CN107276822A - A kind of router feature collocation method, device and wireless router - Google Patents

Abstract

The invention discloses a kind of router feature collocation method, including：The state of S100 monitoring aerials, judges whether the state of antenna meets default trigger condition, if so, into step S200；S200 obtains the label and angle change data of antenna；S300 generates corresponding control routine according to the label and angle change data of antenna；S400 obtains corresponding control instruction according to control routine；S500 carries out corresponding functional configuration according to control instruction to router.The invention also discloses a kind of router feature configuration device and wireless router.By the present invention, user need not enter software page and carry out functional configuration in face of router, carry out some simple daily configurations by device as long as stirring antenna and can just satisfy the need, network knowledge of user etc. is not required, simple to operate, efficient and convenient.

Description

A kind of router feature collocation method, device and wireless router

Technical field

The present invention relates to the network equipment, more particularly to a kind of router feature collocation method, device and wireless router.

Background technology

Current every household has the demand to WIFI and wireless router, and router has become a requirement, And the function of router now is more and more extensive, the selection of frequency range, the regulation of power, the selection of bandwidth, pattern can be carried out The various functions such as selection, these are required for user oneself to be configured as needed.

The current function setting to router all needs to configure into the software page, and the cumbersome, used time is longer and right The technical requirements of domestic consumer are higher, in the market a kind of also router feature method to set up without simple and fast.

The content of the invention

The present invention provides a kind of router feature collocation method, device and wireless router, without by the page to route Device carries out functional configuration, and low to the skill set requirements of the user and more efficient and convenient, used time is less.

A kind of router feature collocation method, including：

The state of S100 monitoring aerials, judges whether the state of the antenna meets default trigger condition, if so, into Step S200；

S200 obtains the label and angle change data of the antenna；

S300 generates corresponding control routine according to the label and angle change data of the antenna；

S400 obtains corresponding control instruction according to the control routine；

S500 carries out corresponding functional configuration according to the control instruction to router.

The antenna of different labels can for the different function of configuration router, such as, antenna 1 be used for configuring 2.4G without The switch of line function；Antenna 2 is used for configuring the switch of 5G radio functions；Antenna 3 is used for configuring the bandwidth of router；Antenna 4 is used To adjust the power of router.In this way, some conventional daily configurations of router can easily be realized by stirring antenna.

Further, the step S200 includes：

S210 obtains the label of the antenna；

S220 detects the acceleration of the axle of antenna three by three axis accelerometer；

S230 calculates the angle value of the state angle of antenna according to the acceleration of three axle.

Further, the step S300 includes：

S310 is according to the angle change data of the antenna and default first threshold, the state of tag antenna；

S320 obtains all status datas of the antenna in preset time period；

S330 generates the control routine of the antenna according to the label and all status datas of the antenna.

Further, step is also included before the step S100：S010 prestores control routine and control instruction Mapping table；

The step S400 includes：S410 is according to the control routine, from the control routine and control instruction of storage Corresponding control instruction is found in mapping table.

Further, the step S100 includes：S110 is by the state of angular transducer monitoring aerial, when detecting When stating the angle of antenna and horizontal plane more than default Second Threshold, judge that the state of the antenna changes.

The invention also discloses a kind of router feature configuration device, including：Monitoring modular, the shape for monitoring aerial State, judges whether the state of the antenna changes；Acquisition module, in the monitoring module monitors to the antenna When state changes, the label and angle change data of the antenna are obtained；Code generation module, for being obtained according to described The label and angle change data for the antenna that module is obtained, generate corresponding control routine；Control module, for according to institute The control routine of code generation module generation is stated, corresponding control instruction, operation module, for according to the control module is obtained The control instruction of acquisition carries out corresponding functional configuration to router.

Further, the acquisition module includes：Label acquisition submodule, the label for obtaining the antenna；Detection Submodule, the acceleration for detecting the axle of antenna three；Calculating sub module, for being sweared according to the acceleration of three axle Amount, calculates the angle value of the state angle of antenna.

Further, the code generation module includes：Status indication submodule, for being obtained according to the acquisition module Antenna label and angle change data, the state of tag antenna；Statistic submodule, for counting the status indication submodule All status datas of the block in antenna described in preset time period internal labeling；Submodule is handled, for being obtained according to the acquisition module The label of the antenna taken, and all status datas that the statistic submodule is counted, generate the control of the antenna Code processed.

