CN111478740A - Signal strength monitoring method - Google Patents

Abstract

The invention relates to a signal strength monitoring method, which comprises the step of monitoring the signal strength by using a signal strength monitoring system. The signal intensity monitoring system disclosed by the invention is wide in application and compact in design. The residual electric quantity of each device is redistributed based on the historical power consumption data of the devices, and the electric quantity distribution of the devices is stopped when the devices are detected to be in an idle state, so that the reasonable distribution of the electric quantity in the system is realized.

Description

Signal strength monitoring method

Technical Field

The invention relates to the field of field monitoring, in particular to a signal intensity monitoring method.

Background

When the closed-circuit monitoring system is designed, the basic requirements of a user on the closed-circuit monitoring system are met, the closed-circuit monitoring system has the advantages of reasonable structure, safety, reliability, mainstream products, low cost and low maintenance amount as the starting points, and an advanced, safe, reliable and efficient closed-circuit monitoring system solution is provided for the user according to the starting points. The closed circuit monitoring system has reasonable structure, adopts advanced and reasonable technology to structure the system, ensures the safe and stable operation of the whole system and has good future expansion conditions.

The stability and the safety of the monitoring system are the most concerned problems of users, and the stable operation of the closed-circuit monitoring system of a noble unit can be ensured only by a system which operates stably. The technical advancement of the system is the guarantee and foundation of high performance of the system, and simultaneously, the troubles of users and system maintenance personnel can be effectively reduced. Good scalability is for the development of users.

Disclosure of Invention

According to an aspect of the present invention, there is provided a signal strength monitoring method comprising monitoring signal strength using a signal strength monitoring system comprising:

the wireless router comprises one or more antenna terminals and is used for providing WIFI wireless signals for an area where the wireless router is located;

the intensity measuring equipment is arranged on one side of the wireless router and used for monitoring the intensity of the WIFI wireless signal received by the position where the intensity measuring equipment is located;

the buzzing device is connected with the intensity measuring device and is used for performing buzzing action with preset frequency when the intensity monitored by the intensity measuring device is lower than a preset intensity threshold value;

the instant display equipment is connected with the parameter estimation equipment and is used for receiving the internal temperature data of the wireless router and instantly displaying the character string corresponding to the internal temperature data of the wireless router;

the first extraction equipment is arranged on the shell of the wireless router and used for carrying out field detection operation on the temperature on the shell of the wireless router so as to obtain first temperature data;

the second extraction device is arranged on the shell of the strength measurement device and used for carrying out on-site detection operation on the temperature on the shell of the strength measurement device so as to obtain second temperature data;

the third extraction device is arranged on the shell of the buzzer and used for carrying out field detection operation on the temperature on the shell of the buzzer so as to obtain third temperature data;

the parameter estimation device is respectively connected with the first extraction device, the second extraction device and the third extraction device, and is used for receiving the first temperature data, the second temperature data and the third temperature data and performing weighted estimation operation on the first temperature data, the second temperature data and the third temperature data to obtain internal temperature data of the wireless router;

the level detection device is respectively connected with the wireless router, the strength measurement device and the buzzer, and is used for counting the power consumption level of the wireless router based on the historical power consumption data of the wireless router to be output as a first power consumption level, counting the power consumption level of the strength measurement device based on the historical power consumption data of the strength measurement device to be output as a second power consumption level, and counting the power consumption level of the buzzer based on the historical power consumption data of the buzzer to be output as a third power consumption level;

the residual electric quantity acquisition equipment is used for acquiring the current residual electric quantity of the battery used by the system;

the electric quantity distribution equipment is respectively connected with the grade detection equipment and the residual electric quantity acquisition equipment and is used for determining the electric quantity distributed to the wireless router, the electric quantity distributed to the strength measurement equipment and the electric quantity distributed to the buzzer equipment based on the real-time residual electric quantity, the first power consumption grade, the second power consumption grade and the third power consumption grade;

wherein the wireless router, the strength measuring device and the buzzer device are supplied with power by one power supply device;

wherein, in the parameter estimation device, performing a weighted estimation operation on the first temperature data, the second temperature data, and the third temperature data to obtain internal temperature data of the wireless router comprises: multiplying the first temperature data and a first weight value to obtain a first product, multiplying the second temperature data and a second weight value to obtain a second product, multiplying the third temperature data and a third weight value to obtain a third product, and adding the first product, the second product, and the third product to obtain the internal temperature data.

