The present invention relates to a method for backing up digital cinematographic content, comprising the steps of: generating, from said content, a digital stream encoded in a compressed format, or having said digital stream already encoded in a compressed format; and recording said digital stream encoded in a compressed format onto a photographic film.

The present invention relates to a method for backing up digital cinematographic content, comprising the steps of: generating, from said content, a digital stream encoded in a compressed format, or having said digital stream already encoded in a compressed format; and recording said digital stream encoded in a compressed format onto a photographic film.

In a case that accommodates an instant film, an exposure opening portion, a discharge port, and a claw opening portion are provided. The exposure opening portion is light-shielded by a film cover that is disposed to overlap the instant film. The film cover includes a notched portion connected to the claw opening portion. In a case where the film cover is not removed in use, a claw inserted through the claw opening portion is moved within a range of the notched portion. In a case where the film cover is removed in use, the claw is moved within a range that exceeds the range of the notched portion.

An image forming device includes: element arrays each including light emitting elements arranged in main scanning direction, the arrays being arranged in sub scanning direction; a photoreceptor whose surface moves relative to the light emitting elements in the sub scanning direction; a controller outputting control voltage instructing light emission amount for each light emitting element; and drivers each supplying drive current to a corresponding light emitting element according to the control voltage, thus causing the light emitting element to emit light to expose the moving surface of the photoreceptor. Intervals L between the arrays satisfy (D/2)(V/F)((V/F)0.1L(D/2)(V/F)+((V/F)0.1) where F expresses frequency of AC noise to be superimposed on the control voltage, V expresses system speed of the surface of the photoreceptor moving relative to the light emitting elements, and D is an odd number.

There are provided a developer spreading device, a printer, and a digital camera with a printer which are capable of equally spreading a developer in a width direction of a film unit. The developer spreading device includes a transport roller pair, a spreading roller pair, and a spreading control member. The spreading roller pair transports a film unit transported by the transport roller pair while pinching the film unit over the entire width. The spreading control member is provided between the transport roller pair and the spreading roller pair. A distal end of the spreading control member is formed in a convex shape of which a center portion protrudes toward the film unit on a cross-section of the film unit in a width direction. Thus, it is possible to press the film unit with an equal pressing force in the width direction of the film unit.

There are provided a developer spreading device, a printer, and a digital camera with a printer which are capable of equally spreading a developer in a width direction of a film unit. The developer spreading device includes a transport roller pair, a spreading roller pair, and a spreading control member. The spreading roller pair transports a film unit transported by the transport roller pair while pinching the film unit over the entire width. The spreading control member is provided between the transport roller pair and the spreading roller pair. A distal end of the spreading control member is formed in a convex shape of which a center portion protrudes toward the film unit on a cross-section of the film unit in a width direction. Thus, it is possible to press the film unit with an equal pressing force in the width direction of the film unit.

The film cover constituting the instant film pack includes a cover member, a pair of accompanying prevention ribs, a pair of outer light shielding ribs, and a pair of inner light shielding ribs. The accompanying prevention ribs are arranged in parallel with a discharge direction from a distal end of the film cover in the discharge direction. Similarly to the accompanying prevention ribs, since the outer light shielding ribs are formed on a front surface of the cover member, the outer light shielding ribs together with the accompanying prevention ribs can prevent the film unit from accompanying. A tilt surface of which a protruding height gradually decreases toward a distal end from a proximal end of the cover member is formed on the accompanying prevention rib.

The film cover constituting the instant film pack includes a cover member, a pair of accompanying prevention ribs, a pair of outer light shielding ribs, and a pair of inner light shielding ribs. The accompanying prevention ribs are arranged in parallel with a discharge direction from a distal end of the film cover in the discharge direction. Similarly to the accompanying prevention ribs, since the outer light shielding ribs are formed on a front surface of the cover member, the outer light shielding ribs together with the accompanying prevention ribs can prevent the film unit from accompanying. A tilt surface of which a protruding height gradually decreases toward a distal end from a proximal end of the cover member is formed on the accompanying prevention rib.

A mobile terminal including a main body; a camera mounted in the main body and configured to capture an external environment; a display unit configured to display an image obtained by the camera in real time; a sensing unit configured to sense a motion of the main body while the camera is activated; a memory configured to store therein the image displayed on the display unit in response to a capture control command being applied; and a controller configured to generate a processed image formed by continuous images displayed on the display unit when the motion of the main body forms a continuous virtual track while displaying the image.

Aspects of the disclosure relate to capturing panoramic images using a computing device. For example, the computing device may record a set of video frames and tracking features each including one or more features that appear in two or more video frames of the set of video frames within the set of video frames may be determined. A set of frame-based features based on the displacement of the tracking features between two or more video frames of the set of video frames may be determined by the computing device. A set of historical feature values based on the set of frame-based features may also be determined by the computing device. The computing device may determine then whether a user is attempting to capture a panoramic image based on the set of historical feature values. In response, the computing device may capture a panoramic image.