CN112887398B - Designated range signal control system employing communication networking platform - Google Patents

Abstract

The invention discloses a designated range signal control system adopting a communication networking platform, which comprises a signal detection processing module, an external equipment upgrading control module, a signal real-time coordination optimization module, a manual authorization communication networking platform and an instruction process data acquisition module, wherein the signal detection processing module is used for detecting signals in the designated range, and the external equipment upgrading control module is used for analyzing and matching signal sources connected in the designated range; the signal real-time coordination optimization module is used for optimizing signals of the external equipment, and the manual authorization communication networking platform is used for manually sending control signals to the external equipment to control the external equipment; the command process data acquisition module is used for feeding back commands to the external equipment in real time, and aims to set the signal transmission rate of the external equipment and the central controller for signal detection and signal optimization of the external equipment connected with the central controller.

Description

Designated range signal control system employing communication networking platform

Technical Field

The invention relates to the field of communication, in particular to a designated range signal control system adopting a communication networking platform.

Background

Communication is the transfer of information, which refers to the transmission and exchange of information from one place to another, the purpose of which is to transmit messages. Communication is communication and transfer of information between persons through a medium, and in a broad sense, any method and medium used can be called communication as long as information is transferred from one place to another. Communication mode: ancient beacon, drum, post fast horse relay, carrier pigeon, semaphore, etc., modern telecom, etc. Ancient communications take days to a minimum for long distances, while modern communications implement instant messaging in a telecommunication manner, such as telegrams, telephones, text messages, short messages, E-MAIL, etc. Federal communications law defines communications as including telecommunications and broadcast television. The telecommunications management regulations of the world trade organization, the international union and china define telecommunications as: including public telecommunications and broadcast television.

The communication networking platform aims at providing a safe, stable and efficient connection platform and helping developers to realize reliable and high-concurrency data communication between devices-devices, device-user applications and device-cloud services rapidly at low cost. The method not only can realize interaction among the devices, reporting and configuration issuing of the data of the devices, but also can be opened based on a rule engine and a Tencent cloud product, and can conveniently and rapidly realize storage, calculation and intelligent analysis of mass device data.

At present, after wireless signal connection is performed between different external devices and a central controller, command control is directly performed on a plurality of external devices, so that the problem that control commands are possibly delayed for different current network signals, and the situation that part of external devices cannot receive the commands occurs.

Disclosure of Invention

The invention aims to provide a specified range signal control system and method adopting a communication networking platform, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The system comprises a signal detection processing module, an external equipment upgrading control module, a signal real-time coordination optimization module, an artificial authorization communication networking platform and an instruction process data acquisition module, wherein the signal detection processing module, the external equipment upgrading control module, the signal real-time coordination optimization module and the instruction process data acquisition module are respectively connected with the artificial authorization communication networking platform through an intranet, and the signal detection processing module, the external equipment upgrading control module and the signal real-time coordination optimization module are sequentially connected through the intranet;

The signal detection processing module is used for detecting signals in a specified range so as to control a specified signal source; the external equipment upgrading control module is used for analyzing and matching signal sources connected in a designated range; the signal real-time coordination optimization module is used for optimizing the connected signals and analyzing the signal sources of the signal external equipment; the manual authorization communication networking platform is used for enabling a person to control the transmission of a control signal by the connected external equipment; the instruction process data acquisition module is used for feeding back the external equipment implementation instruction in real time and feeding back the signal intensity in real time.

By adopting the technical scheme: the signal detection processing module comprises a wake-up instruction control sub-module and a signal quantity monitoring sub-module, wherein the wake-up instruction control sub-module is used for sending a wake-up instruction to external equipment connected with signals through the manual authorization communication networking platform, the external equipment is waken up, the signal quantity monitoring sub-module is used for sending a control instruction to the external equipment through the manual authorization communication networking platform, the external equipment responds within a preset time, quantity statistics is carried out on the responding external equipment, the counted quantity is sent to the manual authorization communication networking platform, and the wake-up instruction control sub-module and the signal quantity monitoring sub-module are respectively connected with the manual authorization communication networking platform through an intranet.

