CN103702159B - Man-machine interaction control method, intelligent television, Wearable and system - Google Patents

Abstract

This application discloses a kind of man-machine interaction control method, intelligent television, Wearable and system.The man-machine interaction control method of intelligent television includes：Receive the request signal for building radio communication chain circuit；According to the request signal for building radio communication chain circuit, within the time of setting, answer signal is sent, sign successfully builds radio communication chain circuit；The wireless human-computer interactive control signal transmitted through the radio communication chain circuit is obtained, the wireless human-computer interactive control signal is parsed, parses the control action that object is presented for current time for the wireless human-computer interactive control signal；The object that current time is presented is controlled according to the control action parsed.In the application, the substitutability of man-machine interaction and the portability of man-machine interaction are enhanced.

Description

Human-computer interaction control method, smart television, wearable device and system

Technical Field

The application relates to the technical field of human-computer interaction, in particular to a human-computer interaction control method, a smart television, wearable equipment and a system.

Background

The combination of traditional tv and internet also resulted in the creation of smart tv. The intelligent television is provided with a main control chip and a fully-open software platform, is loaded with an operating system, can automatically install and uninstall programs provided by third-party service providers such as software and games, continuously expands the functions of the television through the programs, and can realize surfing on the internet through a network cable and a wireless network, thereby realizing the 'requirement customization' and 'television entertainment' of the television.

Compared with the traditional television, on one hand, the intelligent television has the internet access function and can access the internet in real time, so that online network games, online music appreciation, timely weather query, timely stock query, news flash newspaper and the like can be realized; on the other hand, because the television is provided with a main control chip, an operating system, a storage function and the like, return visit rebroadcasting, on-demand playing and the like can be realized, while the traditional television can only passively watch programs, can only select channels and cannot on-demand contents; only watching in real time and in sequence, and not replaying; only information can be received and interaction cannot be carried out.

However, for the implementation of the above functions of the smart television, the method still depends on a man-machine interaction technology customized for the smart television. At present, in the aspect of human-computer interaction, an intelligent television and a traditional television have no revolutionary difference, and are combined with a family using environment, the intelligent television and the traditional television are both realized by configuring a remote controller, and the remote controller is provided with a physical button capable of realizing a plurality of operations. Information interaction between the remote controller and the smart television is usually realized based on an infrared technology.

Therefore, in order to operate conveniently, on one hand, each intelligent television must be provided with a remote controller, and interaction with the intelligent television must depend on the remote controller. Once the remote controller is lost or fails, another man-machine interaction channel cannot be built in time. In other words, the man-machine interaction scheme of the existing smart television is poor in replaceability. On the other hand, each smart television is provided with a remote controller, so that the portability of human interaction is poor.

Disclosure of Invention

The technical problem that this application will be solved lies in providing a human-computer interaction control method, the smart television, wearable equipment and system, through having built the wireless communication link between wearable equipment and the smart television, can be by wearable equipment to smart television transmission wireless human-computer interaction control signal based on this wireless communication link, thereby the use of remote controller has been avoided, even the remote controller loses or breaks down, the correlation function realization of remote controller can be realized by wearable equipment completely, human-computer interaction's substitutability has been strengthened, human-computer interaction's portability has been improved simultaneously.

In order to solve the above problem, the present application discloses a human-computer interaction control method for a smart television, which includes:

receiving a request signal for building a wireless communication link;

according to the request signal for building the wireless communication link, sending a response signal within a set time to represent that the wireless communication link is successfully built;

acquiring a wireless man-machine interaction control signal transmitted by the wireless communication link, analyzing the wireless man-machine interaction control signal, and analyzing a control action of the wireless man-machine interaction control signal aiming at a current presented object;

and controlling the object presented at the current moment according to the analyzed control brake.

Further, receiving a request signal for establishing a wireless communication link includes:

receiving a request signal for building a wireless communication link transferred by a wireless route, wherein the request signal for building the wireless communication link is generated according to a touch event for building the wireless communication link, and the touch event for building the wireless communication link is generated according to the touch of a control for building the set wireless communication link;

or receiving a request signal for building a wireless communication link sent by a Bluetooth module, wherein the request signal for building the wireless communication link is generated according to a touch event for building the wireless communication link, and the touch event for building the wireless communication link is generated according to the touch event for building a control for the set wireless communication link.

