CN106843478A - The method and system of multiple computers are controlled by single input equipment automatic conversion - Google Patents

Abstract

The present invention relates to a kind of method and system by single input equipment automatic conversion control multiple computers.It solve existing input equipment cannot carry out automatically multiple computers control switching the problems such as.The method is comprised the following steps：S1:One input equipment is connected with some host computers simultaneously by wireless communication module, input equipment monitoring module is set on host computer；S2：Input equipment monitoring module receives the biological information of the user of the physical characteristics collecting module collection on corresponding host computer respectively, and the information of the currently used host computer of user is determined by the comparing result of each biological information, then corresponding host computer obtains the control of input equipment.Advantage is：Can be by face recognition, various biological information automatic identification users such as iris recognition and can make the host computer automatically obtain the control of input equipment using the intention of specific host computer, without carrying out manual switching, simplify user's operation.

Description

Method and system for automatically switching and controlling multiple computers through single input device

Technical Field

The invention belongs to the technical field of electronic equipment, and particularly relates to a method and a system for automatically switching and controlling a plurality of computers through single input equipment.

Background

With the increasing importance of computers in our daily life and work, many times, one computer cannot meet our daily life and use, and needs to control multiple computers to process complex and heavy work, but with the increasing of computers, our peripheral devices also increase, for example, each computer needs to be equipped with input devices such as a mouse, a keyboard and the like, so that the desk is often covered with messy keyboard and mouse lines, which is inconvenient to operate, and increases the use cost of users, so that an input device capable of controlling multiple computers at the same time is needed, and the input device does not need to be frequently replaced during work.

To solve the above problems, people have long searched for, for example, a chinese patent discloses a switchable intelligent wireless mouse [ application No.: 201510244532.4], including mouse body and receiving adapter, characterized in that, the receiving adapter is more than 1, the mouse body has switchable function and is provided with the switch button, through switching the switch button selects the mouse receiving adapter.

Also, for example, a wireless keyboard and a wireless mouse which can control a plurality of computers as disclosed in the chinese patent application No.: 201520242473.2], comprising a wireless keyboard, a wireless mouse and a plurality of wireless receivers, wherein the wireless keyboard and the wireless mouse are wirelessly connected with the plurality of wireless receivers, and the wireless receivers are connected with the host; the wireless keyboard is provided with a change-over switch, the change-over switch is connected with the wireless keyboard in an embedded manner, the wireless keyboard is internally provided with a key detection circuit, a microcontroller and a keyboard wireless transmitter, the microcontroller is connected with the change-over switch and the key detection circuit, and the microcontroller is connected with the keyboard wireless transmitter; the wireless mouse is internally provided with a mouse wireless transmitter.

Although the two schemes solve the problem that a plurality of computers need to be configured with a plurality of input devices to a certain extent, and can realize that one mouse or a keyboard controls a plurality of computers, the two schemes both exist: the intelligent degree is low, and the control button needs to be switched every time the computer is switched, so that the operation of a user is undoubtedly increased, and the user can not accurately switch to the corresponding computer sometimes.

Disclosure of Invention

The invention aims to solve the problems and provides a method for automatically switching and controlling a plurality of computers through a single input device, which can automatically switch and control different computers according to the requirements of users.

Another object of the present invention is to provide a system for automatically switching and controlling multiple computers through a single input device with a high degree of automation.

In order to achieve the purpose, the invention adopts the following technical scheme:

the method for automatically switching and controlling a plurality of computers through a single input device comprises the following steps:

s1: an input device is connected with a plurality of computer hosts through a wireless communication module, and an input device monitoring module is arranged on each computer host connected with the input device;

s2: the input device monitoring module receives the biological characteristic information of the user collected by the biological characteristic collecting module on the corresponding computer host respectively, and determines the information of the computer host currently used by the user according to the comparison result of the biological characteristic information, so that the corresponding computer host obtains the control right of the input device.

The input device monitoring module compares the user biological characteristic information acquired by the biological characteristic acquisition module, such as face information or iris information, to judge which computer host the user uses currently, and the corresponding computer host obtains the control right of the input device, so that manual switching is not needed, and the switching process can be automatically realized according to the use intention of the user.

In the above method for automatically switching and controlling a plurality of computers by a single input device, before step S2, when the input device is in a command input state, step S2 is performed.

That is, step S2 is only started when the input device is in the instruction input state, for example, when the mouse starts to move or the keyboard starts to type, so that the resource waste caused by the input device monitoring module continuously monitoring, calculating and sending data when the user does not use the input device currently can be avoided.

