CN109586817B - Communication detection method, relay device, waterlogging prevention node device and waterlogging prevention early warning system - Google Patents

Abstract

The embodiment of the application discloses a communication detection method, a relay device, a waterlogging prevention node device and a waterlogging prevention early warning system, wherein installation mode software of the waterlogging prevention relay device is embedded into the relay device; embedding waterlogging prevention node device installation mode software in the waterlogging prevention node device; the relay device and the waterlogging prevention node device carry out communication detection through respective installation mode software, and whether the relay device and the waterlogging prevention node device can successfully communicate is judged; and when the relay device and the waterlogging prevention node device can successfully communicate, the relay device and the waterlogging prevention node device send prompt information. According to the invention, a user can directly observe the communication condition between the relay device and the waterlogging prevention node device, and direct connection signal testing is carried out, so that the accuracy of signal intensity is improved; extra signal detection equipment is not needed, the installation cost and the installation difficulty of the relay device and the waterlogging prevention node device are reduced, the installation efficiency is improved, and the equipment failure probability is reduced.

Description

Communication detection method, relay device, waterlogging prevention node device and waterlogging prevention early warning system

Technical Field

The embodiment of the application relates to the field of waterlogging prevention and early warning, in particular to a communication detection method, a relay device, a waterlogging prevention node device and a waterlogging prevention and early warning system.

Background

The existing waterlogging prevention early warning equipment is divided into node equipment and relay equipment, and the node equipment and the relay equipment are communicated wirelessly. In practical installation and use, independent signal detection equipment is derived for detecting the signal quality among the node equipment, the relay equipment and the detection equipment if the wireless signal quality between the node equipment and the relay equipment can meet the requirement of normal communication. Under the technology, an installer needs to carry an independent wireless signal detection device to detect the signal of each device of the device to be installed, but even if the detection device detects a signal, the wireless signal between the detected device and another device cannot be guaranteed to be good, so that the problems of high installation difficulty, low efficiency and high device failure probability of the installer are caused.

Disclosure of Invention

The application provides a communication detection method, a relay device, a waterlogging prevention node device and a waterlogging prevention early warning system, which are used for solving the problems mentioned in the background technology.

In a first aspect, an embodiment of the present application provides a communication detection method, which includes the following steps:

embedding waterlogging-prevention relay device installation mode software in the relay device;

embedding waterlogging prevention node device installation mode software in the waterlogging prevention node device;

the relay device and the waterlogging prevention node device carry out communication detection through respective installation mode software, and whether the relay device and the waterlogging prevention node device can successfully communicate is judged;

and when the relay device and the waterlogging prevention node device can successfully communicate, the relay device and the waterlogging prevention node device send prompt information.

Optionally, the relay device and the waterlogging prevention node device perform communication detection through respective installation mode software, and determine whether the relay device and the waterlogging prevention node device can successfully communicate with each other, including:

the relay device starts waterlogging-prevention relay device installation mode software and enters an installation mode;

the relay device judges whether installation mode information sent by the waterlogging prevention node device is received or not;

and if the relay device receives the installation mode message sent by the waterlogging prevention node device, returning a relay installation mode response message to the waterlogging prevention node device, and judging that the relay device and the waterlogging prevention node device can successfully communicate.

Optionally, the relay device and the waterlogging prevention node device perform communication detection through respective installation mode software, and determine whether the relay device and the waterlogging prevention node device can successfully communicate with each other, further including:

starting the waterlogging prevention node device installation mode software by the waterlogging prevention node device, and entering an installation mode;

the waterlogging prevention node device sends an installation mode message to the relay device;

the waterlogging prevention node device judges whether a relay installation mode response message sent by the relay device is received or not;

and if the relay installation mode response message is received, judging that the relay device and the waterlogging prevention node device can successfully communicate.

