Systems and methods are disclosed for image signal processing. For example, systems may include an image sensor and a processing apparatus. The image sensor captures image data using a plurality of selectable exposure times. The processing apparatus receives a first image from the image sensor captured with a first exposure time and receives a second image from the image sensor captured with a second exposure time that is less than the first exposure time. A high dynamic range image is determined based on the first image and the second image, wherein an image portion of the high dynamic range image is based on a corresponding image portion of the second image when a pixel of a corresponding image portion of the first image is saturated. An output image that is based on the high dynamic range image is stored, displayed, or transmitted.

An imaging system includes a light source that, in operation, emits an emitted light containing a near-infrared light in a first wavelength region, an image sensor, and a double-band pass filter that transmits a visible light in at least a part of a wavelength region out of a visible region and the near-infrared light in the first wavelength region. The image sensor includes light detection cells, a first filter that selectively transmits the near-infrared light in the first wavelength region, second to fourth filters that selectively transmit lights in second to fourth wavelength regions, respectively, which are contained in the visible light, and an infrared absorption filter. The infrared absorption filter faces the second to fourth filters and absorbs the near-infrared light in the first wavelength region.

An imaging system includes a light source that, in operation, emits an emitted light containing a near-infrared light in a first wavelength region, an image sensor, and a double-band pass filter that transmits a visible light in at least a part of a wavelength region out of a visible region and the near-infrared light in the first wavelength region. The image sensor includes light detection cells, a first filter that selectively transmits the near-infrared light in the first wavelength region, second to fourth filters that selectively transmit lights in second to fourth wavelength regions, respectively, which are contained in the visible light, and an infrared absorption filter. The infrared absorption filter faces the second to fourth filters and absorbs the near-infrared light in the first wavelength region.

A time-of-flight camera has: a light source for emitting light; a first imaging sensor; and a controller configured to perform a time-of-flight measurement calibration based on determining at least one of a cyclic error and an offset error by detecting light emitted from the light source with a second imaging sensor, wherein a predetermined optical path is provided between the light source and the second imaging sensor.

A time-of-flight camera has: a light source for emitting light; a first imaging sensor; and a controller configured to perform a time-of-flight measurement calibration based on determining at least one of a cyclic error and an offset error by detecting light emitted from the light source with a second imaging sensor, wherein a predetermined optical path is provided between the light source and the second imaging sensor.

An image processing method and device, an electronic apparatus, and a computer-readable storage medium are provided. The method includes: acquiring a first image captured by a first camera, and determining a first timestamp according to the first image, wherein the first timestamp is configured to represent a time point on which the first image is captured; acquiring at least two second images captured by a second camera, and determining a second timestamp according to the at least two second images; and processing the first image and the at least two second images when a time interval between the first timestamp and the second timestamp is smaller than a first interval threshold.

A photo-detection device in one embodiment includes: a first semiconductor region that accumulates a signal charge based on an incident light; a second semiconductor region that is capable of accumulating a signal charge, the number of signal charges that can be accumulated in the second semiconductor region being less than the number of signal charges that can be accumulated in the first semiconductor region; a first gate that transfers the signal charge from the first semiconductor region to the second semiconductor region; and a charge multiplication unit that includes a third semiconductor region and avalanche-multiplies the signal charge transferred from the second semiconductor region to the third semiconductor region.

A photo-detection device in one embodiment includes: a first semiconductor region that accumulates a signal charge based on an incident light; a second semiconductor region that is capable of accumulating a signal charge, the number of signal charges that can be accumulated in the second semiconductor region being less than the number of signal charges that can be accumulated in the first semiconductor region; a first gate that transfers the signal charge from the first semiconductor region to the second semiconductor region; and a charge multiplication unit that includes a third semiconductor region and avalanche-multiplies the signal charge transferred from the second semiconductor region to the third semiconductor region.

A system includes a sensor including a set of cameras configured to capture a set of images of an enclosed space. The system further includes a processor and a non-transitory computer-readable medium containing instructions which, when executed on the processor, cause the processor to perform operations including: (a) receiving the set of images captured by the set of cameras; (b) pre-processing the set of images to increase quality and reduce effect of ambient lighting; (c) building a disparity map for the set of images based at least in part on a relationship between the set of cameras; and (d) determining an occupancy of the enclosed space based at least in part on the disparity map. The system can be used to determine occupancy in a trailer with irregularly shaped cargo using low cost sensors.

This disclosure contains methods and systems that allow filmmakers to port filmmaking and editing skills to produce content to be used in other environments, such as video game environments, and augmented reality, virtual reality, mixed reality, and non-linear storytelling environments.