CN113518181A

CN113518181A - Shooting control method for automatically matching app parameters of mobile terminal

Info

Publication number: CN113518181A
Application number: CN202110610076.6A
Authority: CN
Inventors: 赖晓君; 潘金海
Original assignee: Shenzhen Jinma Technology Co ltd
Current assignee: Shenzhen Jinma Technology Co ltd
Priority date: 2021-06-01
Filing date: 2021-06-01
Publication date: 2021-10-19
Anticipated expiration: 2041-06-01
Also published as: CN113518181B

Abstract

The invention relates to the field of shooting control, in particular to a shooting control method for automatically matching APP parameters of a mobile terminal. In the invention, the controller can be matched with the corresponding mobile terminal to realize that the controller can be compatible with various mobile terminals, and when the controller carries out corresponding operation on the camera APP in the corresponding mobile terminal according to the camera operation behavior data, the camera APP can be better operated, and the operation failure or deviation of the controller can not occur. And the method is simple in implementation mode and convenient to popularize.

Description

Shooting control method for automatically matching app parameters of mobile terminal

Technical Field

The invention relates to the field of shooting control, in particular to a shooting control method for automatically matching app parameters of a mobile terminal.

Background

At present, most of mobile terminals (such as mobile phones and tablets of android system and apple system) are self-provided with cameras APP or short video APPs, which are hereinafter referred to as "camera APPs". And the operating systems of these mobile terminals basically support access to bluetooth devices such as bluetooth HID keyboards, touch screens, consumer controls, etc. The mobile terminal can realize human-computer interaction remote control operations such as keyboard input simulation, volume control, single-point or multi-point touch/sliding and the like by accessing the Bluetooth devices with the Bluetooth HID keyboard, the touch screen and the consumption control function, and can realize remote control operations such as photographing and shooting, lens zooming, lens switching, power switching and the like under a camera interface.

At present, a plurality of similar Bluetooth remote controllers exist in the market, a mobile phone is called at an early stage and is self-timer, a keyboard or a volume key is simulated for input, only one photographing or camera shooting function is provided, and the Bluetooth remote controller can be suitable for most mobile phones or flat panels.

Later, the enhanced Bluetooth remote controller appears, not only supports the Bluetooth photographing or camera functions, but also can simulate the single-point touch, multi-point touch, single-point sliding or multi-point sliding of a touch screen, namely, on the original basis, functions of zooming, power switch, lens switching and the like are added, some mobile phones are called as selfie sticks, some mobile phone supports are called as mobile phone supports, and the Bluetooth remote controller with the enhanced function is called as a Bluetooth mobile phone support. The operations of zooming a lens, switching the lens, switching a power supply and the like realized by simulating the operation of the touch screen often cannot be adapted to all mobile phones by one simulation instruction due to the reasons of different operating systems, different brands and models, different screen sizes, different interface layouts of camera APP versions and the like of the mobile phones, so that a mobile phone support with one model can only be adapted to mobile phone models with certain specified brands, and otherwise, the enhanced functions can be out of order.

Disclosure of Invention

In order to solve the above problems, a primary object of the present invention is to provide a shooting control method for automatically matching app parameters of a mobile terminal, by which the mobile terminal can be automatically matched to achieve compatibility with various mobile terminals.

Another object of the present invention is to provide a shooting control method for automatically matching app parameters of a mobile terminal, which is simple to implement and easy to popularize.

In order to achieve the above object, the present invention has the following technical means.

The shooting control method is characterized in that the shooting control method comprises a parameter matching APP installed on a mobile terminal, information of the mobile terminal is collected through the parameter matching APP, camera operation behavior data are generated according to the information, and after a controller acquires the camera operation behavior data of the mobile terminal through the parameter matching APP, the controller correspondingly operates a camera APP in the mobile terminal according to the camera operation behavior data. The camera operation behavior data of the mobile terminal with different information are different, the information of the mobile terminal is collected through the parameter matching APP, and then the camera operation behavior data corresponding to the mobile terminal can be obtained. In the method, the information of the mobile terminal is acquired through the parameter matching APP, the controller acquires the camera operation behavior data of the mobile terminal through the parameter matching APP, the controller can be matched with the corresponding mobile terminal, the controller can be compatible with various mobile terminals, when the controller performs corresponding operation to the camera APP in the corresponding mobile terminal according to the camera operation behavior data, the camera APP can be better operated, and the operation failure or deviation of the controller can not occur. And the method is simple in implementation mode and convenient to popularize.

