CN105898546A - Routing configuration method and intelligent television - Google Patents

Abstract

The embodiment of the present invention provides a routing configuration method and an intelligent television, and the problem that a network television can not directly carry out routing configuration on a router in the prior art is solved. The method comprises the steps that: a routing module receives a first configuration request which is sent by a host machine through the data path between the host machine and the routing module, the first configuration request comprises the routing parameter corresponding to the routing information which needs to be configured, the routing parameter is obtained by the host machine according to the indication of a user instruction, the user instruction is used for indicating the host machine to carry out routing configuration on the routing module, the above data path is established by the host machine based on a private control protocol, the routing parameter is analyzed from the first configuration request, and the routing configuration is carried out according to the routing parameter. The routing configuration method is applied to the intelligent television.

Description

Route configuration method and smart television

Technical Field

The invention relates to the field of smart televisions, in particular to a route configuration method and a smart television.

Background

In recent years, with the advent of digital home, various digital home appliances used in the family life of people can perform internet communication through a home network, thereby realizing information sharing and device control on a home network platform. At present, a home network is generally established by using a router as a main component, and the existing router setting process is as follows: the computer is connected with the router, then the computer enters a configuration page of the router connected with the computer by utilizing a Hypertext transfer protocol (http) protocol to configure various information of the router, after the configuration is completed, the connection with the router is disconnected, and the configured router can be connected with a network.

However, as the network television is popularized, the proportion of the network television owned by the home is higher, so the network television can be considered as the center of the home network, but the existing routing configuration scheme is not suitable for the network television. Therefore, how to directly configure the router based on the network television is a technical problem to be researched, so that the configuration of the router is simplified, and the network environment of the network television is better.

Disclosure of Invention

The route configuration method and the intelligent television provided by the embodiment of the invention solve the problem that the network television in the prior art cannot directly perform route configuration on the router.

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

in a first aspect, a routing configuration method is provided, which is applied to a smart television, where the smart television includes a host and a routing module, and the method includes:

the routing module receives a first configuration request sent by the host through a data channel between the host and the routing module; the first configuration request comprises a routing parameter corresponding to routing information to be configured, wherein the routing parameter is acquired by the host according to an instruction of a user instruction, and the user instruction is used for instructing the host to perform routing configuration on the routing module;

and analyzing the routing parameter from the first configuration request, and performing routing configuration according to the routing parameter.

Optionally, before the routing module receives a first configuration request sent by the host through a data channel between the host and the routing module, the method further includes:

receiving a second configuration request sent by the host through the data channel; wherein the second configuration request is generated by the host according to the user instruction;

acquiring the routing information needing to be configured according to the indication of the second configuration request;

and feeding back the routing information needing to be configured to the host through the data channel so that the host can acquire the routing parameters corresponding to the routing information needing to be configured.

Optionally, the routing parameter is obtained after the host provides the routing information to be configured to the user for parameter configuration; or, the routing parameter is obtained by the host by retrieving from a configuration information table according to the routing information that needs to be configured, where the configuration information table is an information mapping table between the routing information and the routing parameter, and the configuration information table is updated by the host in real time according to a historical configuration record.

Optionally, the smart television further includes at least one smart module, and the method further includes:

acquiring the current network state parameter of an intelligent module connected with the routing module;

feeding back the current network state parameters of the intelligent module to the host through the data channel so that the host can provide the current network state parameters of the intelligent module for a user to carry out parameter adjustment;

the current network state parameters of the intelligent module comprise the network bandwidth occupied by the intelligent module and the average speed of the current network.

In a second aspect, an intelligent television is provided, where the intelligent television includes a host and a routing module, where the routing module includes a data processor, a first local area network interface, a wide area network interface, and at least one second local area network interface, the first local area network interface is configured to communicate with the host, and the wide area network interface is configured to communicate with an external network:

the data processor is configured to:

receiving a first configuration request sent by the host through a data channel between the host and the routing module through the first local area network interface; the first configuration request comprises a routing parameter corresponding to routing information to be configured, wherein the routing parameter is acquired by the host according to an instruction of a user instruction, and the user instruction is used for instructing the host to perform routing configuration on the routing module;

and analyzing the routing parameter from the first configuration request, and performing routing configuration according to the routing parameter.

