CN117729614A - WiFi access equipment low-power consumption management method, management system and readable storage medium - Google Patents

Abstract

The invention provides a low-power consumption management method and system for WiFi access equipment and a readable storage medium, and belongs to the technical field of communication. According to the WiFi access equipment low-power consumption management method, RSSIs of all accessed wireless equipment are reported and statistical processing is carried out; calculating the average value RSavg of RSSIs of all the hanging wireless devices; and comparing the calculated average value RSavg of the RSSIs of all the hung wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmitting power of the current wireless network device needs to be adjusted and optimized, so that the aim of accurately controlling and adjusting the power of the wireless device can be fulfilled.

Description

WiFi access equipment low-power consumption management method, management system and readable storage medium

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a low power consumption management method, a management system, and a readable storage medium for a WiFi access device.

Background

With the development of the internet and wireless networks, more and more people use wireless WiFi access networks. Meanwhile, the wireless device is increasingly valued by people due to the awareness of electromagnetic radiation, electricity consumption, electricity saving and the like. The existing solution is to monitor the data transmission rate to adjust the transmission power of the wireless WiFi, and then determine whether the current wireless environment is good or bad according to the data transmission rate, so as to decide whether to reduce or increase the transmission power of the wireless network device. However, the existing method of judging whether the current wireless environment is good or bad by the speed has some drawbacks, namely, many factors for determining the data transmission speed of the user are included, but the environmental interference is only one factor, and some factors are affected by the equipment parameters, hardware and the like, so that a conclusion that the wireless environment is good or bad cannot be obtained simply according to the speed change. Meanwhile, the existing scheme adopts a mode of integrally adjusting wireless transmitting power, and cannot realize accurate power control, so that the problem of partial energy consumption waste exists.

Disclosure of Invention

Accordingly, the present invention is directed to a low power consumption management method, management system and readable storage medium for WiFi access devices, which can solve the problems of uncertain reasons and incapability of accurately controlling power adjustment caused by adjusting the transmission power of wireless WiFi by monitoring the data transmission rate.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the first aspect of the present invention provides a low power consumption management method for a WiFi access device, the method comprising the following steps:

acquiring and collecting RSSI signal strength indications of all wireless devices accessed through WIFI in real time;

reporting RSSIs of all accessed wireless devices and carrying out statistical processing;

calculating the average value RSavg of RSSIs of all the hanging wireless devices;

and comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmission power of the current wireless network device needs to be adjusted and optimized.

In some embodiments, further comprising: and when the average value RSavg of the RSSIs of all the underhung wireless devices is larger than the preset upper limit threshold of the RSSI, controlling and adjusting the transmitting power of the current wireless network device.

In some embodiments, further comprising: and in the preset waiting period time, comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmission power of the current wireless network device needs to be adjusted.

In some embodiments, the calculating the average RSavg of the RSSI of all hanging wireless devices includes the steps of:

calculating the number N of wireless devices hung under the WIFI access;

calculating RSSI of single wireless device, denoted R _Sn The method comprises the steps of carrying out a first treatment on the surface of the n is a natural number;

calculating real-time total RSSI value RS of all wireless devices hung under WIFI access _sum ＝R _S1 +R _S2 +R _S3 +…R _Sn The method comprises the steps of carrying out a first treatment on the surface of the N is less than or equal to N;

calculating an average RSSI value RSavg=RS according to the real-time total RSSI value of the wireless devices and the number N of the wireless devices _sum /N；

Comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold maximum value RSavg_max_TH and a preset minimum value RSavg_ mni _TH of the RSSIs to judge whether the transmission power of the current wireless network device needs to be adjusted, wherein RSavg_max_TH is the RSSI signal strength corresponding to the maximum transmission power of the wireless device, and RSavg_ mni _TH is the RSSI signal strength corresponding to the minimum transmission power of the wireless device.

In some embodiments, further comprising the step of:

judging whether the current power is smaller than a preset upper threshold maximum value RSavg_max_TH of the RSSI;

when the average value RSavg of the RSSIs of all the underhung wireless devices is larger than or equal to the preset upper limit threshold value RSavg_max_TH of the RSSIs, controlling a power adjusting module to judge the change condition of the current power and the power of the last period, and controlling and adjusting the current transmitting power;

when the average value RSavg of the RSSI of all the underhung wireless devices is less than the preset upper threshold maximum value rsavg_max_th of the RSSI, the current transmission power may be controlled to be increased according to the preset amplitude.