Optionally, when the relay device and the waterlogging prevention node device can successfully communicate with each other, the relay device and the waterlogging prevention node device send out prompt information, including:

when the relay device and the waterlogging prevention node device can successfully communicate with each other, the indicator lamps of the relay device and the waterlogging prevention node device flicker according to the flicker frequency corresponding to the signal intensity of wireless communication.

Optionally, the relay device and the waterlogging prevention node device may exit the installation mode after the time for entering the installation mode exceeds the respective set time or after receiving an instruction for exiting the installation mode.

In a second aspect, an embodiment of the present application further provides a relay device, where a waterlogging prevention relay device installation mode software is embedded in the relay device, and a communication detection process between the relay device and a waterlogging prevention node device is as follows:

starting waterlogging-prevention relay device installation mode software and entering an installation mode;

judging whether an installation mode message sent by a waterlogging prevention node device is received or not;

and if the installation mode message sent by the waterlogging prevention node device is received, returning a relay installation mode response message to the waterlogging prevention node device, judging that the relay device and the waterlogging prevention node device can successfully communicate, and sending prompt information.

In a third aspect, an embodiment of the present application further provides a waterlogging prevention node device, where an installation mode software of the waterlogging prevention node device is embedded in the waterlogging prevention node device, and a communication detection process between the waterlogging prevention node device and a relay device is as follows:

starting waterlogging prevention node device installation mode software and entering an installation mode;

transmitting an installation mode message to the relay device;

judging whether a relay installation mode response message sent by a relay device is received or not;

and if the relay installation mode response message is received, judging that the relay device and the waterlogging prevention node device can successfully communicate, and sending prompt information.

In a fourth aspect, an embodiment of the present application further provides a waterlogging prevention early warning system, which includes a server, a relay device, and a plurality of waterlogging prevention node devices; the waterlogging prevention node device is in wireless communication connection with the relay device; the waterlogging prevention node device is embedded with waterlogging prevention node device installation mode software; the relay device is connected with a server side; the relay device is embedded with waterlogging prevention relay device installation mode software; the communication detection process between the waterlogging prevention node device and the relay device is as follows:

starting the waterlogging prevention node device installation mode software by the waterlogging prevention node device, and entering an installation mode; the relay device starts waterlogging-prevention relay device installation mode software and enters an installation mode;

the waterlogging prevention node device sends an installation mode message to the relay device;

the relay device receives the installation mode message sent by the waterlogging prevention node device, returns a relay installation mode response message to the waterlogging prevention node device, and judges that the relay device and the waterlogging prevention node device can successfully communicate;

and the waterlogging prevention node device receives the relay installation mode response message sent by the relay device and judges that the waterlogging prevention node device and the relay device can successfully communicate.

Optionally, the relay device receives an installation mode message sent by the waterlogging prevention node device, returns a relay installation mode response message to the waterlogging prevention node device, and determines that the relay device and the waterlogging prevention node device can successfully communicate with each other, and specifically includes:

the relay device receives the installation mode message sent by the waterlogging prevention node device, returns a relay installation mode response message to the waterlogging prevention node device, judges that the waterlogging prevention node device and the waterlogging prevention node device can successfully communicate with each other, and then carries out flicker prompting according to flicker frequency corresponding to signal intensity of wireless communication between the relay device and the waterlogging prevention node device.

Optionally, the waterlogging prevention node device receives a relay installation mode response message sent by the relay device, and determines that the relay device and the waterlogging prevention node device can successfully communicate with each other, and specifically includes:

the waterlogging prevention node device receives the relay installation mode response message sent by the relay device, judges that the relay device can successfully communicate with the waterlogging prevention node device, and then carries out flicker prompting according to flicker frequency corresponding to the signal intensity of wireless communication between the relay device and the indicator lamp on the waterlogging prevention node device.

