CN116318560B - Method for low power consumption of WiFi6 intelligent router system transmitting antenna power supply - Google Patents

Abstract

The invention discloses a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system, and relates to the technical field of the Internet of things; the method comprises the following steps: step 1), a WiFi6 intelligent router system judges the state of an access device; step 2), the WiFi6 intelligent router system identifies the state of the access equipment; step 3), the WiFi6 intelligent router system reduces the power consumption of the intelligent antenna. The invention provides a method for reducing the power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system, which is safe and reliable to use, simple and convenient to operate and various in functions.

Description

Method for low power consumption of WiFi6 intelligent router system transmitting antenna power supply

Technical Field

The invention relates to the technical field of the Internet of things, in particular to a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system.

Background

The router is generally hardware architecture, mainly comprising CPU, memory, NVRAM, flash, interface and the like. Stored in Flash is the router operating system, known as CISCO, IOS (Interconnection Operation System), in compressed format in router Flash.

NVRAM (non-volatile storage) uses relevant commands provided by the IOS to configure the router and is stored in NVRAM in the form of files, which facilitate loading into memory at start-up.

ROM (Read Only Memory) the ROM contains POST (Power On Self Test) power-on self-test code, boot Strap Boot code, miniOS (the simplified version of IOS corresponds to the security mode of windows system), ROM Monitor (the command prompt mode corresponds to windows and is mainly used for disaster recovery).

RAM (Random-Access Memory) Random Access Memory contains the IOS loaded at startup, various routing protocol processes, active profiles, buffers, etc.

WiFi6 provides faster transmission speeds, wider network bands, and higher storage capacity than WiFi 5. The maximum transmission speed of WiFi6 is increased from 3.5Gbps to 9.6Gbps, and the theoretical speed is increased by about 3 times. Low and high speed devices; in terms of modulation scheme, wiFi6 supports 1024-QAM, which is higher than 256-QAM of WiFi5, and has a faster data information storage capacity, meaning a faster data information transmission speed.

The existing WIFI6 router system has the problem that the power consumption of a transmitting antenna power supply is overlarge although the data transmission rate is high.

Disclosure of Invention

In view of the above, the invention aims to provide a method for reducing the power consumption of a transmitting antenna power supply, which is safe and reliable to use, simple and convenient to operate and various in functions.

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

a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system comprises the following steps:

step 1), a WiFi6 intelligent router system judges the state of an access device;

step 2), the WiFi6 intelligent router system identifies the state of the access equipment;

step 3), the WiFi6 intelligent router system reduces the power consumption of the intelligent antenna.

The step 1) comprises the step that the WiFi6 intelligent router system monitors external access equipment information through an intelligent antenna and stores the information into a first memory.

The step 1) further includes the intelligent antenna monitoring external access device information, including when the external device is in a working state, the WiFi6 intelligent router system monitors the external access device information through the intelligent antenna, and stores the external access device information in the second memory.

The step 1) further includes the intelligent antenna monitoring the information of the external access device, and when the external device is in a non-working state, the intelligent antenna stores the information of the monitored external access device into the third memory.

And 2) starting the WiFi6 intelligent router system to identify the working state information of the external access equipment, acquiring the function, name and function quantity information of the external access equipment through the intelligent antenna, and storing the information into a fourth memory.

And 2) acquiring frequency and duration information of the external access equipment function through the intelligent antenna, and storing the frequency and duration information into a fifth memory.

The step 2) further comprises the step that the WiFi6 intelligent router system sets a timing factor and stores the timing factor in a sixth memory.

And 3) judging the sleep state of the intelligent antenna by the WiFi6 intelligent router system through the timing factor value when the external equipment is in the working state.

The dormant state comprises a dormant state of a deep gap, a dormant state of a medium gap and a dormant state of a shallow gap.

And 3) the WiFi6 intelligent router system further comprises the step of reducing the power consumption of the intelligent antenna by acquiring the calculated values of the function frequency and the timing factor of the external equipment under the sleep state of the intelligent antenna.