In some embodiments, further comprising the step of:

judging whether the current power is larger than a preset lower threshold minimum value RSavg_ mni _TH of the RSSI;

when the average value RSavg of the RSSIs of all the hung wireless devices is smaller than or equal to the preset minimum value RSavg_ mni _TH of the lower limit threshold of the RSSI, controlling the power adjusting module to judge the change condition of the current power and the power of the last period, and controlling and adjusting the current transmitting power;

when the average value RSavg of the RSSIs of all the underhung wireless devices is larger than the preset lower threshold minimum value RSavg_ mni _TH of the RSSIs, the current transmitting power is controlled to be reduced according to the preset amplitude.

In an embodiment, the range of the amplitude value for decreasing or increasing the current transmission power according to the preset amplitude is greater than 0 and less than or equal to 3.

In an embodiment, the comparing the calculated average value RSavg of the RSSI of all the hanging wireless devices with the preset upper limit threshold of the RSSI in the preset periodic time to control whether the transmit power of the current wireless network device needs to be adjusted includes:

determining waiting periodic time according to the adjustment condition of the transmitting power of the wireless network equipment at the last time;

if the initial waiting period is T1, and each waiting period is T, the first waiting period t=t1,

if the transmitting power of the wireless network equipment is adjusted, the next waiting periodic time is T=T/2; and the latest transmitting power value is assigned to the last period as the transmitting power value;

if the transmitting power of the wireless network device is not adjusted, the next waiting periodic time is t=t2.

The second aspect of the invention also provides a WiFi access equipment low-power consumption management system, which comprises wireless network equipment and wireless equipment which is in communication interaction with the wireless network equipment through WiFi, wherein the wireless network equipment comprises an RSSI collection module, an RSSI algorithm module, a power adjustment module and a WiFi access module which are connected with each other;

the RSSI collection module is used for acquiring and collecting RSSI signal strength indications of all wireless devices accessed through WIFI in real time;

the RSSI algorithm module reports the RSSIs of all accessed wireless devices and performs statistical processing; simultaneously calculating the average RSavg of RSSIs of all the hung wireless devices; comparing and judging the average value RSavg of the calculated RSSIs of all the hung wireless devices with a preset upper limit threshold of the RSSIs;

the power adjusting module is used for controlling whether the transmitting power of the current wireless network equipment needs to be adjusted and optimized according to the comparison and judgment of the RSSI algorithm module;

and the WiFi access module is used for accessing the wireless equipment into the wireless network equipment and carrying out communication interaction with the wireless network equipment.

A third aspect of the present invention also provides a readable storage medium having stored thereon a WiFi access device low power consumption management program, which when executed by a processor, implements the steps of the WiFi access device low power consumption management method according to any one of claims 1 to 8.

The embodiment of the invention provides a low-power consumption management method, a management system and a readable storage medium for WiFi access equipment, wherein the low-power consumption management method for WiFi access equipment is characterized in that RSSIs of all accessed wireless equipment are reported and are subjected to statistical processing; calculating the average value RSavg of RSSIs of all the hanging wireless devices; and comparing the calculated average value RSavg of the RSSIs of all the hung wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmitting power of the current wireless network device needs to be adjusted and optimized, so that the aim of accurately controlling and adjusting the power can be fulfilled. For the problem that the transmission power of wireless WiFi is adjusted through monitoring data transmission rate and has reasons uncertainty and can't realize accurate control power adjustment in prior art, the wireless device that inserts through wiFi access module can be realized accurate control adjustment power to this application.

Drawings

Fig. 1 is a flowchart of a method of an embodiment of a low power consumption management method of a WiFi access device according to an embodiment of the present invention;

fig. 2 is a flowchart of another implementation method of a low power consumption management method for a WiFi access device according to an embodiment of the present invention;

fig. 3 is a block diagram of a low power management system for a WiFi access device according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear and obvious, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the following description, suffixes such as "module", "component", or "unit" for representing elements are used only for facilitating the description of the present invention, and have no specific meaning per se. Thus, "module," "component," or "unit" may be used in combination.