According to the scheme, waterlogging-prevention relay device installation mode software is embedded into the relay device; embedding waterlogging prevention node device installation mode software in the waterlogging prevention node device; the relay device and the waterlogging prevention node device carry out communication detection through respective installation mode software, and whether the relay device and the waterlogging prevention node device can successfully communicate is judged; and when the relay device and the waterlogging prevention node device can successfully communicate, the relay device and the waterlogging prevention node device send prompt information. The signal intensity of wireless communication between the relay device and the waterlogging prevention node device can be detected through the relay device and the waterlogging prevention node device, the strength of the signal intensity of the wireless communication of a user can be prompted through the flashing frequency of the indicator light, the user can directly observe the communication condition between the relay device and the waterlogging prevention node device, direct connection signal testing is carried out, and the accuracy of the signal intensity is improved; extra signal detection equipment is not needed, the installation cost and the installation difficulty of the relay device and the waterlogging prevention node device are reduced, the installation efficiency is improved, and the equipment failure probability is reduced. According to the invention, when an installer installs the waterlogging prevention node device, the installer only needs to enter an installation mode with the relay device and the waterlogging prevention node device, then moves one waterlogging prevention node device to a needed installation place at any time, observes the lamp flashing frequency of the indicator lamp on the waterlogging prevention node device, and if the indicator lamp flashing frequency is high, the wireless communication between the waterlogging prevention node device and the relay device is very good, and the packet loss rate is low; if the indication lamp has low flicker frequency or does not flicker, the waterlogging prevention node device and the relay device begin to lose packet or cannot receive information in wireless communication.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

fig. 1 is a software workflow diagram of a waterlogging prevention relay device installation mode according to an embodiment of the present application;

fig. 2 is a software workflow diagram of a waterlogging prevention node device installation mode according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a waterlogging prevention early warning system provided in the embodiment of the present application.

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are for purposes of illustration and not limitation. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures.

The embodiment of the application provides a communication detection method, which is applied to a waterlogging prevention early warning system and can be realized in a software and/or hardware mode, and the specific scheme provided by the embodiment is as follows:

s101, embedding waterlogging prevention relay device installation mode software in the relay device.

And S102, embedding waterlogging prevention node device installation mode software in the waterlogging prevention node device.

And S103, the relay device and the waterlogging prevention node device carry out communication detection through respective installation mode software, and whether the relay device and the waterlogging prevention node device can successfully communicate is judged.

And S104, when the relay device and the waterlogging prevention node device can successfully communicate, the relay device and the waterlogging prevention node device send prompt information.

In this embodiment, the communication detection between the relay device and the waterlogging prevention node device is performed through respective installation mode software, and the determination of whether the communication between the relay device and the waterlogging prevention node device is successful includes:

and S10311, starting waterlogging prevention by the relay device, and entering an installation mode.

In this embodiment, the relay device enters the installation mode by activating the relay device installation mode software in a manner not limited to pressing the button three times in succession.

And S10312, the relay device judges whether the installation mode message sent by the waterlogging prevention node device is received.

And S10313, if the relay device receives the installation mode message sent by the waterlogging prevention node device, returning a relay installation mode response message to the waterlogging prevention node device, and judging that the relay device and the waterlogging prevention node device can successfully communicate.

In this embodiment, the relay device and the waterlogging prevention node device perform communication detection through respective installation mode software, and determine whether the relay device and the waterlogging prevention node device can successfully communicate with each other, further including:

s10321, starting the waterlogging prevention node device installation mode software by the waterlogging prevention node device, and entering an installation mode.

In this embodiment, the button is continuously pressed three times, the waterlogging prevention node device installation mode software is started, and the waterlogging prevention node device enters the installation mode.

S10322, the waterlogging prevention node device sends an installation mode message to the relay device.

S10323, the waterlogging prevention node device judges whether a relay installation mode response message sent by the relay device is received.

And S10321, if the relay installation mode response message is received, judging that the relay device and the waterlogging prevention node device can successfully communicate.