Further, acquiring the wireless human-computer interaction control signal transmitted through the wireless communication link includes:

acquiring the wireless human-computer interaction control signal transferred by a wireless route, wherein the wireless human-computer interaction control signal is generated according to a human-computer interaction touch event, and the human-computer interaction touch event is generated according to the touch of a human-computer interaction control;

or acquiring the wireless human-computer interaction control signal sent by the Bluetooth module, wherein the wireless human-computer interaction control signal is generated according to a human-computer interaction touch event, and the human-computer interaction touch event is generated according to the touch of the set human-computer interaction control.

Further, the controlling the object presented on the smart television at the current moment according to the analyzed control brake includes:

processing the object presented at the current moment according to the analyzed control brake and keeping the object presented locally; or,

and processing the presented object and sending the object through the wireless communication link.

In order to solve the above problem, the present application discloses a human-computer interaction control method for a smart television, which includes:

generating and sending a request signal for building a wireless communication link;

receiving a response signal for building the wireless communication link sent according to the request signal for building the wireless communication link within a set time, and representing that the wireless communication link is successfully built;

and generating and sending a wireless man-machine interaction control signal through the wireless communication link.

Further, generating and transmitting a request signal for establishing a wireless communication link:

generating a touch event for establishing the wireless communication link according to the touch of the control for establishing the set wireless communication link;

generating a request signal for building a wireless communication link according to the touch event for building the wireless communication link;

and sending the request signal for establishing the wireless communication link through a wireless router or a Bluetooth module.

Further, generating and sending the wireless human-computer interaction control signal through the wireless communication link comprises:

generating a human-computer interaction touch event according to the touch of the set human-computer interaction control;

generating the wireless human-computer interaction control signal according to the human-computer interaction touch event;

and sending the wireless man-machine interaction control signal through a wireless router or a Bluetooth module.

In order to solve the above problem, the present application discloses a smart tv, which includes:

the receiving unit is used for receiving a request signal for building a wireless communication link;

the sending unit is used for sending a response signal for building the wireless communication link within a set time according to the request signal for building the wireless communication link, and representing that the wireless communication link is successfully built;

the central processing unit is used for acquiring the wireless human-computer interaction control signal transmitted by the wireless communication link, analyzing the wireless human-computer interaction control signal and analyzing the control action of the wireless human-computer interaction control signal aiming at the current presented object; and controlling the object presented at the current moment according to the analyzed control brake.

In order to solve the above problem, the present application discloses a wearable device, which includes:

the transmitting unit is used for generating and transmitting a request signal for building a wireless communication link;

the receiving unit is used for receiving a response signal for building the wireless communication link sent according to the request signal for building the wireless communication link within set time and representing that the wireless communication link is successfully built;

and the central processing unit is used for generating and sending a wireless man-machine interaction control signal through the wireless communication link.

In order to solve the above problem, the present application discloses a human-computer interaction system, which includes: above-mentioned smart television and wearable equipment.

And further, the system also comprises a wireless router which is used for transferring and transmitting the request signal for building the wireless communication link, the response signal for building the wireless communication link and the wireless man-machine interaction control signal.

Furthermore, the smart television and the wearable device both comprise a Bluetooth module for directly transmitting the request signal for establishing the wireless communication link, the response signal for establishing the wireless communication link and the wireless human-computer interaction control signal.

Compared with the prior art, the application can obtain the following technical effects:

the wireless communication link between the intelligent watch and the intelligent television is built, and the wireless man-machine interaction control signal can be transmitted to the intelligent television by the intelligent watch based on the wireless communication link, so that the use of a remote controller is avoided, and the related functions of the remote controller can be completely realized by the intelligent watch even if the remote controller is lost or breaks down, so that the replaceability of man-machine interaction is enhanced, and the portability of the man-machine interaction is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a flowchart of a method according to a first embodiment of the present application.