The technical scheme provided by the invention has the beneficial effects that 1) the device state connected with the intelligent antenna of the WIFI6 router can be automatically obtained, the WIFI6 intelligent router automatically sets a timing factor according to the frequency and the duration used in the operation of the device and the function type, and the WIFI6 intelligent router system enables the device to enter into dormancy of different grades during the cache of the WIFI6 intelligent router system according to the timing duration set by the timing factor, so that the power consumption of the intelligent WIFI6 intelligent router system is reduced; 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 improvement of one-time upgrading in the prior art.

Drawings

Fig. 1 is a flowchart of a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to an embodiment of the invention;

fig. 2 is a S100 flowchart of a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to an embodiment of the invention;

fig. 3 is a S200 flowchart of a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to an embodiment of the invention;

fig. 4 is a flowchart of S300 of a method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to an embodiment of the invention.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings.

The method for realizing low power consumption of the transmitting antenna power supply of the WiFi6 intelligent router system comprises the following steps:

referring to fig. 1, S100, the WiFi6 intelligent router system judges the external access device status;

s200, the WiFi6 intelligent router system identifies the working state of external access equipment;

s300, the WiFi6 intelligent router system reduces power consumption of the intelligent antenna.

Currently, the internet of things is connecting all intelligent devices, for example: intelligent devices such as a smart phone, an intelligent PAD, an intelligent bracelet, an intelligent TV and a WiFi6 router are all connected in a network domain, and the WIFI6 intelligent router system (comprising 16 intelligent antennas) is powered on to start the intelligent Internet of things system.

Different smart antennas in the WiFi6 smart router system may monitor different external access devices, for example: the smart antenna 1.2 can monitor the external access device: smart phones or smart PADs;

referring to fig. 2, in this embodiment, preferably, S100 includes step S110, step S120, and step S130;

s110, the information of the external access equipment monitored by the intelligent antenna of the WiFi6 intelligent router system is stored in a first memory;

the step 120 of monitoring the external access equipment information by the intelligent antenna comprises the external access equipment information monitored by the intelligent antenna of the WiFi6 intelligent router system when the external equipment is in a working state, and storing the external access equipment information into a second memory;

the step 130 of monitoring the external access device information by the smart antenna includes that when the external device is in a non-working state, the smart antenna of the WiFi6 intelligent router system stores the monitored external access device information in the third memory. In this embodiment, preferably, the memory is a DDR memory.

In this embodiment, the number and name of external access devices monitored by the smart antenna of the WiFi6 smart router system are stored in the first DDR memory, for example: the number of the external access devices is 10, and the devices comprise smart phones, smart TVs and the like.

When the external equipment is in a working state, sending a message in the cloud 1MS, and storing the information such as the number of the equipment, the equipment name, the code number of the monitoring antenna and the like which are received by the external access equipment 1MS by the intelligent antenna of the WiFi6 intelligent router system into a second DDR memory; for example: number of devices: 2, the equipment comprises smart phones, smart TVs and other equipment;

when the external equipment is in a non-working state, the intelligent antenna of the WiFi6 intelligent router system monitors the number of equipment and equipment name information which are not received in the external equipment 1MS and stores the information into a third DDR memory; for example: number of devices: the 8 devices comprise intelligent wrist rings, intelligent PADs and other devices.

Referring to fig. 3, in this embodiment, preferably, S200 includes step S210, step S220, and step S230;

s210, when the WiFi6 intelligent router system is started to identify that the external access equipment is in a working state, the intelligent antenna of the WiFi6 intelligent router system acquires the function name and the function number of the external access equipment and stores the function name and the function number in a fourth memory;

s220, a smart antenna of the WiFi6 intelligent router system acquires frequency and duration information of the external access equipment function and stores the frequency and duration information in a fifth memory;

the WiFi6 intelligent router system sets a timing factor and stores the timing factor in the sixth memory.

In this embodiment, when the information in the second DDR memory is not empty, that is, when the external device is in a working state, the WiFi6 intelligent router system is started to identify working state information of the external access device.

Preferably, the external device comprises a smart phone or a smart TV.