In this embodiment, the signal strength of wireless communication between the relay device and the waterlogging prevention node device can be detected through the relay device and the waterlogging prevention node device, and when the relay device and the waterlogging prevention node device can successfully communicate with each other, the indicator lights of the relay device and the waterlogging prevention node device flash according to the flash frequency corresponding to the signal strength of the wireless communication. In this embodiment, the indicator lamps of the relay device and the waterlogging prevention node device both adopt LED indicator lamps. In this embodiment, the relay device and the waterlogging prevention node device may detect the signal strength of the wireless communication between the relay device and the waterlogging prevention node device through a signal detection chip, such as a GSM/GPRS baseband or a GSM/GPRS module.

In this embodiment, the relay device and the waterlogging prevention node device exit the installation mode after the time for entering the installation mode exceeds the respective set time or an instruction for exiting the installation mode is received. In this embodiment the relay device is automatically exited when it is in the installation mode for a maximum of 10 minutes, or the installation mode is exited by a short press of a key on the relay device. In this embodiment, if the waterlogging-prevention node device does not receive the relay installation mode response message within a set time, for example, two minutes, the waterlogging-prevention node device automatically exits the installation mode after time out. The self-checking key on the waterlogging prevention node device can be manually pressed to exit the installation mode, and after the installation mode exits, the waterlogging prevention node device can send two effective self-checking messages to the relay device and send the messages to the server side of the waterlogging prevention early warning system.

The embodiment of the application provides a relay device, this relay device is applied to prevention waterlogging early warning system, can adopt the mode of software and/or hardware to realize, and the concrete scheme that this embodiment provided is as follows:

the relay device is embedded with waterlogging prevention relay device installation mode software, as shown in fig. 1, the communication detection process between the relay device and a waterlogging prevention node device is as follows:

firstly, starting the waterlogging prevention relay device installation mode software and entering an installation mode.

In this embodiment, the hardware of the relay device is initialized first, the relay device installation mode software is started by, but not limited to, pressing the button three times in succession, the relay device enters the installation mode, otherwise, the sleep mode is continuously executed.

And secondly, judging whether the installation mode message sent by the waterlogging prevention node device is received.

And thirdly, if the installation mode message sent by the waterlogging prevention node device is received, returning a relay installation mode response message to the waterlogging prevention node device, judging that the relay device and the waterlogging prevention node device can successfully communicate, and sending prompt information.

In this embodiment the relay device is automatically exited when it is in the installation mode for a maximum of 10 minutes, or the installation mode is exited by a short press of a key on the relay device. In this embodiment, the signal strength of wireless communication between the relay device and the waterlogging prevention node device can be detected through the relay device and the waterlogging prevention node device, and when the relay device and the waterlogging prevention node device can successfully communicate with each other, the indicator lights of the relay device and the waterlogging prevention node device flash according to the flash frequency corresponding to the signal strength of the wireless communication. In this embodiment, the indicator lamps of the relay device and the waterlogging prevention node device both adopt LED indicator lamps. In this embodiment, when the communication between the relay device and the waterlogging prevention node device is successful, the LED indicator light flashes three times to indicate that the installation mode message of the waterlogging prevention node device is received. In this embodiment, the relay device and the waterlogging prevention node device may detect the signal strength of the wireless communication between the relay device and the waterlogging prevention node device through a signal detection chip, such as a GSM/GPRS baseband or a GSM/GPRS module.

The embodiment of the application provides a prevent waterlogging node means, this prevent waterlogging node means is applied to prevent waterlogging early warning system, can adopt the mode of software and/or hardware to realize, and the concrete scheme that this embodiment provided is as follows:

the waterlogging prevention node device is embedded with waterlogging prevention node device installation mode software, as shown in fig. 2, the communication detection process between the waterlogging prevention node device and the relay device is as follows:

firstly, starting waterlogging prevention node device installation mode software and entering an installation mode.

In this embodiment, hardware of the waterlogging prevention node device is initialized, installation mode software of the waterlogging prevention node device is started in a mode that a button is continuously pressed for three times, the waterlogging prevention node device enters an installation mode, and otherwise, a sleep mode is continuously executed.

And secondly, sending an installation mode message to the relay device.

And thirdly, judging whether a relay installation mode response message sent by the relay device is received.