Noun interpretation: RSSI Received Signal Strength Indicator signal receives the strength indication.

The following describes in detail the implementation of the embodiment technology described in the present application.

Embodiment one:

the embodiment of the application provides a WiFi access equipment low-power consumption management method which is applied to a WiFi access equipment low-power consumption management system, wherein the WiFi access equipment low-power consumption management system comprises wireless network equipment and wireless equipment which is in communication interaction with the wireless network equipment through WiFi, and the wireless network equipment comprises an RSSI collecting module, an RSSI algorithm module, a power adjusting module and a WiFi access module which are connected with each other.

Referring to fig. 1 to 3, the method includes the steps of:

s101, acquiring and collecting RSSIs (signal strength indications) of all wireless devices accessed through WIFI in real time;

specifically, the wireless network device collects the RSSIs of all wireless devices accessed through the WiFi access module in real time through the RSSI collection module.

S102, reporting RSSIs of all accessed wireless devices and carrying out statistical processing;

specifically, the wireless network device reports the RSSIs of all the accessed wireless devices to an RSSI algorithm module through an RSSI collection module, and the reported RSSI information values are subjected to statistical processing through the RSSI algorithm module.

S103, calculating the average value RSavg of RSSIs of all the hung wireless devices;

s104, comparing the calculated average value RSavg of the RSSIs of all the underhung wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmission power of the current wireless network device needs to be adjusted and optimized.

Specifically, the wireless network device calculates an RSSI average value RSavg of all the hanging wireless devices according to the RSSI algorithm module, and when the RSSI average value of all the hanging wireless devices exceeds a preset RSSI threshold value, the RSSI algorithm module of the wireless network device sends a message to the power adjustment module to inform the power adjustment module to adjust WiFi transmitting power. The RSSI threshold comprises a preset upper limit threshold and a preset lower limit threshold of the RSSI.

Further, in the preset waiting period, comparing the calculated average value RSavg of the RSSI of all the hanging wireless devices with a preset upper limit threshold of the RSSI to control whether the transmission power of the current wireless network device needs to be adjusted.

Wherein, in the preset periodic time, comparing the calculated average value RSavg of the RSSI of all the hanging wireless devices with the preset upper limit threshold of the RSSI to control whether the transmission power of the current wireless network device needs to be adjusted includes:

determining waiting periodic time according to the adjustment condition of the transmitting power of the wireless network equipment at the last time;

if the initial waiting period is T1, and each waiting period is T, the first waiting period t=t1,

if the transmitting power of the wireless network equipment is adjusted, the next waiting periodic time is T=T/2;

if the transmission power of the wireless network device is not adjusted, the next waiting period time is t=t2, and so on.

In an embodiment, further comprising: the wireless network equipment judges the waiting time to be T1 for the first time, and presets standard transmitting power to be P _W Recording the last period transmitting power value as P _{W_pre} ＝P _W ；

S301, when the waiting time t=t1 expires, traversing all the wireless devices RSSI hung down, calculating the average value RSavg of the RSSI, comparing with the preset upper threshold value rsavg_max_th of the RSSI,

s302, if the average value RSavg of the RSSI of all the hanging wireless devices is greater than the preset upper threshold maximum value rsavg_max_th of the RSSI, step S303 is executed.

S303, further judging whether the current power is larger than the preset standard transmitting power minimum power value P _{W_min} 。

S304, if the current power P _W Is larger than the minimum value P of the preset standard transmitting power _{W_min} The current power is controlled to gradually reduce the current transmitting power according to a preset amplitude value;

s305, if the current power P _W Less than or equal to a preset standard transmission power minimum value P _{W_min} And the power adjusting module is used for controlling and judging the change condition of the current power and the power of the last period and controlling and adjusting the current transmitting power according to the change condition of the current power and the power of the last period. The method comprises the following steps:

step S300 is performed after the current transmission power is gradually reduced and adjusted according to the preset amplitude value.

And S300, the power regulating module controls and judges whether the current power is the same as the power of the previous period, if the current power is the same as the power of the previous period, namely, pw=Pw_pre, the preset waiting period T=Tx 2 carries out polling judgment on the change condition of the current power and the power of the previous period.

If the current power is different from the previous period power, the preset waiting period t=t/2 performs polling to judge the change condition of the current power and the previous period power, and meanwhile, the current Pw is assigned to the previous period transmitting power value pw_pre.

