TW201301878A - Image capture method and image capture system - Google Patents

Abstract

An image capture method is provided for a portable device having a display unit real-time displaying a preview image including at least one object to be shot. The method comprises automatically setting a sensitivity of the light of the portable device as a first light-sensitivity value according to an environmental brightness of a space where the object to be shot is at. Whether there is a relative motion between the portable device and the object to be shot is sensed. When the relative motion is sensed, the first light-sensitivity value is tuned to be a second light-sensitivity value. The preview image of the object to be shot is captured.

Description

Image capturing method and image capturing system

The present invention relates to a method and system for operating a portable device, and more particularly to changing a sensitivity value according to a relative position change between the portable device and the object to be photographed, and further changing the shutter accordingly Speed image capture method and system.

In today's era of information explosion, human life is inseparable from electronic communication. It is quite common to use electronic communication devices to transmit messages to each other, especially portable electronic devices that can be carried around, such as mobile phones. A telephone or an electronic device with wireless communication capabilities.

Today, mobile communication technology is increasingly developed, and the functions of mobile communication devices are constantly being introduced. In addition to listening to broadcast and other functions, many mobile communication devices have developed camera functions, so when users want to take pictures, they can use digital camera communication devices to take digital images. However, in addition to the advantages and disadvantages of the camera lens equipped with the mobile communication device, the image capturing technology of the camera cannot be ignored.

Conventionally, during the image capture process, the exposure time is dependent on the ambient brightness. However, depending on the brightness of the detected environment, the exposure time when capturing images is not really helpful for capturing images of dynamic shooting entities. That is, the exposure time determined according to the brightness of the environment does not accurately grasp the moving moment of the dynamic shooting entity, so the sharpness of the captured image is affected, and an ambiguous image is generated.

The invention provides an image capturing method for automatically adjusting the sensitivity and the shutter speed according to the relative motion occurring between the portable device and the photographing entity.

The invention provides an image capturing system, which can improve the sharpness of the captured dynamic image.

The present invention provides an image capturing method, which is applicable to a portable device, wherein the portable device has a display unit for displaying a preview image including at least one shooting entity in a real scene, and the image capturing method includes: sensing the image An ambient brightness in a space in which the entity is photographed. According to the brightness of the environment, a sensitivity of the portable device is automatically set to a first sensitivity value. A relative motion between the portable device and the photographing entity is sensed. When the relative motion is sensed, the first sensitivity value of the sensitivity is adjusted to a second sensitivity value, wherein the first sensitivity value is less than the second sensitivity value. Capture the preview image containing at least the shooting entity.

In an embodiment of the present invention, the image capturing method, wherein sensing the relative motion between the portable device and the photographing entity comprises: sensing a motion acceleration of the portable device.

In an embodiment of the invention, the image capturing method, wherein when the motion acceleration is larger, a scale difference between the second sensing value and the first sensing value is larger.

In an embodiment of the present invention, the image capturing method, wherein sensing the relative motion between the portable device and the photographing entity comprises: sensing a dark distribution change in the preview image.

In an embodiment of the present invention, the image capturing method, wherein when the dark distribution changes, the scale difference between the second photosensitive value and the first photosensitive value is larger.

In an embodiment of the invention, the image capturing method, wherein the shutter speed corresponding to the first light sensing value is less than the shutter speed corresponding to the second light sensing value.

In an embodiment of the present invention, the image capturing method, wherein a shutter speed of the portable device when capturing the preview image, correspondingly captures the sensitivity of the preview image.

In an embodiment of the invention, the image capturing method described above, wherein the sensitivity is maintained when the relative motion is not sensed.

The invention further provides an image capturing system, which is suitable for a portable device, wherein the portable device has a display unit for displaying a preview image including at least one shooting entity in a real scene. The image capturing system comprises: a brightness sensing unit, a motion sensing unit, a sensitivity modulation unit and an image capturing unit. The brightness sensing unit senses an ambient brightness in a space in which the shooting entity is located. The motion sensing unit senses a relative motion between the portable device and the photographing entity. The sensitivity modulation unit automatically sets a sensitivity of the portable device to a first sensitivity value according to the brightness of the environment, wherein when the motion sensing unit senses the relative motion, the sensitivity modulation unit adjusts the The first sensitivity value of the sensitivity is a second sensitivity value. The image capturing unit receives an image capturing signal and captures the preview image including at least the shooting entity.