Further, the router feature configuration device also includes：Memory module, for storing control routine and control Mapping table is instructed, is easy to the control module according to the control routine, the control stored from the memory module Code is with finding corresponding control instruction in control instruction mapping table.

In addition, the invention also discloses a kind of wireless router, the wireless router is comprising of the present invention any Item router feature configuration device.

The present invention is not required network knowledge of user etc., without being matched somebody with somebody by page setup to carry out function to router Put, it is simple to operate, some simple daily configurations are carried out by device as long as stirring antenna and can just satisfy the need.To the skill set requirements of user The low and more efficient and convenient, used time is less.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, makes required in being described below to embodiment Accompanying drawing is briefly introduced, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for this For the those of ordinary skill in field, without having to pay creative labor, it can also be obtained according to these accompanying drawings His accompanying drawing.

Fig. 1 is a kind of flow chart of the embodiment one of router feature collocation method of the invention；

Fig. 2 is arranged on the schematic diagram of carrier for three axis accelerometer in the inventive method embodiment；

Fig. 3 is to stir the schematic diagram of antenna in the inventive method embodiment；

Fig. 4 is a kind of flow chart of another embodiment of router feature collocation method of the invention；

Fig. 5 is a kind of block diagram of the embodiment of router feature configuration device of the invention；

Fig. 6 is a kind of block diagram of another embodiment of router feature configuration device of the invention；

Fig. 7 is a kind of schematic diagram of wireless router of the invention；

Fig. 8 is to stir after antenna in wireless router embodiment of the present invention, and aerial angle changes schematic diagram.

Reference：

701-- router main bodies；702--CPU；703-- accelerometers；704-- antennas.

Embodiment

In order that the object, technical solutions and advantages of the present invention are clearer, below in conjunction with accompanying drawing the present invention is made into One step it is described in detail, it is clear that described embodiment is only embodiment of the invention a part of, rather than whole implementation Example.Based on the embodiment in the present invention, what those of ordinary skill in the art were obtained under the premise of creative work is not made All other embodiment, belongs to the scope of protection of the invention.

The invention discloses a kind of router feature collocation method, embodiment one as shown in figure 1, including：

The state of S100 monitoring aerials, judges whether the state of the antenna meets default trigger condition, if so, into Step S200；

S200 obtains the label and angle change data of the antenna；

S300 generates corresponding control routine according to the label and angle change data of the antenna；

S400 obtains corresponding control instruction according to the control routine；

S500 carries out corresponding functional configuration according to the control instruction to router.

In above-described embodiment one, the role of step S100 equivalent to trigger condition judgement, such as set touch Clockwork spring part is that the state of antenna is changed, then as long as that is the state of antenna is changed, triggered below Functional configuration step.Certainly for the state of antenna here changes and is relative antenna original state, such as at the beginning of antenna Beginning state is that antenna is in plumbness, when antenna is not at plumbness, can be considered that its state is changed, triggering following Configuration step.Certainly, because antenna can not possibly be in absolute upright state, we can also set certain deviation oscillation, Such as 20 degree, that is to say, that the angle that can be arranged on vertical plane is less than in the case of 20 degree, will not also trigger, only be more than Or the situation equal to 20 degree can just be triggered.

Certainly, we can also set other angle values as trigger condition, specifically, including：S110 passes through angle The state of Sensor monitoring antenna, when the angle for detecting the antenna and horizontal plane exceedes default Second Threshold, judges The state of the antenna meets default trigger condition, into subsequent step.It is 45 degree such as to set Second Threshold, then the same day When the angular transducer of line monitors the angle of antenna and horizontal plane more than 45 degree, just judge to meet default trigger condition, Into configuration step below.The setting of trigger condition can also such as be accelerated in addition to setting angle value by other parameters Degree, fingerprint sensor etc..

In above-described embodiment one, enter step after step S100 judges that the state of antenna meets default trigger condition S200, specifically, the step S200 includes：

S210 obtains the label of the antenna；

S220 detects the acceleration of the axle of antenna three by three axis accelerometer；

S230 calculates the angle value of the state angle of antenna according to the acceleration of three axle.