By adopting the technical scheme: the external equipment upgrading control module comprises an external equipment data caching sub-module and an external equipment internal data analysis sub-module, wherein the external equipment data caching sub-module is used for caching data stored in the external equipment through the manual authorization communication networking platform, sending the cached data to the external equipment internal data analysis sub-module, and the external equipment internal data analysis sub-module is used for decoding the data of the external equipment and controlling the external equipment.

By adopting the technical scheme: the signal real-time coordination optimization module comprises a signal delay analysis sub-module and an external equipment matching parameter coordination sub-module, wherein the signal delay analysis sub-module is used for analyzing signal delays between external equipment and an artificial authorization communication networking platform, analyzing signal delay rates between different external equipment and the artificial authorization communication networking platform, and the external equipment matching parameter coordination sub-module is used for analyzing different matching degrees of connection of the external equipment and the artificial authorization communication networking platform and feeding the matching degrees back to the artificial authorization communication networking platform for statistics.

By adopting the technical scheme: setting the theoretical propagation rate of the external equipment and the manual authorization communication networking platform to be K _t bit/s, wherein the allowable error value of the theoretical propagation rate is K _s bit/s, setting the transmission rate of a plurality of external equipment and the manual authorization communication networking platform to be K ₁、K₂、K₃、…、K_n-1、K_n, judging that delay exists between the current external equipment and the manual authorization communication networking platform when K _nmin≤（K_t-K_s) bit/s, setting the signal interaction transmission times of the external equipment A and the manual authorization communication networking platform to be L times, wherein the signal interaction times of the signal delay are L _k times, and setting the delay rate of the current external equipment to be C: according to the formula:

The delay rate of the current external equipment A is calculated, the delay rates of different external equipment are judged according to the method, so that the delay rates of a plurality of external equipment connected with the manual authorization communication networking platform are ordered, and the ordering result is sent to the manual authorization communication networking platform.

By adopting the technical scheme: setting the time of monitoring the manual authorization communication networking platform and the external equipment as t, t=1, 2, … …, m-1, m less than or equal to 5min, setting the matching degree of the external equipment and the manual authorization communication networking platform as R ₁、R₂、R₃、…、R_n-1、R_n in the detection time, and setting the comprehensive matching degree asAccording to the formula:

the matching degree mean value of the external equipment monitored in the current period and the manual authorization communication networking platform is calculated to be And judging the matching degree of different external devices according to the method, sequencing according to the matching degree of different external devices, and sending the sequencing result to the manual authorization communication networking platform.

By adopting the technical scheme: the manual authorization communication networking platform comprises a manual instruction authorization sub-module and a real-time instruction notification sub-module, wherein the manual instruction authorization sub-module is used for transmitting manual instructions to the manual authorization communication networking platform, the manual authorization communication networking platform authorizes the instructions transmitted by operators, the manual instructions are transmitted to the real-time instruction notification sub-module after the manual instructions are authorized, and the real-time instruction notification sub-module is used for transmitting the manual instructions to external equipment connected to the manual authorization communication networking platform for real-time notification.

By adopting the technical scheme: the instruction process data acquisition module comprises a process real-time feedback sub-module and a target signal effective value analysis sub-module, wherein the process real-time feedback sub-module is used for feeding back the process of implementing the manual instruction to the external equipment in real time, the target signal effective value analysis sub-module is used for monitoring the signal intensity between the external equipment and the manual authorization communication networking platform in the process of implementing the instruction to the external equipment, extracting the signal effective value to monitor the signal transmission rate, and reminding and feeding back the remote operator in real time according to the signal transmission rate between the current external equipment and the manual authorization communication networking platform.

A specified range signal control method adopting a communication networking platform comprises the following steps:

S1, detecting signals in a designated range by utilizing a signal detection processing module, controlling a designated signal source, sending a wake-up instruction to an external device connected with the signal by a wake-up instruction control submodule through a manual authorization communication networking platform, waking up the external device, sending a control instruction to the external device by a signal quantity monitoring submodule through the manual authorization communication networking platform, responding to the external device within a preset time, counting the quantity of the responding external device, and sending the counted quantity to the manual authorization communication networking platform.