In an embodiment of the invention, the image capturing system, wherein the first light sensing value is smaller than the second light sensing value.

In an embodiment of the invention, the image capturing system further includes a shutter modulation unit that automatically adjusts the shutter speed of the portable device according to the sensitivity.

In an embodiment of the present invention, the image sensing system includes: a motion sensing unit that senses a motion acceleration of the portable device.

In an embodiment of the present invention, the image capture system, wherein the sensitivity modulation unit modulates the first sensitivity value to the second sensitivity value when the motion acceleration is larger, so that the first The greater the difference between a scale between the sensitized value and the second sensitized value.

In an embodiment of the present invention, the image sensing system includes: a dark distribution analysis unit that analyzes a dark distribution change in the preview image.

In an embodiment of the present invention, the image capturing system, wherein the sensitivity modulation unit modulates the first photosensitive value to the second photosensitive value when the dark distribution changes greatly The difference between the second sensitivity value and a scale of the first sensitivity value is larger.

In an embodiment of the invention, the image capture system, wherein the shutter speed corresponding to the first sensitivity value is less than the shutter speed corresponding to the second sensitivity value.

In an embodiment of the invention, the image capturing system, wherein the sensitivity modulation unit maintains the sensitivity when the motion sensing unit does not sense the relative motion.

In an embodiment of the present invention, the image capturing system, wherein the image capturing unit captures the preview image, and the shutter speed of the portable device corresponds to the sensitivity of the preview image. .

Based on the above, in the present invention, when the relative movement between the portable device and the photographing entity occurs, the sensitivity modulation unit adjusts the light sensitivity value to be higher than the light sensitivity value corresponding to the ambient brightness, and the shutter speed is followed by the light sensitivity. The value is increased and becomes faster, so as to capture the image of the moving entity in motion or capture the image of the shooting entity while shaking the portable device, thereby further improving the sharpness of the captured moving image.

The above described features and advantages of the present invention will be more apparent from the following description.

1 is a schematic diagram of an image capture system in accordance with an embodiment of the invention. Referring to FIG. 1, the image capturing system of this embodiment is applicable to a portable device 100 (please refer to FIG. 2). The portable device 100 is, for example, a personal digital assistant (PDA), a PDA mobile phone, a smart phone, or a touch mobile phone. In addition, the portable device 100 has a display unit 102 (please refer to FIG. 2) for displaying a preview image (such as the preview image 202 of FIG. 2) including at least one shooting entity (such as the shooting entity 200 of FIG. 2). It should be noted that the photographing entity includes an object that the portable device 100 focuses on or a background object that the portable device 100 does not focus on.

The image capturing system includes a brightness sensing unit 104, a motion sensing unit 106, a sensitivity modulation unit 108, a shutter modulation unit 110, and an image capturing unit 112.

The brightness sensing unit 104 senses an ambient brightness in a space in which the shooting entity 200 is located. The motion sensing unit 106 senses a relative motion between the portable device 100 and the photographing entity. It is worth noting that the relative motion referred to herein includes any non-stationary action of the portable device when the shooting entity is stationary; any non-stationary action of the shooting entity when the portable device is stationary; portable device and shooting The entities are all non-stationary. That is, the motion sensing unit 106 not only senses the non-stationary motion state of the portable device 100, but also senses the non-stationary motion state of the shooting entity.

