CN111831459B - Dual-system remote control method and device, system main board and intelligent integrated machine - Google Patents

Abstract

The invention discloses a remote control method and device of a dual system, a system main board and an intelligent integrated machine, wherein the method comprises the following steps: receiving a first key event sent by the intelligent pen controller through a first operating system; after determining that the currently presented operating system is a second operating system, converting the first key event into a second key event according to the protocol of the second operating system, wherein the second key event is a key event identifiable by the second operating system, and the second operating system and the first operating system are operating systems of different types; the second key event is forwarded to the second operating system to cause the second operating system to perform a responsive operation associated with the first key event. The system control method has the advantages that different types of operating systems are controlled across systems through the same intelligent pen, and in the control process, the intelligent pen does not need to be switched, so that the remote control operation of a user is facilitated; failure of key control is avoided, namely, consistency of key control is improved.

Description

Dual-system remote control method and device, system main board and intelligent integrated machine

Technical Field

The invention relates to the field of data processing, in particular to a double-system remote control method, a double-system remote control device, a system main board and an intelligent integrated machine.

Background

Along with the development of science and technology, intelligent integrated machine equipment is increasingly applied to the fields of modern education, conferences and the like. In order to meet the requirements of users, the intelligent all-in-one device on the market is provided with a Windows operating system and an android operating system, namely, two different mainboards are respectively provided to realize the two operating systems.

In order to facilitate the control of a user on the intelligent all-in-one machine, in the prior art, an intelligent pen is also configured for the intelligent all-in-one machine equipment. Smart pens are typically composed of a receiver and a smart pen controller. When in use, the receiver is connected to the corresponding main board, and a user controls the intelligent pen through keys on the intelligent pen controller, such as page up, page down, playing, etc.

For remote control of two different types of operating systems (e.g. Windows, android), in the prior art, a receiver is often required to be inserted into a corresponding interface, so as to realize remote control of the current operating system through a smart pen.

In the prior art, chinese patent application with publication number CN107506245a discloses a method for remotely controlling multiple systems, which mainly adopts the scheme that a first operating system receives a remote control signal generated by a user operating a remote control device, and adaptively determines the function of a remote control pen key according to a current operating interface, for example, "annotation" of the remote control key can be configured as "switching", if the current interface is a main system, the remote control key is determined to be the "annotation" function, and if the current interface is an auxiliary system, the remote control key is determined to be the "switching" function. Although the control of different systems can be realized through the same intelligent pen, the key functions of the intelligent pen are required to be adaptively changed, for example, the 'annotating' function needs to be configured with the 'switching' function at the same time, which brings inconvenience to the operation of a user, and two functions need to be remembered at the same time, so that the user experience is influenced; in addition, after the system is switched back and forth, the user cannot determine which system is currently running, and misoperation is possibly caused, and the consistency problem still exists; in addition, the implementation of the scheme requires that two operating systems are the same type of operating system, for example, the two operating systems are both android systems, and information can be transferred and forwarded, so that the limitation is high.

Therefore, aiming at two different types of operating systems in the intelligent integrated machine equipment, how to use the same intelligent pen to control the currently presented system becomes a technical problem to be solved urgently.

Disclosure of Invention

Based on the above-mentioned current situation, the main purpose of the present invention is to provide a dual-system remote control method, device, system motherboard and intelligent integrated machine, so as to control the currently presented system by using the same intelligent pen aiming at two different types of operating systems in the intelligent integrated machine equipment.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

according to a first aspect, an embodiment of the present invention discloses a dual-system remote control method for an intelligent integrated machine, the remote control method including:

receiving a first key event sent by the intelligent pen controller through a first operating system, wherein the first key event represents remote control operation of the intelligent integrated machine; acquiring a currently presented operating system based on the first key event; after determining that the currently presented operating system is a second operating system, converting the first key event into a second key event according to the protocol of the second operating system, wherein the second key event is a key event identifiable by the second operating system, and the second operating system and the first operating system are operating systems of different types; and forwarding the second key event to the second operating system so that the second operating system executes a response operation associated with the first key event.

Optionally, after acquiring the currently presented operating system based on the first key event, the remote control method further includes: and after the currently presented operating system is determined to be the first operating system, sending the first key event to the first operating system so that the first operating system executes response operation associated with the first key event.