The antenna of different labels can for the different function of configuration router, such as, antenna 1 be used for configuring 2.4G without The switch of line function；Antenna 2 is used for configuring the switch of 5G radio functions；Antenna 3 is used for configuring the bandwidth of router；Antenna 4 is used To adjust the power of router.Therefore, the label of the antenna is got, just can be known needs to enter which function of router Row configuration.It is also one of generation foundation of control routine below.

Three axis accelerometer is arranged in antenna, by three axis accelerometer detect the antenna three axles (X-axis, Y-axis and Z axis) acceleration, then calculate the angle value of the state angle of antenna, state angle is used to indicate that the angle of antenna condition, than Angle such as antenna and horizontal plane can serve as state angle.Certainly, more specifically, this state angle can be lateral misalignment angle or Vertical drift angle, or lateral misalignment angle and vertical drift angle are as state angle.Lateral misalignment angle is Y-axis and the angle of horizontal plane, vertical drift angle be X-axis with The angle of horizontal plane.We can be understood as, and one is angle that antenna swings, one be antenna swing angle Degree.We can select any one or two as state angle, and the angle change data of state angle are also control routine below Generation according to one of.Specifically, lateral misalignment angle, the calculating process of vertical drift angle are as follows：

Three axis accelerometer be arranged on the schematic diagram of carrier (antenna) as shown in Fig. 2

Carrier coordinate system is set to OX_bY_bZ_b, horizontal coordinates is OX_hY_hZ_h, then change of the carrier coordinate system to horizontal coordinates Changing matrix is：

Wherein γ is lateral misalignment angle, and θ is vertical drift angle.

The acceleration of carrier is obtained by three accelerometers of system, is local gravitational accelerationSat in carrier Mark system OX_bY_bZ_bProjection, is set toThe component for fastening each axle in horizontal coordinate is f^h=[0 0 g]^T, According to the equation of coordinate transformThen have：

The first row in formulaIt can obtain：

Carrying it into second and third row can obtain：

Then：

Lateral misalignment angle γ can obtain by derivation above, bias angle theta is indulged.It is 0 ° of plumbness when giving tacit consent to normal operating condition, by It is different in the environment of user, up and down can 15 ° of deviation, when user laterally or longitudinally moves antenna, such as Fig. 3, CPU can be calculated in real time Corresponding lateral misalignment angle γ and vertical bias angle theta value.

In above-described embodiment one, specifically, the step S300 includes：

S310 is according to the angle change data of the antenna and default first threshold, the state of tag antenna；

S320 obtains all status datas of the antenna in preset time period；

S330 generates the control routine of the antenna according to the label and all status datas of the antenna.

The angle value of antenna can be compared with default first threshold in above-mentioned steps S310, angle value is becoming Change, the state of antenna therefore, it can the angle change data and default first threshold tag antenna by antenna also in change State.Such as default first threshold is 45 degree, and user stirs antenna, the angle value of antenna and horizontal plane be less than 45 degree when It is 0 to wait tag antenna state, when user continues to stir so that when the angle value of antenna and horizontal plane is more than 45 degree, antenna State enters second stage, labeled as 1；Then user pulls back to antenna original position again so that antenna and horizontal plane Angle value be less than 45 degree, then antenna condition and enter state 0 from 1.

Step S320 is then all status data of antenna for counting step S310 marks in preset time period, as above, in advance If first threshold or 45 degree, antenna initial position is plumbness, user in preset time period to having stirred once, will Antenna toggle it to 60 degree of horizontal plane, plumbness is then pulled back to again, this section of preset time period marked according to step S310 Interior antenna condition, can obtain all status datas of the antenna in this period：0-1-0；Then obtained before we combine Antenna reference numbers (if what is stirred is antenna 1) can so generate the control routine of antenna：1-010 (the first representative antennas marks Number, behind representative antennas status data).If, the corresponding function setting of 1-010 control routines set before is increase route Device power, then, after this control routine is got, the control instruction of increase router power just can be obtained, and execution should Control instruction, the power of router is tuned up.