And fourthly, if the relay installation mode response message is received, judging that the relay device and the waterlogging prevention node device can successfully communicate, and sending prompt information.

In this embodiment, if the waterlogging-prevention node device does not receive the relay installation mode response message within a set time, for example, two minutes, the waterlogging-prevention node device automatically exits the installation mode after time out. The self-checking key on the waterlogging prevention node device can be manually pressed to exit the installation mode, and after the installation mode exits, the waterlogging prevention node device can send two effective self-checking messages to the relay device and send the messages to the server side of the waterlogging prevention early warning system. In this embodiment, through the installation mode software of the waterlogging prevention node device embedded in the waterlogging prevention node device and the installation mode software of the waterlogging prevention relay device embedded in the relay device, the signal intensity of wireless communication between the waterlogging prevention node device and the relay device can be detected, and when the waterlogging prevention node device and the relay device can successfully communicate with each other, the indicator lights of the waterlogging prevention node device and the relay device flash and prompt according to the flash frequency corresponding to the signal intensity of the wireless communication. In this embodiment, the indicator lamps of the waterlogging prevention node device and the relay device are both LED indicator lamps. In this embodiment, when the communication between the waterlogging prevention node device and the relay device is successful, the LED indicator lights flash three times to indicate that the relay installation mode response message is received.

As shown in fig. 3, the waterlogging prevention early warning system provided in the embodiment of the present application can be implemented in a software and/or hardware manner, and includes: the system comprises a server 301, a relay device 302 and a plurality of waterlogging prevention node devices 303;

the waterlogging prevention node device 303 is in wireless communication connection with the relay device 302; the waterlogging prevention node device 303 is embedded with waterlogging prevention node device installation mode software; the relay device 302 is connected with the relay device 302; the relay device 302 has embedded therein flood prevention relay device installation mode software. The waterlogging prevention node device 303 is mainly used for waterlogging prevention and early warning; the relay device 302 is mainly used for receiving the information of the waterlogging prevention node device 303 and sending the information to the relay device 302; the relay device 302 is primarily used to present the received information to the user. The communication detection process between the waterlogging prevention node device 303 and the relay device 302 in this embodiment is as follows:

firstly, starting waterlogging prevention node device installation mode software by using a waterlogging prevention node device 303, and entering an installation mode; the relay device 302 starts the flood prevention relay device installation mode software and enters the installation mode.

In this embodiment, the waterlogging prevention node device installation mode software is started by pressing the button three times, and the waterlogging prevention node device 303 enters the installation mode. In this embodiment, the relay device 302 enters the installation mode by activating the relay device 302 installation mode software, but not limited to pressing the button three times in succession.

Secondly, the waterlogging prevention node device 303 sends an installation mode message to the relay device 302.

Thirdly, the relay device 302 receives the installation mode message sent by the waterlogging prevention node device 303, returns a relay installation mode response message to the waterlogging prevention node device 303, and judges that the communication between the relay device and the waterlogging prevention node device 303 can be successful.

In this embodiment, the relay device 302 may automatically exit the installation mode when it is operating in the installation mode for up to 10 minutes, or may exit the installation mode by pressing a button on the relay device 302 a short time. In this embodiment, through the anti-waterlogging relay device installation mode software embedded in the relay device 302 and the anti-waterlogging node device installation mode software embedded in the anti-waterlogging node device 303, the signal strength of wireless communication between the relay device 302 and the anti-waterlogging node device 303 can also be detected, and when communication between the relay device 302 and the anti-waterlogging node device 303 is successful, the indicator lights of the relay device 302 and the anti-waterlogging node device 303 flash and prompt according to the flash frequency corresponding to the signal strength of the wireless communication. In this embodiment, the indicator lamps of the relay device 302 and the waterlogging prevention node device 303 both adopt LED indicator lamps. In this embodiment, when the communication between the relay device 302 and the waterlogging prevention node device 303 is successful, the LED indicator light flashes three times to indicate that the installation mode message of the waterlogging prevention node device 303 is received.