Optionally, the first operating system and the second operating system interact with the touch control system data respectively; and forwarding the second key event to the touch control system in the process of forwarding the second key event to the second operating system so that the second operating system executes response operation associated with the first key event, and enabling the touch control system to send the second key event to the second operating system.

Optionally, the acquiring the currently presented operating system in response to the first key event includes: reading a current signal source based on a first key event; and determining the operating system corresponding to the current signal source as the currently presented operating system.

Optionally, converting the first key event to the second key event according to the protocol of the second operating system includes: analyzing a first key event according to a protocol of a first operating system to obtain analyzed key event data; and converting the parsed key event data into a second key event according to a protocol of the second operating system.

Optionally, the first operating system is an android system, and the second operating system is a Windows system.

According to a second aspect, an embodiment of the present invention discloses a dual-system remote control device for an intelligent integrated machine, the remote control device comprising:

the event receiving module is used for receiving a first key event sent by the intelligent pen controller through the first operating system, wherein the first key event represents remote control operation of the intelligent integrated machine; the system acquisition module is used for acquiring the currently presented operating system based on the first key event; the event conversion module is used for converting the first key event into a second key event according to the protocol of the second operating system after determining that the currently presented operating system is the second operating system, wherein the second key event is a key event identifiable by the second operating system, and the second operating system and the first operating system are operating systems of different types; and the event forwarding module is used for forwarding the second key event to the second operating system so that the second operating system executes response operation associated with the first key event.

According to a third aspect, an embodiment of the present invention discloses a dual-system motherboard, which is used for an intelligent integrated machine, wherein the system motherboard is detachably connected with a receiver of an intelligent pen, and is used for receiving a first key event through the receiver of the intelligent pen, and the first key event represents remote control operation of the intelligent integrated machine; the system main board comprises:

a processor for executing a program to implement the method of any of the above-disclosed first aspects.

According to a fourth aspect, an embodiment of the present invention discloses a storage medium having stored therein instructions for being executed to implement the method of any of the above-described first aspects.

According to a fifth aspect, an embodiment of the present invention discloses an intelligent all-in-one machine, including:

the first system mainboard is configured to run a first operating system, and the first operating system running instruction realizes the method disclosed in any of the first aspects; a second system motherboard configured to run a second operating system; the display screen is respectively connected with the first system main board and the second system main board so as to respectively display data sent by the first system main board and the second system main board.

Optionally, the method further comprises: the receiver of the intelligent pen is detachably connected with the first system main board; the first system main board receives a first key event sent by the intelligent pen controller through a receiver of the intelligent pen.

According to the remote control method, the remote control device, the system main board and the intelligent integrated machine of the double systems disclosed by the embodiment of the invention, a first key event sent by the intelligent pen controller is received through a first operating system, the first key event represents remote control operation on the intelligent integrated machine, a currently presented operating system is obtained after the first key event is received, after the currently presented operating system is determined to be a second operating system, the first key event is converted into the second key event according to the protocol of the second operating system, so that the second operating system can identify the key event, and then the second key event is forwarded to the second operating system, so that the second operating system executes response operation related to the first key event. Compared with the prior art, aiming at different operation systems, a receiver is required to be inserted into a corresponding interface for remote control (because protocols of different operation systems cannot be directly communicated), the scheme of the embodiment of the invention realizes cross-system control of different operation systems through the same intelligent pen, and in the control process, the intelligent pen is not required to be switched, that is, a user is not required to frequently plug the intelligent pen receiver into different systems for remote control operation, so that the remote control operation of the user is convenient; in addition, failure of key control is avoided, specifically, in the prior art, if the intelligent pen receiver is forgotten to be switched, the key control is failed when a user uses the intelligent pen controller, so that the user is frustrated, and in the scheme of the embodiment of the invention, after the currently presented operating system is determined to be the second operating system, the first key event is converted into the second key event according to the protocol of the second operating system, so that the first key event can be read by the second operating system, namely, the consistency of key control is improved, and the user experience is improved.

As an alternative scheme, since the first key event is received by the first operating system, after the currently presented operating system is determined to be the first operating system, the first key event can be sent to the first operating system, so that the first operating system can directly execute the response operation associated with the first key event without conversion of the key event, and timeliness of key event response is improved.