In the method for automatically switching and controlling a plurality of computers through a single input device, the biological characteristic acquisition module comprises any one or more combinations of a face recognition module, an iris recognition module, a fingerprint recognition module and a voice recognition module which are respectively arranged on a computer host.

In the above method for automatically switching and controlling a plurality of computers through a single input device, the biometric information includes any one or more combinations of face information, iris information, fingerprint information and voice information.

In the method for automatically switching and controlling a plurality of computers through a single input device, in step S2, when the biometric feature acquisition module is a face recognition module, the method for determining information of the computer host currently used by the user according to the comparison result of the respective biometric feature information includes:

s2-1, the biological characteristic collecting module on each computer collects the face information of the user;

s2-2, the input device monitoring module respectively receives the face information of the user collected by each biological characteristic collecting module,

and then sequentially calculating the face front orientation rate of the user facing each computer host in the user face information, and sending the calculation result to the input equipment through the wireless communication module, wherein the input equipment obtains the computer host with the highest face front orientation rate of the user according to the calculation result to obtain the control right of the input equipment.

In the above method for automatically switching and controlling a plurality of computers through a single input device, in step S2, when the biometric acquisition module is an iris recognition module, the method for determining information of the host computer currently used by the user through the comparison result of the respective biometric information includes:

a, biological characteristic acquisition modules on all computer hosts respectively acquire user iris information and send acquisition results to an input equipment monitoring module;

b, the input equipment monitoring module analyzes and obtains the information of the computer host towards which the current sight of the user faces according to the acquisition result,

and sending the information of the computer host with the current sight orientation of the user to the input equipment through the wireless communication module, wherein the input equipment obtains the control right of the input equipment obtained by the computer host with the current sight orientation of the user.

In the above method for automatically switching and controlling a plurality of computers by a single input device, the input device includes any one or more of a mouse, a keyboard, a scanner, a light pen, a handwriting input board, a joystick and a voice input module.

In the method for automatically switching and controlling a plurality of computers through a single input device, the wireless communication module is any one or combination of a bluetooth module, a 27M wireless module, a 2.4G wireless module, a ZigBee module and a WIFI module. Preferably, the wireless communication module is a bluetooth module.

The system for automatically switching and controlling a plurality of computers through a single input device based on the method for automatically switching and controlling a plurality of computers through a single input device is as follows:

the system for automatically switching and controlling a plurality of computers through single input equipment comprises the input equipment,

the input device is respectively connected with a plurality of computer hosts through wireless communication modules,

the computer host is respectively provided with an input equipment monitoring module,

the input equipment monitoring module is connected with a biological characteristic acquisition module;

wherein,

the input equipment is used for inputting instructions to the computer host;

the computer host is used for receiving the instruction input by the input equipment;

the wireless communication module is used for wirelessly connecting the input equipment with the computer host;

the biological characteristic acquisition module is arranged on each computer host and is used for acquiring the current biological characteristic information of the user;

the input device monitoring module is used for receiving the biological characteristic information of the user collected by the biological characteristic collecting module on the corresponding computer host,

and determining the information of the computer host currently used by the user according to the comparison result of each piece of biological characteristic information.

In the technical scheme, the input device can be a mouse, a keyboard and the like, and the biological characteristic information which is acquired by the biological characteristic acquisition module and corresponds to each computer host can be automatically analyzed by the input device monitoring module, so that which computer host is used by a user can be judged, manual switching is not needed, and the degree of automation is high.

In the system for automatically switching and controlling a plurality of computers through single input equipment, the biological characteristic acquisition module is connected with the trigger module; wherein,

a trigger module for detecting whether the input device is in a command input state,

if the input equipment is in the instruction input state, the input equipment monitoring module operates;

and if the input equipment is not in the instruction input state, the input equipment monitoring module does not operate.

The invention can automatically identify the intention of the user to use the specific computer host through various biological characteristic information such as face identification, iris identification and the like, and can ensure that the computer host automatically obtains the control right of the input equipment without manual switching, thereby simplifying the user operation.

The system has simple hardware frame and high automation degree, can intelligently establish the control relation between the input equipment and each computer host according to the intention of the user, and has high switching precision.

Drawings

FIG. 1 is a flow chart of a first embodiment of the present invention;

fig. 2 is a block diagram of a first embodiment of the present invention.

In the figure, the system comprises a wireless communication module 1, an input device 2, a computer host 3, an input device monitoring module 4, a biological characteristic acquisition module 5, a face recognition module 51, an iris recognition module 52 and a trigger module 6.