Another embodiment of the present invention, as shown in figure 4, including：

S010 prestores control routine and control instruction mapping table；

S110 by the state of angular transducer monitoring aerial, when the angle for detecting the antenna and horizontal plane exceed it is pre- If Second Threshold when, judge that the state of the antenna meets default trigger condition, into subsequent step；

S210 obtains the label of the antenna；

S220 detects the acceleration of the axle of antenna three by three axis accelerometer；

S230 calculates the angle value of the state angle of antenna according to the acceleration of three axle；

S310 is according to the state angle angle value of the antenna and default first threshold, the state of tag antenna；

S320 obtains all status datas of the antenna in preset time period；

S330 generates the control routine of the antenna according to the label and all status datas of the antenna；

S410 is according to the control routine, and the control routine from storage in control instruction mapping table with finding Corresponding control instruction.

There is corresponding relation in control routine, and label and the antenna that control routine represents antenna are dialled with control instruction What kind of dynamic process, therefore, indirectly, carries out to the antenna of which label and stirs, have corresponding control instruction.Such as： The selection of router working band is controlled by stirring antenna 1：

(1) angle value at the lateral misalignment angle of antenna is less than the angle value at preset reference lateral misalignment angle, opens 2.4G radio functions；

(2) angle value at the lateral misalignment angle of antenna be more than or equal to default reference lateral misalignment angle angle value, close 2.4G without Line function；

(3) angle value of the vertical drift angle of antenna is less than the default angle value with reference to vertical drift angle, opens 5G radio functions；

(4) angle value of the vertical drift angle of antenna is more than or equal to the default angle value with reference to vertical drift angle, closes 5G wireless Function.

Above-mentioned to stir after antenna 1, four kinds of states of antenna 1 have corresponded to different control routines, then pass through control routine pair Corresponding functional configuration is answered.Such as, detect antenna 1 and stir the angle that the vertical drift angle value of aft antenna is more than the vertical drift angle of default reference Angle value, will generate corresponding control routine, and the control instruction for closing 5G radio functions is then got according to the control routine.

It is, of course, also possible to set it is other stir mode, such as：Reach or more than a certain lateral misalignment angle, after continuing for some time； Reach or more than a certain vertical drift angle, after continuing for some time；In a period of time, stipulated number is reached or more than a certain lateral misalignment repeatedly Angle；In a period of time, stipulated number is reached or more than a certain vertical drift angle repeatedly；If many antennas so that different antennas Reach or more than a certain lateral misalignment angle/vertical drift angle etc..

From the point of view of the final position after antenna is stirred, stir and can be largely classified into two kinds：One kind will not be replied after stirring Initial position (such as plumbness), one kind to acquiescence are stirred afterwards or can be returned to initial position (such as carrys out clawback It is dynamic).The invention is not limited in this regard, still, stirs antenna, and allows antenna to be finally returned to initial position more preferably, because it can To cause the configuration that can complete router feature, and corresponding WIFI signal is not influenceed.

Another embodiment of the present invention, on the basis of any of the above-described embodiment, can also increase fingerprinting step, be Prevent that child from touching by mistake or other people set by mistake, user fingerprints can be sensed before activation, whether judge the user is default Validated user, the step of if so carrying out below again.

Another embodiment of the present invention, it is assumed that user will currently close 2.4G WIFI, the method to set up set is moves day The lateral misalignment angle of line 3 is more than 60 °, and repeatedly twice, implementation process is described as follows：

Under default conditions, antennas orthogonal desktop (can be with low-angle deviation), set now state as 0；

User laterally moves antenna, and three axis accelerometer detects real time data, and CPU is entered after analog-to-digital conversion and is entered Row processing；

CPU show that γ absolute value is equal to or more than 60 ° after the calculating of above-mentioned algorithm, reaches that control is required, in CPU Portion is 1 status indication now；

User recovers aerial angle, and CPU calculates γ absolute value within 10 °, and state is 0；

Antenna laterally is moved again, the absolute value that CPU calculates γ is equal to or more than 60 °, state 1 is reached again；

According to the label 3 of antenna and all status datas of the antenna, control routine is generated：3-0101

According to the control routine, system judges there is the demand for closing 2.4G WIFI, and CPU sends the control for closing 2.4G WIFI Instruction processed allows router to close 2.4GWIFI.