The invention has at least the following two important points:

(1) realizing the redistribution of the residual electric quantity of each device based on the historical power consumption data of the device, and stopping distributing the electric quantity to the device when detecting that the device is in an idle state;

(2) in view of the characteristic that the temperature inside the device, which is generally a closed structure, cannot be measured, a numerical estimation is performed using the temperature outside the device and the temperature outside the surrounding device to obtain a device internal parameter with high accuracy.

The signal intensity monitoring system disclosed by the invention is wide in application and compact in design. The residual electric quantity of each device is redistributed based on the historical power consumption data of the devices, and the electric quantity distribution of the devices is stopped when the devices are detected to be in an idle state, so that the reasonable distribution of the electric quantity in the system is realized.

Detailed Description

Embodiments of the signal strength monitoring system of the present invention will be described in detail below.

The quantity of electricity may also refer to the amount of electricity required by the electrical equipment, which is also referred to as electrical energy or electricity. The unit of electrical energy is kilowatts per hour. W ═ P × t (W denotes electrical energy; P denotes active power in kW; t denotes time in hours h). The electric quantity is also divided into active electric quantity and reactive electric quantity. The unit of the reactive power is kilowatt per hour. The distribution mode of the electric quantity is one of the key factors for determining whether the system can work normally.

In the prior art, under the condition that a plurality of devices are arranged in a system and the power consumption requirements are inconsistent, once the system is in short supply of power, the effective distribution of the power consumption of each device in the system cannot be realized, for example, the residual power of each device cannot be redistributed based on the historical power consumption data of each device, and when the device is detected to be in an idle state, the distribution of the power to the devices is stopped, so that the unreasonable power distribution of the devices in the system is caused.

In order to overcome the defects, the invention provides a signal strength monitoring method, which comprises the step of monitoring the signal strength by using a signal strength monitoring system, wherein the signal strength monitoring system effectively solves the corresponding technical problem.

A signal strength monitoring system shown according to an embodiment of the present invention includes:

the wireless router comprises one or more antenna terminals and is used for providing WIFI wireless signals for an area where the wireless router is located;

the intensity measuring equipment is arranged on one side of the wireless router and used for monitoring the intensity of the WIFI wireless signal received by the position where the intensity measuring equipment is located;

the buzzing device is connected with the intensity measuring device and is used for performing buzzing action with preset frequency when the intensity monitored by the intensity measuring device is lower than a preset intensity threshold value;

the instant display equipment is connected with the parameter estimation equipment and is used for receiving the internal temperature data of the wireless router and instantly displaying the character string corresponding to the internal temperature data of the wireless router;

the first extraction equipment is arranged on the shell of the wireless router and used for carrying out field detection operation on the temperature on the shell of the wireless router so as to obtain first temperature data;

the second extraction device is arranged on the shell of the strength measurement device and used for carrying out on-site detection operation on the temperature on the shell of the strength measurement device so as to obtain second temperature data;

the third extraction device is arranged on the shell of the buzzer and used for carrying out field detection operation on the temperature on the shell of the buzzer so as to obtain third temperature data;

the parameter estimation device is respectively connected with the first extraction device, the second extraction device and the third extraction device, and is used for receiving the first temperature data, the second temperature data and the third temperature data and performing weighted estimation operation on the first temperature data, the second temperature data and the third temperature data to obtain internal temperature data of the wireless router;

the level detection device is respectively connected with the wireless router, the strength measurement device and the buzzer, and is used for counting the power consumption level of the wireless router based on the historical power consumption data of the wireless router to be output as a first power consumption level, counting the power consumption level of the strength measurement device based on the historical power consumption data of the strength measurement device to be output as a second power consumption level, and counting the power consumption level of the buzzer based on the historical power consumption data of the buzzer to be output as a third power consumption level;