Detailed Description

The following is a preferred embodiment of the present invention and is further described with reference to the accompanying drawings, but the present embodiment is not limited to these embodiments.

Example one

Aiming at the problem that the input equipment needs to be manually switched to select and control a computer host at present, the embodiment provides a technical scheme of a method for automatically switching and controlling a plurality of computers through single input equipment.

Referring to fig. 1-2 in detail, the method for automatically switching and controlling a plurality of computers through a single input device in the embodiment specifically includes the following steps:

step S1: an input device 2 is simultaneously connected with a plurality of computer hosts 3 through a wireless communication module 1, and an input device monitoring module 4 is arranged on each computer host 3 connected with the input device 2;

the wireless communication module 1 here is any one or a combination of more than one of a bluetooth module, a 27M wireless module, a 2.4G wireless module, a ZigBee module, and a WIFI module, and preferably, the wireless communication module 1 here is a bluetooth module.

The input device 2 includes any one or more combination of a mouse, a keyboard, a scanner, a light pen, a handwriting input board, a joystick and a voice input module, that is, the present invention can be applied to various input devices, for example, a single mouse can automatically switch to control a plurality of computers, a single keyboard can automatically switch to control a plurality of computers, and the like.

Step S2: the input device monitoring module 4 receives the biological feature information of the user collected by the biological feature collecting module 5 on the corresponding computer host 3,

the biological characteristic collecting module 5 comprises any one or more combinations of a face recognition module 51, an iris recognition module 52, a fingerprint recognition module and a voice recognition module which are respectively arranged on the computer host 3;

similarly, the biometric information here includes any one or a combination of more of face information, iris information, fingerprint information, and voice information;

then, the information of the computer host 3 currently used by the user is determined through the comparison result of each piece of biological characteristic information, and the corresponding computer host 3 obtains the control right of the input device 2.

That is, the input device monitoring module 4 compares the user biological feature information, such as face information or iris information, acquired by the biological feature acquisition module 5 to determine which computer host 3 the user is currently using, and the corresponding computer host 3 obtains the control right of the input device 2, so that manual switching is not needed, and the switching process can be automatically realized according to the user intention.

Further, before step S2, when the input apparatus 2 is in the instruction input state, step S2 is executed;

that is, step S2 is only started when the input device 2 is in the instruction input state, for example, when the mouse starts to move or the keyboard starts to type, so that the resource waste caused by the input device monitoring module 4 continuously monitoring, calculating and sending data when the user does not use the input device 2 at present can be avoided.

In step S2, when the biometric acquiring module 5 is the face recognition module 51, the method for determining the information of the host computer 3 currently used by the user according to the comparison result of the respective biometric information includes:

s2-1, the biological characteristic collecting module 5 on each computer host 3 collects the face information of the user;

s2-2, the input device monitoring module 4 respectively receives the face information of the user collected by each biological characteristic collection module 5;

then, the face front orientation rate of the user facing each computer host 3 in the user face information is sequentially calculated, the calculation result is sent to the input equipment 2 through the wireless communication module 1, and the input equipment 2 obtains the computer host 3 with the highest face front orientation rate of the user according to the calculation result to obtain the control right of the input equipment 2.

The Bluetooth monitoring module is arranged on each computer to monitor whether the current computer is used or not in real time, the monitoring can monitor whether the face of a person faces towards a computer screen or not through a camera of the computer, and the computer with the highest face facing rate can obtain the control right of the mouse.

The following description specifically exemplifies that the input device 2 is a mouse:

firstly, the mouse is connected with the computer through the Bluetooth, and one mouse can be simultaneously connected with a plurality of computers;

secondly, installing an input equipment monitoring module on a computer connected with the mouse respectively;

the input equipment monitoring module can capture human faces through a computer camera, a plurality of computers can capture the human faces simultaneously,

wherein, if computer 3 is notebook computer, the camera adopts notebook computer for taking the camera certainly, if computer 3 is desktop, needs external camera, and the orientation of this camera should be unanimous with computer 3's screen simultaneously, perhaps directly sets up on computer 3's screen to can accurately be gathered by the camera when guaranteeing user's face orientation computer 3's screen.

Then sequentially calculating the face front orientation rate of each computer, namely the numerical value of the most part of the face facing the computer, for example, the numerical value of the front face facing the computer is higher than the numerical value of the side face facing the computer and the numerical value of the back face facing the computer, then sending all the numerical values to the mouse through a Bluetooth protocol,

and then, determining which computer is controlled by the mouse according to the value, wherein the processes can be executed when the user moves the mouse, so that the situation that the user needs to continuously monitor the face, calculate and send data by a monitoring program and the resource waste is caused by the fact that the mouse is not used at present can be avoided.