Further, when the parameter matching APP acquires the information of the mobile terminal, the parameter matching APP acquires the information of the mobile terminal; and generating corresponding human-computer interaction operation data according to the acquired information of the mobile terminal, mapping the data to a remote control button corresponding to the controller, and generating camera operation behavior data. The remote control button is a button on the controller. So that after the controller receives the camera operation behavior data, the controller controls the remote control button thereof, and then controls the camera APP of the corresponding mobile terminal.

Further, when the parameter matching APP acquires the information of the mobile terminal, the information is combined to be used as a mobile terminal identification code matched with the mobile terminal; and uploading the mobile terminal identification code and the corresponding camera operation behavior data to a database. That is, the database may store mobile terminal identification codes of various mobile terminals and camera operation behavior data corresponding to the mobile terminal identification codes. This design can be so that follow-up APP after gathering mobile terminal's mobile terminal identification code, directly download corresponding camera operation action data from the database, and is more convenient.

Further, the step of the parameter matching APP for acquiring the information of the mobile terminal is as follows:

step 1.1, opening a parameter matching APP;

step 1.2, obtaining a mobile terminal identification code, reading information such as the brand, the version, the model and the screen size of the mobile terminal, and combining the information to be used as the mobile terminal identification code corresponding to the mobile terminal;

and step 1.3, generating camera operation behavior data, generating human-computer interaction operation data of an HID (human interface device) protocol by operating a camera APP of the mobile terminal, mapping the generated human-computer interaction operation data to a remote control button corresponding to the controller, and generating corresponding camera operation behavior data. There is a difference in human-computer interaction operation data of the HID protocol generated by the operation of the camera APPs of the mobile terminals of different system versions/models/screen sizes, and thus there is a difference in camera operation behavior data of the mobile terminals of different system versions/models/screen sizes.

And step 1.4, uploading the identification code of the mobile terminal and the corresponding camera operation behavior data to a database. The database can collect mobile terminal identification codes and corresponding camera operation behavior data of mobile terminals of different system versions/models/screen sizes.

Further, in step 1.3, the operation of the camera APP includes, but is not limited to, taking a picture, photographing, zooming, switching a lens, and power switch operation.

Further, the step that the controller correspondingly operates the camera APP in the mobile terminal according to the camera operation behavior data is as follows:

step 2.1, the controller reads the information of the mobile terminal through the parameter matching APP, and takes the information of the mobile terminal as a mobile terminal identification code corresponding to the mobile terminal;

2.2, the controller uploads the mobile terminal identification code to a database through the parameter matching APP so as to obtain camera operation behavior data corresponding to the mobile terminal identification code;

and 2.3, downloading the camera operation behavior data to the controller, and executing the corresponding remote control button by the controller according to the camera operation behavior data so as to perform corresponding behavior operation of the camera APP.

Further, before step 2.1, step 2.0 is also included: the controller opens the bluetooth of mobile terminal bluetooth and controller, makes the two pair through the bluetooth and connects, and then the controller opens the parameter matching APP on the mobile terminal.

Further, in step 2.2, the specific process of uploading the mobile terminal identification code to the database by the parameter matching APP to obtain the camera operation behavior data corresponding to the mobile terminal identification code is as follows:

step 2.2.1, the database judges whether the same mobile terminal identification code exists, the step 2.2.2 is carried out when the same mobile terminal identification code exists, and the step 2.2.3 is carried out when the same mobile terminal identification code does not exist;

step 2.2.2, performing accurate matching to obtain camera operation behavior data;

and 2.2.3, carrying out fuzzy matching to obtain the camera operation behavior data.

