Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for automated underwater camera system control for aquaculture systems. An underwater camera system includes (i) a line on which the underwater camera system is mounted, the line detachably affixed to a feeder that provides feed for aquatic livestock, (ii) a sensor manager, (iii) one or more sensors that are managed by the sensor manager, (iv) a line navigation controller, and (v) a first actuator for controlling a distance between the feeder and the underwater camera system. The one or more sensors obtain sensor data and the line navigation controller of the underwater camera system determines a distance to position the underwater camera system beneath the feeder to obtain additional sensor data. The line navigation controller transmits a first message to the first actuator to position the underwater camera system at the determined distance beneath the feeder.

The present disclosure relates to an imaging system and a control method that make it possible to implement setting for an external flash by an operation on a camera side. Setting coordination processing is executed in which setting information of an external flash (13) is transmitted and received between a first communication unit (67A) and a second communication unit (47). Further, a second display unit is caused to display a setting screen to be used for setting a setting item of the external flash, and the setting information changed by an operation on the second operation unit is caused to be transmitted from the imaging device (12) to the external flash (13) via the first communication unit (67A) and the second communication unit (47), and a setting for the external flash (13) is caused to be applied.

The accessory is detachably attachable to a camera in which multiple image capturing modes are settable. The accessory includes a display element configured to electrically display information, and a display controller configured to perform a display control for controlling turning on and off of display of the information on the display element. The display controller is configured to perform the display control depending on the image capturing mode set in the camera or on a type of the camera to which the accessory is attached.

There is provided a lens device that prevents dust from entering a space in which a movable lens is moved.

A movable lens is moved in the direction of an optical axis. A holding member, which extends in the direction of the optical axis, is formed at an end portion of the movable lens. A magnet is fixed to an end portion of the holding member. A hall IC is disposed in a closed storage space at a position facing the magnet. A signal, which corresponds to the position of the magnet in the direction of the optical axis, is output from the hall IC. Since the hall IC is disposed in the storage space closed by a storage box, the entry of dust, which is caused by the hall IC, into a space in which the movable lens is moved is prevented.

There is provided a lens device that prevents dust from entering a space in which a movable lens is moved. A movable lens is moved in the direction of an optical axis. A holding member, which extends in the direction of the optical axis, is formed at an end portion of the movable lens. A magnet is fixed to an end portion of the holding member. A hall IC is disposed in a closed storage space at a position facing the magnet. A signal, which corresponds to the position of the magnet in the direction of the optical axis, is output from the hall IC. Since the hall IC is disposed in the storage space closed by a storage box, the entry of dust, which is caused by the hall IC, into a space in which the movable lens is moved is prevented.

First image information whose depth of field includes a subject in a focus position set by a control section before photo shooting and second image information captured in a position focus different from that of the first image information are included. The focus position of the second image information is determined on the basis of the focus position of the first image information. The first image information is stored together with an image with an extended depth of field. This makes it possible to provide an imaging device which, when obtaining an extended depth of field from a plurality of images of different focus positions, can reduce failures in photo shooting due to a movement of a subject or camera shake.

There is provided a lens device that prevents dust from entering a space in which a movable lens is moved. A movable lens is moved in the direction of an optical axis. A holding member, which extends in the direction of the optical axis, is formed at an end portion of the movable lens. A magnet is fixed to an end portion of the holding member. A hall IC is disposed in a closed storage space at a position facing the magnet. A signal, which corresponds to the position of the magnet in the direction of the optical axis, is output from the hall IC. Since the hall IC is disposed in the storage space closed by a storage box, the entry of dust, which is caused by the hall IC, into a space in which the movable lens is moved is prevented.

A driving control device according to the present invention includes: a fixed member; an operation member arranged to be manually rotatable with respect to the fixed member; a transducer arranged in one of the fixed member and the operation member and arranged to come into contact with an opposed surface of the other of the fixed member and the operation member; a position detecting section for detecting a position of the operation member with respect to the fixed member; and an operation force amount control section for controlling driving of the transducer to change contact friction force generated when the transducer contacts with the fixed member or the operation member. The operation force amount control section controls the transducer such that the contact friction force applied to the operation member when the operation member is manually rotated with respect to the fixed member changes to a sense of click.

An imaging apparatus includes: a lens mount section; an imager having an imaging plane on which an image having an image height obtained through a lens device mounted to the lens mount section is formed; an imaging process section correcting transverse chromatic aberration of an imaging signal obtained by the imager; and a control section determining an imager size in accordance with the diameter of the lens device mounted to the lens mount section and correcting a correction coefficient for the correction of transverse chromatic aberration at the imaging process section according to the size thus determined.

A reflective module includes a housing; a guide member disposed in the housing and configured to rotate about a first rotation axis; a holder disposed on the guide member and configured to rotate relative to the guide member about a second rotation axis perpendicular to the first rotation axis; a reflective member disposed on the holder; a first driving portion including a first magnet disposed on the holder, and a first coil facing the first magnet; and a first position sensor disposed in the housing, wherein the first position sensor is spaced apart from the first coil in a direction of the first rotation axis.