CN115209246A - Dynamic detection system and intelligent adjustment method of optical communication equipment - Google Patents

Abstract

The invention discloses a dynamic detection system and an intelligent adjustment method of optical communication equipment, and relates to the technical field of network safety. The invention relates to a dynamic detection system and an intelligent adjustment method of optical communication equipment, which are more green and healthy.

Description

Dynamic detection system and intelligent adjustment method of optical communication equipment

Technical Field

The present invention relates to the field of network security technologies, and in particular, to a dynamic detection system and an intelligent adjustment method for optical communication devices.

Background

The communication device refers to all electronic devices used in the network information transmission process, for example: switches, bridges, repeaters, routers, gateways, etc., are also important for network security between communication devices, which generally refers to the security of computer networks and, in fact, may also refer to the security of computer communication networks. The computer communication network is a system which interconnects a plurality of computers with independent functions through communication equipment and transmission media and realizes information transmission and exchange among the computers under the support of communication software. The computer network is a system that connects a plurality of independent computer systems, terminal devices, and data devices, which are relatively geographically dispersed, with each other by a communication means for the purpose of sharing resources, and exchanges data under the control of a protocol. The fundamental purpose of computer networks is resource sharing, and communication networks are the way to implement network resource sharing, so that computer networks are secure, and corresponding computer communication networks must also be secure, and information exchange and resource sharing should be implemented for network users. Hereinafter, network security refers to both computer network security and computer communication network security.

When the mobile device is connected to the wireless WiFi, in order to ensure that the accessed internet access device can access the internet at the maximum rate, the PON gateway usually starts the maximum power to work, and when the PON gateway is started at the maximum power, the consumed electric energy is large, and meanwhile, the radiation wave emitted by the PON gateway is also strongest, and the body of a user is easily injured under the strong radiation wave, so a new solution is necessary to be provided.

In the existing PON gateway, unnecessary resource waste is easily caused during the use process, and more radiation waves are generated to damage the user body, so a dynamic detection system and an intelligent adjustment method for optical communication equipment are provided.

Disclosure of Invention

The main objective of the present invention is to provide a dynamic detection system and an intelligent adjustment method for optical communication equipment, which can effectively solve the problems in the background art that unnecessary resource waste is easily caused during the use of the existing PON gateway, and that a lot of radiation waves are generated to damage the body of a user.

In order to achieve the purpose, the invention adopts the technical scheme that: a dynamic detection system of an optical communication device, the dynamic detection system comprising: the dynamic detection system comprises a detection module, a control module and a management module, wherein the detection module, the control module and the management module are in communication connection with each other and share data in real time, so that the rapid operation of the dynamic detection system is ensured, the operation efficiency of the dynamic detection system is improved, and the occurrence of the operation jam of the dynamic detection system is reduced;

the detection module is mainly used for searching and acquiring the WiFi connection attribute of equipment of each networking terminal in real time, the connection attribute comprises modulation mode information, signal intensity information and data transmission rate information of the networking terminal, and the WiFi signals accessed to the PON gateway are monitored at regular intervals, wherein the WiFi signals accessed to the PON gateway are monitored at intervals of 1 minute, the monitoring effect is ensured through regular monitoring, the WiFi signal monitoring omission of the PON gateway for a long time is avoided, the detection effect of the detection module is further improved, and the detection module can monitor the most accurate WiFi signals of the PON gateway to further ensure the safe, efficient and accurate operation of the dynamic detection system;

the control module mainly refers to empirical data which are used for ensuring the transmission rate and the corresponding signal intensity required by normal internet surfing of the equipment in each WiFi signal modulation mode, presets the basic transmission rate and the corresponding basic WiFi signal intensity in each WiFi signal modulation mode, synthesizes WiFi attribute information of all networking terminals of the PON gateway, and dynamically configures the WiFi transmitting power of the PON gateway.