S2: the method comprises the steps that an external device upgrading control module is utilized to analyze and match signal sources connected in a designated range, an external device data caching submodule is used for caching data stored in external devices through a manual authorization communication networking platform, the cached data are sent to an external device internal data analysis submodule, and the external device internal data analysis submodule is used for decoding the data of the external devices and controlling the external devices;

S3: the method comprises the steps that a signal real-time coordination optimization module is utilized to optimize a connected signal, a signal source of a signal external device is analyzed, a signal delay analysis submodule analyzes signal delay between the external device and an artificial authorization communication networking platform, signal delay rates between different external devices and the artificial authorization communication networking platform are analyzed, an external device matching parameter coordination submodule analyzes different matching degrees of connection of the external device and the artificial authorization communication networking platform, and the matching degrees are fed back to the artificial authorization communication networking platform for statistics;

S4: the method comprises the steps that a manual authorization communication networking platform is utilized to enable a person to send a control signal to a connected external device, a manual instruction authorization sub-module sends a manual instruction to the manual authorization communication networking platform, the manual authorization communication networking platform authorizes an instruction sent by an operator, after the manual instruction is authorized, the manual instruction is sent to a real-time instruction notification sub-module, and the real-time instruction notification sub-module sends the manual instruction to the external device connected to the manual authorization communication networking platform to conduct real-time notification;

S5: the method comprises the steps that an instruction process data acquisition module is utilized to realize real-time feedback of an instruction to external equipment, real-time feedback of signal intensity is carried out, a process real-time feedback submodule carries out real-time feedback of a process of implementing manual instruction to the external equipment, a target signal effective value analysis submodule monitors the signal intensity between the external equipment and a manual authorization communication networking platform in the process of implementing the instruction to the external equipment, a signal effective value is extracted to monitor a signal transmission rate, and a remote operator is reminded and fed back in real time according to the signal transmission rate between the current external equipment and the manual authorization communication networking platform.

By adopting the technical scheme: in step S5, the target signal effective value analysis submodule monitors the signal strength between the external device and the manual authorization communication networking platform in the process of implementing the instruction to the external device, extracts the signal effective value to monitor the signal transmission rate, and carries out reminding feedback on a remote operator in real time according to the signal transmission rate between the current external device and the manual authorization communication networking platform, and further comprises the following steps:

The time for monitoring the signal transmission rate by the set target signal effective value analysis submodule is T ₁、T₂、T₃、…、T_n-1、T_n, the signal transmission rate effective value monitored in the time is g ₁、g₂、g₃、…、g_n-1、g_n, wherein the maximum value g _n max and the minimum value g _n min of the signal transmission rate effective value are extracted, the theoretical number of discrete values taken by code elements in the set signal transmission rate is N, the theoretical value of the data transmission rate is S, and the method comprises the following steps:

When the monitored signal transmission rate effective value meets the formula, the current signal transmission rate is judged to be normal, the target signal effective value analysis sub-module does not process, and when the monitored signal transmission rate effective value does not meet the formula, the target signal effective value analysis sub-module sends the monitored signal transmission rate in a period of time to an artificial authorization communication networking platform for reminding and feedback, so that the artificial judgment is carried out.

Compared with the prior art, the invention has the beneficial effects that: the invention aims to set up the signal detection and signal optimization for the external equipment connected with the central controller, and feed back the signal transmission rate of the external equipment and the central controller in real time;

The signal detection processing module is used for detecting signals in a specified range so as to control a specified signal source; the external equipment upgrading control module is used for analyzing and matching signal sources connected in a designated range; the signal real-time coordination optimization module is used for optimizing the connected signals and analyzing the signal sources of the signal external equipment; the manual authorization communication networking platform is used for enabling a person to control the transmission of a control signal by the connected external equipment; the instruction process data acquisition module is used for feeding back the external equipment implementation instruction in real time and feeding back the signal intensity in real time.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

FIG. 1 is a schematic diagram of a modular architecture of a designated range signal control system employing a communication networking platform in accordance with the present invention;

FIG. 2 is a schematic diagram of specific steps of a method for controlling signals in a designated range using a communication networking platform according to the present invention;