the residual electric quantity acquisition equipment is used for acquiring the current residual electric quantity of the battery used by the system;

the electric quantity distribution equipment is respectively connected with the grade detection equipment and the residual electric quantity acquisition equipment and is used for determining the electric quantity distributed to the wireless router, the electric quantity distributed to the strength measurement equipment and the electric quantity distributed to the buzzer equipment based on the real-time residual electric quantity, the first power consumption grade, the second power consumption grade and the third power consumption grade;

wherein the wireless router, the strength measuring device and the buzzer device are supplied with power by one power supply device;

wherein, in the parameter estimation device, performing a weighted estimation operation on the first temperature data, the second temperature data, and the third temperature data to obtain internal temperature data of the wireless router comprises: multiplying the first temperature data and a first weight value to obtain a first product, multiplying the second temperature data and a second weight value to obtain a second product, multiplying the third temperature data and a third weight value to obtain a third product, and adding the first product, the second product, and the third product to obtain the internal temperature data.

Next, a detailed description of the signal strength monitoring system according to the present invention will be further described.

In the signal strength monitoring system:

the first weight value is greater than the second weight value and greater than the third weight value, the value range of the first weight value is between 0.5 and 2, and the value range of the second weight value and the third weight value is between 0.25 and 1.

In the signal strength monitoring system:

in the power distribution device, the power distributed to the wireless router is based on the real-time residual power and is in direct proportion to the first power consumption level.

In the signal strength monitoring system:

in the power distribution device, the power distributed to the intensity measurement device is based on the real-time residual power and is in direct proportion to the second power consumption level.

In the signal strength monitoring system:

in the electric quantity distribution device, the electric quantity distributed to the buzzer is based on the real-time residual electric quantity and is in direct proportion to the third power consumption level.

In the signal strength monitoring system:

in the electric quantity distribution equipment, when the wireless router is detected to be in an idle state, the distribution of the electric quantity to the wireless router is stopped, when the strength measurement equipment is detected to be in the idle state, the distribution of the electric quantity to the strength measurement equipment is stopped, and when the buzzer equipment is detected to be in the idle state, the distribution of the electric quantity to the buzzer equipment is stopped.

In the signal strength monitoring system:

the intensity measuring device is realized by a CP L D device, and the CP L D device is designed by VHD L.

In the signal strength monitoring system:

and the strength measuring equipment and the wireless router are in data connection and data interaction through a 16-bit parallel data interface.

In the signal strength monitoring system:

the intensity measurement device and the wireless router share the same field timing device.

In the signal strength monitoring system:

a data caching device is also arranged between the intensity measuring device and the wireless router;

the data caching device is connected with the intensity measuring device and the wireless router through two data interfaces respectively.

In addition, compared with an extended product combining a simple Wireless AP and a broadband Router, the Wireless Router (Wireless Router) not only has all functions of the simple Wireless AP, such as supporting a DHCP client, supporting VPN, a firewall, supporting WEP encryption and the like, but also comprises a Network Address Translation (NAT) function, and can support network connection sharing of local area network users, realize Internet connection sharing in a home Wireless network, and realize Wireless shared access of ADS L, Cable MODEM and cell broadband.

It is to be understood that while the present invention has been described in conjunction with the preferred embodiments thereof, it is not intended to limit the invention to those embodiments. It will be apparent to those skilled in the art from this disclosure that many changes and modifications can be made, or equivalents modified, in the embodiments of the invention without departing from the scope of the invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the scope of the protection of the technical solution of the present invention, unless the contents of the technical solution of the present invention are departed.

