CN115632746B - Method for improving stability of transmission channel by WiFi6 intelligent router system - Google Patents

Abstract

The invention discloses a method for improving the stability of a transmission channel by a WiFi6 intelligent router system, relating to the technical field of Internet of things; the method comprises the following steps: step 1), a WiFi6 intelligent router system counts the speed of the whole transmission machine; step 2), the WiFi6 intelligent router system identifies the type of the transmission data; and step 3), modulating the channel stability by the WiFi6 intelligent router system. The invention aims to provide a method for improving the stability of a transmission channel by a WiFi6 intelligent router system, which can modulate the stability of the channel, achieves the aim of stable transmission during data transmission, is safe and reliable to use and is simple and convenient to operate.

Description

Method for improving stability of transmission channel by WiFi6 intelligent router system

Technical Field

The invention relates to the technical field of WiFi6 intelligent routers, in particular to a method for improving the stability of a transmission channel by a WiFi6 intelligent router system.

Background

With the increasing demand for network transmission rate, the concept of WiFi6 (802.11 ax) is proposed, and in recent years, with the development of IoT (internet of things), wiFi6 is more widely used, for example: video conferencing, wireless interactive VR, mobile teaching, intelligent house etc.. However, as more and more devices access to the WiFi6 intelligent router, a phenomenon that transmission instability occurs in a channel due to an excessively large transmission data amount is easy to occur.

Therefore, a method or a device for solving the problem of unstable transmission channel of the WiFi6 intelligent router is urgently needed by users. The invention provides a method for improving the stability of a transmission channel by a WiFi6 intelligent router system. The invention definitely classifies the type of the data transmitted by the WiFi6 intelligent router system, designs different schemes for different transmission rates and different types of data to modulate the stability of a channel, and achieves the aim of stable transmission during data transmission.

Disclosure of Invention

In view of this, the present invention provides a method for improving the stability of a transmission channel by a WiFi6 intelligent router system, which can modulate the stability of the channel, achieve the purpose of stable transmission during data transmission, and is safe and reliable to use and simple to operate.

In order to realize the purpose of the invention, the following technical scheme can be adopted:

a method for improving the stability of a transmission channel by a WiFi6 intelligent router system comprises the following steps:

step 1), a WiFi6 intelligent router system counts the speed of the whole transmission machine;

step 2), the WiFi6 intelligent router system identifies the type of the transmission data;

and step 3), modulating the channel stability by the WiFi6 intelligent router system.

The step 1) comprises the following steps:

step A), the WiFi6 intelligent router system determines the number of the channels occupied currently and stores the number of the channels occupied currently;

step B), the WiFi6 intelligent router system determines the number of idle channels and stores the idle channels;

step C), the WiFi6 intelligent router system calculates the saving quantity of the identified current occupied channel number and the saving quantity of the acquired idle channel number, and then further saves the calculated saving quantities;

and D), comparing the value stored in the last step with the channel occupancy rate by the WiFi6 intelligent router system, and judging the speed mode of the whole transmission machine.

The transmission complete machine rate mode comprises a high-speed transmission complete machine rate mode, a medium-speed complete machine rate mode and a low-speed transmission complete machine rate mode.

The step 2) further comprises the following steps:

a) The WiFi6 intelligent router system detects the current image transmission frequency band and stores the current image transmission frequency band;

b) And the WiFi6 intelligent router system judges the dimensional video mode or the picture mode according to different frequencies of the detected image transmission frequency bands.

The step 3) comprises the following steps:

step I), a WiFi6 intelligent router system reads and stores a transmission frequency band of a storage;

step II), the WiFi6 intelligent router system judges the rate mode of the whole transmission machine, acquires the number of currently occupied channels, calculates the transmission rate of the current first channel and stores the current first channel;

step III), the WiFi6 intelligent router system reads the frequency band value, reads and calculates the number of idle channels, starts a modulation channel stable speed module, calculates the current second channel transmission rate and stores the current second channel transmission rate;

step IV) the WiFi6 intelligent router system calculates the third step and the second step of stored values, compares the calculated values with the channel transmission rate reduction ratio, and judges the modulation channel stability.