S306, in an embodiment, if the average value RSavg of the RSSIs of all the hanging wireless devices is less than the preset lower threshold minimum value rsavg_min_th of the RSSIs, step S307 is further performed.

S307, judging whether the current power is smaller than the preset standard transmitting power maximum power P _{W_max} 。

S308, if the current power P _W Less than the maximum value P of preset standard transmitting power _{W_max} The current power is controlled to gradually increase the current transmitting power according to the preset amplitude;

in particular, if the current power P _W Less than the maximum value P of preset standard transmitting power _{W_max} The current power is controlled to gradually increase the current transmission power by an amplitude of a preset increase of not more than 3.

After gradually increasing the current transmission power according to a preset amplitude; step S300 is further performed.

S300, judging the change condition of the current power and the power of the previous period through a power adjusting module, if the current power P _W Less than or equal to a preset standard transmission power minimum value P _{W_max} And the power regulating module controls and judges whether the current power is the same as the power of the previous period, and if the current power is the same as the power of the previous period, namely pw=pw_pre, the preset waiting period t=ts2 carries out polling judgment on the change condition of the current power and the power of the previous period. If the current power is different from the previous period power, the preset waiting period t=t/2 performs polling to judge the change condition of the current power and the previous period power, and meanwhile, the current Pw is assigned to the previous period transmitting power value pw_pre.

If the current power P _W Greater than or equal to a preset standard maximum transmission power P _{W_max} The power adjusting module controls the change condition of the current power and the last period power, controls and adjusts the current transmitting power, and executesLine S300.

Specifically, the power adjustment module is further used for judging the change condition of the current power and the power of the previous period, if the current power P _W Less than or equal to a preset standard transmission power minimum value P _{W_max} And the power regulating module controls and judges whether the current power is the same as the power of the previous period, and if the current power is the same as the power of the previous period, namely pw=pw_pre, the preset waiting period t=ts2 carries out polling judgment on the change condition of the current power and the power of the previous period. If the current power is different from the previous period power, the preset waiting period t=t/2 performs polling to judge the change condition of the current power and the previous period power, and meanwhile, the current Pw is assigned to the previous period transmitting power value pw_pre.

S401, if the average value RSavg of the RSSI of all the hanging wireless devices is greater than or equal to the preset upper threshold maximum value rsavg_max_th of the RSSI, step S402 is further performed.

S402, judging whether the current power is larger than the preset standard transmitting power minimum power P _{W_min} 。

S403 if the current power P _W Is larger than the minimum value P of the preset standard transmitting power _{W_min} The current power is controlled to gradually reduce the current transmitting power according to the preset amplitude;

in particular, if the current power P _W Is larger than the minimum value P of the preset standard transmitting power _{W_min} The current power is controlled to gradually decrease the current transmission power by an amplitude of a preset decrease of not more than 3.

Gradually reducing the current transmitting power according to the preset amplitude; step S300 is further performed.

And S300, judging the change condition of the current power and the power of the previous period through a power regulating module, wherein the power regulating module is used for controlling and judging whether the current power is the same as the power of the previous period or not, and if the current power is the same as the power of the previous period, namely Pw=pw_pre, a preset waiting period T=Tx 2 is used for carrying out polling judgment on the change condition of the current power and the power of the previous period. If the current power is different from the previous period power, the preset waiting period t=t/2 performs polling to judge the change condition of the current power and the previous period power, and meanwhile, the current Pw is assigned to the previous period transmitting power value pw_pre.

If the current power P _W Less than or equal to a preset standard transmission power minimum value P _{W_min} And the power adjusting module controls the change condition of the current power and the power of the previous period, controls and adjusts the current transmitting power, and executes the step S300.

According to the WiFi access equipment low-power consumption management method, RSSIs of all accessed wireless equipment are reported and statistical processing is carried out; calculating the average value RSavg of RSSIs of all the hanging wireless devices; and comparing the calculated average value RSavg of the RSSIs of all the hung wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmitting power of the current wireless network device needs to be adjusted and optimized, so that the aim of accurately controlling and adjusting the power can be fulfilled. For the problem that the transmission power of wireless WiFi is adjusted through monitoring data transmission rate and has reasons uncertainty and can't realize accurate control power adjustment in prior art, the wireless device that inserts through wiFi access module can be realized accurate control adjustment power to this application.