Optionally, the data processor is further configured to:

receiving a second configuration request sent by the host through the data channel through the first local area network interface; wherein the second configuration request is generated by the host according to the user instruction;

acquiring the routing information needing to be configured according to the indication of the second configuration request;

and feeding back the routing information needing to be configured to the host through the first local area network interface and the data channel so that the host can acquire the routing parameters corresponding to the routing information needing to be configured.

Optionally, the routing parameter is obtained after the host provides the routing information to be configured to the user for parameter configuration; or, the routing parameter is obtained by the host by retrieving from a configuration information table according to the routing information that needs to be configured, where the configuration information table is an information mapping table between the routing information and the routing parameter, and the configuration information table is updated by the host in real time according to a historical configuration record.

Optionally, the smart television further includes at least one smart module, the routing module further includes at least one second local area network interface, and the data processor is further configured to:

acquiring the current network state parameter of the intelligent module through a second local area network interface corresponding to the intelligent module connected with the routing module;

feeding back the current network state parameter of the intelligent module to the host through the first local area network interface and the data channel so that the host can provide the current network state parameter of the intelligent module for a user to carry out parameter adjustment;

the current network state parameters of the intelligent module comprise the network bandwidth occupied by the intelligent module and the average speed of the current network.

In a third aspect, a smart tv is provided, which includes a host and a routing module, wherein:

the host is used for acquiring a routing parameter corresponding to the routing information needing to be configured according to the user instruction; and the first configuration request containing the routing parameters is sent to the routing module through the data channel; the user instruction is used for instructing the host to perform routing configuration on the routing module;

the routing module is used for receiving a first configuration request sent by the host through the data channel; and the routing parameter is used for analyzing from the first configuration request and carrying out routing configuration according to the routing parameter.

Optionally, the host is further configured to receive the user instruction, and send a second configuration request generated according to the user instruction to a routing module through the data channel;

the routing module is further configured to receive a second configuration request sent by the host through the data channel, acquire the routing information required to be configured according to an indication of the second configuration request, and feed back the routing information required to be configured to the host through the data channel;

the host is further configured to obtain a routing parameter corresponding to the routing information to be configured.

Optionally, the host is further configured to provide the routing information to be configured for the user to perform parameter configuration, and then obtain a routing parameter corresponding to the routing information to be configured;

or, the host is further configured to retrieve, from a configuration information table, a routing parameter corresponding to each piece of routing information in the routing information that needs to be configured; the configuration information table is an information mapping table between the routing information and the routing parameters, and the configuration information table is updated by the host in real time according to historical configuration records.

Optionally, the smart television further includes at least one smart module;

the routing module is also used for acquiring the current network state parameter of the intelligent module connected with the routing module; feeding back the current network state parameters of the intelligent module to the host through the data channel;

the host is also used for providing the current network state parameters of the intelligent module for a user to adjust the parameters; the current network state parameters of the intelligent module comprise the network bandwidth occupied by the intelligent module and the average speed of the current network.

According to the route configuration method and the intelligent television provided by the embodiment of the invention, the route module is added in the network television, so that the host of the intelligent television can directly control the route module, and therefore, when the route module is configured for routing, the host can send the first configuration request containing the route parameters corresponding to the route information needing to be configured to the route module through the data channel between the host and the route module, so that the route parameters corresponding to the route information needing to be configured are analyzed from the received first configuration request, and the route configuration is carried out according to the route parameters. Compared with the prior art that a television, particularly a non-intelligent television, cannot directly perform routing configuration on a router, and a PC (personal computer) needs to read a routing configuration page through an HTTP (hyper text transport protocol) protocol to perform routing configuration, the routing configuration method provided by the invention can directly enable a user to directly perform routing configuration on the television page through a host of the intelligent television, is simple and convenient in configuration method, and meanwhile, because a routing module is integrated in the intelligent television, the whole home network system does not need to be specially configured with the router, thereby reducing the networking cost of the home network system.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent television according to an embodiment of the present invention;

fig. 2 is a flowchart of a method of route configuration according to an embodiment of the present invention;

fig. 3 is a flowchart of another method for configuring a route according to an embodiment of the present invention

A drawing;

fig. 4 is a schematic structural diagram of another smart television according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

An embodiment of the present invention provides an intelligent television, as shown in fig. 1, where the intelligent television 1 includes a host 11, a routing module 12, at least one intelligent module 13, and other mobile terminals (e.g., a smart phone, a tablet computer, etc.) connected to the routing module 12 in a Wireless-Fidelity (WIFI) manner, where the routing module 12 may be regarded as an Access Point (AP) having a WIFI hotspot function, and a television board of the intelligent television may be regarded as a television board integrated with an AP, and the intelligent television may be regarded as a television having a WIFI hotspot function, where the intelligent module 13 includes, but is not limited to: internet Protocol Television (IPTV for short) set-top box and intelligent high-definition set-top box, wherein:

the host 11 is configured to obtain a routing parameter corresponding to routing information to be configured according to a user instruction; and for sending a first configuration request containing routing parameters to the routing module 12 via the data channel.