Fig. 2 is a flowchart of a method of example two of the present application.

Fig. 3 is a flowchart of a method according to a third embodiment of the present application.

Fig. 4 is a flowchart of a method embodiment of the present application for generating and transmitting a request signal for establishing a wireless communication link.

Fig. 5 is a flowchart illustrating the method of the present application for generating and transmitting a wireless human-computer interaction control signal via the wireless communication link.

Fig. 6 is a schematic structural diagram of a terminal according to a fourth embodiment of the present application.

Fig. 7 is a schematic structural diagram of a terminal according to a fifth embodiment of the present application.

Fig. 8 is a schematic structural diagram of a human-computer interaction system according to a sixth embodiment of the present application.

Fig. 9 is a schematic structural diagram of a human-computer interaction system according to a seventh embodiment of the present application.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to substantially achieve the technical effect. Furthermore, the term "coupled" is intended to encompass any direct or indirect electrical coupling. Thus, if a first device couples to a second device, that connection may be through a direct electrical coupling or through an indirect electrical coupling via other devices and couplings. The description which follows is a preferred embodiment of the present application, but is made for the purpose of illustrating the general principles of the application and not for the purpose of limiting the scope of the application. The protection scope of the present application shall be subject to the definitions of the appended claims.

Because wearable equipment has adopted intelligent design, operating system, master control chip have mostly, for example intelligent wrist-watch, intelligent wrist, intelligent glasses. The current smart television also has an operating system, a main control chip and the like. Therefore, both have the conventional data processing capability and have the data processing condition of man-machine interaction.

In the following embodiments of the present application, a man-machine interaction between a smart watch in a wearable device and a smart tv is described as an example. Of course, it will be obvious to those skilled in the art that the present invention can be applied to human-computer interaction between other intelligent devices without creative work.

Example one

As shown in fig. 1, a flowchart of a method according to a first embodiment of the present application includes:

s100, receiving a request signal for building a wireless communication link generated by the wearable device according to a trigger operation on the wearable device;

in this embodiment, if the smart watch has a touch display screen, an icon may be set on the touch display screen in a software setting manner, and when the user touches the icon, the processing procedure in step S100 is started. If the touch display screen of the smart watch is small in size and it is difficult to set an icon in an effective display range through software, a hardware trigger switch may be set on the smart watch to generate the request signal for establishing the wireless communication link in step S100. Step S100 may also be initiated by multiplexing a hardware switch on the smart watch, such as a standby key. Certainly, the starting of step S100 in the present application is not limited to the above-mentioned several ways, for example, a voice control way may also be adopted to start the request signal for establishing the wireless communication link in step S100, and details are not described herein again. The request signal for establishing the wireless communication link may include a source identifier and a destination identifier, which may be implemented by mac addresses of the smart watch and the smart television.

Step S102, according to the request signal for building the wireless communication link, in a set time, the intelligent television returns a response signal for building the wireless communication link to the wearable device, and the fact that the wireless communication link is successfully built is represented;

in this embodiment, once a response signal for establishing the wireless communication link is returned within a set time, it is indicated that the wireless communication link between the smart watch and the smart television is established successfully, and a subsequent transmission of a human-computer interaction operation instruction can be performed.

It should be noted that, in the present application, at regular intervals, the smart watch may actively obtain a response signal for establishing the wireless communication link returned by the smart television, and if the response signal is obtained, it is indicated that the wireless communication link is successfully established, otherwise, it is indicated that the wireless communication link is not successfully established at the current time. Certainly, a response signal for building a wireless communication link can be actively sent to the smart watch by the smart television at regular intervals to be acquired by the smart watch, if the response signal is acquired, the fact that the wireless communication link is successfully built is indicated, otherwise, the fact that the wireless communication link is not successfully built at the current moment is indicated.

In a specific application example, the content of step S102 may be executed multiple times until the wireless communication link is successfully established.

