CN116366489A - Signal link tracking and monitoring platform based on quadruple comparison mechanism - Google Patents

Abstract

The invention discloses a signal link tracking and monitoring platform based on a quadruple comparison mechanism, which comprises a signal sending device monitoring module, a link temporary transmission module and signal sending and receiving equipment, wherein the signal sending device monitoring module is in wired connection with the link temporary transmission module, and the link temporary transmission module is in wired connection with the signal sending and receiving equipment; the signal transmission equipment monitoring module is used for detecting signals to be transmitted, which are positioned in a wired transmission base station, and collecting related signals, the link temporary transmission module is used for classifying and transmitting the collected signals, the signal transmission equipment is used for storing various signals of a wired link, the signal transmission equipment monitoring module comprises a transmission and reception equipment signal monitoring module, a signal queuing module, a signal classifying module and a parallel classifying module, and the transmission and reception equipment signal monitoring module is connected with the error reminding module in a wired way.

Description

Signal link tracking and monitoring platform based on quadruple comparison mechanism

Technical Field

The invention relates to the technical field of audio and video transmission, in particular to a signal link tracking and monitoring platform based on a quadruple comparison mechanism.

Background

In the audio/video transmission of cable broadcast television, after a transmitting and receiving device is connected to a signal, it is necessary to continuously monitor a cable link to achieve reliable communication, and this process is called cable link monitoring. The transmitting and receiving equipment monitors the downlink quality according to the reference signal in the signal so as to measure the downlink wired link quality of the service end. The quadruple comparison refers to a signal sending device monitoring module, a signal receiving module (or routing device) monitoring module, a task flow automation system task list and a manual operation record.

When a base station in a link propagates multiple signals, such as sound signals, image signals, signal signals and text signals, signals of the same type can be integrated and passed together, other signals need to be arranged and passed in sequence, but different basic transmission units of the link only support single type of signals to pass, and when a large number of single type of signals are faced, the transmission time is delayed. Therefore, it is necessary to design a signal link tracking and monitoring platform based on a four-fold comparison mechanism with rapid transmission.

Disclosure of Invention

The invention aims to provide a signal link tracking and monitoring platform based on a quadruple comparison mechanism so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the signal link tracking and monitoring platform based on the quadruple comparison mechanism comprises a signal sending device monitoring module, a link temporary transmission module and signal sending and receiving equipment, wherein the signal sending device monitoring module is in wired connection with the link temporary transmission module, and the link temporary transmission module is in wired connection with the signal sending and receiving equipment;

the signal sending equipment monitoring module is used for detecting signals to be transmitted, which are positioned in the wired transmission base station, and collecting related signals, the link temporary transmission module is used for classifying and transmitting the collected signals, and the signal sending and receiving equipment is used for storing various signals of the wired link.

According to the technical scheme, the signal sending device monitoring module comprises a sending and receiving device signal monitoring module, a signal queuing module, a signal classifying module and a parallel classifying module, wherein the sending and receiving device signal monitoring module is in wired connection with the error reminding module, the parallel classifying module is in wired connection with the timing module, and the signal classifying module is in wired connection with the parallel classifying module;

the signal monitoring module of the sending and receiving equipment is used for detecting the type of the transmitted signals in the wired link, the signal queuing module is used for carrying out temporary queuing and sequential transmission on a batch of signals to be transmitted in a set time, the signal classifying module is used for distinguishing the types of the signals to be transmitted, and the parallel classifying module is used for carrying out parallel classifying and transmitting processing on the signals to be transmitted.