The calculation formula of the current first channel transmission rate in the step II)) is as follows:

total data volume ÷ number of occupied channels = current channel transmission rate.

Said step iii)) calculates the current second channel transmission rate according to the formula:

total data volume ÷ number of occupied channels = current channel transmission rate.

And IV) if the calculated value is larger than 10% compared with the reduction ratio of the channel transmission rate, the WiFi6 intelligent router system judges that the modulation channel stability is successful.

The technical scheme provided by the invention has the beneficial effects that 1) the invention carries out definite classification on the type of data transmitted by the WiFi6 intelligent router system, and different schemes are designed for different transmission rates and different types of data to modulate the stability of a channel, thereby achieving the purpose of stable transmission during data transmission; 2) The invention has strong practicability, safe and reliable use method and simple and convenient use; 3) The invention has various functions, greatly reduces the cost and is an upgrading improvement in the prior art.

Drawings

Fig. 1 is a flowchart of a method for improving stability of a transmission channel by a WiFi6 intelligent router system according to an embodiment of the present invention;

fig. 2 is a flowchart of step 1 of a method for improving transmission channel stability of a WiFi6 intelligent router system according to an embodiment of the present invention;

fig. 3 is a flowchart of step 2 of a method for improving stability of a transmission channel by a WiFi6 intelligent router system according to an embodiment of the present invention;

fig. 4 is a flowchart of step 3 of a method for improving stability of a transmission channel by a WiFi6 intelligent router system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and embodiments thereof.

Example 1

Referring to fig. 1, the method for improving the stability of the transmission channel by the WiFi6 intelligent router system includes the following steps:

step 1), the WiFi6 intelligent router system systematically calculates the transmission whole machine speed S100;

step 2), the WiFi6 intelligent router system identifies the transmission data type S200;

step 3), modulating the channel stability by the WiFi6 intelligent router system S300.

Referring to fig. 2, in this embodiment, preferably, the step 1) includes the following steps:

step A), the WiFi6 intelligent router system determines the number of the channels occupied currently and stores the number of the channels S110;

step B), the WiFi6 intelligent router system determines the number of idle channels and stores the number of idle channels in step S120;

step C), the WiFi6 intelligent router system calculates the saving quantity of the identified current occupied channel number and the saving quantity of the acquired idle channel number, and then further saves S130;

and D), comparing the value stored in the last step with the channel occupancy rate by the WiFi6 intelligent router system, and judging a transmission complete machine rate mode S140.

In this embodiment, it is further preferable that the transmission overall rate mode includes a high-speed transmission overall rate mode, a medium-speed overall rate mode, and a low-speed transmission overall rate mode.

In the embodiment, in the first mode, when the WiFi6 intelligent router system is in the high-speed transmission overall rate mode;

the WiFi6 intelligent router system detects the overall data rate, if the overall data rate is larger than 1000GB/s (1800 GB/s is assumed); the WiFi6 intelligent router system determines the number of currently occupied channels (assuming 3 channels are occupied), saves to the first buffer,

the WiFi6 intelligent router system determines the number of idle channels, for example: a total of 12 channels, so that there are 9 free channels, saving the number of free channels to the second buffer,

the WiFi6 intelligent router system reads the number of occupied channels of the first buffer and the number of idle channels of the second buffer, and the two are divided (for example: 3 ÷ 12= 0.25), and stored in the third buffer,

and the WiFi6 intelligent router system reads the numerical value of the third temporary storage area, if the numerical value is less than 25% of the channel occupancy rate, the WiFi6 intelligent router system judges that the mode is a high transmission overall machine rate mode, and the WiFi6 intelligent router system starts a stability processing mode and stores the stability processing mode into the first memory.