When the wireless communication link is successfully established, the smart watch is immediately switched from a conventional content display page to a control page for providing interaction with the smart television, for example, icons set by four software, namely an icon of an upper software, a icon of a lower software, an icon of a left software and an icon of a cancel software, are displayed in a display area of the smart watch. Of course, if the display area is too small, the hardware keys on the smart watch, such as the hardware volume control switch on the smart watch, may also be multiplexed.

Step S104, the intelligent television acquires a wireless man-machine interaction control signal which is generated by the wearable device according to the triggering operation of the wearable device and is transmitted through the wireless communication link, analyzes the wireless man-machine interaction control signal, and analyzes the control action of the wireless man-machine interaction control signal on the intelligent television aiming at the object presented on the intelligent television at the current moment;

since the wireless communication link for wireless man-machine interaction between the smart watch and the smart television has been successfully established through the foregoing steps S100 and S102. The wireless communication link may be based on a wifi function or a bluetooth (BT for short) on the smart watch, which is described in detail in the following embodiments and is not described herein again.

And S106, controlling the object displayed on the intelligent television at the current moment according to the analyzed control brake.

Through the steps S104 and S106, the trigger operation obtained on the smart watch is transmitted to the smart television through the wireless communication link, the smart television analyzes the trigger operation, and the corresponding control action is analyzed from the trigger operation, so that the operation of the object presented on the smart television is executed. For example, volume control and fast forward control are performed on audio and video files played on the smart television, page up and page down control is performed on page content on the smart television, confirmation of actions is cancelled, and the like.

In the above embodiments, it should be noted that, because the smart watch generally has a limited effective display area. Therefore, when the smart television is controlled through the smart watch, only the main control keys, such as the volume control, the fast forward control, the page up and down control, and the confirmation cancellation control, are displayed on the effective display area of the smart watch.

Therefore, in the first embodiment of the application, the wireless communication link between the smart watch and the smart television is established, and therefore, the wireless man-machine interaction control signal can be transmitted to the smart television by the smart watch based on the wireless communication link, so that the use of the remote controller is avoided, and even if the remote controller is lost or breaks down, the related functions of the remote controller can be completely realized by the smart watch, so that the replaceability of man-machine interaction is enhanced, and the portability of man-machine interaction is improved.

Example two

In this embodiment, the building of the wireless communication link between the smart watch and the smart television and the man-machine interaction between the smart watch and the smart television are realized through wifi on the smart watch, which is taken as an example for explanation. Before this, the smart watch and the smart television have respectively established communication connection with the wireless router.

As shown in fig. 2, a method flowchart of a second embodiment of the method of the present application includes:

and S200, the intelligent television receives the request signal for building the wireless communication link transferred by the wireless route.

In this embodiment, the request signal for establishing the wireless communication link is generated according to a touch event for establishing the wireless communication link generated by the wearable device, and the touch event for establishing the wireless communication link is generated according to a touch event for establishing a control for a wireless communication link set on a touch screen of the wearable device.

Specifically, a wireless communication link establishment control icon is defined on a touch screen on the smart watch through software, a touch event for establishing the wireless communication link is generated according to the touch event through touch of the icon, and a request signal for establishing the wireless communication link is generated through analysis of the touch event by a processor of the smart watch. For example, a shortcut implementation of a photo function on the iphone may be referred to, or a gesture may be defined, as long as the gesture is captured, for example, a circle is drawn along the touch screen by counterclockwise touch, so as to generate a touch event for establishing a wireless communication link and generate a request signal for establishing the wireless communication link.

Step S202, the smart television returns a response signal for building the wireless communication link to the smart watch through the wireless router within a set time according to the request signal for building the wireless communication link, and the wireless communication link is represented to be successfully built;

in this embodiment, because wireless communication link is built based on the wifi function of smart watch, consequently, all signals of transmission between smart television and the smart watch all forward through wireless route.

As described above, in this embodiment, once a response signal for establishing the wireless communication link is returned within a set time, it indicates that the wireless communication link between the smart watch and the smart television is established successfully, and a subsequent transmission of a human-computer interaction operation instruction can be performed. The smart watch can actively acquire the response signal for building the wireless communication link returned by the smart television at a certain time interval, or actively send the response signal for building the wireless communication link to the smart watch at a certain time interval through the smart television for the smart watch to acquire. In a specific application example, the content of step S202 may be executed multiple times until the wireless communication link is successfully established.