According to the technical scheme, the link temporary transmission module comprises a link basic transmission unit, a temporary unit marking module, a temporary transmission unit combining module, a signal containing module and a signal sending module, wherein the link basic transmission unit is electrically connected with the temporary unit marking module and the signal containing module, the temporary unit marking module is in wired connection with the temporary transmission unit combining module, the signal containing module is electrically connected with the parallel classifying module, and the signal sending module is electrically connected with the signal sending and receiving equipment;

the temporary unit marking module is used for recording signals of a signal type to be transmitted and endowing the signals with the marks of the link basic transmission units, the temporary transmission unit combination module is used for forming a large number of link temporary transmission units with the marks being consistent, the signal storage module is used for receiving the processed signals to be transmitted and the admission judgment of the signals to be transmitted, and the signal sending module is used for sending the signals to the signal sending and receiving equipment for storage.

According to the technical scheme, the operation method of the system specifically comprises the following steps:

s1, a monitoring platform for signals to be transmitted is arranged in a base station where a signal link is located, and the transmission process of the wired link is detected;

s2, the signals enter the platform to be transmitted, a signal monitoring module of the transmitting and receiving equipment is started, and the type of the transmitted signals is detected by the signal monitoring module of the transmitting and receiving equipment;

s5, storing signals to be transmitted in a current period of time by using a signal queuing module, and classifying the signals temporarily stored in the signal queuing module by using a signal classification module so as to facilitate transmission;

s6, the signal to be transmitted is classified by the signal classification module by utilizing the parallel classification module, and then is transmitted to the signal transmitting and receiving equipment through the link temporary transmission module.

According to the above technical solution, in the step S6, the working process of the temporary unit marking module specifically includes the following steps:

s6-1, carrying out signal recording on signals to be transmitted, which are conveyed by a monitoring module of signal transmission equipment, by a signal recording module, and carrying out signal link formation on signal marks, wherein the signal link is formed into an emitting end, a base station and transmission and receiving equipment, at the moment, a plurality of link basic transmission units exist, the emitting end has all signals of the whole signal link of the current batch, the base station is of a certain type of signals to be transmitted, the transmission and receiving equipment is of a specific monitored signal, and the signals to be transmitted of different types enter different link basic transmission units respectively;

s6-2, setting an entering permission signal of a link basic transmission unit as a signal of a signal type to be transmitted, enabling the link basic transmission unit to be activated when a temporary unit marking module is endowed with a certain signal, enabling the link basic transmission unit to pass through the signal when the link basic transmission unit is not activated, and enabling a transmitting end and a base station to sequentially pass through the link basic transmission units of all the same base stations after forming a plurality of temporary unit marking modules;

s6-3, when two signals with the same signal type to be transmitted are detected, the signal marking level of the sending and receiving equipment is increased, the signals on two sides connected with the link basic transmission unit are enhanced, a link temporary transmission unit is formed at the moment, and all sending and receiving equipment signals under the base station pass through the link basic transmission unit in the link temporary transmission unit.

According to the above technical solution, in the step S6-3, the working process of the temporary transmission unit combination module is that two identical signal types to be transmitted represent two identical signals to be transmitted, and when a certain signal type signal increases in a period of time, the following two cases are specifically divided:

(a) When two identical signals to be transmitted pass through two adjacent link basic transmission units;

(b) Very short time t ₀ The inner part continuously passes through a certain link basic transmission unit twice;

when the two conditions are generated, which means that the number of the current signal transmission units is not enough in a large probability, other transmission units in an unactivated state around the signal transmission units are activated, after a plurality of temporary unit marking modules are formed, when the temporary unit marking modules with the same type are activated simultaneously, the signal marking levels are high, the signal transmission units are connected with each other, the signal is enhanced, a link temporary transmission unit with obvious signal is gradually formed, and the type of signal is allowed to pass through.

According to the technical scheme, the link temporary transmission module further comprises a delay module, wherein the delay module is used for maintaining the formation of the link temporary transmission unit and determining the decomposition time of the link temporary transmission unit;

the working process of the delay module is that the delay module starts after the link temporary transmission unit is formed, one formed link temporary transmission unit can be kept for a set time T, the link temporary transmission unit is decomposed after the time is ended, individual signal transmission units are formed again, and the delay module rechems when the link temporary transmission unit is prolonged.