The user instruction is used for instructing the host 11 to perform routing configuration on the routing module 12; the data channel between the host 11 and the routing module 12 is established by the host 11 based on a private control protocol, and the private control protocol can only be applied to the smart television, that is, when transmission is performed between modules inside the smart television, encapsulation and decapsulation are performed by using the private control protocol, so that the security of data inside the smart television is improved.

Optionally, when obtaining the routing parameter corresponding to the routing information to be configured according to the user instruction, the host 11 may specifically be implemented by the following two implementation manners:

the first implementation mode comprises the following steps:

the host 11 is further configured to directly obtain routing information that needs to be configured and is pre-stored in the host 11 according to a user instruction, and then obtain a routing parameter corresponding to the routing information that needs to be configured according to the routing information that needs to be configured.

The second implementation mode comprises the following steps:

the host 11 is further configured to receive a user instruction, and send a second configuration request generated according to the user instruction to the routing module 12 through the data channel.

The routing module 12 is further configured to receive a second configuration request sent by the host 11 through the data channel, acquire routing information required to be configured according to an indication of the second configuration request, and feed back the routing information required to be configured to the host 11 through the data channel.

The host 11 is further configured to obtain a routing parameter corresponding to the routing information that needs to be configured.

The second configuration request is used to instruct the routing module 12 to obtain the routing information that needs to be configured. The routing information that needs to be configured includes, but is not limited to: user name, password, network access mode, routing management information, port information, wireless routing setting information and router information.

In addition, in the two implementation manners described above, when the host 11 acquires the routing parameter corresponding to the routing information that needs to be configured, the following two procedures may be specifically executed:

the host 11 is further configured to provide the routing information to be configured for the user to perform parameter configuration, and then obtain a routing parameter corresponding to the routing information to be configured.

Or,

the host 11 is further configured to retrieve, from the configuration information table, a routing parameter corresponding to each piece of routing information in the routing information that needs to be configured; the configuration information table is an information mapping table between routing information and routing parameters, and the configuration information table is updated by the host 11 in real time according to a historical configuration record.

The routing module 12 is further configured to receive a first configuration request sent by the host 11 through a data channel; and the routing parameter is used for analyzing the routing parameter from the first configuration request and carrying out routing configuration according to the routing parameter.

Optionally, the routing module 12 and the host 11 further have the following functions.

The routing module 12 is further configured to obtain a current network state parameter of the intelligent module 13 connected to the routing module 12; and feeding back the current network state parameters of the intelligent module 13 to the host 11 through a data channel.

And the host 11 is further configured to provide the current network state parameters of the intelligent module 13 to the user for parameter adjustment.

The current network state parameters of the intelligent module 13 include but are not limited to the network bandwidth occupied by the intelligent module 13 and the average speed of the current network. Specifically, the routing module 12 may obtain, in real time according to a predetermined period, a current network state parameter of each intelligent module 13 currently connected to the routing module 12, and feed back the obtained current network state parameter of each intelligent module 13 to the host 11, so that the host 11 is displayed in the display interface of the smart television; alternatively, the routing module 12 may also obtain the current network state parameter of each intelligent module 13 connected to the routing module 12 according to an instruction of a user instruction sent by the host 11 (for example, when the internet access speed is slow or the internet access is disconnected, the user may monitor the current network state parameter of the currently used intelligent set-top box, that is, send an instruction to the host 11 through a remote controller to obtain the current network state), so as to know the current internet access status. For example, when a network video is downloaded or viewed through a certain intelligent module 13 after the intelligent television is connected to the routing module 12, the network bandwidth generally used is large, so that the overall network performance is reduced, even a network fault occurs, and the internet performance of other terminal devices (e.g., Pad or PC) connected to the routing module 12 is affected. At this time, the user may limit the maximum network bandwidth of the routing module 12 based on the current network parameters of the currently used intelligent module 13, so that each intelligent module 13 cannot exceed the set maximum network bandwidth when accessing the internet, and thus, the internet resources of other networking devices are prevented from being occupied.