Preferably, in the management module: the operation and maintenance manager or the user of PON gateway all are used for the administrator authority, the user who has the administrator authority can log in the system by oneself and inquire the PON gateway and predetermine wiFi transmitted power, and revise the wiFi transmitted power that the adjustment was predetermine according to actual conditions, the operation and maintenance manager or the user of PON gateway all are used for the administrator authority, make can be manual to the wiFi transmitted power of predetermineeing of PON gateway modify, the operation of dynamic monitoring system has been ensured, and the operation is not only more intelligent, can also the manual intervention operation, make this PON gateway system use more diversified, and is more convenient and more efficient.

Preferably, the dynamic monitoring system is installed in an internal CPU of the PON gateway as an embedded program with a very simple code, so as to ensure the safe operation of the dynamic monitoring system.

Preferably, the dynamic detection system is programmed into an embedded program through codes, the embedded program is installed in a CPU inside the PON gateway, the program is provided with an initial induction program, the initial induction program acquires a PON gateway self-starting permission in advance, the PON gateway is started simultaneously, the initial induction program is synchronously started, and the dynamic detection system is synchronously started to ensure that once the PON gateway is started, the dynamic detection system runs immediately, so that an illegal user is ensured to utilize the PON gateway to start and invade the PON gateway through a time leak at the moment, and the use safety of the PON gateway is improved.

Preferably, in the process of dynamically adjusting the WiFi transmission power of the PON gateway, if the WiFi signal intensity of the system is higher than the preset basic WiFi signal intensity, the control module gradually reduces the WiFi transmission power of the PON gateway, reduces the power by 1% once, reduces the WiFi transmission power each time, compares again until the WiFi signal intensity of the system is lower than the basic WiFi signal intensity, and determines the last adjusted WiFi transmission power data as the latest WiFi transmission power of the PON gateway.

An intelligent adjusting method for optical communication equipment is characterized in that: the method comprises the following steps:

s1: when the PON gateway equipment is started or restarted, the dynamic detection system is automatically loaded;

s2: the detection module monitors WiFi signals accessed to the PON gateways at regular time, searches and acquires WiFi attribute information of networking terminal equipment of each wireless access PON gateway at regular time, searches and acquires the WiFi attribute information of the equipment when each networking terminal is wirelessly accessed to the PON gateway when the WiFi attribute information of the networking terminal is found to be changed or a new terminal is accessed to the PON gateway equipment, and transmits the attribute information to the control module after the attribute information comprises a modulation mode, wiFi signal intensity and data transmission rate when each terminal is wirelessly accessed;

s3: the control module judges whether two or more networking terminals are wirelessly accessed to the PON gateway: if two or more networking terminals exist, the dynamic detection system compares the WiFi signal intensity in the WiFi attribute information of each device, the WiFi attribute information of the terminal device with the lowest signal intensity is set as the current WiFi attribute information of the dynamic detection system, and if only one terminal exists, the WiFi attribute information of the device is set as the current WiFi attribute information of the dynamic detection system; if no networking terminal exists, the current WiFi attribute of the dynamic detection system is set to be none;

s4: the control module compares the system WiFi signal intensity in the current WiFi attribute of the system with a preset basic WiFi signal intensity according to a system modulation mode in the current WiFi attribute of the system, if the system WiFi signal intensity is higher than the preset basic WiFi signal intensity, the WiFi transmitting power of the PON gateway is reduced gradually, the comparison is carried out again after the WiFi transmitting power is reduced each time until the system WiFi signal intensity is lower than the basic WiFi signal intensity, the WiFi transmitting power data adjusted last time is determined as the latest WiFi transmitting power of the PON gateway, and if the system WiFi signal intensity is lower than or equal to the preset basic WiFi signal intensity, the WiFi transmitting power of the PON gateway is kept unchanged;

s5: after the control module finishes the adjustment of the WiFi transmitting power of the PON gateway, evaluating the data transmission rate of each networking terminal accessed to the PON gateway, if all the networking terminal transmission rates are higher than or equal to a preset basic transmission rate, keeping the WiFi transmitting power of the PON gateway unchanged, if the transmission rate of one or more networking terminals is lower than the preset basic transmission rate, gradually increasing the WiFi transmitting power of the PON gateway, increasing 1% power once, re-detecting the data transmission rate after increasing the WiFi transmitting power each time until the data transmission rates of all the networking terminals are higher than or equal to the preset basic transmission rate, and determining the WiFi transmitting power data adjusted last time as the latest WiFi transmitting power of the PON gateway;

s6: the management module allows operation and maintenance personnel to remotely log in the system to inquire the basic transmission rate and the corresponding basic WiFi signal strength, and modify and adjust the basic transmission rate and the corresponding basic WiFi signal strength.