Embodiment two:

the embodiment of the application provides a low-power consumption management system of a WiFi access device, which comprises a wireless network device 10 and a wireless device 20 which is in communication interaction with the wireless network device through WiFi, wherein the wireless network device 10 comprises an RSSI collecting module 101, an RSSI algorithm module 102, a power adjusting module 103 and a WiFi access module 104 which are connected with each other.

The RSSI collection module 101 is configured to obtain and collect, in real time, RSSI signal strength indications of all wireless devices accessed through WIFI.

Specifically, the wireless network device 10 collects, in real time, RSSI signal strength indications of all wireless devices accessed through the WiFi access module 104 through the RSSI collection module 101.

The RSSI algorithm module 102 reports the RSSIs of all the access wireless devices and performs statistical processing; simultaneously calculating the average RSavg of RSSIs of all the hung wireless devices; and comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold value of the RSSIs to judge.

Specifically, the wireless network device 10 reports the RSSI of all access wireless devices to the RSSI algorithm module 102 through the RSSI collection module 101, and the reported RSSI information value is statistically processed through the RSSI algorithm module 102.

The performing statistical processing on the reported RSSI information value by the RSSI algorithm module 102 specifically includes:

calculating the average value RSavg of RSSIs of all the hanging wireless devices;

the average value RSavg of the calculated RSSI of all the hanging wireless devices is compared with a preset upper limit threshold of the RSSI to control whether the power adjustment module 103 needs to adjust and optimize the transmission power of the current wireless network device.

The power adjustment module 103 determines whether to adjust and optimize the transmission power of the current wireless network device according to the comparison with the preset adjustment rule according to the comparison of the RSSI algorithm module 102.

Specifically, in a preset waiting period, comparing the calculated average value RSavg of the RSSI of all the hanging wireless devices with a preset upper limit threshold of the RSSI to control whether the transmission power of the current wireless network device needs to be adjusted.

The power adjustment module 103 controls whether to adjust and optimize the transmission power of the current wireless network device according to a preset adjustment rule, including: the wireless network equipment judges the waiting time to be T1 for the first time, and presets standard transmitting power to be P _W Recording the last period transmitting power value as P _{W_pre} ＝P _W 。

When the waiting time T=T1 is up, traversing all the hanging wireless devices RSSIs, calculating the average value RSavg of the RSSIs and comparing the average value RSavg_max_TH of the preset RSSIs, if the average value RSavg of the RSSIs of all the hanging wireless devices is larger than the preset upper threshold maximum value RSavg_max_TH of the RSSIs, further judging whether the current power is larger than the preset RSSIStandard transmit power minimum power P _{W_min} If the current power P _W Is larger than the minimum value P of the preset standard transmitting power _{W_min} And controlling the current power to gradually reduce the current transmitting power according to the preset amplitude value. The amplitude value is more than 0 and less than 3.

If the current power P _W Less than or equal to a preset standard transmission power minimum value P _{W_min} And the power adjusting module is used for controlling and judging the change condition of the current power and the power of the last period and controlling and adjusting the current transmitting power according to the change condition of the current power and the power of the last period.

When the current transmitting power is gradually reduced and adjusted according to the preset amplitude value, the method further comprises the following steps: the power adjusting module controls and judges whether the current power is the same as the power of the previous period, if the current power is the same as the power of the previous period, namely, pw=pw_pre, a preset waiting period t=tsx2 carries out polling to judge the change condition of the current power and the power of the previous period.

If the current power is different from the previous period power, the preset waiting period t=t/2 performs polling to judge the change condition of the current power and the previous period power, and meanwhile, the current Pw is assigned to the previous period transmitting power value pw_pre.

If the current power P _W Less than the maximum value P of preset standard transmitting power _{W_max} The current power is controlled to gradually increase the current transmission power by a preset amplitude, and specifically, the current power is controlled to gradually increase the current transmission power by an amplitude which is preset to be increased by not more than 3. After the current transmitting power is gradually increased according to the preset amplitude, the power adjusting module judges the change condition of the current power and the last period power, if the current power P _W Greater than or equal to a preset standard transmit power minimum value P _{W_max} And the power regulating module controls and judges whether the current power is the same as the power of the previous period, and if the current power is the same as the power of the previous period, namely pw=pw_pre, the preset waiting period t=ts2 carries out polling judgment on the change condition of the current power and the power of the previous period. If the current power is different from the previous period power, the waiting period T=T +.And 2, carrying out polling to judge the change condition of the current power and the power of the previous period, and simultaneously assigning the current Pw to the transmission power value Pw_pre of the previous period.