When the wireless communication link is successfully established, the smart watch is immediately switched from a conventional content display page to a control page providing interaction with the smart television, for example, icons set by four software, namely an icon set by an upper software, a lower software, a left software and a right software, and icons set by an ok software and a cancel software, can be displayed in a display area of the smart watch.

And S204, the intelligent television acquires a wireless man-machine interaction control signal which is generated by the intelligent watch according to the triggering operation of the intelligent watch and is forwarded through the wireless router, analyzes the wireless man-machine interaction control signal, and analyzes the control action of the wireless man-machine interaction control signal on the object presented on the intelligent television at the current moment.

In this embodiment, the control action of the object presented on the smart television at the current moment is performed. As described above, considering the effective display area of the smart watch, for example, four icons, up, down, left, and right, are displayed in the effective display area, the up and down buttons indicate up and down switching of program channel switching, and the left and right buttons indicate control of volume. And respectively generating corresponding wireless human-computer interaction control signals by touch control of the four keys. Of course, different wireless human-computer interaction control signals can be set by software, for example, different code values are used to represent different wireless human-computer interaction control signals, 00 and 01 respectively represent channel switching signals generated by triggering an upper key and a lower key, and 10 and 11 respectively represent volume control signals generated by touching a left key and a right key.

Of course, if the current moment shows the audio/video file being played, the up-down button may be defined as the switching of the previous and next audio/video files, and the left-right button is defined as the control of the volume.

And S206, the intelligent television controls the object displayed on the intelligent television at the current moment according to the analyzed control brake.

In the application, code values of different control actions are defined, so that the processor of the smart television can obtain the corresponding control action from the analyzed code value, and the control of the object presented on the smart television at the current moment is completed.

In the second embodiment of the method, a wireless local area network comprising the smart watch, the smart television and the wireless router is formed by using the wifi function of the smart watch and externally matching the wireless router, the wireless communication link is built through the wireless router in the wireless local area network, and the subsequent man-machine interaction between the smart television and the smart watch is realized, so that the use of a remote controller is avoided, and the replaceability and portability of the man-machine interaction are enhanced.

EXAMPLE III

In this embodiment, establish wireless communication link and realize the man-machine interaction between intelligent wrist-watch and the intelligent TV with bluetooth module on the intelligent wrist-watch. The effective communication distance of the Bluetooth module is 0-10m, so that the requirement of most application environments can be well met.

As shown in fig. 3, which is a flowchart of a method in the third embodiment of the present application, the method may include:

step S300, the smart television receives a request signal for building a wireless communication link, which is sent by a Bluetooth module of the smart watch;

the request signal for building the wireless communication link is generated according to a touch event for building the wireless communication link, which is generated by the wearable device, and the touch event for building the wireless communication link is generated according to a touch event for building a control for the wireless communication link, which is set on a touch screen of the wearable device.

The method is the same as the method in the embodiment, specifically, a wireless communication link establishment control icon is defined on a touch screen of the smart watch through software, a touch event for establishing the wireless communication link is generated by touching the icon, and a request signal for establishing the wireless communication link is generated by analyzing the touch event through a processor of the smart watch. For example, a shortcut implementation of a photo function on the iphone may be referred to, or a gesture may be defined, as long as the gesture is captured, for example, a circle is drawn along the touch screen by counterclockwise touch, so as to generate a touch event for establishing a wireless communication link and generate a request signal for establishing the wireless communication link.

Of course, in another embodiment, if a certain number of hardware operating components are provided on the smart watch itself, a certain hardware operating component may be reused, for example, if the turn-on key is pressed for a period longer than a set time, the generation of the request signal for establishing the wireless communication link may be triggered.

In this embodiment, the communication of the bluetooth module may be point-to-point communication, and may also be a point-to-point or point-to-multipoint mode. For example, when only the content playing function of the smart television is utilized, a point-to-point communication mode can be utilized. If a plurality of people use the intelligent television to play online games, a multipoint and multipoint communication mode can be adopted.

