitted light derived from the light guided by the light guide (22A) and transmitted through the reading target (M), light receiving elements (11B) converting the image of transmitted light formed by the lens body (8B) into electrical signals, and a controller (14B) controlling exposure times of the light receiving elements (11B).

An apparatus for speech detection is positionable on or close to a head of a speaking person. The apparatus includes an inner side and an outer side. The apparatus includes a speech detection region including a microphone. At least sections of the microphone face or form the inner side. The apparatus includes a silencer. At least part of the silencer faces or forms the outer side. The silencer has a front facing the person, a rear, and a silencer structure. At least part of the silencer structure extends between the front and the rear. The silencer includes at least one of (a) a vibroacoustic region and (b) at least in sections, a fibrous surface texture at the front with a plurality of protruding fibrous material sections.

A liquid discharging apparatus includes: a head having nozzles; and a controller. The controller executes: a first recording processing of discharging liquid from the nozzles with respect to a first area of a recording medium, based on first image data, and a second recording processing of discharging the liquid from the nozzles with respect to a second area, of the recording medium, which overlaps with or is adjacent to the first area based on second image data, after a predetermined time has elapsed since the first recording processing. The controller further executes a determining processing of determining the predetermined time based on color information of the first image data.

A liquid discharging apparatus includes: a head having nozzles; and a controller. The controller executes: a first recording processing of discharging liquid from the nozzles with respect to a first area of a recording medium, based on first image data, and a second recording processing of discharging the liquid from the nozzles with respect to a second area, of the recording medium, which overlaps with or is adjacent to the first area based on second image data, after a predetermined time has elapsed since the first recording processing. The controller further executes a determining processing of determining the predetermined time based on color information of the first image data.

A flatbed scanner includes a carriage for reading an original while moving in a first direction; an acquisition portion for acquiring a size of the original in the first direction; and a control portion for reading the original while moving the carriage at a lower speed in a first case where the original is large than in a second case where the original is small.

A flatbed scanner includes a carriage for reading an original while moving in a first direction; an acquisition portion for acquiring a size of the original in the first direction; and a control portion for reading the original while moving the carriage at a lower speed in a first case where the original is large than in a second case where the original is small.

A liquid discharging apparatus includes: a head having nozzles; and a controller. The controller executes: a first recording processing of discharging liquid from the nozzles with respect to a first area of a recording medium, based on first image data, and a second recording processing of discharging the liquid from the nozzles with respect to a second area, of the recording medium, which overlaps with or is adjacent to the first area based on second image data, after a predetermined time has elapsed since the first recording processing. The controller further executes a determining processing of determining the predetermined time based on color information of the first image data.