In the second mode, when the WiFi6 intelligent router system is in a medium-speed transmission overall speed mode;

the WiFi6 intelligent router system detects the speed of the whole data machine, the speed is larger than 100GB/s and smaller than 1000GB/s (assumed to be 800 GB/s), the WiFi6 intelligent router system determines the number of currently occupied channels (assumed to occupy 5 channels), the channels are stored in a fourth temporary storage area,

the WiFi6 intelligent router system determines the number of idle channels (7), saves to the fifth temporary storage area,

the third mode is that when the WiFi6 intelligent router system is in a low-speed transmission overall speed mode;

the WiFi6 intelligent router system detects the speed of the whole data machine, the speed is less than 1GB/s (supposing 0.8 GB/s), the WiFi6 intelligent router system determines the number of channels occupied currently (supposing 8 channels are occupied), the channels are stored in a seventh temporary storage area,

the WiFi6 intelligent router system determines the number of free channels (4), saves the number of free channels to the eighth buffer,

the WiFi6 intelligent router system reads the number of occupied channels of the seventh temporary storage area and the number of idle channels of the eighth temporary storage area, the number of occupied channels of the seventh temporary storage area and the number of idle channels of the eighth temporary storage area are divided (8/12/0.67), and the values are stored in the ninth temporary storage area.

The WiFi6 intelligent router system reads the value of the ninth temporary storage area, the value is larger than the channel occupancy rate of 50 percent, the WiFi6 intelligent router system judges that the speed mode of the whole low transmission machine is adopted, the WiFi6 intelligent router system does not start the stability processing mode and stores the stability processing mode in a third memory,

referring to fig. 3, in this embodiment, preferably, the step 2) further includes the following steps:

a) The WiFi6 intelligent router system detects the current image transmission frequency band and stores the current image transmission frequency band S210;

b) And the WiFi6 intelligent router system judges the dimensional video mode or the picture mode according to the different frequencies of the detected image transmission frequency bands S220.

In this embodiment, preferably, the image transmission includes a video mode and a picture mode.

First, when transmitting video mode

The WiFi6 intelligent router system identifies the type of the transmission data, the WiFi6 intelligent router system judges the video transmission mode, the WiFi6 intelligent router system detects the current transmission frequency band (assumed to be 5 GHz), stores the current transmission frequency band in the fourth memory,

second, when picture mode is transmitted

The WiFi6 intelligent router system identifies the type of the transmission data, the WiFi6 intelligent router system judges that the transmission data is in the picture transmission mode, the WiFi6 intelligent router system detects the current transmission frequency band (assumed to be 2.4 GHz), the current transmission frequency band is stored in a fifth memory,

referring to fig. 4, in this embodiment, preferably, the step 3) includes the following steps:

step I), the WiFi6 intelligent router system reads the transmission frequency band of the memory and stores the transmission frequency band S310;

step II), the WiFi6 intelligent router system judges the rate mode of the whole transmission machine, obtains the number of the currently occupied channels, calculates the transmission rate of the current first channel, and stores the transmission rate S320;

step III), the WiFi6 intelligent router system reads the frequency band value, reads and calculates the number of idle channels, starts a modulation channel stable speed module, calculates the current second channel transmission rate and stores S330;

step IV) the WiFi6 intelligent router system calculates the stored values in the step II and the step III, compares the calculated values with the channel transmission rate reduction ratio, and judges the modulation channel stability S340.

In this embodiment, mode one: when the invention modulates the transmission video channel mode

The method comprises the following steps: the WiFi6 intelligent router system starts a module for identifying the type of the transmission data, the WiFi6 intelligent router system judges that the video transmission mode is adopted, the WiFi6 intelligent router system reads the fourth memory (assuming that the transmission frequency band is 5 GHz) and stores the fourth memory in the eleventh temporary storage area,

step two: the WiFi6 intelligent router system starts a statistic transmission complete machine rate module, the WiFi6 intelligent router system judges a high transmission complete machine rate mode, the WiFi6 intelligent router system reads the value of the first memory (assumed to be 1800 GB/s), the WiFi6 intelligent router system obtains the number of currently occupied channels (3 occupied channels, each channel respectively transmits 1800GB/s ÷ 3= 600GB/s), the current channel transmission rate V1 is calculated and stored in a twelfth temporary storage area, and the calculation formula is as follows:

total data volume ÷ number of occupied channels = current channel transmission rate