Based on identical technical concept, the invention also discloses a kind of router feature configuration device, the device can be adopted With any of the above-described embodiment of the method for the invention, specifically, as shown in figure 5, the router feature configuration device includes：Monitoring modular 10, for the state of monitoring aerial, judge whether the state of the antenna changes；Acquisition module 20, in the prison When survey module 10 monitors that the state of the antenna changes, the label and angle change data of the antenna are obtained；Code Generation module 30, for the label of the antenna and angle change data obtained according to the acquisition module 20, generation is corresponding Control routine；Control module 40, for the control routine generated according to the code generation module 30, obtains corresponding control Instruction, operation module 50, the control instruction for being obtained according to the control module 40 carries out corresponding function to router and matched somebody with somebody Put.

The different functional configuration of the day line traffic controls of different labels；The functional configuration includes：Working band configuration, bandwidth are matched somebody with somebody Put, power adjusting configuration etc..

Another embodiment of the present invention, on the basis of said apparatus embodiment, as shown in fig. 6, the acquisition module 20 is wrapped Include：Label acquisition submodule 21, the label for obtaining the antenna；Detection sub-module 22, for detecting the axle of antenna three Acceleration；Calculating sub module 23, for the acceleration according to three axle, calculates the angle of the state angle of antenna Value.Here state angle can be lateral misalignment angle and/or vertical drift angle, specifically may be referred to embodiment of the method above.

Preferably, the code generation module 30 includes：Status indication submodule 31, for according to the acquisition module 20 The label and angle change data of the antenna of acquisition, the state of tag antenna；Statistic submodule 32, for counting the state mark Remember all status datas of the submodule 31 in antenna described in preset time period internal labeling；Submodule is handled, for being obtained according to The label for the antenna that modulus block 20 is obtained, and all status datas that the statistic submodule 32 is counted, generation The control routine of the antenna.

The state of the tag antenna of status indication submodule 31, such as, when the angle value of the state angle is less than default the During one threshold value, tag antenna state is 0, when the angle value of the state angle is more than or equal to default first threshold, mark Antenna condition is 1；Therefore during user stirs antenna, the state angle of antenna is from the default first threshold in hell to more than pre- If first threshold when, corresponding antenna condition be from state 0 to state 1, if stirring 3 times repeatedly returns to original position, statistics All status datas gone out are：0101010, then the label in conjunction with antenna will generate relative to control routine.

Preferably, the router feature configuration device also includes：Memory module 60, for storing control routine and control Mapping table is instructed, is easy to the control module 40 according to the control routine, from described in the memory module 60 storage Control routine is easy to operation module 50 to perform corresponding control with finding corresponding control instruction in control instruction mapping table System instruction.

The device embodiment of the present invention is in corresponding, of the invention embodiment of the method with the embodiment of the method for the present invention Ins and outs are still effective to the device embodiment of the present invention, repeat, repeat no more here to reduce.

In addition, the invention also discloses a kind of wireless router, the wireless router includes apparatus of the present invention embodiment Described in any one router feature configuration device.The router feature configuration device of the present invention is integrated in wireless router On so that daily functional configuration can be achieved by stirring the antenna of the wireless router in user.

The wireless router of the present invention, the angle of current antenna is detected by three axis accelerometer, and the data measurement are anti- Feed CPU, realizes the functional configuration to router by the angle change of different antennae, schematic diagram is as shown in fig. 7, this is without circuit Router main body 701, CPU 702, accelerometer 703 and antenna 704 are included by device.Accelerometer 703 and CPU in the present embodiment 702 cooperatings, equivalent to the router feature configuration device in preceding embodiment.That is the route in preceding embodiment Device functional configuration device can allow router to recognize the angle change of antenna on the router with integrated, complete router Functional configuration.Wherein, when user moves antenna, the angle of antenna changes, as shown in figure 8, accelerometer 703 can be examined in real time The current angle of observation line 704, the data that CPU 702 is detected by accelerometer control its corresponding function.

The implementation process of the present invention is broadly divided into two parts, and one is detection by sensor three axis accelerometer Journey, another is that the CPU testing results gone out by feedback analysis are applied into functional configuration.For cost-effective, the present embodiment What is selected is MEMS (MEMS, Micro-Electro-Mechanical System) inertia device three axis accelerometer, The accelerometer is arranged in each antenna of router, the acceleration of corresponding antenna is then detected, and by number According to CPU is informed, CPU is allowed to calculate the angle of antenna.The data that CPU is gathered by three axis accelerometer can detect the angle of antenna Change, corresponding control routine is generated then in conjunction with corresponding antenna reference numbers, and corresponding control is obtained further according to the control routine Instruction, completes the functional configuration of router itself.