Fig. 3 is a specific implementation method of a method for controlling a specified range signal using a communication networking platform according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, a system and a method for controlling a signal in a designated range by using a communication networking platform, where the system includes a signal detection processing module, an external device upgrading control module, a signal real-time coordination optimization module, an artificial authorization communication networking platform, and an instruction process data acquisition module, where the signal detection processing module, the external device upgrading control module, the signal real-time coordination optimization module, and the instruction process data acquisition module are connected with the artificial authorization communication networking platform through an intranet respectively, and the signal detection processing module, the external device upgrading control module, and the signal real-time coordination optimization module are connected sequentially through the intranet;

The signal detection processing module is used for detecting signals in a specified range so as to control a specified signal source; the external equipment upgrading control module is used for analyzing and matching signal sources connected in a designated range; the signal real-time coordination optimization module is used for optimizing the connected signals and analyzing the signal sources of the signal external equipment; the manual authorization communication networking platform is used for enabling a person to control the transmission of a control signal by the connected external equipment; the instruction process data acquisition module is used for feeding back the external equipment implementation instruction in real time and feeding back the signal intensity in real time.

By adopting the technical scheme: the signal detection processing module comprises a wake-up instruction control sub-module and a signal quantity monitoring sub-module, wherein the wake-up instruction control sub-module is used for sending a wake-up instruction to external equipment connected with signals through the manual authorization communication networking platform, the external equipment is waken up, the signal quantity monitoring sub-module is used for sending a control instruction to the external equipment through the manual authorization communication networking platform, the external equipment responds within a preset time, quantity statistics is carried out on the responding external equipment, the counted quantity is sent to the manual authorization communication networking platform, and the wake-up instruction control sub-module and the signal quantity monitoring sub-module are respectively connected with the manual authorization communication networking platform through an intranet.

By adopting the technical scheme: the external equipment upgrading control module comprises an external equipment data caching sub-module and an external equipment internal data analysis sub-module, wherein the external equipment data caching sub-module is used for caching data stored in the external equipment through the manual authorization communication networking platform, sending the cached data to the external equipment internal data analysis sub-module, and the external equipment internal data analysis sub-module is used for decoding the data of the external equipment and controlling the external equipment.

By adopting the technical scheme: the signal real-time coordination optimization module comprises a signal delay analysis sub-module and an external equipment matching parameter coordination sub-module, wherein the signal delay analysis sub-module is used for analyzing signal delays between external equipment and an artificial authorization communication networking platform, analyzing signal delay rates between different external equipment and the artificial authorization communication networking platform, and the external equipment matching parameter coordination sub-module is used for analyzing different matching degrees of connection of the external equipment and the artificial authorization communication networking platform and feeding the matching degrees back to the artificial authorization communication networking platform for statistics.

By adopting the technical scheme: setting the theoretical propagation rate of the external equipment and the manual authorization communication networking platform to be K _t bit/s, wherein the allowable error value of the theoretical propagation rate is K _s bit/s, setting the transmission rate of a plurality of external equipment and the manual authorization communication networking platform to be K ₁、K₂、K₃、…、K_n-1、K_n, judging that delay exists between the current external equipment and the manual authorization communication networking platform when K _nmin≤（K_t-K_s) bit/s, setting the signal interaction transmission times of the external equipment A and the manual authorization communication networking platform to be L times, wherein the signal interaction times of the signal delay are L _k times, and setting the delay rate of the current external equipment to be C: according to the formula:

The delay rate of the current external equipment A is calculated, the delay rates of different external equipment are judged according to the method, so that the delay rates of a plurality of external equipment connected with the manual authorization communication networking platform are ordered, and the ordering result is sent to the manual authorization communication networking platform.

By adopting the technical scheme: setting the time of monitoring the manual authorization communication networking platform and the external equipment as t, t=1, 2, … …, m-1, m less than or equal to 5min, setting the matching degree of the external equipment and the manual authorization communication networking platform as R ₁、R₂、R₃、…、R_n-1、R_n in the detection time, and setting the comprehensive matching degree asAccording to the formula:

the matching degree mean value of the external equipment monitored in the current period and the manual authorization communication networking platform is calculated to be And judging the matching degree of different external devices according to the method, sequencing according to the matching degree of different external devices, and sending the sequencing result to the manual authorization communication networking platform.