Such as:

1800GB/s÷3=600GB/s

step three: the WiFi6 intelligent router system reads the frequency band value of the eleventh temporary storage area (5 GHz is assumed), the WiFi6 intelligent router system reads the twelfth temporary storage area to calculate the number of idle channels (12-3 = 9), the WiFi6 intelligent router system starts the modulation channel stability module, namely, the 1800GB/s video stored in the first memory is averagely distributed to 9 channels for transmission, each channel transmits 200GB/s, the current channel transmission rate V2 is calculated and stored in the thirteenth temporary storage area,

the calculation formula is as follows:

total data volume ÷ number of occupied channels = current channel transmission rate

Such as:

1800GB÷9=200GB/s

step four: the WiFi6 intelligent router system reads the value of the thirteenth temporary storage area (assumed to be 200 GB/s), the WiFi6 intelligent router system reads the value of the twelfth temporary storage area (assumed to be 600 GB/s), and the two are divided

Such as: 200 GB/s/600 GB/s x 100% =1/3 ≈ 33.3%, the reduction ratio of the transmission rate of the channel is greater than 10%, the WiFi6 intelligent router system judges that the modulation channel stability is successful, and the video is normally played.

And a second mode: when the invention modulates the transmission picture channel mode

The method comprises the following steps: the WiFi6 intelligent router system starts a module for identifying the type of the transmission data, the WiFi6 intelligent router system judges that the picture transmission mode is adopted, the WiFi6 intelligent router system reads the fifth memory (assuming that the transmission frequency band is 2.4 GHz) and stores the fifth memory into the fourteenth temporary storage area,

step two: the WiFi6 intelligent router system starts a statistic transmission complete machine rate module, the WiFi6 intelligent router system judges that the transmission complete machine rate mode is in, the WiFi6 intelligent router system reads the value of the sixth memory (assumed to be 800 GB/s), the WiFi6 intelligent router system obtains the number of currently occupied channels (5 occupied channels, each channel respectively transmits 800GB/s ÷ 5= 160GB/s), the current channel transmission rate V3 is calculated, the current channel transmission rate V3 is stored in a fifteenth temporary storage area, and the calculation formula is as follows:

total data volume ÷ number of occupied channels = current channel transmission rate

Such as:

800GB/s÷5=160GB/s

step three: the WiFi6 intelligent router system reads the frequency band value of the fourteenth temporary storage area (assumed to be 2.4 GHz), the WiFi6 intelligent router system reads the fifteenth temporary storage area to calculate the number of idle channels (12-5 = 7), the WiFi6 intelligent router system starts the modulation channel stability module, that is, the video of 800GB/s stored in the sixth storage is averagely allocated to 7 channel transmissions, each channel transmission is 114.3GB/s, the current channel transmission rate V2 is calculated, and the current channel transmission rate V2 is stored in the sixteenth temporary storage area, the calculation formula is as follows:

total data volume ÷ number of occupied channels = current channel transmission rate

Such as:

800GB÷7≈114.3GB/s

step four: the WiFi6 intelligent router system reads the value of the sixteenth buffer (assumed to be 114.3 GB/s), the WiFi6 intelligent router system reads the value of the fifteenth buffer (assumed to be 160 GB/s), and the two are divided:

such as: 114.3 GB/s/160 GB/s 100% ≈ 71.4%), which is greater than 10% of the reduction ratio of the channel transmission rate, and the WiFi6 intelligent router system judges that the modulation channel stability is successful and the picture is normally sent.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (6)