The present invention wireless router contain the present invention router feature configuration device, therefore the present invention without circuit Possess the angle change of measurement antenna by device, and the aerial angle change detected by it completes the work(of the configuration to router Energy.The device embodiment of the present invention can be specifically participated in, is repeated to reduce, does not go to live in the household of one's in-laws on getting married chat herein.

, but those skilled in the art once know basic creation although preferred embodiments of the present invention have been described Property concept, then can make other change and modification to these embodiments.So, appended claims are intended to be construed to include excellent Select embodiment and fall into having altered and changing for the scope of the invention.

Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the present invention to the present invention God and scope.So, if these modifications and variations of the present invention belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these changes and modification.

Claims (10)

1. a kind of router feature collocation method, it is characterised in that including：

The state of S100 monitoring aerials, judges whether the state of the antenna meets default trigger condition, if so, into step S200；

S200 obtains the label and angle change data of the antenna；

S300 generates corresponding control routine according to the label and angle change data of the antenna；

S400 obtains corresponding control instruction according to the control routine；

S500 carries out corresponding functional configuration according to the control instruction to router.

2. a kind of router feature collocation method according to claim 1, it is characterised in that the step S200 includes：

S210 obtains the label of the antenna；

S220 detects the acceleration of the axle of antenna three by three axis accelerometer；

S230 calculates the angle value of the state angle of antenna according to the acceleration of three axle.

3. a kind of router feature collocation method according to claim 1, it is characterised in that the step S300 includes：

S310 is according to the angle change data of the antenna and default first threshold, the state of tag antenna；

S320 obtains all status datas of the antenna in preset time period；

S330 generates the control routine of the antenna according to the label and all status datas of the antenna.

4. a kind of router feature collocation method according to claim any one of 1-3, it is characterised in that

Also include step before the step S100：

S010 prestores control routine and control instruction mapping table；

The step S400 includes：

S410 is according to the control routine, and the control routine from storage is corresponding with being found in control instruction mapping table Control instruction.

5. a kind of router feature collocation method according to claim 1, it is characterised in that the step S100 includes：

S110 by the state of angular transducer monitoring aerial, when the angle for detecting the antenna and horizontal plane exceed it is default During Second Threshold, judge that the state of the antenna meets default trigger condition, into subsequent step.

6. a kind of application power requires the router feature configuration device of the router feature collocation method described in any one of 1-5, its It is characterised by, including：

Monitoring modular, for the state of monitoring aerial, judges whether the state of the antenna changes；

Acquisition module, for when the monitoring module monitors change to the state of the antenna, obtaining the antenna Label and angle change data；

Code generation module, for the label of the antenna and angle change data obtained according to the acquisition module, generation Corresponding control routine；

Control module, for the control routine generated according to the code generation module, obtains corresponding control instruction,

Operation module, the control instruction for being obtained according to the control module carries out corresponding functional configuration to router.

7. a kind of router feature configuration device according to claim 6, it is characterised in that the acquisition module includes：

Label acquisition submodule, the label for obtaining the antenna；

Detection sub-module, the acceleration for detecting the axle of antenna three；

Calculating sub module, for the acceleration according to three axle, calculates the angle value of the state angle of antenna.

8. a kind of router feature configuration device according to claim 6, it is characterised in that the code generation module bag Include：

Status indication submodule, for the label of antenna and angle change data obtained according to the acquisition module, marks day The state of line；

Statistic submodule, it is stateful in the institute of antenna described in preset time period internal labeling for counting the status indication submodule Data；

Submodule is handled, is counted for the label of the antenna obtained according to the acquisition module, and the statistic submodule All status datas, generate the control routine of the antenna.

9. a kind of router feature configuration device according to claim any one of 6-8, it is characterised in that also include：

Memory module, for storing control routine and control instruction mapping table, is easy to the control module according to the control Code processed, the control routine from memory module storage is with finding corresponding control in control instruction mapping table Instruction.

10. a kind of wireless router, it is characterised in that configure dress including the router feature described in claim any one of 6-9 Put.