Further, the exact match is: acquiring camera operation behavior data completely corresponding to the identification code of the mobile terminal; and fuzzy matching is carried out, the mobile terminal identification code closest to the mobile terminal identification code in the database is obtained, and the camera operation behavior data of the closest mobile terminal identification code is obtained. When the mobile terminal identification code exists in the database, an accurate matching method is adopted, namely camera operation behavior data with the model, the brand, the operating system, the version and the screen size of the mobile terminal in the mobile terminal identification code being completely consistent is obtained. When the mobile terminal identification code does not exist in the database, a fuzzy matching method is adopted, and the model, the brand, the operating system version and the screen size of the mobile terminal are sequentially matched according to the priority, so that the camera operation behavior data closest to the parameter information of the mobile terminal is obtained.

Further, the parameter matching APP is connected with the database through an HTTP interface; the controller supports a Bluetooth HID keyboard, HID consumption control, and HID touch screen interface. Defining some standard Bluetooth HID equipment remote operation behaviors of a controller, wherein the remote operation behaviors comprise 1. various key values or combined key values of an HID keyboard and the like; increasing and decreasing the volume, increasing and decreasing the channel, pausing playing, fast forwarding and fast rewinding, muting and the like of HID consumption control; and 3, single-point or two-point touch, single-point sliding, two-point relative sliding or opposite sliding and the like of the HID touch screen.

Furthermore, when the controller is in factory settings, camera operation behavior data of one or more universal brands can be written by default so as to be conveniently and directly used by a user. That is, the controller initially writes one or more general brands of camera operation behavior data by default, so that the user can directly select the data.

Compared with the prior art, the method and the device have the advantages that the camera operation behavior data of the mobile terminal with different information are different, the information of the mobile terminal is acquired through the parameter matching APP, and the camera operation behavior data corresponding to the mobile terminal can be obtained. In the method, the information of the mobile terminal is acquired through the parameter matching APP, the controller acquires the camera operation behavior data of the mobile terminal through the parameter matching APP, the controller can be matched with the corresponding mobile terminal, the controller can be compatible with various mobile terminals, when the controller performs corresponding operation to the camera APP in the corresponding mobile terminal according to the camera operation behavior data, the camera APP can be better operated, and the operation failure or deviation of the controller can not occur. And the method is simple in implementation mode and convenient to popularize.

Drawings

Fig. 1 is a connection block diagram of a camera APP, a parameter matching APP, a database, and a controller (bluetooth mobile phone cradle) of the present invention.

Fig. 2 is a hardware block diagram of the controller (bluetooth handset support) of the present invention.

FIG. 3 is a flow chart of the parameter matching APP of the present invention.

Fig. 4 is a flowchart of the operation of the controller (bluetooth handset cradle) of the present invention.

Fig. 5 is a flow chart of the initialization of the controller (bluetooth handset cradle) of the present invention.

Fig. 6 is a flow chart of the operation of the remote control button of the controller (bluetooth handset support) of the present invention.

Fig. 7 is a flowchart of the bluetooth data transceiving update thread of the controller (bluetooth handset cradle) according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-7, a shooting control method for automatically matching APP parameters of a mobile terminal is characterized in that the method includes that a parameter matching APP is installed on the mobile terminal, information of the mobile terminal is collected through the parameter matching APP, camera operation behavior data are generated according to the information, and after a controller obtains the camera operation behavior data of the mobile terminal through the parameter matching APP, the controller performs corresponding operation on the camera APP in the mobile terminal according to the camera operation behavior data.

Further, when the parameter matching APP acquires the information of the mobile terminal, the parameter matching APP acquires the information of the mobile terminal; and generating corresponding human-computer interaction operation data according to the acquired information of the mobile terminal, mapping the data to a remote control button corresponding to the controller, and generating camera operation behavior data.

Further, when the parameter matching APP acquires the information of the mobile terminal, the information is combined to be used as a mobile terminal identification code matched with the mobile terminal; and uploading the mobile terminal identification code and the corresponding camera operation behavior data to a database.

step 1.1, opening a parameter matching APP;

step 1.3, generating camera operation behavior data, generating human-computer interaction operation data with an HID protocol by operating a camera APP of the mobile terminal, mapping the generated human-computer interaction operation data to a remote control button corresponding to the controller, and generating corresponding camera operation behavior data;

Further, in step 1.3, the operation of the camera APP includes, but is not limited to, taking a picture, photographing, zooming, switching a lens, and power switch operation. Specifically, the camera APP is operated to produce human-computer interaction operation data of different HID protocols, such as photographing, shooting, zooming, lens switching, power switch and the like, and the data are mapped to corresponding remote control buttons to generate corresponding camera operation behavior data.

