Methods, systems, and computer-readable storage media for dynamically operating a camera based on a location of the camera. A definition of a user-defined region and a set of rules for operating a camera within the user-defined region are obtained from a user. How to operate the camera within the user-defined region is then determined based on the set of rules. After receiving the definition of the user-defined region, it is determined whether the camera is located within the user-defined region, and upon determining that the camera is located within the user-defined region, the camera is to begin operation in accordance with the set of rules.

An apparatus includes an input circuit configured to receive a sequence of pictures and a processing circuit. The processing circuit may be configured to (i) determine respective picture brightness values for each of a reference picture and a target picture selected from the sequence of pictures, (ii) remap image data of at least one of the reference picture and the target picture based upon the respective picture brightness values, and (iii) perform motion detection between the reference picture and the target picture utilizing the remapped image data.

A method of recording a medicament dose using a data collection device comprises capturing an image of a medicament dose indicator of a medicament delivery device, adjusting a scale of said image, adjusting said image for skew of one or more characters displayed by the medicament dose indicator, determining the position of at least one of said one or more characters in the image, identifying the at least one character using optical character recognition and determining a medicament dose indicator by the medicament dose indicator based on a result of the optical character recognition. The method may be performed using a handheld electronic device comprising a camera, such as a cellphone, a tablet computer or other device. A computer program for controlling a data collection device to perform the method may be provided in the form of a software application or “app”.

A method of recording a medicament dose using a data collection device comprises capturing, by a video camera of said data collection device, a video showing a medicament dose indicator of a medicament delivery device, adjusting a scale of an image of said medicament dose indicator in said video, adjusting said image for skew of one or more characters displayed on a component of the medicament delivery device in said video, determining the position of at least one of said one or more characters in the image, identifying the at least one character using optical character recognition and determining a medicament dose shown by the medicament dose indicator based on a result of said optical character recognition. The method may include determining whether more than one delivery of medicament is recorded in the video and, if so, whether said more than one delivery includes one or more prime shots, so that an overall dosage delivered to a user may be determined based on multiple determined medicament doses. A wearable electronic device comprising a video camera may be used to obtain and analyse the video, for example, using software provided in an “app”. The wearable electronic device may be configured to be worn on the head of a user, to capture the video from the user's point of view.

Embodiments of the present application disclose various image capture control methods and apparatuses. One of the image capture control methods comprises: determining a first zone as an allowable image blur zone, the first zone being a part of a shooting scene; determining a first imaging region that corresponds to the allowable image blur zone in an image sensor; adjusting a first pixel density distribution of the first image sensor, to cause the first pixel density of the imaging region to be lower than a second pixel density of a second imaging region in the image sensor after being adjusted; and performing, by using the image sensor after being adjusted, image capture on the shooting scene. In the embodiments of the present application, pixel waste possibly caused by image capture of an allowable image blur zone in a shooting scene may be reduced, so as to fully utilize pixel resources of the image sensor to improve imaging quality of a second zone in the shooting scene, thereby better satisfying a user's diversified actual application demands.

A controller of imaging device controls a imaging circuit so as to image a subject with gradation on a high-luminance side expanded relative to a previously prepared gradation characteristic serving as a reference, generates image data in a image processing circuit and stores the enhancement amount in a memory in association with the image data, and controls display-luminance of the display in accordance with the corresponding enhancement amount stored in the memory, in displaying the image data on the display.

A vehicle is disclosed. The vehicle includes a first indicator light associated with a first function or a first state of the vehicle (e.g., a brake light), and circuitry coupled to the first indicator light. The circuitry is configured to cause the first indicator light to emit light when the vehicle is performing the first function or is operating in the first state, and detect an amount of light incident on the first indicator light. Thus, the indicator light can be used to detect incoming light to perform various vehicle functions (e.g., automatically dimming mirrors based on the incoming light) without the need for a dedicated light sensor.

Embodiments of the present application disclose various image capture control methods and apparatuses, wherein one of the methods comprises: acquiring motion information of an object during the process of image capture by an image sensor; determining, according to the motion information, a relative displacement of a sub-image that corresponds to the object on the image sensor within a first exposure duration; determining, in the image sensor, a first imaging region that corresponds to the relative displacement and that has not performed any image capture; adjusting an image capture control parameter of the first imaging region to shorten an exposure duration of the first imaging region; and performing, according to the image capture control parameter after being adjusted, image capture on the first imaging region. In the embodiments of the present application, overall quality of an image captured by an image sensor is improved.

Embodiments of the present application disclose various image capture control methods and apparatus. One of the image capture control methods comprises: acquiring motion information of an object; determining, according to the motion information, a relative displacement of an image that corresponds to the object on an image sensor within a first exposure duration; determining an imaging region that corresponds to the relative displacement in the image sensor; adjusting an image capture control parameter of the imaging region, to shorten the first exposure duration of the imaging region; and performing, by using the image sensor after being adjusted, an image capture on the object. In the embodiments of the present application, the degree of image blur for the imaging region due to motion of the object is reduced as far as possible, without affecting the quality of an image captured by another region of the image sensor, thereby improving overall quality of an image captured by the image sensor.

An imaging system includes a lighting controller for independently controlling emission of illumination light to be emitted by a light source in: (i) a non-all-line exposure period, which contains a reading period in which electrical signals are sequentially read out on a horizontal-line basis from an image sensor for one frame or one field period, and in which at least one horizontal line of the horizontal lines for the one frame or the one field period is not exposed to light, and (ii) in an all-line exposure period, in which all of the horizontal lines for the one frame or the one field period are exposed to light.