Claims (10)

1. A signal strength monitoring method comprising monitoring signal strength using a signal strength monitoring system comprising:

the wireless router comprises one or more antenna terminals and is used for providing WIFI wireless signals for an area where the wireless router is located;

the intensity measuring equipment is arranged on one side of the wireless router and used for monitoring the intensity of the WIFI wireless signal received by the position where the intensity measuring equipment is located;

the buzzing device is connected with the intensity measuring device and is used for performing buzzing action with preset frequency when the intensity monitored by the intensity measuring device is lower than a preset intensity threshold value;

the instant display equipment is connected with the parameter estimation equipment and is used for receiving the internal temperature data of the wireless router and instantly displaying the character string corresponding to the internal temperature data of the wireless router;

the first extraction equipment is arranged on the shell of the wireless router and used for carrying out field detection operation on the temperature on the shell of the wireless router so as to obtain first temperature data;

the second extraction device is arranged on the shell of the strength measurement device and used for carrying out on-site detection operation on the temperature on the shell of the strength measurement device so as to obtain second temperature data;

the third extraction device is arranged on the shell of the buzzer and used for carrying out field detection operation on the temperature on the shell of the buzzer so as to obtain third temperature data;

the parameter estimation device is respectively connected with the first extraction device, the second extraction device and the third extraction device, and is used for receiving the first temperature data, the second temperature data and the third temperature data and performing weighted estimation operation on the first temperature data, the second temperature data and the third temperature data to obtain internal temperature data of the wireless router;

the level detection device is respectively connected with the wireless router, the strength measurement device and the buzzer, and is used for counting the power consumption level of the wireless router based on the historical power consumption data of the wireless router to be output as a first power consumption level, counting the power consumption level of the strength measurement device based on the historical power consumption data of the strength measurement device to be output as a second power consumption level, and counting the power consumption level of the buzzer based on the historical power consumption data of the buzzer to be output as a third power consumption level;

the residual electric quantity acquisition equipment is used for acquiring the current residual electric quantity of the battery used by the system;

the electric quantity distribution equipment is respectively connected with the grade detection equipment and the residual electric quantity acquisition equipment and is used for determining the electric quantity distributed to the wireless router, the electric quantity distributed to the strength measurement equipment and the electric quantity distributed to the buzzer equipment based on the real-time residual electric quantity, the first power consumption grade, the second power consumption grade and the third power consumption grade;

wherein the wireless router, the strength measuring device and the buzzer device are supplied with power by one power supply device;

wherein, in the parameter estimation device, performing a weighted estimation operation on the first temperature data, the second temperature data, and the third temperature data to obtain internal temperature data of the wireless router comprises: multiplying the first temperature data and a first weight value to obtain a first product, multiplying the second temperature data and a second weight value to obtain a second product, multiplying the third temperature data and a third weight value to obtain a third product, and adding the first product, the second product, and the third product to obtain the internal temperature data.

2. The method of claim 1, wherein:

the first weight value is greater than the second weight value and greater than the third weight value, the value range of the first weight value is between 0.5 and 2, and the value range of the second weight value and the third weight value is between 0.25 and 1.

3. The method of claim 2, wherein:

in the power distribution device, the power distributed to the wireless router is based on the real-time residual power and is in direct proportion to the first power consumption level.

4. The method of claim 3, wherein:

in the power distribution device, the power distributed to the intensity measurement device is based on the real-time residual power and is in direct proportion to the second power consumption level.

5. The method of claim 4, wherein:

in the electric quantity distribution device, the electric quantity distributed to the buzzer is based on the real-time residual electric quantity and is in direct proportion to the third power consumption level.

6. The method of claim 5, wherein:

in the electric quantity distribution equipment, when the wireless router is detected to be in an idle state, the distribution of the electric quantity to the wireless router is stopped, when the strength measurement equipment is detected to be in the idle state, the distribution of the electric quantity to the strength measurement equipment is stopped, and when the buzzer equipment is detected to be in the idle state, the distribution of the electric quantity to the buzzer equipment is stopped.

7. The method of claim 6, wherein:

the intensity measuring device is realized by a CP L D device, and the CP L D device is designed by VHD L.

8. The method of claim 7, wherein:

and the strength measuring equipment and the wireless router are in data connection and data interaction through a 16-bit parallel data interface.

9. The method of claim 8, wherein:

the intensity measurement device and the wireless router share the same field timing device.

10. The method of claim 9, wherein:

a data caching device is also arranged between the intensity measuring device and the wireless router;

the data caching device is connected with the intensity measuring device and the wireless router through two data interfaces respectively.