In addition, the routing module is further configured to obtain attribute information of the intelligent module 13 connected to the routing module 12, and feed back the attribute information of the intelligent module 13 to the host, so that the host can display the attribute information of the intelligent module 13 to the user through the UI interface of the smart television. The attribute information of the intelligent module 13 includes but is not limited to: hardware version information of the intelligent module 13, software version information, and a real-time download speed of the intelligent module 13.

Specifically, the routing module 12 includes at least two local area network interfaces and a wide area network interface, one local area network interface of the at least two local area network interfaces is connected to the host 11, each local area network interface of the other local area network interfaces is connected to an intelligent module 13, each module or terminal under the control of the routing module 12 communicates through the local area network interface, and the wide area network interface is used for connecting to an external network device, that is, to an external ethernet. Further, in order to improve the stability and real-time performance of communication between the intelligent module 13 and other modules in the intelligent television, the IP address of each lan interface of the routing module 12 of the intelligent television in the present invention is bound with the fixed intelligent module 13 or the Host 11, so that each lan interface in the routing module 12 is a fixed interface, thereby avoiding the phenomenon of IP address conflict, further avoiding the process of automatically acquiring an IP from a Dynamic Host Configuration Protocol (DHCP) server, reducing connection time, and improving the communication quality between modules.

It should be noted that, in order to enhance the management of the network of the routing module 12 and the stability of communication between different boards accessed to the AP, the intelligent module 13 in the embodiment of the present invention is an AP supporting dual-frequency and dual-channel, and the smart television performs routing configuration and management on different frequency bands, so that different terminals or modules under the jurisdiction of different APs can be controlled to connect to different frequency bands, thereby providing a high-speed, anti-interference, stable and clean internet environment.

According to the network television provided by the embodiment of the invention, the routing module is added in the network television, so that the host of the intelligent television can directly control the routing module, when the routing module is subjected to routing configuration, the host can send a first configuration request containing the routing parameters corresponding to the routing information needing to be configured to the routing module through a data channel between the host and the routing module, so that the routing module can analyze the routing parameters corresponding to the routing information needing to be configured from the received first configuration request, and perform routing configuration according to the routing parameters. Compared with the prior art that a television, particularly a non-intelligent television, cannot directly perform routing configuration on a router, and a PC (personal computer) needs to read a routing configuration page through an HTTP (hyper text transport protocol) protocol to perform routing configuration, the routing configuration method provided by the invention can directly enable a user to directly perform routing configuration on the television page through a host of the intelligent television, is simple and convenient in configuration method, and meanwhile, because a routing module is integrated in the intelligent television, the whole home network system does not need to be specially configured with the router, thereby reducing the networking cost of the home network system.

Example two

Based on the smart television described in fig. 1, an embodiment of the present invention provides a routing configuration method, and descriptions of technical terms, concepts, and specific implementation manners related to the first embodiment of the present invention and the first embodiment of the present invention may directly refer to the specific description of the first embodiment, which is not described herein again.

As shown in fig. 2, the route configuration method specifically includes the following steps:

201. the routing module of the intelligent television receives a first configuration request sent by a host through a data channel between the host and the routing module.

The first configuration request comprises a routing parameter corresponding to routing information to be configured, the routing parameter is acquired by the host according to an instruction of a user instruction, and the user instruction is used for instructing the host to perform routing configuration on the routing module; the data channel is established by the host based on the private control protocol, the private control protocol can only be applied to the intelligent television, namely, when the transmission is carried out among the modules in the intelligent television, the private control protocol is required to be used for encapsulation and decapsulation, so that the safety of the data in the intelligent television is improved.

Optionally, before step 201, when the host acquires the routing parameter corresponding to the routing information to be configured according to the user instruction, the following two implementation manners may be specifically implemented:

the first implementation mode comprises the following steps:

a1, the host directly obtains the route information which is pre-stored in the host and needs to be configured according to the user instruction, and then obtains the route parameter corresponding to the route information which needs to be configured according to the route information which needs to be configured.

The second implementation mode comprises the following steps:

b1, the routing module of the smart television receives a second configuration request sent by the host through the data channel.