Moreover, the sensitivity modulation unit 108 automatically sets the sensitivity of the portable device 100 to the first sensitivity value according to the ambient brightness. In addition, when the motion sensing unit 106 senses a relative motion between the portable device and the photographing entity, the sensitivity modulation unit 108 adjusts the first sensitivity value of the sensitivity to the second sensitivity value. Meanwhile, when the motion sensing unit 106 does not sense the relative motion, the sensitivity of the portable device 100 is maintained to be the first sensitivity value relative to the ambient brightness. Wherein, the first photosensitive value is smaller than the second photosensitive value. That is, when a relative motion is generated between the portable device 100 and the photographing entity 200, the sensitivity modulation unit 108 increases the sensitivity value of the portable device 100. It is noted that, when the sensed relative motion change between the portable device and the photographing entity is greater, the sensitivity modulation unit 108 modulates the first sensitivity value to the second sensitivity value to make the first The greater the difference between a scale between the sensitized value and the second sensitized value. For example, taking the sensitivity (also the ISO calculation scale) standardized by the International Organization for Standardization as an example, the sensitivity value is a non-linear continuous value in units of scale (for example, 100, 125, 160, 200, 250, 320, etc.). The greater the difference in the above scales, the more the difference between the number of scale levels of the first photosensitive value and the second photosensitive value.

In addition, the shutter modulation unit 110 automatically adjusts the shutter speed of the portable device 100 according to the sensitivity provided by the sensitivity modulation unit 108. The image capturing unit 112 is configured to receive an image capturing signal and capture a preview image including at least a shooting entity. Wherein, when capturing the preview image, a shutter speed of the portable device correspondingly captures the sensitivity of the portable device 100 at the time of previewing the image. That is, different sensitivities correspond to different shutter speeds. In general, the larger the light sensitivity value, the faster the corresponding shutter speed, and the smaller the light sensitivity value, the slower the corresponding shutter speed. For example, when a relative motion is generated between the portable device 100 and the photographing entity 200, the sensitivity modulation unit 108 adjusts the sensitivity from the first sensitivity value to the second sensitivity value with a higher relative scale. The shutter modulation unit 110 automatically modulates the shutter speed of the portable device 100 from the shutter speed corresponding to the first sensitivity value to the shutter speed corresponding to the second sensitivity value, and the shutter speed corresponding to the first sensitivity value is less than the corresponding second The shutter speed of the sensitized value.

Therefore, when the image capturing unit 112 receives the image capturing signal and captures the preview image including at least the shooting entity, when the portable device 100 and the shooting entity 200 generate relative motion, the moment of previewing the image is captured. The sensitivity value of the sensitivity is sensed by the motion sensing unit 106, and is modulated by the sensitivity modulation unit 108 to a higher sensitivity value, and the shutter speed is increased as the sensitivity value is increased to capture the movement. The image of the shooting entity is captured or captured in the state of the swaying portable device. By dynamically adjusting the sensitivity of the portable device with the relative motion state between the portable device and the photographing entity, the shutter speed is dynamically changed to further improve the sharpness of the captured image. In addition, in another embodiment, the image capturing system further includes an aperture modulation unit (not shown), and the sensitivity of the sensitivity of the moment when the preview image is captured is sensed by the motion sensing unit 106. When the sensitivity modulation unit 108 is modulated to a higher sensitivity value, the aperture modulation unit and the shutter modulation unit respectively adjust the aperture size (reduced aperture) and the shutter speed (increasing the shutter speed) according to the sensitivity value. A preferred image capture system modulation parameter corresponding to providing this sensitivity (adjusted sensitivity). In still another embodiment, when the sensitivity value of the sensitivity is changed by the sensitivity modulation unit 108 to a higher sensitivity value due to the relative motion of the motion sensing unit 106 without changing the shutter speed, Then, the aperture modulation unit adjusts the aperture size to a smaller size to take a change in the instantaneous sensitivity value of the image.

In an embodiment, the motion sensing unit 106 may include an object change analysis unit (not shown), and analyze the digital data of the captured image of the captured entity to confirm whether the image of the object corresponding to the shooting entity has a displacement. To determine whether a relative motion occurs between the photographing entity and the portable device 100. For example, the object change analysis unit can identify the object in the preview image by using the object recognition technology, and track the identified object in the collected digital signal of the preview image, and determine the identified object according to the identification. Whether the object has any non-stationary motion or whether there is relative motion between the identified object and the portable device 100. The above object recognition technology is, for example, a face recognition technology. When the speed of the movement of the identified object is greater, the sensitivity modulation unit 108 modulates the first sensitivity value to the second sensitivity value to make a difference between the first sensitivity value and the second sensitivity value. The bigger.