1. A method for improving the stability of a transmission channel by a WiFi6 intelligent router system is characterized by comprising the following steps: the method comprises the following steps:

step 1), the WiFi6 intelligent router system counts the transmission overall speed;

step 2), the WiFi6 intelligent router system identifies the type of the transmitted data;

step 3), modulating the channel stability by the WiFi6 intelligent router system;

the step 2) further comprises the following steps:

a) The WiFi6 intelligent router system detects the current image transmission frequency band and stores the current image transmission frequency band;

b) The WiFi6 intelligent router system judges whether the detected image transmission frequency band is different in frequency or not to be in a video mode or a picture mode;

the step 3) comprises the following steps:

step I), a WiFi6 intelligent router system reads and stores a transmission frequency band of a storage;

step II), the WiFi6 intelligent router system judges the rate mode of the whole transmission machine, acquires the number of currently occupied channels, calculates the transmission rate of the current first channel and stores the current first channel;

step III), reading the frequency band value by the WiFi6 intelligent router system, reading and calculating the number of idle channels, starting a modulation channel stable speed module, calculating the current second channel transmission rate, and storing;

step IV), the WiFi6 intelligent router system calculates the stored values in the step II) and the step III), compares the calculated values with the channel transmission rate reduction ratio, and judges the stability of the modulation channel;

when the video mode is modulated for transmission, the method comprises the following steps:

the method comprises the following steps: the WiFi6 intelligent router system starts a module for identifying the type of the transmission data, the WiFi6 intelligent router system judges that the video transmission mode is adopted, the WiFi6 intelligent router system reads the fourth memory and stores the fourth memory in the eleventh temporary storage area,

step two: the WiFi6 intelligent router system starts a statistic transmission complete machine rate module, reads the value of the first memory, acquires the number of currently occupied channels, calculates the current channel transmission rate V1 and stores the current channel transmission rate V1 in a twelfth temporary storage area;

step three: the WiFi6 intelligent router system reads a frequency band value of the eleventh temporary storage area, the WiFi6 intelligent router system reads the twelfth temporary storage area to calculate the number of idle channels, the WiFi6 intelligent router system starts a modulation channel stability module, calculates the current channel transmission rate V2 and stores the current channel transmission rate V2 in the thirteenth temporary storage area;

step four: and if the WiFi6 intelligent router system reads the value of the thirteenth temporary storage area and the WiFi6 intelligent router system reads the value of the twelfth temporary storage area, and if the value is larger than the channel transmission rate reduction proportion by 10%, the WiFi6 intelligent router system judges that the modulation channel stability is successful, and the video is played normally.

2. The method of claim 1, wherein the method comprises the steps of: the step 1) comprises the following steps:

step A), the WiFi6 intelligent router system determines the number of channels occupied currently;

step B), the WiFi6 intelligent router system determines the number of idle channels;

step C), the WiFi6 intelligent router system calculates the saving quantity of the identified current occupied channel number and the saving quantity of the acquired idle channel number, and then further saves the calculated saving quantities;

and D), comparing the value stored in the last step with the channel occupancy rate by the WiFi6 intelligent router system, and judging the speed mode of the whole transmission machine.

3. The method of claim 2, wherein the method comprises the steps of: the transmission overall speed mode comprises a high-speed transmission overall speed mode, a medium-speed overall speed mode and a low-speed transmission overall speed mode.

4. The method of claim 1, wherein the method comprises the steps of: the calculation formula for calculating the current first channel transmission rate in the step II) is as follows:

total data volume ÷ number of occupied channels = current channel transmission rate.

5. The method of claim 1, wherein the method comprises the steps of: the calculation formula for calculating the current second channel transmission rate in the step III) is as follows:

total data volume ÷ number of free channels = current channel transmission rate.

6. The method of claim 5, wherein the method comprises the steps of: and IV) if the calculated value is larger than 10% compared with the reduction ratio of the channel transmission rate, the WiFi6 intelligent router system judges that the modulation channel stability is successful.

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