The second configuration request is generated by the host according to a user instruction.

b2, the routing module of the smart television acquires the routing information needing to be configured according to the indication of the second configuration request.

b3, the routing module of the smart television feeds back the routing information required to be configured to the host through the data channel, so that the host can obtain the routing parameters corresponding to the routing information required to be configured.

The routing parameters in the two implementation manners may be obtained in the following two manners. Specifically, the routing parameters are obtained after the host provides the routing information to be configured to the user for parameter configuration; or, the routing parameter is obtained by retrieving the routing information that the host needs to configure from a configuration information table, where the configuration information table is an information mapping table between the routing information and the routing parameter, and the configuration information table is updated by the host in real time according to a historical configuration record.

202. And the routing module of the intelligent television analyzes the routing parameters from the first configuration request and performs routing configuration according to the routing parameters.

Optionally, as shown in fig. 3, the embodiment of the present invention further includes the following steps:

203. and the routing module of the intelligent television acquires the current network state parameter of the intelligent module connected with the routing module.

Further, optionally, step 203 specifically includes the following steps:

203a, the routing module of the smart television receives indication information sent by the host, and the indication information is used for indicating the routing module to acquire the current network state parameter of the smart module connected with the routing module.

The indication information is sent periodically (according to a predetermined period) or non-periodically (according to a user indication) by the host.

203b, the routing module of the intelligent television acquires the current network state parameter of the intelligent module connected with the routing module according to the indication of the indication information.

204. And the routing module of the intelligent television feeds the current network state parameter of the intelligent module back to the host through the data channel, so that the host provides the current network state parameter of the intelligent module for a user to adjust the parameter.

The current network state parameters of the intelligent module comprise the current network bandwidth of the intelligent module and the average speed of the current network.

In addition, the routing module of the intelligent television can also acquire the attribute information of the intelligent module connected with the routing module according to the instruction information sent by the host, and feed back the attribute information of the intelligent module to the host, so that the host can display the attribute information of the intelligent module to a user through a UI (user interface) of the intelligent television. The attribute information of the intelligent module includes but is not limited to: hardware version information and software version information of the intelligent module, real-time downloading speed of the intelligent module and the like.

According to the routing configuration method provided by the embodiment of the invention, the host of the smart television can directly control the routing module by adding the routing module in the network television, so that when the routing module is configured for routing, the host can send the first configuration request containing the routing parameters corresponding to the routing information needing to be configured to the routing module through the data channel between the host and the routing module, so that the routing parameters corresponding to the routing information needing to be configured are analyzed from the received first configuration request, and the routing configuration is carried out according to the routing parameters. Compared with the prior art that a television, particularly a non-intelligent television, cannot directly perform routing configuration on a router, and a PC (personal computer) needs to read a routing configuration page through an HTTP (hyper text transport protocol) protocol to perform routing configuration, the routing configuration method provided by the invention can directly enable a user to directly perform routing configuration on the television page through a host of the intelligent television, is simple and convenient in configuration method, and meanwhile, because a routing module is integrated in the intelligent television, the whole home network system does not need to be specially configured with the router, thereby reducing the networking cost of the home network system.

EXAMPLE III

An embodiment of the present invention provides an intelligent television, as shown in fig. 4, the intelligent television 3 includes a host 31 and a routing module 32, and descriptions of technical terms, concepts, and descriptions of specific implementation manners related to the first embodiment of the present invention may directly refer to the specific description of the first embodiment, which is not described herein again.

The routing module 32 includes a data processor 321, a first lan interface 322, and a wan interface 323, where the first lan interface 322 is used for communicating with the host 31, and the wan interface 323 is used for communicating with an external network.

The data processor 321 is configured to:

receiving a first configuration request sent by the host 31 through a data channel between the host 31 and the routing module 32 through the first lan interface 322; the first configuration request includes a routing parameter corresponding to routing information to be configured, where the routing parameter is obtained by the host 31 according to an instruction of a user instruction, and the user instruction is used to instruct the host 31 to perform routing configuration on the routing module 32; the data channel is established by the host 31 based on a private control protocol.

And analyzing the routing parameters from the first configuration request, and performing routing configuration according to the routing parameters.