As an alternative scheme, the first operating system and the second operating system interact with the touch system data respectively, and the first operating system forwards the second key event to the touch system, so that the touch system sends the second key event to the second operating system, direct data interaction between the first operating system and the second operating system is not needed, the possible compatibility problem is reduced, and the accuracy of key event processing is improved.

Other advantages of the present invention will be set forth in the description of specific technical features and solutions, by which those skilled in the art should understand the advantages that the technical features and solutions bring.

Drawings

Embodiments according to the present invention will be described below with reference to the accompanying drawings. In the figure:

fig. 1 is a flowchart of a remote control method for dual systems of an intelligent integrated machine according to the present embodiment;

fig. 2 is a schematic diagram of a data interaction principle between a first operating system and a second operating system according to the present embodiment;

fig. 3 is a schematic structural diagram of a remote control device for dual systems of an intelligent integrated machine according to the present embodiment;

fig. 4 is a schematic diagram of a system motherboard for a dual system of an intelligent integrated machine according to the present embodiment;

fig. 5 is a schematic structural diagram of an intelligent integrated machine according to the present embodiment.

Detailed Description

In order to control the currently presented system by using the same intelligent pen aiming at two different types of operating systems in the intelligent integrated machine equipment, specifically, because two systems on the intelligent integrated machine equipment adopt two different mainboards and protocols between the systems cannot be directly communicated, in the prior art, when the intelligent pen is used for remote control, a system interface of a currently running program needs to be determined, and a receiver is inserted into a corresponding interface, so that the current operating system is remotely controlled by the intelligent pen.

The embodiment discloses a remote control method for a dual system, which is used for an intelligent integrated machine, please refer to fig. 1, and discloses a flow chart of a remote control method for a dual system of an intelligent integrated machine, the remote control method for a dual system comprises:

step S101, a first key event sent by the intelligent pen controller is received through a first operating system. In this embodiment, the first key event refers to remote control operation of the intelligent integrated machine, and the first key event may be, for example, page turning down, annotation, playing, etc. As an example, the display screen of the smart kiosk is currently playing the PPT, and the presenter may send a first key event of "page down" through the smart pen controller, causing the display screen of the smart kiosk to begin presenting the next page PPT. In a specific embodiment, the first operating system may be an android system or a Windows system, and in this embodiment, the first operating system is preferably an android system. It should be noted that, in the implementation process, other operating systems suitable for running on the intelligent integrated machine may also be the first operating system in this embodiment.

Step S103, the currently presented operating system is acquired based on the first key event. In a specific embodiment, the intelligent integrated machine is collocated with two different types of operating systems, namely, the first operating system and the second operating system, and of course, may also be multiple different types of operating systems. The first operating system and the second operating system can time-division multiplex the display screen of the intelligent integrated machine, that is, the display screen of the intelligent integrated machine presents the display data sent by the first operating system or the second operating system in a time-division manner. In this embodiment, after receiving the first key event sent by the smart pen controller through the first operating system, the currently presented operating system, that is, whether the currently presented data is the first operating system or the second operating system, is queried in response to the first key event.

Step S105, after determining that the currently presented operating system is the second operating system, converts the first key event into the second key event according to the protocol of the second operating system. In this embodiment, the second operating system and the first operating system are different types of operating systems, and the second operating system may be an android system or a Windows system. It should be noted that, in the implementation process, other operating systems suitable for running on the intelligent integrated machine may also be the second operating system in this embodiment. The second key event is a key event recognizable by the second operating system, and specifically, the first key event is converted into the second key event according to the protocol of the second operating system, so that the converted second key event can be recognized by the second operating system.

In a specific embodiment, in step S105, the converting the first key event into the second key event according to the protocol of the second operating system includes: analyzing a first key event according to a protocol of a first operating system to obtain analyzed key event data; and converting the parsed key event data into a second key event according to a protocol of the second operating system. Because the first key event is received based on the first operating system, the first key event can be analyzed according to the protocol of the first operating system to obtain analyzed key event data, and then the second key event can be obtained according to the protocol conversion of the second operating system, so that the second key event can be identified by the second operating system.

