CN109144313A - The design method and system of the single touching box of the multisystem of intelligent whiteboard meeting - Google Patents

Abstract

The invention discloses a kind of systems of the single touching box of multisystem of intelligent whiteboard meeting, including touching box, the first operating system and the second operating system, system of the invention is used for touch method when touching the following steps are included: touching box sends the first touch data to the first operating system；First operating system makes corresponding touch-responsive according to the first touch data；First touch data is converted into the second touch data by the first operating system；Second touch data is sent to the second operating system by the first operating system, and the second operating system receives the second touch data and makes corresponding touch-responsive.Touch while the first operating system and the second operating system can be realized by data output interface all the way in touching box of the invention, output interface keeps data transmission more stable all the way, while also making the design of touching box simpler.

Description

The design method and system of the single touching box of the multisystem of intelligent whiteboard meeting

Technical field

The present invention relates to intelligent display device fields, more specifically, be a kind of intelligent whiteboard meeting multisystem it is single The design method and system of touching box.

Background technique

Two interfaces are typically provided in the touching box of existing multisystem intelligent whiteboard conference system, one is USB interface, The other is UART/IIC interface, touching box is connect by USB interface with Windows/Linux/Mac system, and touching box passes through UART/IIC interface is connected with the onboard display system of Android, realizes that Windows/Linux/Mac system and Android are onboard Touch-control while display system, but the connection wire of UART/IIC interface is easy to be interfered when data are transmitted, and makes data It transmits unstable, influences the normal use of intelligent whiteboard conference system, meanwhile, touching box needs support two paths of data transmission, touching The design for touching frame is complex.

Summary of the invention

The purpose of the present invention is to provide a kind of design method of the single touching box of multisystem of intelligent whiteboard meeting and it is It unites, is transmitted between touching box and two operating systems by a circuit-switched data in the present invention, keep data transmission more stable, meanwhile, it touches The design for touching frame is simpler.

Its technical solution is as follows:

A kind of design method of the single touching box of multisystem of intelligent whiteboard meeting, comprising the following steps:

Touching box sends the first touch data to the first operating system；

First operating system makes corresponding touch-responsive according to first touch data；

First touch data is converted into the second touch data by first operating system；

Second touch data is sent to the second operating system, second operating system by first operating system According to second touch data and make corresponding touch-responsive.

First operating system first touch data is converted into the second touch data the following steps are included:

First touch data is sent to MCU module by first operating system；

The MCU module first touch data is converted into that second operating system can identify described second Touch data；

Second touch data is sent to second operating system by the MCU module.

First operating system according to first touch data make corresponding touch-responsive the following steps are included:

After first operating system is connect with the touching box, establishing in first operating system has input file Node, the first touch data that touching box is sent are stored on input file node；

The first os starting first thread and the second thread, the first thread real-time detection simultaneously parse Input file node data information, and the touch action different according to the input file node data information reporting of parsing, together When, the input file node data information that the first thread will test is stored in data queue；

Data information in data queue described in the second thread real-time detection, and by the data in the data queue Information is sent to the MCU module.

Descriptor is equipped in the MCU module, the descriptor defines the data information in first touch data Corresponding second touch data, after the MCU module starting, the descriptor is first sent to described by the MCU module Second operating system.

The length of received first touch data of a frame of MCU module is 62 bytes.

First operating system is the onboard display system of Android, and second operating system is Windows/ Linux/Mac system.

The touching box by meet HID standard USB interface send the first touch data to the first operating system, it is described First operating system sends the first touch data to the MCU module by serial ports, and the MCU module is by meeting HID standard USB interface send the second touch data to the second operating system.

The descriptor is USB device descriptor.

Invention additionally discloses a kind of systems of the single touching box of multisystem of intelligent whiteboard meeting, including touching box, first Operating system, the second operating system and MCU module, the touching box are grasped by the USB interface and described first for meeting HID standard Make system to be connected, first operating system is connected by serial ports with the MCU module, and the MCU module is marked by meeting HID Quasi- USB interface is connected with second operating system.

First operating system is the onboard display system of Android, and second operating system is Windows/ Linux/Mac system.

Advantages of the present invention or principle are illustrated below:

1, touching box is connected by USB interface with the first operating system, and the first operating system passes through USB interface and the second behaviour Make system to be connected, when data are transmitted, touching box only needs to send data to the first operating system by USB interface, reduces The quantity of data output interface, keeps the design of touching box simpler in touching box, meanwhile, touching box only pass through USB interface with First operating system is connected, and the data transmission of touching box is more stable；

Touching box sends the first touch data to the first operating system, and the first operating system receives the first touch data and does First touch data is converted into the second touch data and is sent to the second operating system by touch-responsive out, the first operating system, the Making touch-responsive after two operating systems the second touch data of reception can be achieved at the same time first after touching box sends touch data The touch function of operating system and the second operating system makes the touch demand of the compatible several operation systems of touching box.