Preferably, when the control module gradually increases or decreases the WiFi transmission power of the PON gateway, the power of 1% is increased or decreased once, and the WiFi transmission power of the PON gateway can quickly meet the requirements of the modulation mode, the WiFi signal strength, and the data transmission rate when each terminal is wirelessly accessed by gradually increasing or decreasing the power of 1% power.

Compared with the prior art, the invention has the following beneficial effects:

the control module of the invention mainly refers to the experience data which ensures the transmission rate and the corresponding signal intensity required by the normal Internet surfing of the equipment in each WiFi signal modulation mode, presets the basic transmission rate and the corresponding basic WiFi signal intensity in each WiFi signal modulation mode, synthesizes WiFi attribute information of all networking terminals of the PON gateway, dynamically configures the WiFi transmitting power of the PON gateway, when the detection module detects that the WiFi attribute information of the networking terminals changes or a new terminal is accessed into the PON gateway, dynamically adjusts the WiFi transmitting power of the PON gateway according to the WiFi attribute information change of the networking terminals, and installs the WiFi transmitting power into an internal CPU of the PON gateway by an embedded program with simple codes, detects the WiFi attribute information of the Internet surfing equipment in real time, intelligently judges and adjusts the WiFi transmitting power to relatively low power according to the preset conditions, thereby providing a green energy-saving wireless network environment for the PON gateway equipment which is served in whole period of time in hundreds of millions of households, realizing healthy energy saving and reducing wireless radiation while reducing the possibility of network rubbing, effectively solving the problems of high power, high energy consumption, strong radiation, good social benefit, and the like of the PON gateway equipment, and improving the social security benefit of the wireless network.

Drawings

Fig. 1 is a flowchart of an intelligent adjustment method of an optical communication device according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1A;

FIG. 3 is an enlarged view of a portion of FIG. 1 at B according to the present invention;

fig. 4 is a system block diagram of a dynamic detection system of an optical communication device according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific embodiments.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

referring to fig. 1-4, the present invention is a dynamic detection system of an optical communication device, the dynamic detection system includes: the dynamic detection system comprises a detection module, a control module and a management module, wherein the detection module, the control module and the management module are in communication connection with each other and share data in real time, so that the rapid operation of the dynamic detection system is ensured, the operation efficiency of the dynamic detection system is improved, and the occurrence of the operation jam of the dynamic detection system is reduced;

the detection module is mainly used for searching and acquiring the WiFi connection attribute of each networking terminal in real time, the connection attribute comprises the modulation mode information, the signal intensity information and the data transmission rate information of the networking terminal, and the WiFi signals accessed to the PON gateway are monitored at regular intervals, wherein the WiFi signals accessed to the PON gateway are monitored at intervals of 1 minute, the monitoring effect is guaranteed through regular monitoring, the WiFi signal monitoring omission of the PON gateway for a long time is avoided, the detection effect of the detection module is further improved, and the detection module can monitor the most accurate WiFi signals of the PON gateway to further guarantee the safe, efficient and accurate operation of the dynamic detection system;