Step S302, the smart television returns a response signal for building the wireless communication link through the Bluetooth module of the smart watch within a set time according to the request signal for building the wireless communication link, and the wireless communication link is represented to be successfully built;

and S304, acquiring a wireless human-computer interaction control signal generated by the smart watch according to the triggering operation of the smart watch and transmitted by the Bluetooth module, analyzing the wireless human-computer interaction control signal, and analyzing the control action of the wireless human-computer interaction control signal on the object presented on the smart television at the current moment.

Different from the second method embodiment, in this step, the transmission of the point-to-multipoint or point-to-multipoint wireless human-computer interaction control signal is directly performed between the smart watch and the smart television through the bluetooth module without the relay of the wireless router. In the embodiment, the wireless human-computer interaction control signal is based on the Bluetooth module, and full duplex transmission can be realized by adopting a time division duplex transmission scheme, so that the data transmission efficiency is improved to a certain extent, and the human-computer interaction operation smoothness is ensured.

And S306, processing the object presented on the smart television, pushing the object out through a Bluetooth module on the smart television, and presenting the object on the smart watch.

The objects presented on the smart television are, for example, some advertisement information or information that the user likes, such as an electronic coupon, a showing date reminder of a movie of interest, and the like.

In the second embodiment of the method, the intelligent watch and the intelligent television directly transmit the point-to-multipoint or point-to-multipoint wireless man-machine interaction control signals through the Bluetooth module without the transfer of a wireless router, so that the replaceability and convenience of man-machine interaction are enhanced. Meanwhile, in the embodiment, the wireless human-computer interaction control signal is based on the Bluetooth module, and full duplex transmission can be realized by adopting a time division duplex transmission scheme, so that the data transmission efficiency is improved to a certain extent, and the human-computer interaction operation smoothness is ensured.

Fig. 4 is a flowchart illustrating a method of generating and transmitting a request signal for establishing a wireless communication link according to an embodiment of the present invention; it may include:

step S400, establishing touch control of a control according to a wireless communication link arranged on a touch screen of the smart watch, and generating a touch control event for establishing the wireless communication link;

step S402, generating a request signal for building the wireless communication link according to the touch event for building the wireless communication link;

and S404, sending the request signal for building the wireless communication link to the smart television through a wireless router or a Bluetooth module in the smart watch.

The detailed process is not described herein.

Fig. 5 is a flowchart of a method embodiment of the present application for generating and transmitting a wireless human-computer interaction control signal through the wireless communication link; it may include:

step S500, generating a human-computer interaction touch event according to touch of a human-computer interaction control arranged on a touch screen of the intelligent watch;

step S502, generating the wireless man-machine interaction control signal according to the man-machine interaction touch event;

and step S504, sending the wireless man-machine interaction control signal to the smart television through a wireless router or a Bluetooth module of the smart watch.

Example four

As shown in fig. 6, a schematic view of a terminal structure in a fourth embodiment of the present application is provided, specifically taking the terminal as an example of an intelligent electronic device, which may include: a first receiving unit 600, a first sending unit 602, and a first central processor 604, wherein:

the first receiving unit 600 is configured to receive a request signal for establishing a wireless communication link, which is generated by the wearable device according to a trigger operation on the wearable device;

the first receiving unit 600 may be a wifi function-based receiving unit or a bluetooth function-based receiving unit.

The first sending unit 602 is configured to return a response signal for establishing a wireless communication link to the wearable device within a set time according to the request signal for establishing the wireless communication link, so as to represent that the wireless communication link is successfully established.

The first sending unit 602 may be a wifi function-based sending unit, and may also be a bluetooth function-based sending unit.

The first central processor 604 is configured to obtain a wireless human-computer interaction control signal generated by the smart watch according to a trigger operation on the smart watch and transmitted through the wireless communication link, analyze the wireless human-computer interaction control signal, and analyze a control action of the wireless human-computer interaction control signal on an object presented on the terminal at the current moment; and controlling the object presented on the terminal at the current moment according to the analyzed control brake.