The WiFi access module 104 accesses the wireless device 20 to the wireless network device 10, and performs communication interaction with the wireless network device 10.

Specifically, the wireless device 20 is accessed into the wireless network device 10 through the WiFi access module 104, and the wireless device 20 performs communication interaction with the wireless network device 10.

According to the low-power consumption management system of the WiFi access equipment, RSSI signal strength indications of all wireless equipment accessed through the WIFI access module 104 are obtained and collected in real time through the RSSI collection module 101, and the RSSI algorithm module 102 reports the RSSIs of all the accessed wireless equipment and performs statistical processing; calculating the average value RSavg of RSSIs of all the hanging wireless devices; comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold value of the RSSIs to control whether the power adjusting module 103 needs to adjust and optimize the transmitting power of the current wireless network device, and controlling and adjusting the transmitting power of the current wireless network device by the power adjusting module 103 according to a preset adjusting rule, so that the aim of accurately controlling and adjusting the power can be fulfilled. For the problem that the reason is uncertain and accurate control power adjustment can not be realized exists by monitoring data transmission rate to adjust wireless WiFi's transmit power in the prior art, this application can realize accurate control adjustment power to WiFi access equipment.

Embodiment III:

the embodiment of the application further provides a readable storage medium, wherein the readable storage medium stores a low-power consumption management program of the WiFi access device, and the low-power consumption management program of the WiFi access device realizes the steps of the low-power consumption management method of the WiFi access device in the first embodiment when being executed by a processor. The specific steps are described in the first embodiment, and are not described herein.

The readable storage medium in the present embodiment can be used to store a software program as well as various data. The readable storage medium mainly comprises a storage program area and a storage data area, wherein the storage program area can store an operating system, application programs required by at least one function and the like; the storage data area may store data created according to the use of the cellular phone, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid-state storage device.

According to an example of the present embodiment, all or part of the flow in the method of the above embodiment may be implemented by a computer program to instruct related hardware, where the program may be stored in a computer readable storage medium, such as a storage medium of a computer system, and the program may be stored in the storage medium of the computer system and executed by at least one processor in the computer system, to implement the flow including the embodiments of the methods as described above. The storage medium includes, but is not limited to, magnetic disks, flash disks, optical disks, read-Only Memory (ROM), and the like.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. ROM/RAM, magnetic disk, optical disk) comprising instructions for causing a terminal (which may be a mobile phone, a computer, a server, an air conditioner, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The embodiments of the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present invention and the scope of the claims, which are to be protected by the present invention.

Claims (10)

1. The low-power consumption management method for the WiFi access equipment is characterized by comprising the following steps of:

acquiring and collecting RSSI signal strength indications of all wireless devices accessed through WIFI in real time;

reporting RSSIs of all accessed wireless devices and carrying out statistical processing;

calculating the average value RSavg of RSSIs of all the hanging wireless devices;

and comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmission power of the current wireless network device needs to be adjusted and optimized.

2. The method for low power management of a WiFi access device according to claim 1, further comprising: and when the average value RSavg of the RSSIs of all the underhung wireless devices is larger than the preset upper limit threshold of the RSSI, controlling and adjusting the transmitting power of the current wireless network device.

3. The WiFi access device low power consumption management method according to claim 2, further comprising: and in the preset waiting period time, comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold of the RSSIs to control whether the transmission power of the current wireless network device needs to be adjusted.