Step S107, the second key event is forwarded to the second operating system. In this embodiment, since the second key event is converted from the first key event, the second operating system may perform a response operation associated with the first key event after forwarding the second key event to the second operating system. Because the currently presented operating system is the second operating system, the response operation performed by the second operating system is also performed on the currently presented data, for example, page up, page down, annotate, play, etc. on the currently presented data.

According to the remote control method of the dual system disclosed by the embodiment, a first key event sent by an intelligent pen controller is received through a first operating system, the first key event represents remote control operation on the intelligent integrated machine, a currently presented operating system is obtained after the first key event is received, after the currently presented operating system is determined to be a second operating system, the first key event is converted into the second key event according to the protocol of the second operating system, so that the second operating system can identify the key event, and then the second key event is forwarded to the second operating system, so that the second operating system executes response operation related to the first key event. Compared with the prior art, the remote control method has the advantages that aiming at different operation systems, the receiver is required to be inserted into the corresponding interface for remote control (because protocols of different operation systems cannot be directly communicated), the scheme of the embodiment realizes cross-system control of different operation systems through the same intelligent pen, and in the control process, the intelligent pen does not need to be switched, namely, a user does not need to frequently plug the intelligent pen receiver into different systems for remote control operation, so that the remote control operation of the user is facilitated. In addition, the failure of key control is avoided, specifically, in the prior art, if the intelligent pen receiver is forgotten to be switched, the key control is failed when a user uses the intelligent pen controller, so that the user is frustrated, and in the scheme of the embodiment, after the currently presented operating system is determined to be the second operating system, the first key event is converted into the second key event according to the protocol of the second operating system, so that the first key event can be read by the second operating system, namely, the consistency of the key control is improved, and the user experience is improved.

In an alternative embodiment, the first key event is sent to the first operating system after determining that the currently presented operating system is the first operating system. Because the first key event is received based on the first operating system, the first operating system can directly identify the first key event, and after the first operating system receives the first key event, the response operation associated with the first key event can be directly executed without format conversion, so that the timeliness of key event response is improved.

In an alternative embodiment, please refer to fig. 2, which is a schematic diagram of a data interaction principle of a first operating system and a second operating system disclosed in this embodiment, the first operating system and the second operating system interact with touch system data respectively, that is, the first operating system and the second operating system time-share multiplex the touch system, so that the first operating system and the second operating system can implement touch operation through the same touch system. In step S107, when forwarding the second key event to the second operating system, the second key event is forwarded to the touch system, so that the touch system sends the second key event to the second operating system. That is, after the first operating system converts the first key event into the second key event, the second key event is forwarded to the touch system, and then the touch system sends the second key event to the second operating system.

In this embodiment, since the first operating system and the second operating system interact with the touch system data respectively, the first operating system forwards the second key event to the touch system, so that the touch system sends the second key event to the second operating system, direct data interaction between the first operating system and the second operating system is not required, possible compatibility problems are reduced, and accuracy of key event processing is further improved.

In a specific embodiment, in executing step S103, determining the currently presented operating system based on the first key event includes: reading a current signal source in response to a first key event; and determining the operating system corresponding to the current signal source as the currently presented operating system. In this embodiment, the current signal source refers to an operating system that provides a signal source to the display screen, and in an alternative embodiment, when the first operating system and the second operating system interact with the touch system data respectively, the current signal source may be determined by collecting the touch system data, that is, whether the current signal source is the first operating system or the second operating system. After the current signal source is read, the signal source with which the display screen performs data interaction can be determined, so that the operating system corresponding to the current signal source can be determined as the currently presented operating system.

The embodiment also discloses a remote control device for dual systems, which is used for an intelligent integrated machine, please refer to fig. 3, and is a schematic structural diagram of the remote control device for dual systems of the intelligent integrated machine disclosed in the embodiment, and the remote control device comprises: an event receiving module 301, a system acquiring module 302, an event converting module 303, and an event forwarding module 304, wherein:

the event receiving module 301 is configured to receive, by using a first operating system, a first key event sent by the smart pen controller, where the first key event indicates that remote control operation is performed on the smart integrated machine; the system acquisition module 302 is configured to determine a currently presented operating system based on the first key event; the event conversion module 303 is configured to convert, when determining that the currently presented operating system is a second operating system, a first key event according to a protocol of the second operating system into a second key event, where the second key event is a key event identifiable by the second operating system, and the second operating system and the first operating system are operating systems of different types; the event forwarding module 304 is configured to forward the second key event to the second operating system, so that the second operating system performs a response operation associated with the first key event.