And fourthly, the waterlogging prevention node device 303 receives the relay installation mode response message sent by the relay device 302 and judges that the communication between the waterlogging prevention node device and the relay device 302 is successful.

In this embodiment, if the waterlogging-prevention node device 303 does not receive the relay installation mode response message within a set time, for example, two minutes, the waterlogging-prevention node device 303 automatically exits the installation mode after time out. The self-checking button on the waterlogging prevention node device 303 can be manually pressed to exit the installation mode, and after exiting the installation mode, the waterlogging prevention node device 303 can send two effective self-checking messages to the relay device 302 and send the messages to the relay device 302 of the waterlogging prevention early warning system. In this embodiment, through the anti-flooding node device installation mode software embedded in the anti-flooding node device 303 and the anti-flooding relay device installation mode software embedded in the relay device 302, the signal strength of wireless communication between the anti-flooding node device 303 and the relay device 302 can also be detected, and when communication between the anti-flooding node device 303 and the relay device 302 is successful, the indicator lights of the anti-flooding node device 303 and the relay device 302 will flash according to the flash frequency corresponding to the signal strength of the wireless communication. In this embodiment, the indicator lights of the waterlogging prevention node device 303 and the relay device 302 are LED indicator lights. In this embodiment, when the communication between the waterlogging prevention node device 303 and the relay device 302 is successful, the LED indicator light flashes three times to indicate that the relay installation mode reply message is received.

In the scheme, waterlogging-prevention relay device installation mode software is embedded into the relay device 302; embedding waterlogging prevention node device installation mode software into the waterlogging prevention node device 303; the relay device 302 and the waterlogging prevention node device 303 perform communication detection through respective installation mode software, and judge whether the relay device 302 and the waterlogging prevention node device 303 can successfully communicate with each other; when the communication between the relay device 302 and the waterlogging prevention node device 303 is successful, the relay device 302 and the waterlogging prevention node device 303 send prompt messages. The signal strength of wireless communication between the relay device 302 and the waterlogging prevention node device 303 can be detected through the relay device 302 and the waterlogging prevention node device 303, the strength of the signal strength of the wireless communication of a user can be prompted through the flashing frequency of the indicator light, the user can directly observe the communication condition between the relay device 302 and the waterlogging prevention node device 303, direct connection signal testing is carried out, and the accuracy of the signal strength is improved; additional signal detection equipment is not needed, the installation cost and the installation difficulty of the relay device 302 and the waterlogging prevention node device 303 are reduced, the installation efficiency is improved, and the equipment failure probability is reduced. By the method, when an installer installs, only the relay device 302 and the waterlogging prevention node device 303 need to enter an installation mode, then the waterlogging prevention node device 303 is moved to a needed installation place at any time, the installer observes the light flashing frequency of the indicator light on the waterlogging prevention node device 303, and if the light flashing frequency is high, the wireless communication between the waterlogging prevention node device 303 and the relay device 302 is good, and the packet loss rate is low; if the flashing frequency of the indicator light is low or not, it indicates that the wireless communication between the waterlogging prevention node device 303 and the relay device 302 starts to have packet loss or cannot receive information.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present application and the technical principles employed. It will be understood by those skilled in the art that the present application is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the application. Therefore, although the present application has been described in more detail with reference to the above embodiments, the present application is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present application, and the scope of the present application is determined by the scope of the appended claims.