When the external device is a smart phone:

the smart antenna of the WiFi6 smart router system is preferably of a smart antenna model 1.2; acquiring function names and function quantity information used by a user using a smart phone; for example, the function names include touch screen, voice, photo, music, and number of functions S1:4 kinds of data are stored in a fourth DDR memory;

the smart antenna of the WiFi6 smart router system obtains the frequency and duration of the functions used by the user using the smart phone, for example: frequency CP using touch screen function: 8, touch screen function duration CS:20S, frequency YP using voice function: 5, voice function duration YS:30S, frequency PP using photographing function: 3, photographing function duration PS:50S, storing the data in a fifth DDR memory.

When the WiFi6 intelligent router system reads the function quantity S1=4 in the fourth DDR memory, the frequency CP=5 of the touch screen function in the fifth DDR memory is read by the WiFi6 intelligent router system; the touch screen function duration cs=10; frequency YP of voice function=3; voice function duration ys=5; frequency pp=3 of the photographing function; the photographing function duration ps=50; the WiFi6 intelligent router system sets a timing factor as follows: d1 =s1+cp+cs+yp+ys+pp+ps=80 is stored in the sixth DDR memory.

When the external device is a smart TV:

when the smart antenna of the WiFi6 smart router system, preferably, the model number of the smart antenna is smart antenna 3.4; acquiring function names and function quantity used by a user by using an intelligent TV; for example: the function names include watching video, listening to sound, number of functions S2:2 kinds; saving in a seventh DDR memory;

the smart antenna of the WiFi6 smart router system obtains the frequency and duration of the functions used by the user using the smart TV, for example: frequency SP of using video watching function: 7, video function duration SC:500s, frequency XP using audible sound function: 3, hearing function duration XS:100S, storing the data in an eighth DDR memory.

The function number s2=2 of the seventh DDR memory is read by the WiFi6 intelligent router system, and the frequency sp=7 of the video watching function of the eighth DDR memory is read by the WiFi6 intelligent router system; the video watching function duration sc=500; frequency xp=3 of the audible sound function; the audible sound function duration xs=100; the WiFi6 intelligent router system sets a timing factor as follows:

d2 =s2+sp+sc+xp+xs=610, stored in the ninth DDR memory.

Referring to fig. 4, the S300 includes a step S310 and a step S320;

s310, when the external equipment is in a working state, the WiFi6 intelligent router system judges the sleep state of the intelligent antenna through a timing factor value;

in the S320, in the sleep state of the smart antenna, the WiFi6 smart router system reduces the power consumption of the smart antenna by acquiring the function frequency and the timing factor calculated value of the external device.

In this embodiment, preferably, the sleep state includes a deep gap sleep state, a medium gap sleep state, and a shallow gap sleep state.

In this embodiment, when the WiFi6 intelligent router system reads that the values in the sixth DDR memory and the ninth DDR memory are not empty, the method for reducing the power consumption of the intelligent antenna by the WiFi6 intelligent router system is started:

when the WiFi6 intelligent router system reads the timing factor value D which is more than 500, the sleep state of the deep gap is obtained; the timing factor value D is 200-500 and is in a dormant state of the medium gap, and the timing factor value D is 200-200 and is in a dormant state of the shallow gap.

After the WiFi6 intelligent router system detects that the intelligent antenna enters a dormant state, the WiFi6 intelligent router system sends a control command to enable three modules of NVRAM (non-volatile memory), ROM (read only memory) and RAM (random access memory) of the WiFi6 intelligent router system to enter a cache mode (intermittent dormancy).

When the smart antenna is in a sleep state for deep gaps:

the WiFi6 intelligent router system reads the timing factor D2 in DDR09 to be more than 500, and the WiFi6 intelligent router system judges that the sleep state of the deep gap is achieved:

the WiFi6 intelligent router system reads the functions (for example, X1 is represented as an audible sound function) which are used by the user for less than 5 times in the eighth DDR memory and stores the functions in the tenth DDR memory.

The WiFi6 intelligent router system sets NVRAM, ROM, RAM three module gap sleep times to x=the number of functions of the user using the functions of the device less than 5 times the timing factor;

the calculation formula is as follows: (x=x1×d2=1×610=610 s),

if the value of the intermittent sleep time is less than 5 times of using the functions of the device, the NVRAM, ROM, RAM three modules perform intermittent sleep, and the smart antenna does not perform processing of transmitting and receiving data on the three modules, so that the power consumption of the smart antenna is reduced.