By adopting the technical scheme: the manual authorization communication networking platform comprises a manual instruction authorization sub-module and a real-time instruction notification sub-module, wherein the manual instruction authorization sub-module is used for transmitting manual instructions to the manual authorization communication networking platform, the manual authorization communication networking platform authorizes the instructions transmitted by operators, the manual instructions are transmitted to the real-time instruction notification sub-module after the manual instructions are authorized, and the real-time instruction notification sub-module is used for transmitting the manual instructions to external equipment connected to the manual authorization communication networking platform for real-time notification.

By adopting the technical scheme: the instruction process data acquisition module comprises a process real-time feedback sub-module and a target signal effective value analysis sub-module, wherein the process real-time feedback sub-module is used for feeding back the process of implementing the manual instruction to the external equipment in real time, the target signal effective value analysis sub-module is used for monitoring the signal intensity between the external equipment and the manual authorization communication networking platform in the process of implementing the instruction to the external equipment, extracting the signal effective value to monitor the signal transmission rate, and reminding and feeding back the remote operator in real time according to the signal transmission rate between the current external equipment and the manual authorization communication networking platform.

A specified range signal control method adopting a communication networking platform comprises the following steps:

S1, detecting signals in a designated range by utilizing a signal detection processing module, controlling a designated signal source, sending a wake-up instruction to an external device connected with the signal by a wake-up instruction control submodule through a manual authorization communication networking platform, waking up the external device, sending a control instruction to the external device by a signal quantity monitoring submodule through the manual authorization communication networking platform, responding to the external device within a preset time, counting the quantity of the responding external device, and sending the counted quantity to the manual authorization communication networking platform.

S2: the method comprises the steps that an external device upgrading control module is utilized to analyze and match signal sources connected in a designated range, an external device data caching submodule is used for caching data stored in external devices through a manual authorization communication networking platform, the cached data are sent to an external device internal data analysis submodule, and the external device internal data analysis submodule is used for decoding the data of the external devices and controlling the external devices;

S3: the method comprises the steps that a signal real-time coordination optimization module is utilized to optimize a connected signal, a signal source of a signal external device is analyzed, a signal delay analysis submodule analyzes signal delay between the external device and an artificial authorization communication networking platform, signal delay rates between different external devices and the artificial authorization communication networking platform are analyzed, an external device matching parameter coordination submodule analyzes different matching degrees of connection of the external device and the artificial authorization communication networking platform, and the matching degrees are fed back to the artificial authorization communication networking platform for statistics;

S4: the method comprises the steps that a manual authorization communication networking platform is utilized to enable a person to send a control signal to a connected external device, a manual instruction authorization sub-module sends a manual instruction to the manual authorization communication networking platform, the manual authorization communication networking platform authorizes an instruction sent by an operator, after the manual instruction is authorized, the manual instruction is sent to a real-time instruction notification sub-module, and the real-time instruction notification sub-module sends the manual instruction to the external device connected to the manual authorization communication networking platform to conduct real-time notification;

S5: the method comprises the steps that an instruction process data acquisition module is utilized to realize real-time feedback of an instruction to external equipment, real-time feedback of signal intensity is carried out, a process real-time feedback submodule carries out real-time feedback of a process of implementing manual instruction to the external equipment, a target signal effective value analysis submodule monitors the signal intensity between the external equipment and a manual authorization communication networking platform in the process of implementing the instruction to the external equipment, a signal effective value is extracted to monitor a signal transmission rate, and a remote operator is reminded and fed back in real time according to the signal transmission rate between the current external equipment and the manual authorization communication networking platform.