Aiming at the problem that the input equipment needs to be manually switched to select and control a computer host at present, the embodiment provides a technical scheme of a method for automatically switching and controlling a plurality of computers through single input equipment.

This system through single input device automatic switching control many computers includes:

an input device 2;

the input device 2 is respectively connected with a plurality of computer hosts 3 through wireless communication modules 1;

the computer host 3 is respectively provided with an input equipment monitoring module 4;

the input equipment monitoring module 4 is connected with a biological characteristic acquisition module 5;

wherein:

an input device 2 for inputting instructions to the computer host 3;

the computer host 3 is used for receiving the instruction input by the input equipment 2;

the wireless communication module 1 is used for wirelessly connecting the input equipment 2 with the computer host 3;

the biological characteristic acquisition module 5 is arranged on each computer host 3 and is used for acquiring the current biological characteristic information of the user;

an input device monitoring module 4 for receiving the biological characteristic information of the user collected by the biological characteristic collecting module 5 on the corresponding computer host 3,

and determines the information of the computer host 3 currently used by the user through the comparison result of each piece of biological characteristic information.

In this scheme, input device 2 can be mouse, keyboard etc. can automatic analysis biological characteristic collection module through input device monitoring module 4 gather with the corresponding biological characteristic information of each computer 3 to judge which computer is used to the user, need not manual switching, degree of automation is high, has greatly simplified user operation.

More specifically, the biometric acquisition module 5 is connected with a trigger module 6;

wherein:

the trigger module 6 is used for detecting whether the input equipment 2 is in an instruction input state;

if the input equipment 2 is in the instruction input state, the input equipment monitoring module 4 operates;

if the input device 2 is not in the command input state, the input device monitoring module 4 is not operated.

That is, as long as the input device 2 is in the instruction input state, for example, when the mouse starts to move or the keyboard starts to type, the trigger module 6 is in the trigger state to enable the input device monitoring module 4 to start operating, so that resource waste caused by that the input device monitoring module 4 continuously monitors, calculates and sends data without using the input device 2 by the user can be avoided.

Example two

The structure, method and implementation steps of the present embodiment are similar to those of the present embodiment, except that:

in step S2, when the biometric acquisition module 5 is the iris recognition module 52, the method for determining the information of the host computer 3 currently used by the user according to the comparison result of the respective biometric information includes:

a, a biological characteristic acquisition module 5 on each computer host 3 respectively acquires user iris information and sends an acquisition result to an input equipment monitoring module 4;

and B, the input equipment monitoring module 4 analyzes and obtains the information of the computer host 3 of the current sight orientation of the user according to the acquisition result, and sends the information of the computer host 3 of the current sight orientation of the user to the input equipment 2 through the wireless communication module 1, and the computer host 3 of the current sight orientation of the user obtained by the input equipment 2 obtains the control right of the input equipment 2.

Specifically, when the input device 2 such as a mouse, a keyboard and the like is in a command input state, the iris recognition modules on the computer hosts 3 respectively collect iris information of users, the iris recognition modules mainly comprise cameras arranged on screens of the computer hosts 3, theoretically, only the iris recognition module on one computer host 3 can collect the iris information of the user, the input device monitoring module 4 receives the iris information collected by the iris recognition module and sends the iris information to the input device through the Bluetooth module, and therefore the computer host which collects the iris information of the user is determined to obtain the control right of the input device.

Compared with the prior art, the invention has the advantages that:

by the technical scheme, the input equipment such as a single mouse, a keyboard and the like can be simultaneously connected with a plurality of computer hosts, the intention of a user for using the specific computer host is automatically identified through various biological characteristic information such as face identification, iris identification and the like, the computer host can automatically acquire the control right of the input equipment, manual switching is not needed, user operation is simplified, meanwhile, the hardware framework of the system is simple, the automation degree is high, the control relation between the input equipment and each computer host can be intelligently established according to the intention of the user, and the switching precision is high.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although the terms wireless communication module 1, input device 2, computer host 3, input device monitoring module 4, biometric acquisition module 5, face recognition module 51, iris recognition module 52, trigger module 6, etc. are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (10)

1. A method for automatically switching and controlling a plurality of computers through a single input device is characterized by comprising the following steps:

s1: an input device (2) is simultaneously connected with a plurality of computer hosts (3) through a wireless communication module (1), and simultaneously, an input device monitoring module (4) is arranged on each computer host (3) connected with the input device (2);

s2: the input equipment monitoring module (4) respectively receives the biological characteristic information of the user, which is acquired by the biological characteristic acquisition module (5) on the corresponding computer host (3), and determines the information of the computer host (3) currently used by the user according to the comparison result of the biological characteristic information, so that the corresponding computer host (3) obtains the control right of the input equipment (2).