In an alternative embodiment, the event forwarding module 304 is further configured to, after determining that the currently presented operating system is the first operating system, send the first key event to the first operating system, so that the first operating system performs a response operation associated with the first key event.

In an alternative embodiment, the first operating system and the second operating system interact with the touch control system data respectively; the event forwarding module 304 is specifically further configured to forward the second key event to the touch system, so that the touch system sends the second key event to the second operating system.

In an alternative embodiment, the system acquisition module 302 includes: the signal source reading unit is used for responding to the first key event to read the current signal source; and the determining unit is used for determining the operating system corresponding to the current signal source as the currently presented operating system.

In an alternative embodiment, the event conversion module 303 includes: the analysis unit is used for analyzing the first key event according to the protocol of the first operating system to obtain analyzed key event data; the conversion unit is used for converting the analyzed key event data into a second key event according to the protocol of the second operating system.

In an alternative embodiment, the first operating system is an android system and the second operating system is a Windows system.

The embodiment also discloses a system motherboard of a dual system for an intelligent integrated machine, please refer to fig. 4, which is a schematic diagram of a system motherboard of a dual system for an intelligent integrated machine disclosed in the embodiment, and a system motherboard 400 includes: a processor 401, the processor 401 being configured to execute a program to implement the method disclosed in any of the above embodiments; the system main board 400 is detachably connected with the receiver of the intelligent pen, and is used for receiving a first key event through the receiver of the intelligent pen, wherein the first key event represents remote control operation on the intelligent integrated machine. Specifically, the system main board 400 may be detachably connected with the receiver of the smart pen through, for example, a USB interface, a minissb interface.

The present embodiment also discloses a storage medium having stored therein instructions for being executed to implement the method disclosed in any of the above embodiments.

The embodiment also discloses an intelligent integrated machine, please refer to fig. 5, which is a schematic structural diagram of the intelligent integrated machine disclosed in the embodiment, the intelligent integrated machine includes: a first system motherboard 501, a second system motherboard 502, and a display screen 503, wherein:

the first system motherboard 501 is configured to run a first operating system, and the first operating system running instructions implement the method disclosed in any of the above embodiments; the second system motherboard 502 is configured to run a second operating system; the display screen 503 is connected to the first system motherboard and the second system motherboard, respectively, so as to display the data sent by the first system motherboard and the second system motherboard, respectively.

In an alternative embodiment, the method further comprises: the receiver of the intelligent pen is detachably connected with the first system main board; the first system main board receives a first key event sent by the intelligent pen controller through a receiver of the intelligent pen.

According to the remote control method, the remote control device, the system main board and the intelligent integrated machine of the dual system disclosed by the embodiment, a first key event sent by an intelligent pen controller is received through a first operating system, the first key event represents remote control operation on the intelligent integrated machine, a currently presented operating system is obtained after the first key event is received, after the currently presented operating system is determined to be a second operating system, the first key event is converted into the second key event according to the protocol of the second operating system, so that the second operating system can identify the key event, and then the second key event is forwarded to the second operating system, so that the second operating system executes response operation related to the first key event. Compared with the prior art, aiming at different operating systems, the remote control mode of inserting the receiver into the corresponding interface is needed, the scheme of the embodiment realizes cross-system control of different types of operating systems through the same intelligent pen, and in the control process, the intelligent pen does not need to be switched, namely, a user does not need to frequently plug the receiver of the intelligent pen into different systems for remote control operation, thereby being convenient for the remote control operation of the user; in addition, the failure of key control is avoided, specifically, in the prior art, if the intelligent pen receiver is forgotten to be switched, the key control is failed when the intelligent pen controller is used by a user, so that the user is frustrated, and in the scheme of the embodiment, after the currently presented operating system is determined to be the second operating system, the first key event is converted into the second key event according to the protocol of the second operating system, so that the first key event can be read by the second operating system, the failure of the key control is avoided, namely, the consistency of the key control is improved, and the user experience is improved.

Those skilled in the art will appreciate that the above-described preferred embodiments can be freely combined and stacked without conflict.