By adopting the technical scheme: in step S5, the target signal effective value analysis submodule monitors the signal strength between the external device and the manual authorization communication networking platform in the process of implementing the instruction to the external device, extracts the signal effective value to monitor the signal transmission rate, and carries out reminding feedback on a remote operator in real time according to the signal transmission rate between the current external device and the manual authorization communication networking platform, and further comprises the following steps:

The time for monitoring the signal transmission rate by the set target signal effective value analysis submodule is T ₁、T₂、T₃、…、T_n-1、T_n, the signal transmission rate effective value monitored by the time is g ₁、g₂、g₃、…、g_n-1、g_n, wherein the maximum value g _n max and the minimum value g _n min of the signal transmission rate effective value are extracted, the theoretical minimum value number of discrete values taken by code elements in the set signal transmission rate is N, the theoretical minimum value of the data transmission rate is S, and the method comprises the following steps:

When the monitored signal transmission rate effective value meets the formula, the current signal transmission rate is judged to be normal, the target signal effective value analysis sub-module does not process, and when the monitored signal transmission rate effective value does not meet the formula, the target signal effective value analysis sub-module sends the monitored signal transmission rate in a period of time to an artificial authorization communication networking platform for reminding and feedback, so that the artificial judgment is carried out.

Example 1: limiting conditions, wherein the theoretical propagation rate of the external device and the manual authorization communication networking platform is set to be 12Mbit/s, the allowable error value of the theoretical propagation rate is 3Mbit/s, the transmission rates of a plurality of external devices and the manual authorization communication networking platform are set to be 15Mbit/s, 7Mbit/s, 11Mbit/s, 10Mbit/s and 12Mbit/s, when the 7Mbit/s is less than or equal to (12 Mbit/s-3 Mbit/s), the delay between the current external device and the manual authorization communication networking platform is judged, the signal interaction transmission times of the external device A and the manual authorization communication networking platform are set to be 7 times, the signal delay times in the signal interaction are set to be 3 times, and the delay rate of the current external device is set to be C: according to the formula:

The delay rate of the current external equipment A is calculated to be 43%, the delay rates of different external equipment are judged according to the method, so that the delay rates of a plurality of external equipment connected with the manual authorization communication networking platform are ordered, and the ordering result is sent to the manual authorization communication networking platform.

Example 2: limiting conditions, wherein the time for monitoring the manual authorization communication networking platform and the external equipment is set to be t, t=1, 2, … …, m-1, m is less than or equal to 5min, the matching degree between the external equipment and the manual authorization communication networking platform in the detection time is set to be 44%, 67%, 71%, 74% and 87%, and the comprehensive matching degree is set to beAccording to the formula:

And calculating to obtain that the average value of the matching degree between the external equipment monitored in the current period and the manual authorization communication networking platform is 68.6, judging the matching degree of different external equipment according to the method, sorting according to the matching degree of different external equipment, and transmitting the sorting result to the manual authorization communication networking platform.

Example 3: and under the limiting condition, the time for monitoring the signal transmission rate by the set target signal effective value analysis submodule is T ₁、T₂、T₃、…、T_n-1、T_n, the signal transmission rate effective values monitored by the time are 4700B, 3960B, 4188B, 5100B and 4850B, wherein the maximum value g _n max=5100B and the minimum value g _n min=3960B of the signal transmission rate effective values are extracted, the theoretical minimum value number of discrete values taken by code elements in the set signal transmission rate is 4, the theoretical minimum value of the data transmission rate is 1024bps, and the method comprises the following steps:

The monitored signal transmission rate effective value meets the formula, the current signal transmission rate is judged to be normal, and the target signal effective value analysis submodule does not process.

Example 4: and under the limiting condition, the time for monitoring the signal transmission rate by the set target signal effective value analysis submodule is T ₁、T₂、T₃、…、T_n-1、T_n, the signal transmission rate effective values monitored by the time are 8130B, 7213B, 7500B, 7684B and 6910B, wherein the maximum value g _n max=8130B and the minimum value g _n min=6910B of the signal transmission rate effective values are extracted, the theoretical minimum value number of discrete values taken by code elements in the set signal transmission rate is 8, the theoretical minimum value of the data transmission rate is 2130bps, and the method is as follows:

When the monitored signal transmission rate effective value does not meet the formula, the target signal effective value analysis submodule sends the monitored signal transmission rate in a period of time to an artificial authorization communication networking platform for reminding and feedback, so that artificial judgment is carried out.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (3)