Optionally, the data processor 321 is further configured to:

receiving a second configuration request sent by the host 31 through the data channel through the first lan interface 322; wherein, the second configuration request is generated by the host 31 according to the user instruction;

acquiring the routing information needing to be configured according to the indication of the second configuration request;

the routing information required to be configured is fed back to the host 31 through the first lan interface 322 and the data channel, so that the host 31 obtains the routing parameter corresponding to the routing information required to be configured.

Optionally, the routing parameter is obtained after the host 31 provides the routing information to be configured to the user for parameter configuration; alternatively, the routing parameter is obtained by retrieving the routing information configured by the host 31 according to needs from a configuration information table, where the configuration information table is an information mapping table between the routing information and the routing parameter, and the configuration information table is updated by the host 31 in real time according to a historical configuration record.

Optionally, the smart television further includes at least one intelligent module 33, the routing module 32 further includes at least one second lan interface 324, and meanwhile, it should be noted that, in order to improve the stability and the real-time performance of the communication between the intelligent module 33 and other modules in the smart television, an IP address of each second lan interface of the routing module 32 of the smart television in the present invention is bound to the fixed intelligent module 33, so that each second lan interface in the routing module 32 is a fixed interface, thereby avoiding an IP address conflict phenomenon, further avoiding a process of automatically acquiring an IP from a DHCP server, reducing a connection time, and improving the communication quality between modules.

The data processor 321 is further configured to:

acquiring the current network state parameter of the intelligent module 33 through a second local area network interface 324 corresponding to the intelligent module 33 connected with the routing module 32;

feeding back the current network state parameters of the intelligent module 33 to the host 31 through the first local area network interface 322 and the data channel, so that the host 31 provides the current network state parameters of the intelligent module 33 to the user for parameter adjustment;

the current network state parameter of the intelligent module 33 includes the network bandwidth occupied by the intelligent module 33 and the average speed of the current network.

In the intelligent television provided by the embodiment of the present invention, a routing module is added in the network television, so that a host of the intelligent television can directly control the routing module, and therefore, when the routing module is configured for routing, the host can send a first configuration request including a routing parameter corresponding to routing information to be configured to the routing module through a data channel between the host and the routing module, so that the routing module can analyze the routing parameter corresponding to the routing information to be configured from the received first configuration request, and perform routing configuration according to the routing parameter. Compared with the prior art that a television, particularly a non-intelligent television, cannot directly perform routing configuration on a router, and a PC (personal computer) needs to read a routing configuration page through an HTTP (hyper text transport protocol) protocol to perform routing configuration, the routing configuration method provided by the invention can directly enable a user to directly perform routing configuration on the television page through a host of the intelligent television, is simple and convenient in configuration method, and meanwhile, because a routing module is integrated in the intelligent television, the whole home network system does not need to be specially configured with the router, thereby reducing the networking cost of the home network system.

It can be clearly understood by those skilled in the art that, for convenience and simplicity of description, the above division of each functional unit is merely used as an example, and in practical applications, the above function distribution may be completed by different functional units according to needs, that is, the internal structure of the smart television is divided into different functional units to complete all or part of the above described functions. The specific working processes of the routing module, the host, and the various units described above may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described device embodiments are merely illustrative, and for example, the division of the unit is only one logical functional division, and there may be other divisions when the actual implementation is performed.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (12)

1. A route configuration method is applied to an intelligent television, the intelligent television comprises a host and a route module, and the method comprises the following steps:

the routing module receives a first configuration request sent by the host through a data channel between the host and the routing module; the first configuration request comprises a routing parameter corresponding to routing information to be configured, wherein the routing parameter is acquired by the host according to an instruction of a user instruction, and the user instruction is used for instructing the host to perform routing configuration on the routing module;

and analyzing the routing parameter from the first configuration request, and performing routing configuration according to the routing parameter.

2. The method of claim 1, wherein before the routing module receives a first configuration request sent by the host over a data channel between the host and the routing module, the method further comprises:

receiving a second configuration request sent by the host through the data channel; wherein the second configuration request is generated by the host according to the user instruction;

acquiring the routing information needing to be configured according to the indication of the second configuration request;

and feeding back the routing information needing to be configured to the host through the data channel, and acquiring the routing parameters corresponding to the routing information needing to be configured by the host.

3. The method according to claim 1 or 2, wherein the routing parameter is obtained after the host provides the routing information to be configured to the user for parameter configuration; or, the routing parameter is obtained by the host by retrieving from a configuration information table according to the routing information that needs to be configured, where the configuration information table is an information mapping table between the routing information and the routing parameter, and the configuration information table is updated by the host in real time according to a historical configuration record.