2. The method for automatically switching control of computers through single input device according to claim 1, wherein before step S2, when the input device (2) is in the command input state, step S2 is performed.

3. The method for automatically switching and controlling a plurality of computers through a single input device according to claim 2, wherein the biological feature acquisition module (5) comprises any one or more combinations of a face recognition module (51), an iris recognition module (52), a fingerprint recognition module and a voice recognition module which are respectively arranged on the computer host (3).

4. The method of claim 3, wherein the biometric information comprises any one or more of face information, iris information, fingerprint information and voice information.

5. The method for automatically switching and controlling a plurality of computers through a single input device according to claim 4, wherein in step S2, when the biometric characteristic collection module (5) is a face recognition module (51), the method for determining the information of the computer host (3) currently used by the user through the comparison result of the biometric information comprises:

s2-1, the biological feature acquisition module (5) on each computer host (3) respectively acquires the face information of the user;

s2-2, the input device monitoring module (4) receives the face information of the user collected by the biological characteristic collection modules (5), then sequentially calculates the face front orientation rate of the user facing each computer host (3) in the face information of the user and sends the calculation result to the input device (2) through the wireless communication module (1), and the input device (2) obtains the computer host (3) with the highest face front orientation rate of the user according to the calculation result to obtain the control right of the input device (2).

6. The method for automatically switching and controlling a plurality of computers through a single input device according to claim 4 or 5, wherein in step S2, when the biometric acquisition module (5) is the iris recognition module (52), the method for determining the information of the host computer (3) currently used by the user through the comparison result of the respective biometric information comprises:

a, a biological characteristic acquisition module (5) on each computer host (3) respectively acquires user iris information and sends an acquisition result to an input equipment monitoring module (4);

and B, the input equipment monitoring module (4) analyzes and obtains the information of the computer host (3) towards which the current sight of the user faces according to the acquisition result, and sends the information of the computer host (3) towards which the current sight of the user faces to the input equipment (2) through the wireless communication module (1), and the computer host (3) towards which the current sight of the user faces is obtained by the input equipment (2) to obtain the control right of the input equipment (2).

7. The method of claim 6, wherein the input device (2) comprises any one or more of a mouse, a keyboard, a scanner, a light pen, a handwriting input board, a joystick and a voice input module.

8. The method for automatically switching and controlling a plurality of computers through a single input device according to claim 1, wherein the wireless communication module (1) is any one or more of a Bluetooth module, a 27M wireless module, a 2.4G wireless module, a ZigBee module and a WIFI module.

9. A system for automatically switching and controlling a plurality of computers through a single input device based on the method for automatically switching and controlling a plurality of computers through a single input device as claimed in claims 1-8, which is characterized in that the system comprises the input device (2), the input device (2) is respectively connected with a plurality of computer hosts (3) through wireless communication modules (1), the computer hosts (3) are respectively provided with an input device monitoring module (4), and the input device monitoring module (4) is connected with a biological characteristic acquisition module (5); wherein,

the input equipment (2) is used for inputting instructions to the computer host (3);

the computer host (3) is used for receiving the instruction input by the input equipment (2);

the wireless communication module (1) is used for wirelessly connecting the input equipment (2) with the computer host (3);

the biological characteristic acquisition module (5) is arranged on each computer host (3) and is used for acquiring the current biological characteristic information of the user;

an input device monitoring module (4) for receiving the biological characteristic information of the user collected by the biological characteristic collecting module (5) on the corresponding computer host (3),

and the information of the computer host (3) currently used by the user is determined according to the comparison result of each piece of biological characteristic information.

10. The system for automatically switching and controlling a plurality of computers through a single input device according to claim 9, wherein the biometric acquisition module (5) is connected with a triggering module (6); wherein,

a trigger module (6) for detecting whether the input device (2) is in a command input state,

if the input equipment (2) is in the instruction input state, the input equipment monitoring module (4) operates;

and if the input equipment (2) is not in the instruction input state, the input equipment monitoring module (4) does not operate.