It will be understood that the above-described embodiments are merely illustrative and not restrictive, and that all obvious or equivalent modifications and substitutions to the details given above may be made by those skilled in the art without departing from the underlying principles of the invention, are intended to be included within the scope of the appended claims.

Claims (8)

1. The remote control method of the double system is used for the intelligent all-in-one machine and is characterized by comprising the following steps:

receiving a first key event sent by an intelligent pen controller through a first operating system, wherein the first key event represents remote control operation of the intelligent integrated machine;

acquiring a currently presented operating system based on the first key event;

after determining that the currently presented operating system is a second operating system, converting the first key event into a second key event according to a protocol of the second operating system, wherein the second key event is a key event identifiable by the second operating system, and the second operating system and the first operating system are operating systems of different types; a kind of electronic device with high-pressure air-conditioning system

Forwarding the second key event to the second operating system so that the second operating system executes a response operation associated with the first key event;

the first operating system and the second operating system interact with the touch system data respectively, and the touch system is multiplexed by the first operating system and the second operating system in a time-sharing way;

in the step of forwarding the second key event to the second operating system so that the second operating system executes a response operation associated with the first key event, after the first operating system converts the first key event into the second key event, forwarding the second key event to a touch system, and then sending the second key event to the second operating system by the touch system;

the operating system for acquiring the current presentation based on the first key event comprises:

reading a current signal source in response to the first key event, wherein the current signal source is determined by collecting data of the touch system;

and determining the operating system corresponding to the current signal source as the currently presented operating system.

2. The remote control method of claim 1, wherein after the acquiring the currently presented operating system based on the first key event, the remote control method further comprises:

and after the currently presented operating system is determined to be the first operating system, the first key event is sent to the first operating system, so that the first operating system executes response operation associated with the first key event.

3. The remote control method of any of claims 1-2, wherein said converting said first key event to a second key event according to a protocol of said second operating system comprises:

analyzing the first key event according to the protocol of the first operating system to obtain analyzed key event data;

and converting the parsed key event data into the second key event according to the protocol of the second operating system.

4. The remote control method according to any one of claims 1-2, wherein the first operating system is an android system and the second operating system is a Windows system.

5. A dual system remote control device for an intelligent all-in-one machine, the remote control device comprising:

the event receiving module is used for receiving a first key event sent by the intelligent pen controller through a first operating system, wherein the first key event represents remote control operation of the intelligent integrated machine;

the system acquisition module is used for acquiring the currently presented operating system based on the first key event;

the event conversion module is used for converting the first key event into a second key event according to the protocol of the second operating system after determining that the currently presented operating system is the second operating system, wherein the second key event is a key event identifiable by the second operating system, and the second operating system and the first operating system are operating systems of different types; a kind of electronic device with high-pressure air-conditioning system

The event forwarding module is used for forwarding the second key event to the second operating system so that the second operating system executes response operation associated with the first key event;

the first operating system and the second operating system interact with the touch system data respectively, and the touch system is multiplexed by the first operating system and the second operating system in a time-sharing way;

in the step of forwarding the second key event to the second operating system so that the second operating system executes a response operation associated with the first key event, after the first operating system converts the first key event into the second key event, forwarding the second key event to a touch system, and then sending the second key event to the second operating system by the touch system;

the system acquisition module acquires the currently presented operating system based on the first key event, including: reading a current signal source in response to the first key event, wherein the current signal source is determined by collecting data of the touch system; and determining the operating system corresponding to the current signal source as the currently presented operating system.

6. The system main board of the dual system is used for the intelligent integrated machine, is detachably connected with a receiver of an intelligent pen and is used for receiving a first key event through the receiver of the intelligent pen, and the first key event represents remote control operation on the intelligent integrated machine; the system main board is characterized by comprising:

a processor for executing a program to implement the method of any of claims 1-4.

7. An intelligent all-in-one machine, which is characterized by comprising:

a first system motherboard configured to run a first operating system, the first operating system running instructions implementing the method of any of claims 1-4;

a second system motherboard configured to run a second operating system;

and the display screen is respectively connected with the first system main board and the second system main board so as to respectively display data sent by the first system main board and the second system main board.

8. The intelligent all-in-one machine according to claim 7, further comprising:

the receiver of the intelligent pen is detachably connected with the first system main board;

and the first system main board receives a first key event sent by the intelligent pen controller through a receiver of the intelligent pen.