In another embodiment, the motion sensing unit 106 may include a gravity sensing unit that senses a motion acceleration of the portable device 100. The gravity sensing unit is, for example, a gravity sensor that senses a motion acceleration of the portable device 100. This acceleration of motion is caused, for example, by movements such as shaking or vibration of the portable device. When the motion acceleration is larger, the sensitivity modulation unit 108 modulates the first sensitivity value to the second sensitivity value, so that the scale difference between the first sensitivity value and the second sensitivity value is larger.

In still another embodiment, the motion sensing unit 106 includes a dark light distribution (LUMA) analyzing unit that analyzes a dark distribution change in the digital signal of the captured image of the captured shooting entity. When the dark distribution change is larger, the sensitivity modulation unit 108 modulates the first photosensitive value to the second photosensitive value, so that the scale difference between the second photosensitive value and the first photosensitive value is larger.

2 is a schematic diagram showing changes in dark distribution in a preview image when a relative motion is generated between the portable device and the photographing entity. Referring to FIG. 2, when the photographing entity 200 moves to the B position along the moving direction d1 at A, in the preview image 202, the dark distribution of the area image 204 of the preview image 202 changes. That is, the dark light distribution of the area image 204 of the preview image 202 when the original shooting entity 200 is at A is different from the dark light distribution of the area image 204 of the preview image 202 when the shooting entity 200 is at B. By analyzing a dark distribution change in the stream digital signal of the captured image of the captured entity, it can be determined whether a relative motion is generated between the shooting entity and the portable device.

In this embodiment, it is determined whether a relative motion is generated between the photographing entity and the portable device according to the dark distribution change in the region image in the preview image. However, the present invention is not limited thereto, that is, it is also possible to determine whether a relative motion is generated between the photographing entity and the portable device by previewing the dark distribution change of the entire region in the image.

FIG. 3 is a schematic flow chart of an image capture method according to an embodiment of the invention. Referring to FIG. 3, the image capturing method of the present example is used for a portable device (such as the portable device 100 of FIG. 2). The portable device has a display unit (such as the display unit 102 of FIG. 2). A preview image (such as the preview image 202 of FIG. 2) including at least one shooting entity (such as the shooting entity 200 of FIG. 2) is displayed in real scene. In step S301, an ambient brightness in a space in which the shooting entity is located is sensed. Then, in step S305, a sensitivity of the portable device is automatically set to a first sensitivity value according to the sensed ambient brightness.

Then, in step S311, whether there is relative motion between the portable device and the photographing entity is sensed. When the relative motion between the portable device and the photographing entity is not sensed, the sensitivity is maintained at the first light sensitivity value (step S315). When the relative motion between the portable device and the photographing entity is sensed, the first sensitivity value of the sensitivity is adjusted to be the second light sensitivity value (step S321). Wherein, the first photosensitive value is smaller than the second photosensitive value. Then, a capture signal is received, and a preview image including at least the photographing entity is captured according to the capture signal (step S325). The shutter speed of the portable device when capturing the preview image is corresponding to the sensitivity of the preview image at that time.

In the foregoing embodiment relating to the image capturing system, the definition of the relative movement between the portable device and the photographing entity and the corresponding change between the sensitivity and the shutter speed has been described in detail, and thus is not in this embodiment. The definition of the relative motion between the portable device and the photographing entity and the corresponding change between the sensitivity and the shutter speed will be described. Furthermore, the image capture system of the present invention can be embodied by executing a computer readable program. The computer readable program can be stored in a computer readable and writable storage medium (not shown), and the computer readable program can be executed by the processor of the portable device to implement the image of the present invention. Take the system and image capture method.

In the present invention, when the relative movement between the portable device and the photographing entity occurs, the sensitivity value of the sensitivity is adjusted to be higher than the sensitivity value corresponding to the ambient brightness, and the shutter speed becomes faster as the sensitivity value is increased. To capture an image of a moving entity in motion or to capture an image of a shooting entity while shaking the portable device. By dynamically adjusting the sensitivity of the portable device with the relative motion state between the portable device and the photographing entity, the shutter speed is dynamically changed to further improve the sharpness of the captured motion image.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art can make some modifications and refinements without departing from the spirit and scope of the invention. The scope of the invention is defined by the scope of the appended claims.