When the smart antenna is in a sleep state with shallow gaps:

the WiFi6 intelligent router system reads the timing factor D1 in the sixth DDR memory to be less than or equal to 200, and the WiFi6 intelligent router system judges that the sleep state of the shallow gap is achieved:

and the WiFi6 intelligent router system reads the functions (P1: photographing function) of which the frequency of the functions used by the user by the intelligent mobile phone equipment in the fifth DDR memory is less than 5 times, and stores the functions into the seventh DDR memory.

The WiFi6 intelligent router system sets NVRAM, ROM, RAM three module gap sleep times to be x=the number of functions of the user using the functions of the device less than 5 times multiplied by the timing factor, and the calculation formula is: x=p1×d1=1×80=80 s;

if the value of the intermittent sleep time is less than 5 times of using the functions of the device, the NVRAM, ROM, RAM three modules perform intermittent sleep, and the smart antenna does not perform processing of transmitting and receiving data on the three modules, so that the power consumption of the smart antenna is reduced.

According to the method, the device state of intelligent antenna connection of the WIFI6 router is automatically obtained, the WIFI6 intelligent router automatically sets the timing factors according to the frequency and the duration used in the working of the device and the function type, the WIFI6 intelligent router system enables the device to enter into dormancy of different grades during the caching period of the WIFI6 intelligent router system according to the timing duration set by the timing factors, and the power consumption of the intelligent WIFI6 intelligent router system is reduced.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (4)

1. A method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system is characterized by comprising the following steps: the method comprises the following steps:

step 1), a WiFi6 intelligent router system judges the state of an access device;

step 2), the WiFi6 intelligent router system identifies the state of the access equipment;

step 3), the WiFi6 intelligent router system reduces the power consumption of the intelligent antenna;

step 2) starts a WiFi6 intelligent router system to identify the working state information of the external access equipment, acquires the function, name and function quantity information of the external access equipment through the intelligent antenna, and stores the information in a fourth memory;

step 2) further comprises obtaining frequency and duration information of the external access device function through the intelligent antenna, and storing the frequency and duration information in a fifth memory;

the step 2) further comprises the step that the WiFi6 intelligent router system sets a timing factor and stores the timing factor in a sixth memory;

the step 3) comprises the steps that when the external equipment is in a working state, the WiFi6 intelligent router system judges the sleep state of the intelligent antenna through a timing factor value;

the dormant state comprises a dormant state of a deep gap, a dormant state of a medium gap and a dormant state of a shallow gap;

the step 3) further comprises the step that in the sleep state of the intelligent antenna, the WiFi6 intelligent router system reduces the power consumption of the intelligent antenna by acquiring the calculated values of the function frequency and the timing factor of the external equipment;

setting the intermittent sleep time to be X=the number of functions of which the frequency of using the functions of the equipment by the user is less than 5 times multiplied by a timing factor by the WiFi6 intelligent router system;

the calculation formula is as follows: (x=x1×d2=1×610=610 s),

if the value of the intermittent sleep time is less than 5 times of using the functions of the device, the smart antenna does not perform the process of transmitting and receiving data during the intermittent sleep, thereby reducing the power consumption of the smart antenna.

2. The method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to claim 1, wherein the method comprises the steps of: the step 1) comprises the step that the WiFi6 intelligent router system monitors external access equipment information through an intelligent antenna and stores the information into a first memory.

3. The method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to claim 2, wherein the method comprises the steps of: the step 1) further includes the intelligent antenna monitoring external access device information, including when the external device is in a working state, the WiFi6 intelligent router system monitors the external access device information through the intelligent antenna, and stores the external access device information in the second memory.

4. The method for low power consumption of a transmitting antenna power supply of a WiFi6 intelligent router system according to claim 2, wherein the method is characterized by: the step 1) further includes the intelligent antenna monitoring the information of the external access device, and when the external device is in a non-working state, the intelligent antenna stores the information of the monitored external access device into the third memory.