the control module mainly refers to empirical data which are used for ensuring the transmission rate and the corresponding signal intensity required by normal internet access of the equipment in each WiFi signal modulation mode, presets the basic transmission rate and the corresponding basic WiFi signal intensity in each WiFi signal modulation mode, synthesizes WiFi attribute information of all networking terminals of the PON gateway, dynamically configures the WiFi transmitting power of the PON gateway, dynamically adjusts the WiFi transmitting power of the PON gateway according to the WiFi attribute information change of the networking terminals after a detection module detects that the WiFi attribute information of the networking terminals changes or new terminals are accessed into the PON gateway, and dynamically adjusts the WiFi transmitting power to relatively lower power on the premise of ensuring the normal internet access of the networking terminals, so that a green and energy-saving wireless network environment is provided for PON gateway equipment which serves all the time in a plurality of families, healthy energy conservation is realized to the maximum degree, wireless radiation is reduced, the possibility of network grazing is reduced, a series of problems that the existing PON gateway equipment is large in power, high in energy consumption, strong radiation, network grazing and the like are effectively solved, and electricity charges can be saved, wireless pollution is reduced, safety levels of the network, more energy conservation and more environmental benefits and social benefits are achieved.

Wherein, among the management module: the operation and maintenance manager or the user of PON gateway all are used for the administrator authority, the user who has the administrator authority can log in the system by oneself and inquire the PON gateway and predetermine wiFi transmitted power, and revise the wiFi transmitted power that the adjustment was predetermine according to actual conditions, the operation and maintenance manager or the user of PON gateway all are used for the administrator authority, make can be manual to the wiFi transmitted power of predetermineeing of PON gateway modify, the operation of dynamic monitoring system has been ensured, and the operation is not only more intelligent, can also the manual intervention operation, make this PON gateway system use more diversified, and is more convenient and more efficient.

The dynamic monitoring system is installed in an internal CPU of the PON gateway by an embedded program of a very simple code, and the safe operation of the dynamic monitoring system is guaranteed.

The dynamic detection system is characterized in that the dynamic detection system is compiled into an embedded program through codes, the embedded program is installed in a CPU (central processing unit) in the PON gateway, the program is provided with an initial inducing program, the initial inducing program acquires the self-starting permission of the PON gateway in advance, the initial inducing program is synchronously started when the PON gateway is started, the dynamic detection system is synchronously started to ensure that once the PON gateway is started, the dynamic detection system runs immediately, an illegal user is ensured to invade the PON gateway by utilizing the opening instant time leak of the PON gateway, and the use safety of the PON gateway is improved.

If the WiFi signal intensity of the system is higher than the preset basic WiFi signal intensity in the process of dynamically adjusting the WiFi transmitting power of the PON gateway by the control module, the WiFi transmitting power of the PON gateway is gradually reduced, the power is reduced by 1% once, the WiFi transmitting power is reduced each time and then compared again until the WiFi signal intensity of the system is lower than the basic WiFi signal intensity, and the WiFi transmitting power data adjusted last time is determined as the latest WiFi transmitting power of the PON gateway.

An intelligent adjusting method for optical communication equipment is characterized in that: the method comprises the following steps:

s1: when the PON gateway equipment is started or restarted, the dynamic detection system is automatically loaded;

s2: the monitoring module monitors WiFi signals accessed to the PON gateways at regular time, searches and acquires WiFi attribute information of networking terminal equipment of each wireless access PON gateway at regular time, searches and acquires the WiFi attribute information of the equipment when each networking terminal is wirelessly accessed to the PON gateway when the WiFi attribute information of the networking terminal is found to be changed or a new terminal is accessed to the PON gateway equipment, and transmits the attribute information to the control module, wherein the attribute information comprises a modulation mode, wiFi signal intensity and data transmission rate when each terminal is wirelessly accessed;

s3: the control module judges whether two or more networking terminals are wirelessly accessed to the PON gateway: if two or more networking terminals exist, the dynamic detection system compares the WiFi signal intensity in the WiFi attribute information of each device, the WiFi attribute information of the terminal device with the lowest signal intensity is set as the current WiFi attribute information of the dynamic detection system, and if only one terminal exists, the WiFi attribute information of the device is set as the current WiFi attribute information of the dynamic detection system; if no networking terminal exists, the current WiFi attribute of the dynamic detection system is set to be none;

