A press and hold function for conducting online surveys with a respondent in order to obtain genuine responses to the online surveys is presented herein. A user interface associated with an online survey is presented to the respondent on a screen of a computing device. The online survey can include a set of questions. Each question of the online survey can include a set of response elements. Each of these response elements can be associated with one or more response duration. In order to select a response to a question, the respondent can press a response button that is associated with one or more response elements to that question. The respondent then holds the response button for the response duration associated with the response element. After the response duration is complete, the response associated with the response element is deemed to be the response of the respondent.

A control method for controlling terminal state switching includes a terminal obtaining first data of the terminal and second data from a wearable device that is bound to the terminal when receiving an unlocking instruction in a lock screen state. If the first data and the second data meet a preset condition, the terminal performs the operation of unlocking.

A system and method for performing image scrolling are disclosed. In one embodiment, a system for image scrolling organizes each set of related images as a series object. The system writes selected images from one of the series objects, from the image cache to the frame buffer, for image scrolling on a display. A garbage collection module performs garbage collection in the image cache. The garbage collection module operates on memory space where a series object is released or can be moved, for reclaiming memory. The image scrolling is smoother than if the garbage collection module were to track and operate on each image as an object.

Some embodiments include a ferroelectric transistor having an active region which includes a first source/drain region, a second source/drain region vertically offset from the first source/drain region, and a channel region between the first and second source/drain regions. A first conductive gate is operatively adjacent to the channel region of the active region. Insulative material is between the first conductive gate and the channel region. A second conductive gate is adjacent to the first conductive gate. Ferroelectric material is between the first and second conductive gates. Some embodiments include integrated memory. Some embodiments include methods of forming integrated assemblies.

Some embodiments include a ferroelectric transistor having an active region which includes a first source/drain region, a second source/drain region vertically offset from the first source/drain region, and a channel region between the first and second source/drain regions. A first conductive gate is operatively adjacent to the channel region of the active region. Insulative material is between the first conductive gate and the channel region. A second conductive gate is adjacent to the first conductive gate. Ferroelectric material is between the first and second conductive gates. Some embodiments include integrated memory. Some embodiments include methods of forming integrated assemblies.

A content transmission method is provided. The method may include: A first device determines that a distance between the first device and a second device is less than a distance threshold. The first device provides a user with a prompt that content transmission can be performed between the first device and the second device. The first device recognizes a gesture operation performed by the user on the first device, and determines transmission content and a transmission direction of the transmission content between the first device and the second device based on the recognized gesture operation. The first device receives the transmission content from the second device or sends the transmission content to the second device based on the determined transmission direction.

This application discloses a video data processing method and apparatus and a storage medium. The method includes: displaying a video playing interface corresponding to video data, and recognizing an operation gesture corresponding to a slide operation, determining, according to the slide operation, whether the operation gesture belongs to a first gesture type, in response to determining that the operation gesture belongs to the first gesture type, obtaining a start trigger position and an end trigger position of the slide operation from a slide trajectory of the slide operation, and determining, based on the start and end trigger positions, a slide direction indicated by the slide trajectory, adjusting, based on the slide direction and a progress control direction of a progress bar in the video playing interface, the playing progress of the video data by the preset progress duration, and displaying, on the video playing interface, playing-progress-adjusted video data.

This application discloses a video data processing method and apparatus and a storage medium. The method includes: displaying a video playing interface corresponding to video data, and recognizing an operation gesture corresponding to a slide operation, determining, according to the slide operation, whether the operation gesture belongs to a first gesture type, in response to determining that the operation gesture belongs to the first gesture type, obtaining a start trigger position and an end trigger position of the slide operation from a slide trajectory of the slide operation, and determining, based on the start and end trigger positions, a slide direction indicated by the slide trajectory, adjusting, based on the slide direction and a progress control direction of a progress bar in the video playing interface, the playing progress of the video data by the preset progress duration, and displaying, on the video playing interface, playing-progress-adjusted video data.

An interaction method, including displaying, by a first electronic device, a multi-task management interface, including N device labels corresponding to N electronic devices and including a first, second and third device label of the first, second and third electronic device, receiving a first operation for dragging the first task record to the second device label performed by a user on a first task record, enabling, in response to the first operation, the second electronic device to display at least one first task corresponding to the first task record, receiving a second operation for dragging the second task record to the third device label performed by a user on a second task record in the multi-task management interface, and enabling, by the first electronic device in response to the second operation, the third electronic device to display at least one of second task corresponding to the second task record.

A proximity sensor, including light emitters and light detectors mounted on a circuit board, two stacked lenses, positioned above the emitters and the detectors, including an extruded cylindrical lens and a Fresnel lens array, wherein each emitter projects light through the two lenses along a common projection plane, wherein a reflective object located in the projection plane reflects light from one or more emitters to one or more detectors, and wherein each emitter-detector pair, when synchronously activated, generates a greatest detection signal at the activated detector when the reflective object is located at a specific 2D location in the projection plane corresponding to the emitter-detector pair, and a processor sequentially activating the emitters and synchronously co-activating one or more detectors, and identifying a location of the object in the projection plane, based on amounts of light detected by the detector of each synchronously activated emitter-detector pair.