4. The method for low power consumption management of a WiFi access device according to claim 3, wherein the calculating the average RSavg of the RSSI of all the wireless devices hanging down comprises the steps of:

calculating the number N of wireless devices hung under the WIFI access;

calculating RSSI of single wireless device, denoted R _Sn The method comprises the steps of carrying out a first treatment on the surface of the n is a natural number;

calculating real-time total RSSI value RS of all wireless devices hung under WIFI access _sum ＝R _S1 +R _S2 +R _S3 +…R _Sn The method comprises the steps of carrying out a first treatment on the surface of the N is less than or equal to N;

calculating an average RSSI value RSavg=RS according to the real-time total RSSI value of the wireless devices and the number N of the wireless devices _sum /N；

Comparing the calculated average value RSavg of the RSSIs of all the hanging wireless devices with a preset upper limit threshold maximum value RSavg_max_TH and a preset minimum value RSavg_ mni _TH of the RSSIs to judge whether the transmission power of the current wireless network device needs to be adjusted, wherein RSavg_max_TH is the RSSI signal strength corresponding to the maximum transmission power of the wireless device, and RSavg_ mni _TH is the RSSI signal strength corresponding to the minimum transmission power of the wireless device.

5. The method for low power management of a WiFi access device according to claim 4, further comprising the steps of:

judging whether the current power is smaller than a preset upper threshold maximum value RSavg_max_TH of the RSSI;

when the average value RSavg of the RSSIs of all the underhung wireless devices is larger than or equal to the preset upper limit threshold value RSavg_max_TH of the RSSIs, controlling a power adjusting module to judge the change condition of the current power and the power of the last period, and controlling and adjusting the current transmitting power;

when the average value RSavg of the RSSI of all the underhung wireless devices is less than the preset upper threshold maximum value rsavg_max_th of the RSSI, the current transmission power may be controlled to be increased according to the preset amplitude.

6. The method for low power management of a WiFi access device according to claim 4, further comprising the steps of:

judging whether the current power is larger than a preset lower threshold minimum value RSavg_ mni _TH of the RSSI;

when the average value RSavg of the RSSIs of all the hung wireless devices is smaller than or equal to the preset minimum value RSavg_ mni _TH of the lower limit threshold of the RSSI, controlling the power adjusting module to judge the change condition of the current power and the power of the last period, and controlling and adjusting the current transmitting power;

when the average value RSavg of the RSSIs of all the underhung wireless devices is larger than the preset lower threshold minimum value RSavg_ mni _TH of the RSSIs, the current transmitting power is controlled to be reduced according to the preset amplitude.

7. The method for managing low power consumption of a WiFi access device according to claim 5 or 6, wherein the range of the current transmission power is greater than 0 and less than or equal to 3.

8. The method for managing low power consumption of a WiFi access device according to claim 5 or 6, wherein comparing the average value RSavg of the calculated RSSIs of all the underhung wireless devices with the preset upper threshold of the RSSIs in the preset periodic time to control whether the transmission power of the current wireless network device needs to be adjusted comprises:

determining waiting periodic time according to the adjustment condition of the transmitting power of the wireless network equipment at the last time;

if the initial waiting period is T1, and each waiting period is T, the first waiting period t=t1,

if the transmitting power of the wireless network equipment is adjusted, the next waiting periodic time is T=T/2; and the latest transmitting power value is assigned to the last period as the transmitting power value;

if the transmitting power of the wireless network device is not adjusted, the next waiting periodic time is t=t2.

9. The low-power consumption management system of the WiFi access equipment is characterized by comprising wireless network equipment and wireless equipment which is in communication interaction with the wireless network equipment through WiFi, wherein the wireless network equipment comprises an RSSI collection module, an RSSI algorithm module, a power adjustment module and a WiFi access module which are connected with each other;

the RSSI collection module is used for acquiring and collecting RSSI signal strength indications of all wireless devices accessed through WIFI in real time;

the RSSI algorithm module reports the RSSIs of all accessed wireless devices and performs statistical processing; simultaneously calculating the average RSavg of RSSIs of all the hung wireless devices; comparing and judging the average value RSavg of the calculated RSSIs of all the hung wireless devices with a preset upper limit threshold of the RSSIs;

the power adjusting module is used for controlling whether the transmitting power of the current wireless network equipment needs to be adjusted and optimized according to the comparison and judgment of the RSSI algorithm module;

and the WiFi access module is used for accessing the wireless equipment into the wireless network equipment and carrying out communication interaction with the wireless network equipment.

10. A readable storage medium, wherein a WiFi access device low power consumption management program is stored on the readable storage medium, and the WiFi access device low power consumption management program, when executed by a processor, implements the steps of the WiFi access device low power consumption management method according to any one of claims 1 to 8.