s4: the control module compares the system WiFi signal strength in the current WiFi attribute of the system with a preset basic WiFi signal strength according to a system modulation mode in the current WiFi attribute of the system, if the system WiFi signal strength is higher than the preset basic WiFi signal strength, the WiFi transmitting power of the PON gateway is gradually reduced, the comparison is carried out again after the WiFi transmitting power is reduced each time until the system WiFi signal strength is lower than the basic WiFi signal strength, the last-time adjusted WiFi transmitting power data is determined as the latest WiFi transmitting power of the PON gateway, if the system WiFi signal strength is lower than or equal to the preset basic WiFi signal strength, the WiFi transmitting power of the PON gateway is kept unchanged, the waste of redundant electric quantity of the PON gateway is reduced, radiation waves emitted by the PON gateway are reduced, and the function of protecting the human health of a user is achieved;

s5: after the control module finishes the adjustment of the WiFi transmitting power of the PON gateway, evaluating the data transmission rate of each networking terminal accessed to the PON gateway, if all the networking terminal transmission rates are higher than or equal to a preset basic transmission rate, keeping the WiFi transmitting power of the PON gateway unchanged, if the transmission rate of one or more networking terminals is lower than the preset basic transmission rate, gradually increasing the WiFi transmitting power of the PON gateway, increasing 1% power once, re-detecting the data transmission rate after increasing the WiFi transmitting power each time until the data transmission rates of all the networking terminals are higher than or equal to the preset basic transmission rate, and determining the WiFi transmitting power data adjusted last time as the latest WiFi transmitting power of the PON gateway, so that the data transmission rate of the networking terminals is not influenced, and the data transmission of networking equipment is guaranteed;

s6: and the management module allows operation and maintenance personnel to remotely log in the system to inquire the basic transmission rate and the corresponding basic WiFi signal strength, and modify and adjust the basic transmission rate and the corresponding basic WiFi signal strength.

When the control module gradually increases or decreases the WiFi transmitting power of the PON gateway, the power is increased or decreased by 1% at a single time, and the WiFi transmitting power of the PON gateway can quickly meet the requirements of the modulation mode, the WiFi signal strength and the data transmission rate when each terminal is wirelessly accessed by gradually increasing or decreasing the power of 1% of the power.

The second embodiment:

the difference between this embodiment and the first embodiment is that when the control module gradually increases or decreases the WiFi transmission power of the PON gateway, N% is increased in advance, then the detection module detects, then the dynamic detection system compares the WiFi signal strength in the WiFi attribute information of each device, and compares the transmission rate of the networking terminal with the preset basic transmission rate, after the comparison is completed, 0.5N% adjustment is performed, the WiFi transmission power of the PON gateway is adjusted by a midpoint difference method, and the WiFi transmission power of the PON gateway can be made to meet the transmission requirement quickly.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A dynamic detection system for optical communication equipment, comprising: the dynamic detection system comprises: the device comprises a detection module, a control module and a management module;

the detection module is mainly used for searching and acquiring the WiFi connection attribute of each networking terminal in real time, wherein the connection attribute comprises modulation mode information, signal intensity information and data transmission rate information of the networking terminal, and the WiFi signal accessed to the PON gateway is monitored in a timing mode;

the control module mainly refers to experience data of transmission rate and corresponding signal intensity required by normal internet surfing of equipment in each WiFi signal modulation mode, presets basic transmission rate and corresponding basic WiFi signal intensity in each WiFi signal modulation mode, synthesizes WiFi attribute information of all networking terminals of the PON gateway, and dynamically configures WiFi transmitting power of the PON gateway.

2. The dynamic detection system of claim 1, wherein: in the management module: operation and maintenance management personnel or users of the PON gateway are used for administrator authority, and the users with the administrator authority can log in the system by themselves to inquire the PON gateway to preset WiFi transmitting power, and modify and adjust the preset WiFi transmitting power according to actual conditions.

3. The dynamic detection system of claim 2, wherein: the dynamic detection system is installed in an internal CPU of the PON gateway by an embedded program.

4. The dynamic detection system of claim 3, wherein: the dynamic detection system is compiled into an embedded program through codes, the embedded program is installed in a Central Processing Unit (CPU) inside the PON gateway, and the program is provided with an initial induction program which acquires the self-starting authority of the PON gateway in advance.