2, the first touch data is sent to MCU module by the first operating system, and the first touch data is converted by MCU module Second touch data is simultaneously sent to the second operating system, is built between the first operating system and the second operating system by MCU module Vertical connection, MCU module receive and convert the first touch data, pass the data between the first operating system and the second operating system Defeated and conversion is more acurrate.

3, the first thread in the first operating system and the second thread real-time detection touch data information, make the first operation system System and the second operating system can quickly make touch-responsive, the fast response time of the first operating system and the second operating system.

4, the descriptor in MCU module, device descriptor define the data information for the movements such as lifting, pressing and moving, Second operating system can quickly make corresponding touch-responsive according to descriptor and received second touch data.

5, the length of received the first touch data of a frame of MCU module is 62 bytes, and MCU module is by 62 byte wholes Package after receiving, MCU module generates the ID of touch point according to descriptor, and once transmit the ID of multiple touch points to Second operating system.

6, the first operating system is the onboard display system of Android, and the second operating system is Windows/Linux/Mac system It unites, the touch operation of the onboard display system of Android and Windows/Linux/Mac system can be suitable in touching box simultaneously.

Detailed description of the invention

Fig. 1 is the touching box of the embodiment of the present invention, the first operating system, MCU module, data pass between the second operating system Defeated relational graph；

Fig. 2 is the flow chart of the embodiment of the present invention.

Description of symbols:

10, touching box；20, the first operating system；30, MCU module；40, the second operating system.

Specific embodiment

The embodiment of the present invention is described in detail below.

As shown in Figure 1, the system that the present embodiment discloses a kind of single touching box of multisystem of intelligent whiteboard meeting, including touching Touch frame 10, the first operating system 20, the second operating system 40 and MCU module 30, touching box 10 is by meeting the USB of HID standard Interface is connected with the first operating system 20, and the first operating system 20 is connected by serial ports with MCU module 30, and MCU module 30 passes through The USB interface for meeting HID standard is connected with the second operating system 40, and first operating system 20 of the present embodiment is Android plate Carrier display system, the second operating system 40 is Windows/Linux/Mac system, and the MCU module 30 of the present embodiment is located at the In one operating system 20.

Touch function while the present embodiment can realize the first operating system 20 and the second operating system 40, as shown in Fig. 2, The present embodiment realize simultaneously touch design method the following steps are included:

S001: touching box 10 sends the first touch data to the first operating system 20；

S002: the first operating system 20 makes corresponding touch-responsive according to the first touch data；

First touch data is converted into the second touch data by the S003: the first operating system 20；

Second touch data is sent to the second operating system 40, the second operating system 40 by the S004: the first operating system 20 Corresponding touch-responsive is made according to the second touch data.

Wherein, it is further comprising the steps of according to the first touch data to make corresponding touch-responsive for the first operating system 20:

After first operating system 20 is connect by USB interface with touching box 10, establishing in the first operating system 20 has input First touch data is stored in by file node after the first operating system 20 receives the first touch data that touching box 10 is sent On input file node；

First operating system 20 starts first thread and the second thread, first thread real-time detection after connecting with touching box 10 And input file node data information is parsed, and different touches is reported according to the data information of the input file node of parsing Movement, meanwhile, the data information memory of first thread and the input file node that will test is in data queue；

Data information in second thread real-time detector data queue, and the data information in the data queue that will test MCU module 30 is sent to by serial ports.

The MCU module 30 of the present embodiment is equipped with USB device descriptor, and USB device descriptor defines the first touch number Corresponding second touch data of data information in, such as: USB device descriptor defines touch and presses, lifts or move When corresponding second touch data, meanwhile, USB device descriptor alsies specify the information such as implementor name, touch point corresponding second USB device descriptor is first sent to the second operating system 40, the second operating system 40 after MCU module 30 starts by touch data It is considered as being connected to touch apparatus after receiving USB device descriptor, after MCU module 30 receives the first touch data, MCU module First touch data is converted into the second touch data that the second operating system 40 can identify according to USB device descriptor by 30； Then the second touch data is sent to the second operating system 40 by MCU module 30, and USB is set the second operating system 40 based on the received Standby descriptor and the second touch data make corresponding touch-responsive.

For the MCU module 30 of the present embodiment when receiving the first touch data, the interruption of MCU module 30 first detects user preset Mark after start to receive data, in the present embodiment, the length of received the first touch data of a frame of MCU module 30 is 62 words Section after MCU module 30 packages data and is converted into the transmission of the second touch data after 62 bytes all receive To the second operating system 40.

The advantages of the present embodiment or principle are as follows:

1, touching box 10 is connected by USB interface with the first operating system 20, the first operating system 20 pass through USB interface and Second operating system 40 is connected, and when data are transmitted, touching box 10 only needs to send data to the first operating system by USB interface 20, reduce the quantity of data transmission interface in touching box 10, keeps the design of touching box 10 simpler, meanwhile, touching box 10 are connected by USB interface with the first operating system 20, and the data transmission of touching box 10 is more stable；

Touching box 10 sends the first touch data to the first operating system 20, and the first operating system 20 receives first and touches number According to and make touch-responsive, the first touch data is converted into the second touch data and is sent to the second operation by the first operating system 20 System 40, the second operating system 40 make touch-responsive after receiving the second touch data, can after touching box 10 sends touch data The touch function for realizing the first operating system 20 and the second operating system 40 simultaneously, makes the compatible several operation systems of touching box 10 Touch demand.