Specifically, the specific method for the camera operation behavior data corresponding to the remote control button is as follows: remote control buttons (such as photographing, zooming in, zooming out, switching on and off a power supply, switching a lens, and the like) commonly used by the camera are compiled into a fixed ID, and meanwhile, data is generated according to operation behaviors corresponding to the remote control buttons, for example: the photographing operation is that a volume + or volume-key controlled by Bluetooth HID consumption is pressed, when the HID touch screen is pulled close, the two contacts of the HID touch screen move relatively (the distance between the two contacts becomes close), when the HID touch screen is pulled far, the two contacts of the HID touch screen move relatively (the distance between the two contacts becomes far), and similarly, a power switch, a switching lens and the like are all used for touching or sliding the HID touch screen at a specified position. The operation behaviors are converted into data and then are bound with corresponding button IDs, and then the camera operation behavior data are generated.

and 2.3, downloading the camera operation behavior data to the controller, and executing the corresponding remote control button by the controller according to the camera operation behavior data so as to perform corresponding behavior operation of the camera APP. Referring to fig. 4, specifically, the camera operation behavior data is the remote control button parameters of the bluetooth mobile phone cradle corresponding to the camera operation behavior data.

Further, the parameter matching APP is connected with the database through an HTTP interface; the controller supports a Bluetooth HID keyboard, HID consumption control, and HID touch screen interface.

Further, the controller system is initialized by the following steps:

step 3.1, initializing hardware interfaces (a Bluetooth radio frequency interface, a key input interface and an indicator lamp display output interface);

step 3.2, initializing the interface of the Bluetooth HID protocol (all or part of the following Bluetooth HID protocols: Keyboard, Consumer Control, Touch Screen, for the operations of Keyboard input, volume Control, Touch Screen, etc. related to photographing respectively)

Step 3.3, creating multiple threads (key operation, indicator light output thread, Bluetooth connection pairing operation thread, Bluetooth data receiving and transmitting thread)

Further, the thread operation steps of the remote control button of the controller are as follows:

step 4.1, judging whether a remote control button is pressed, if so, entering step 4.2, and if not, entering step 4.4;

and 4.2, reading the camera operation behavior data corresponding to the key functions (photographing, zooming, lens switching, APP opening and the like).

Step 4.3, converting the camera operation behavior data into HID human-computer interface interactive operation data, and sending the HID human-computer interface interactive operation data to a Bluetooth HID protocol interface under the condition that the Bluetooth of the controller is matched with the Bluetooth of the mobile terminal;

and 4.4, ending.

Further, the step of the controller bluetooth data receiving and transmitting updating thread is as follows:

step 5.1, whether a Bluetooth data receiving event exists in the polling process or not is judged, if yes, the step 5.2 is carried out, and if not, the step 5.4 is carried out;

step 5.2, judging whether the operation instruction is an updating operation instruction of the camera operation behavior data, if so, entering step 5.3, and if not, entering step 5.4;

step 5.3, updating local camera operation behavior data;

and 5.4, ending.

Specifically, the mobile terminal may be a mobile phone. The method needs four parts, namely a camera APP, a parameter matching APP, a database and a controller, which can form a complete system.

The parameters are matched with the APP, and part of the camera operation behaviors of the camera APP can be standardized into HID human-computer interaction device data such as Bluetooth HID keyboard input, volume control, single-point or multi-point touch/sliding and the like, namely the camera operation behavior data. The system version, the brand model, the screen size and other parameters of the mobile phone can be automatically identified, and the mobile phone identification code (namely the mobile terminal identification code) is generated by the parameters. The mobile phone identification code and the camera operation behavior data can be stored in the database through the HTTP interface. The camera operation behavior data can be obtained in a mode of accurate matching or fuzzy matching of the mobile phone identification code, and can be downloaded into a data memory of the Bluetooth mobile phone support.