Claims (2)

1. A communication detection method, comprising the steps of:

embedding waterlogging-prevention relay device installation mode software in the relay device;

embedding waterlogging prevention node device installation mode software in the waterlogging prevention node device;

the relay device and the waterlogging prevention node device carry out communication detection through respective installation mode software, and whether the relay device and the waterlogging prevention node device can successfully communicate is judged;

when the relay device and the waterlogging prevention node device can successfully communicate, the relay device and the waterlogging prevention node device send prompt information;

wherein, relay unit and prevention waterlogging node device carry out communication detection through respective installation mode software, judge whether can successfully communicate between relay unit and the prevention waterlogging node device, include:

the relay device starts waterlogging-prevention relay device installation mode software and enters an installation mode;

the relay device judges whether installation mode information sent by the waterlogging prevention node device is received or not;

if the relay device receives the installation mode message sent by the waterlogging prevention node device, returning a relay installation mode response message to the waterlogging prevention node device, and judging that the relay device and the waterlogging prevention node device can successfully communicate;

or the like, or, alternatively,

the relay device and the waterlogging prevention node device carry out communication detection through respective installation mode software, and whether successful communication can be carried out between the relay device and the waterlogging prevention node device is judged, and the method further comprises the following steps:

starting the waterlogging prevention node device installation mode software by the waterlogging prevention node device, and entering an installation mode;

the waterlogging prevention node device sends an installation mode message to the relay device;

the waterlogging prevention node device judges whether a relay installation mode response message sent by the relay device is received or not;

if the relay installation mode response message is received, judging that the relay device and the waterlogging prevention node device can successfully communicate;

wherein, when successful communication can be realized between relay device and the prevention waterlogging node device, relay device and prevention waterlogging node device send tip information, include:

when the relay device and the waterlogging prevention node device can successfully communicate, indicator lights of the relay device and the waterlogging prevention node device flicker according to flicker frequencies corresponding to signal intensity of wireless communication;

the relay device and the waterlogging prevention node device enter the installation mode for a time exceeding respective set time or after receiving an instruction of exiting the installation mode, the relay device and the waterlogging prevention node device exit the installation mode, and when the relay device and the waterlogging prevention node device exit the installation mode, the waterlogging prevention node device sends two effective self-check messages to the relay device and sends the two effective self-check messages to a server side of the waterlogging prevention early warning system.

2. A waterlogging prevention early warning system is characterized by comprising a server, a relay device and a plurality of waterlogging prevention node devices; the waterlogging prevention node device is in wireless communication connection with the relay device; the waterlogging prevention node device is embedded with waterlogging prevention node device installation mode software; the relay device is connected with a server side; the relay device is embedded with waterlogging prevention relay device installation mode software; the communication detection process between the waterlogging prevention node device and the relay device is as follows:

starting the waterlogging prevention node device installation mode software by the waterlogging prevention node device, and entering an installation mode; the relay device starts waterlogging-prevention relay device installation mode software and enters an installation mode;

the waterlogging prevention node device sends an installation mode message to the relay device;

the relay device receives the installation mode message sent by the waterlogging prevention node device, returns a relay installation mode response message to the waterlogging prevention node device, and judges that the relay device and the waterlogging prevention node device can successfully communicate;

the waterlogging prevention node device receives a relay installation mode response message sent by the relay device and judges that the waterlogging prevention node device and the relay device can successfully communicate;

the relay device receives the installation mode message sent by the waterlogging prevention node device, returns the relay installation mode response message to the waterlogging prevention node device, and judges that the relay device and the waterlogging prevention node device can successfully communicate with each other, and the method specifically comprises the following steps:

the relay device receives the installation mode message sent by the waterlogging prevention node device, returns a relay installation mode response message to the waterlogging prevention node device, judges that the waterlogging prevention node device and the waterlogging prevention node device can successfully communicate with each other, and then carries out flicker prompting according to flicker frequency corresponding to signal intensity of wireless communication between the relay device and the waterlogging prevention node device;

the waterlogging prevention node device receives a relay installation mode response message sent by the relay device, and judges that the relay device and the waterlogging prevention node device can successfully communicate with each other, and the waterlogging prevention node device specifically comprises:

the waterlogging prevention node device receives the relay installation mode response message sent by the relay device, judges that the relay device can successfully communicate with the waterlogging prevention node device, and then carries out flicker prompting according to flicker frequency corresponding to the signal intensity of wireless communication between the relay device and the indicator lamp on the waterlogging prevention node device.

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