The specific working principle of the first receiving unit 600, the first sending unit 602, and the first central processing unit 604 can be referred to the related description of the above method embodiments, and are not described herein again.

EXAMPLE five

As shown in fig. 7, a schematic view of a terminal structure in the fifth embodiment of the present application, specifically taking the terminal as a wearable device as an example, the terminal structure may include: a second receiving unit 700, a second sending unit 702, and a second central processor 704, wherein:

the second sending unit 700 is configured to generate and send a request signal for establishing a wireless communication link according to a triggering operation of the terminal;

the second transmitting unit 700 may be a wifi-based transmitting unit or a bluetooth-based transmitting unit.

The second receiving unit 702 is configured to receive, within a set time, a response signal for establishing the wireless communication link, which is returned according to the request signal for establishing the wireless communication link, and characterize that the wireless communication link has been successfully established;

the second receiving unit 702 may be a wifi function-based receiving unit or a bluetooth function-based receiving unit.

The second central processor 704 is configured to generate and send a wireless human-computer interaction control signal through the wireless communication link according to the triggering operation of the smart watch.

The wireless communication link can be established by a wireless route, and can also be established by Bluetooth transmitting/receiving units based on Bluetooth functions on an intelligent watch and an intelligent television.

EXAMPLE six

As shown in fig. 8, which is a schematic structural diagram of a human-computer interaction system according to a sixth embodiment of the present application, the human-computer interaction system may include: a first terminal 800 and a second terminal 802,

the structure of the first terminal 800 is shown in fig. 6, and the structure of the second terminal 802 may be as shown in fig. 7. Details are not repeated.

Further, the system shown in fig. 8 may further include a wireless router 801, configured to relay the request signal for establishing the wireless communication link between the first terminal 800 and the second terminal 802, the response signal for establishing the wireless communication link, and the wireless human-computer interaction control signal.

EXAMPLE seven

As shown in fig. 9, which is a schematic structural diagram of a human-computer interaction system according to a seventh embodiment of the present application, the human-computer interaction system may include: a first terminal 900 and a second terminal 902.

The structure of the first terminal 900 is shown in fig. 6, and the structure of the second terminal 902 may be as shown in fig. 7. Details are not repeated.

The first terminal 900 and the second terminal 902 both further include a bluetooth module 901, configured to directly transmit the request signal for establishing the wireless communication link, the response signal for establishing the wireless communication link, and the wireless human-computer interaction control signal between the first terminal 900 and the second terminal 902.

The bluetooth module 901 includes paired transmitting and receiving units, which will not be described in detail.

It is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a commodity or system that includes the element.

The foregoing description shows and describes several preferred embodiments of the present application, but as aforementioned, it is to be understood that the application is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the application, which is to be protected by the claims appended hereto.

Claims (12)

1. A man-machine interaction control method of an intelligent television is characterized by comprising the following steps:

receiving a request signal for building a wireless communication link generated by the wearable device according to a triggering operation on the wearable device;

according to the request signal for building the wireless communication link, sending a response signal within a set time, and representing that the wireless communication link is successfully built: when the wireless communication link is successfully established, switching a conventional content display page of the wearable device to a control page providing interaction with the smart television;

acquiring a wireless man-machine interaction control signal transmitted by the wireless communication link, analyzing the wireless man-machine interaction control signal, and analyzing a control action of the wireless man-machine interaction control signal aiming at a current presented object;

and controlling the object presented at the current moment according to the analyzed control brake.

2. The method of claim 1, wherein receiving a request signal to set up a wireless communication link comprises:

receiving a request signal for building a wireless communication link transferred by a wireless route, wherein the request signal for building the wireless communication link is generated according to a touch event for building the wireless communication link, and the touch event for building the wireless communication link is generated according to the touch of a control for building the set wireless communication link;

or receiving a request signal for building a wireless communication link sent by a Bluetooth module, wherein the request signal for building the wireless communication link is generated according to a touch event for building the wireless communication link, and the touch event for building the wireless communication link is generated according to the touch event for building a control for the set wireless communication link.