The controller is preferably a Bluetooth mobile phone support, and the Bluetooth mobile phone support comprises a remote control key, an indicator light and a Bluetooth main chip (a CPU + a key input interface + an indicator light output + a data storage + a Bluetooth interface); a bluetooth HID keyboard, HID consumption control and a HID touch screen interface are required to be supported, so that a mobile terminal accessing various operating systems (such as an android system, an apple system and the like) can be driven to be free, and an HID keyboard, HID consumption control and HID touch screen operation are provided; the mobile terminal (mobile phone) is connected through a Bluetooth interface, the parameter matching APP can update the camera operation behavior data, meanwhile, the mobile terminal can send human-computer interaction remote control data such as HID keyboard input, volume control, single-point or multi-point touch/sliding and the like to the camera APP according to the content of the camera operation behavior data, and operations such as photographing and shooting, lens zooming, lens switching, power switching and the like are achieved.

The camera APP is provided by a cell phone manufacturer or a camera APP vendor, and is an object of a service of the bluetooth wireless remote control.

The database is used for storing camera operation behavior data generated by developers according to different mobile phones and providing the camera operation behavior data of corresponding mobile phones for terminal users. Databases are prior art.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The shooting control method is characterized in that the shooting control method comprises a parameter matching APP installed on a mobile terminal, information of the mobile terminal is collected through the parameter matching APP, camera operation behavior data are generated according to the information, and after a controller acquires the camera operation behavior data of the mobile terminal through the parameter matching APP, the controller correspondingly operates a camera APP in the mobile terminal according to the camera operation behavior data.

2. The shooting control method for automatically matching APP parameters of a mobile terminal according to claim 1, wherein when the parameter matching APP collects information of the mobile terminal, the parameter matching APP collects information of the mobile terminal; and generating corresponding human-computer interaction operation data according to the acquired information of the mobile terminal, mapping the data to a remote control button corresponding to the controller, and generating camera operation behavior data.

3. The shooting control method for automatically matching APP parameters of a mobile terminal according to claim 2, wherein when the parameter matching APP collects information of the mobile terminal, the information is further combined as a mobile terminal identification code matched with the mobile terminal; and uploading the mobile terminal identification code and the corresponding camera operation behavior data to a database.

4. The shooting control method for automatically matching APP parameters of a mobile terminal according to claim 3, wherein the step of acquiring information of the mobile terminal by the parameter matching APP is as follows:

step 1.1, opening a parameter matching APP;

step 1.2, obtaining a mobile terminal identification code, reading information of a brand, an operating system version, a model and a screen size of the mobile terminal, and combining the information to be used as the mobile terminal identification code corresponding to the mobile terminal;

and step 1.4, uploading the identification code of the mobile terminal and the corresponding camera operation behavior data to a database.

5. The shooting control method for automatically matching APP parameters of a mobile terminal as claimed in claim 4, wherein in step 1.3, the camera APP operations include but are not limited to taking a picture, zooming, switching lens, and power switch operations.

6. The shooting control method for automatically matching APP parameters of a mobile terminal according to claim 4, wherein the step of the controller correspondingly operating the camera APP in the mobile terminal according to the camera operation behavior data is as follows:

7. The photographing control method for automatically matching app parameters of a mobile terminal according to claim 6, further comprising, before step 2.1, step 2.0: the controller opens the bluetooth of mobile terminal bluetooth and controller, makes the two pair through the bluetooth and connects, and then the controller opens the parameter matching APP on the mobile terminal.

8. The shooting control method for automatically matching APP parameters of a mobile terminal according to claim 6, wherein in step 2.2, the specific process of uploading the mobile terminal identification code to the database by the parameter matching APP to obtain the camera operation behavior data corresponding to the mobile terminal identification code is as follows:

9. The shooting control method for automatically matching app parameters of a mobile terminal according to claim 8, wherein the exact matching is: acquiring camera operation behavior data completely corresponding to the identification code of the mobile terminal; and fuzzy matching is carried out, the mobile terminal identification code closest to the mobile terminal identification code in the database is obtained, and the camera operation behavior data of the closest mobile terminal identification code is obtained.

10. The shooting control method for automatically matching APP parameters of a mobile terminal according to claim 4, wherein the parameter matching APP is connected with a database through an HTTP interface; the controller supports a Bluetooth HID keyboard, HID consumption control, and HID touch screen interface.