2, the first touch data is sent to MCU module 30 by the first operating system 20, and MCU module 30 is by the first touch data It is converted into the second touch data and is sent to the second operating system 40, lead between the first operating system 20 and the second operating system 40 It crosses MCU module 30 and establishes connection, MCU module 30 receives and converts the first touch data, makes the first operating system 20 and the second behaviour Make the data transmission between system 40 and converts more acurrate.

3, the first thread in the first operating system 20 and the second thread real-time detection touch data information, make the first operation System 20 and the second operating system 40 can quickly make touch-responsive, the response of the first operating system 20 and the second operating system 40 Speed is fast.

4, descriptor in MCU module 30 is, it is specified that the data information of movements, second operation such as lifting, pressing and moving System 40 can quickly make corresponding touch-responsive according to descriptor and received second touch data.

5, the length of received the first touch data of a frame of MCU module 30 is 62 bytes, and MCU module 30 is by 62 bytes It packages after all receiving, MCU module 30 generates the ID of touch point according to descriptor, and once transmits multiple touch points ID give the second operating system 40.

6, the first operating system 20 is the onboard display system of Android, and the second operating system 40 is Windows/Linux/ Mac system can be suitable for the touching of the onboard display system of Android and Windows/Linux/Mac system in touching box 10 simultaneously Touch operation.

The above is only specific embodiments of the present invention, are not limited the scope of protection of the present invention with this；Do not violating this hair Made any replacement and improvement, category protection scope of the present invention on the basis of bright design.

Claims (10)

1. the design method of the single touching box of the multisystem of intelligent whiteboard meeting, which comprises the following steps:

Touching box sends the first touch data to the first operating system；

First operating system makes corresponding touch-responsive according to first touch data；

First touch data is converted into the second touch data by first operating system；

Second touch data is sent to the second operating system, the second operating system foundation by first operating system Second touch data simultaneously makes corresponding touch-responsive.

2. the design method of the single touching box of multisystem of intelligent whiteboard meeting as described in claim 1, which is characterized in that described First operating system first touch data is converted into the second touch data the following steps are included:

First touch data is sent to MCU module by first operating system；

First touch data is converted into second touch that second operating system can identify by the MCU module Data；

Second touch data is sent to second operating system by the MCU module.

3. the design method of the single touching box of multisystem of intelligent whiteboard meeting as claimed in claim 2, which is characterized in that described First operating system according to first touch data make corresponding touch-responsive the following steps are included:

After first operating system is connect with the touching box, establishing in first operating system has input file node, The first touch data that the touching box is sent is stored on input file node；

The first os starting first thread and the second thread, the first thread real-time detection simultaneously parse input text Part node data information, and the touch action different according to the input file node data information reporting of parsing, meanwhile, it is described The input file node data information that first thread will test is stored in data queue；

Data information in data queue described in the second thread real-time detection, and by the data information in the data queue It is sent to the MCU module.

4. the design method of the single touching box of multisystem of intelligent whiteboard meeting as claimed in claim 3, which is characterized in that described Descriptor is equipped in MCU module, the descriptor defines the data information in first touch data corresponding described the Two touch datas, after the MCU module starting, the descriptor is first sent to second operating system by the MCU module.

5. the design method of the single touching box of intelligent whiteboard meeting multisystem as claimed in claim 4, which is characterized in that described The length of received the first touch data of a frame of MCU module is 62 bytes.

6. the design side of the single touching box of the multisystem of intelligent whiteboard meeting as described in claim 1 to any one of claim 5 Method, which is characterized in that first operating system is the onboard display system of Android, and second operating system is Windows/Linux/Mac system.

7. the single touching box of the multisystem of intelligent whiteboard meeting sets as described in any one of claim 2 to claim 5 Meter method, which is characterized in that the touching box sends the first touch data to the first behaviour by meeting the USB interface of HID standard Make system, first operating system sends the first touch data to the MCU module by serial ports, and the MCU module passes through The USB interface for meeting HID standard sends the second touch data to the second operating system.

8. the design method of the single touching box of multisystem of intelligent whiteboard meeting as claimed in claim 5, which is characterized in that described Descriptor is USB device descriptor.

9. the system of the single touching box of the multisystem of intelligent whiteboard meeting, which is characterized in that including touching box, the first operation system System, the second operating system and MCU module, the touching box by meet HID standard USB interface and first operating system It is connected, first operating system is connected by serial ports with the MCU module, and the MCU module is by meeting HID standard USB interface is connected with second operating system.

10. the system of the single touching box of multisystem of intelligent whiteboard meeting as claimed in claim 9, which is characterized in that described First operating system is the onboard display system of Android, and second operating system is Windows/Linux/Mac system.