5. The dynamic detection system of claim 1, wherein: and synchronously starting an initial inducing program and the dynamic detecting system when the PON gateway is started.

6. The dynamic detection system of claim 1, wherein: if the WiFi signal intensity of the system is higher than the preset basic WiFi signal intensity in the process of dynamically adjusting the WiFi transmitting power of the PON gateway by the control module, the WiFi transmitting power of the PON gateway is gradually reduced, the power is reduced by 1% once, the WiFi transmitting power is reduced each time and then compared again until the WiFi signal intensity of the system is lower than the basic WiFi signal intensity, and the WiFi transmitting power data adjusted last time is determined as the latest WiFi transmitting power of the PON gateway.

7. An intelligent adjusting method for optical communication equipment is characterized in that: the method comprises the following steps:

s1: when the PON gateway device is started or restarted, automatically loading a dynamic detection system, wherein the dynamic detection system is the dynamic detection system according to any one of claims 1 to 6;

s2: the monitoring module monitors WiFi signals accessed to the PON gateways at regular time, searches and acquires WiFi attribute information of networking terminal equipment of each wireless access PON gateway at regular time, searches and acquires WiFi attribute information of equipment when each networking terminal is wirelessly accessed to the PON gateway when the WiFi attribute information of the networking terminal is found to be changed or a new terminal is accessed to the PON gateway equipment, and transmits the attribute information to the control module, wherein the attribute information comprises a modulation mode, wiFi signal intensity and data transmission rate when each terminal is wirelessly accessed;

s3: the control module judges whether two or more networking terminals are wirelessly accessed to the PON gateway: if two or more networking terminals exist, the dynamic detection system compares the WiFi signal intensity in the WiFi attribute information of each device, the WiFi attribute information of the terminal device with the lowest signal intensity is set as the current WiFi attribute information of the dynamic detection system, and if only one terminal exists, the WiFi attribute information of the device is set as the current WiFi attribute information of the dynamic detection system; if no networking terminal exists, the current WiFi attribute of the dynamic detection system is set to be absent;

s4: the control module compares the system WiFi signal intensity in the current WiFi attribute of the system with a preset basic WiFi signal intensity according to a system modulation mode in the current WiFi attribute of the system, if the system WiFi signal intensity is higher than the preset basic WiFi signal intensity, the WiFi transmitting power of the PON gateway is reduced gradually, the comparison is carried out again after the WiFi transmitting power is reduced each time until the system WiFi signal intensity is lower than the basic WiFi signal intensity, the last-adjusted WiFi transmitting power data is determined as the latest WiFi transmitting power of the PON gateway, and if the system WiFi signal intensity is lower than or equal to the preset basic WiFi signal intensity, the WiFi transmitting power of the PON gateway is kept unchanged;

s5: after the control module finishes adjustment of WiFi transmitting power of the PON gateway, evaluating data transmission rate of each networking terminal accessed to the PON gateway, if all the networking terminal transmission rates are higher than or equal to a preset basic transmission rate, keeping the WiFi transmitting power of the PON gateway unchanged, if the transmission rate of one or more networking terminals is lower than the preset basic transmission rate, gradually increasing the WiFi transmitting power of the PON gateway, increasing 1% of power once, redetecting the data transmission rate after increasing the WiFi transmitting power each time until the data transmission rates of all the networking terminals are higher than or equal to the preset basic transmission rate, and determining the WiFi transmitting power data adjusted last time as the latest WiFi transmitting power of the PON gateway;

s6: the management module allows operation and maintenance personnel to remotely log in the system to inquire the basic transmission rate and the corresponding basic WiFi signal strength, and modify and adjust the basic transmission rate and the corresponding basic WiFi signal strength.

8. The intelligent adjusting method of optical communication equipment according to claim 6, characterized in that: and when the control module gradually increases or decreases the WiFi transmitting power of the PON gateway, the control module increases or decreases 1% power once.

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