1. A specified range signal control system employing a communication networking platform, characterized by: the signal control system in the appointed range comprises a signal detection processing module, an external equipment upgrading control module, a signal real-time coordination optimization module, a manual authorization communication networking platform and an instruction process data acquisition module, wherein the signal detection processing module, the external equipment upgrading control module, the signal real-time coordination optimization module and the instruction process data acquisition module are respectively connected with the manual authorization communication networking platform through an intranet, and the signal detection processing module, the external equipment upgrading control module and the signal real-time coordination optimization module are sequentially connected through the intranet;

The signal detection processing module is used for detecting signals in a specified range so as to control a specified signal source; the external equipment upgrading control module is used for analyzing and matching signal sources connected in a designated range; the signal real-time coordination optimization module is used for optimizing signals of the external equipment and analyzing signal sources of the signal external equipment; the manual authorization communication networking platform is used for manually sending a control signal to the external equipment and controlling the external equipment; the instruction process data acquisition module is used for feeding back an instruction to the external equipment in real time and feeding back the signal intensity in real time;

The signal real-time coordination optimization module comprises a signal delay analysis sub-module and an external equipment matching parameter coordination sub-module, wherein the signal delay analysis sub-module is used for analyzing signal delays between external equipment and an artificial authorization communication networking platform, analyzing signal delay rates between different external equipment and the artificial authorization communication networking platform, and the external equipment matching parameter coordination sub-module is used for analyzing different matching degrees of connection of the external equipment and the artificial authorization communication networking platform and feeding the matching degrees back to the artificial authorization communication networking platform for statistics;

The theoretical propagation rate of the external device and the manual authorization communication networking platform is K _t bit/s, the allowable error value of the theoretical propagation rate is K _s bit/s, the transmission rate of a plurality of external devices and the manual authorization communication networking platform is K ₁、K₂、K₃、…、K_n-1、K_n, when K _nmin≤（K_t-K_s) bit/s, the delay between the current external device and the manual authorization communication networking platform is judged, the signal interaction transmission times of the external device A and the manual authorization communication networking platform are set to be L times, the signal delay times in the signal interaction are set to be L _k times, and the delay rate of the current external device is set to be C: according to the formula:

Calculating to obtain the delay rate of the current external equipment A, judging the delay rates of different external equipment according to a calculation formula of the delay rate of the external equipment, thereby sequencing the delay rates of a plurality of external equipment connected with the manual authorization communication networking platform, and sending the sequencing result to the manual authorization communication networking platform;

The time for monitoring the external equipment by the manual authorization communication networking platform is t, t=1, 2, … …, m-1, m is less than or equal to 5min, the matching degree between the external equipment and the manual authorization communication networking platform is R ₁、R₂、R₃、…、R_n-1、R_n at the time t, and the comprehensive matching degree is set as According to the formula:

the matching degree mean value of the external equipment monitored in the current period and the manual authorization communication networking platform is calculated to be Judging the matching degree of different external devices according to the matching degree calculation formula, sorting according to the matching degree of different external devices, and sending the sorting result to the manual authorization communication networking platform.

2. A specified range signal control system employing a communications networking platform as claimed in claim 1, wherein: the manual authorization communication networking platform comprises a manual instruction authorization sub-module and a real-time instruction notification sub-module, wherein the manual instruction authorization sub-module is used for transmitting manual instructions to the manual authorization communication networking platform, the manual authorization communication networking platform authorizes the instructions transmitted by operators, the manual instructions are transmitted to the real-time instruction notification sub-module after the manual instructions are authorized, and the real-time instruction notification sub-module is used for transmitting the manual instructions to external equipment connected to the manual authorization communication networking platform for real-time notification.

3. A specified range signal control system employing a communications networking platform as claimed in claim 1, wherein: the instruction process data acquisition module comprises a process real-time feedback sub-module and a target signal effective value analysis sub-module, wherein the process real-time feedback sub-module is used for feeding back the process of implementing the manual instruction to the external equipment in real time, the target signal effective value analysis sub-module is used for monitoring the external equipment through implementing the instruction, monitoring the signal intensity between the external equipment and the manual authorization communication networking platform, extracting the signal effective value to monitor the signal transmission rate, and reminding and feeding back the remote operator in real time according to the signal transmission rate between the current external equipment and the manual authorization communication networking platform.