Dynamic image shooting method and terminal device
A shooting method and terminal equipment technology, applied in the field of communication, capable of solving problems such as poor dynamic effects of dynamic images
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no. 1 approach
[0053] In the first embodiment, it is assumed that the input parameter of the above-mentioned first input is an input trajectory, in this case, the above-mentioned step 201 can be specifically implemented through the following step 201a.
[0054] Step 201a, in response to the first input, the terminal device executes a shooting operation according to the target shooting speed corresponding to the input track of the first input; where different input tracks correspond to different shooting speeds.
[0055] In the embodiment of the present invention, the corresponding relationship between the shooting double speed and the input track may be stored in advance in the terminal device. Specifically, if the user inputs on the shooting preview interface, the terminal device may, in response to the input, determine the target shooting speed corresponding to the input track according to the above correspondence, and execute the shooting operation according to the shooting speed.
[0056...
no. 2 approach
[0067] In the second embodiment, it is assumed that the input parameters of the above-mentioned first input include input direction and input times, and the first input includes: a first sub-input input along the first direction and a second sub-input input along the second direction, In this case, the above step 201 can be specifically implemented through the following steps 201b and 201c.
[0068] In step 201b, the terminal device responds to the first sub-input, and performs a shooting operation at a first shooting speed corresponding to the first sub-input.
[0069] Wherein, the first shooting multiple speed is proportional to the number of inputs corresponding to the first sub-input.
[0070] Step 201c, in response to the second sub-input, the terminal device performs a shooting operation at a second shooting speed corresponding to the second sub-input.
[0071] Wherein, the second shooting multiple speed is inversely proportional to the number of inputs corresponding to...
no. 3 approach
[0083] In the third embodiment, assuming that the input parameters include the input direction and the number of inputs, and the first input is the third sub-input input along the third direction and the fourth sub-input is input along the fourth direction, then in this case, the above Step 201 may specifically be implemented through the following steps 201d and 201e.
[0084] Step 201d, in response to the third sub-input, the terminal device shoots for the first duration according to the third shooting multiple speed corresponding to the third sub-input, and outputs the first sub-data.
[0085] Step 201e, in response to the fourth sub-input, the terminal device shoots for the second duration according to the fourth shooting multiple speed corresponding to the fourth sub-input, and outputs the second sub-data.
[0086] Wherein, the above-mentioned target data includes first sub-data and second sub-data. The above target shooting speed includes a third shooting speed correspon...
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