4. The method of claim 1, wherein the smart television further comprises at least one smart module, the method further comprising:

acquiring the current network state parameter of an intelligent module connected with the routing module;

feeding back the current network state parameters of the intelligent module to the host through the data channel so that the host can provide the current network state parameters of the intelligent module for a user to carry out parameter adjustment;

the current network state parameters of the intelligent module comprise the network bandwidth occupied by the intelligent module and the average speed of the current network.

5. An intelligent television, comprising a host and a routing module, wherein the routing module comprises a data processor, a first local area network interface, a wide area network interface and at least a second local area network interface, the first local area network interface is used for communicating with the host, and the wide area network interface is used for communicating with an external network:

the data processor is configured to:

receiving a first configuration request sent by the host through a data channel between the host and the routing module through the first local area network interface; the first configuration request comprises a routing parameter corresponding to routing information to be configured, wherein the routing parameter is acquired by the host according to an instruction of a user instruction, and the user instruction is used for instructing the host to perform routing configuration on the routing module;

and analyzing the routing parameter from the first configuration request, and performing routing configuration according to the routing parameter.

6. The smart television of claim 5, wherein the data processor is further configured to:

receiving a second configuration request sent by the host through the data channel through the first local area network interface; wherein the second configuration request is generated by the host according to the user instruction;

acquiring the routing information needing to be configured according to the indication of the second configuration request;

and feeding back the routing information needing to be configured to the host through the first local area network interface and the data channel, and acquiring the routing parameter corresponding to the routing information needing to be configured by the host.

7. The smart television set according to claim 5 or 6, wherein the routing parameters are obtained after the host provides the routing information to be configured to the user for parameter configuration; or, the routing parameter is obtained by the host by retrieving from a configuration information table according to the routing information that needs to be configured, where the configuration information table is an information mapping table between the routing information and the routing parameter, and the configuration information table is updated by the host in real time according to a historical configuration record.

8. The smart television of claim 5, wherein the smart television further comprises at least one smart module, wherein the routing module further comprises at least one second local area network interface, and wherein the data processor is further configured to:

acquiring the current network state parameter of the intelligent module through a second local area network interface corresponding to the intelligent module connected with the routing module;

feeding back the current network state parameter of the intelligent module to the host through the first local area network interface and the data channel so that the host can provide the current network state parameter of the intelligent module for a user to carry out parameter adjustment;

the current network state parameters of the intelligent module comprise the network bandwidth occupied by the intelligent module and the average speed of the current network.

9. An intelligent television, characterized in that the intelligent television comprises a host and a routing module, wherein:

the host is used for acquiring a routing parameter corresponding to the routing information needing to be configured according to the user instruction; and the first configuration request containing the routing parameters is sent to the routing module through the data channel; the user instruction is used for instructing the host to perform routing configuration on the routing module;

the routing module is used for receiving a first configuration request sent by the host through the data channel; and the routing parameter is used for analyzing from the first configuration request and carrying out routing configuration according to the routing parameter.

10. The smart television of claim 9, wherein:

the host is further used for receiving the user instruction and sending a second configuration request generated according to the user instruction to a routing module through the data channel;

the routing module is further configured to receive a second configuration request sent by the host through the data channel, acquire the routing information required to be configured according to an indication of the second configuration request, and feed back the routing information required to be configured to the host through the data channel;

the host is further configured to obtain a routing parameter corresponding to the routing information to be configured.

11. The smart television of claim 9 or 10, wherein:

the host is further configured to provide the routing information to be configured for the user to perform parameter configuration, and then obtain a routing parameter corresponding to the routing information to be configured;

or, the host is further configured to retrieve, from a configuration information table, a routing parameter corresponding to each piece of routing information in the routing information that needs to be configured; the configuration information table is an information mapping table between the routing information and the routing parameters, and the configuration information table is updated by the host in real time according to historical configuration records.

12. The smart television of claim 9, wherein the smart television further comprises at least one smart module;

the routing module is also used for acquiring the current network state parameter of the intelligent module connected with the routing module; feeding back the current network state parameters of the intelligent module to the host through the data channel;

the host is also used for providing the current network state parameters of the intelligent module for a user to adjust the parameters; the current network state parameters of the intelligent module comprise the network bandwidth occupied by the intelligent module and the average speed of the current network.