100. . . Portable device

102. . . Display unit

104. . . Brightness sensing unit

106. . . Motion sensing unit

108. . . Sensitivity modulation unit

110. . . Shutter modulation unit

112. . . Image capture unit

200. . . Shooting entity

202. . . Preview image

204. . . Regional image

D1. . . Direction of movement

S301~S325. . . Method flow step

1 is a schematic diagram of an image capture system in accordance with an embodiment of the invention.

2 is a schematic diagram showing changes in dark distribution in a preview image when a relative motion is generated between the portable device and the photographing entity.

FIG. 3 is a schematic flow chart of an image capture method according to an embodiment of the invention.

S301~S325. . . Method flow step

Claims (18)

An image capturing method is applicable to a portable device, wherein the portable device has a display unit for displaying a preview image including at least one shooting entity in a real scene, and the image capturing method includes: sensing the shooting entity An ambient brightness in a space; automatically setting a sensitivity of the portable device to a first sensitivity value according to the brightness of the environment; sensing a relative motion between the portable device and the photographing entity; When the relative motion is sensed, the first sensitivity value of the sensitivity is adjusted to a second sensitivity value, wherein the first sensitivity value is less than the second sensitivity value; and the preview image including at least the photographing entity is captured. The image capture method of claim 1, wherein sensing the relative motion between the portable device and the photographing entity comprises: sensing a motion acceleration of the portable device. The image capturing method of claim 2, wherein when the motion acceleration is larger, a scale difference between the second photosensitive value and the first photosensitive value is larger. The image capture method of claim 1, wherein sensing the relative motion between the portable device and the photographing entity comprises: sensing a dark distribution change in the preview image. The image capturing method of claim 4, wherein when the dark distribution changes, the difference between the second sensitivity value and the first sensitivity value is larger. The image capturing method of claim 1, wherein a shutter speed corresponding to the first photosensitive value is smaller than a shutter speed corresponding to the second photosensitive value. The image capture method of claim 1, wherein a shutter speed of the portable device when capturing the preview image is correspondingly obtained by capturing the sensitivity of the preview image. The image capturing method of claim 1, wherein the sensitivity is maintained when the relative motion is not sensed. An image capturing system, which is applicable to a portable device, wherein the portable device has a display unit for displaying a preview image including at least one shooting entity in a real scene, the image capturing system comprising: a brightness sensing unit, Sensing an ambient brightness in a space in which the shooting entity is located; a motion sensing unit sensing a relative motion between the portable device and the shooting entity; and a sensitivity modulation unit automatically setting according to the brightness of the environment The sensitivity of the portable device is a first sensitivity value, wherein when the motion sensing unit senses the relative motion, the sensitivity modulation unit adjusts the first sensitivity of the sensitivity to a second sensitivity. And an image capturing unit for receiving an image capturing signal and capturing the preview image including at least the shooting entity. The image capturing system of claim 9, wherein the first photosensitive value is smaller than the second photosensitive value. The image capturing system of claim 9, further comprising a shutter modulation unit that automatically adjusts the shutter speed of the portable device according to the sensitivity. The image capturing system of claim 9, wherein the motion sensing unit comprises: a gravity sensing unit that senses a motion acceleration of the portable device. The image capturing system of claim 12, wherein when the motion acceleration is larger, the sensitivity modulation unit modulates the first photosensitive value to the second photosensitive value to make the first photosensitive The greater the difference between a scale and the second sensitivity value. The image capture system of claim 9, wherein the motion sensing unit comprises: a dark distribution analysis unit that analyzes a dark distribution change in the preview image. The image capturing system of claim 14, wherein the sensitivity modulation unit modulates the first photosensitive value to the second photosensitive value when the dark distribution changes greatly, so that the first The difference between the two sensitivities and a scale of the first sensitization value is larger. The image capture system of claim 9, wherein a shutter speed corresponding to the first sensitivity value is less than a shutter speed corresponding to the second sensitivity value. The image capture system of claim 9, wherein the sensitivity modulation unit maintains the sensitivity when the motion sensing unit does not sense the relative motion. The image capture system of claim 9, wherein the shutter speed of the portable device when the image capture unit captures the preview image corresponds to the sensitivity of the preview image.