3. The method of claim 1, wherein acquiring the wireless human machine interaction control signal transmitted via the wireless communication link comprises:

acquiring the wireless human-computer interaction control signal transferred by a wireless route, wherein the wireless human-computer interaction control signal is generated according to a human-computer interaction touch event, and the human-computer interaction touch event is generated according to the touch of a human-computer interaction control;

or acquiring the wireless human-computer interaction control signal sent by the Bluetooth module, wherein the wireless human-computer interaction control signal is generated according to a human-computer interaction touch event, and the human-computer interaction touch event is generated according to the touch of the set human-computer interaction control.

4. The method according to claim 1, wherein the controlling the object presented on the smart television at the current moment according to the parsed control mechanism comprises:

processing the object presented at the current moment according to the analyzed control brake and keeping the object presented locally; or,

and processing the presented object and sending the object through the wireless communication link.

5. A man-machine interaction control method of an intelligent television is characterized by comprising the following steps:

generating and sending a request signal for building a wireless communication link, wherein the request signal for the wireless communication link is generated by the wearable device according to a triggering operation on the wearable device;

and receiving a response signal for building the wireless communication link sent according to the request signal for building the wireless communication link within a set time, and representing that the wireless communication link is successfully built: when the wireless communication link is successfully established, switching a conventional content display page of the wearable device to a control page providing interaction with the smart television;

and generating and sending a wireless man-machine interaction control signal through the wireless communication link.

6. The method of claim 5, wherein the request signal to set up the wireless communication link is generated and transmitted:

generating a touch event for establishing the wireless communication link according to the touch of the control for establishing the set wireless communication link;

generating a request signal for building a wireless communication link according to the touch event for building the wireless communication link;

and sending the request signal for establishing the wireless communication link through a wireless router or a Bluetooth module.

7. The method of claim 5, wherein generating and transmitting wireless human interaction control signals over the wireless communication link comprises:

generating a human-computer interaction touch event according to the touch of the set human-computer interaction control;

generating the wireless human-computer interaction control signal according to the human-computer interaction touch event;

and sending the wireless man-machine interaction control signal through a wireless router or a Bluetooth module.

8. An intelligent television, comprising:

the receiving unit is used for receiving a request signal for building a wireless communication link generated by the wearable device according to the triggering operation of the wearable device;

a sending unit, configured to send a response signal for building the wireless communication link within a set time according to the request signal for building the wireless communication link, and characterize that the wireless communication link has been successfully built: when the wireless communication link is successfully established, switching a conventional content display page of the wearable device to a control page providing interaction with the smart television;

the central processing unit is used for acquiring the wireless human-computer interaction control signal transmitted by the wireless communication link, analyzing the wireless human-computer interaction control signal and analyzing the control action of the wireless human-computer interaction control signal aiming at the current presented object; and controlling the object presented at the current moment according to the analyzed control brake.

9. A wearable device, comprising:

the device comprises a sending unit, a receiving unit and a sending unit, wherein the sending unit is used for generating and sending a request signal for establishing a wireless communication link, and the request signal for establishing the wireless communication link is generated by the wearable device according to a triggering operation on the wearable device;

a receiving unit, configured to receive, within a set time, a response signal for establishing a wireless communication link sent according to the request signal for establishing a wireless communication link, and characterize that the wireless communication link has been successfully established: when the wireless communication link is successfully established, switching a conventional content display page of the wearable device to a control page providing interaction with the smart television;

and the central processing unit is used for generating and sending a wireless man-machine interaction control signal through the wireless communication link.

10. A human-computer interaction system, comprising:

the smart television set as recited in claim 8,

the wearable device of claim 9.

11. The system of claim 10, further comprising a wireless router for relaying the request signal for establishing the wireless communication link, the response signal for establishing the wireless communication link, and the wireless human-machine interaction control signal.

12. The system according to claim 10, wherein the smart television and the wearable device each comprise a bluetooth module for directly transmitting the request signal for establishing the wireless communication link, the response signal for establishing the wireless communication link, and the wireless human-computer interaction control signal.