According to the above technical solution, the method for determining the time T for maintaining the formed link temporary transmission unit of the delay module is as follows:

wherein T is the link temporary transmission unit maintained for a prescribed extension time, A ₀ Time spent for this type of signal transmission, A ₁ Time spent for temporary unit marking module activation process, t ₀ In order to trigger the separation time of the link temporary transmission unit, t is the separation time of two signal passes of the same type.

Compared with the prior art, the invention has the following beneficial effects: when the transmitting and receiving equipment receives a signal of a certain type, the type identification is firstly carried out on the signal, the temporary label is given to the signal transmission unit, when the temporary unit marking modules with the same type are activated simultaneously, the signal marking level is high, the signal transmission units are connected with each other, the signal is enhanced, a link temporary transmission unit with obvious signal is gradually formed, the signal of the type is allowed to pass through, and when a large number of signals of a single type are faced, the delay is greatly reduced.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

fig. 1 is a schematic view of the overall module structure of 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, the present invention provides the following technical solutions: the signal link tracking and monitoring platform based on the quadruple comparison mechanism comprises a signal sending device monitoring module, a link temporary transmission module and signal sending and receiving equipment, wherein the signal sending device monitoring module is in wired connection with the link temporary transmission module, and the link temporary transmission module is in wired connection with the signal sending and receiving equipment;

the signal sending equipment monitoring module is used for detecting signals to be transmitted, which are positioned in the wired transmission base station, and collecting related signals, the link temporary transmission module is used for classifying, processing and transmitting the collected signals, and the signal sending and receiving equipment is used for storing various signals of the wired link;

the signal transmitting device monitoring module comprises a transmitting and receiving device signal monitoring module, a signal queuing module, a signal classifying module and a parallel classifying module, wherein the transmitting and receiving device signal monitoring module is in wired connection with the error reminding module, the parallel classifying module timing module is in wired connection with the parallel classifying module;

the signal monitoring module of the sending and receiving equipment is used for detecting the type of the transmitted signals in the wired link, the signal queuing module is used for carrying out temporary queuing and sequential transmission on a batch of signals to be transmitted in a set time, the signal classifying module is used for distinguishing the types of the signals to be transmitted, and the parallel classifying module is used for carrying out parallel classifying and transmitting processing on the signals to be transmitted;

the link temporary transmission module comprises a link basic transmission unit, a temporary unit marking module, a temporary transmission unit combination module, a signal storage module and a signal sending module, wherein the link basic transmission unit is electrically connected with the temporary unit marking module and the signal storage module;

the temporary unit marking module is used for recording signals of the type of the signals to be transmitted and giving marks of the link basic transmission units, the temporary transmission unit combination module is used for forming a large number of link temporary transmission units with consistent marks, the signal storage module is used for receiving the processed signals to be transmitted and the admission judgment of the signals to be transmitted, and the signal sending module is used for sending the signals to the signal sending and receiving equipment for storage;

the operation method of the system specifically comprises the following steps:

s1, a monitoring platform for signals to be transmitted is arranged in a base station where a signal link is located, and the transmission process of the wired link is detected;

s2, the signals enter the platform to be transmitted, a signal monitoring module of the transmitting and receiving equipment is started, and the type of the transmitted signals is detected by the signal monitoring module of the transmitting and receiving equipment;

s5, storing signals to be transmitted in a current period of time by using a signal queuing module, and classifying the signals temporarily stored in the signal queuing module by using a signal classification module so as to facilitate transmission;

s6, the signal to be transmitted is classified by the signal classification module by utilizing the parallel classification module, and then is transmitted to the signal transmitting and receiving equipment through the link temporary transmission module;

in the step S6, the working process of the temporary unit marking module specifically includes the following steps:

s6-1, carrying out signal recording on signals to be transmitted, which are conveyed by a monitoring module of signal transmission equipment, by a signal recording module, and carrying out signal link formation on signal marks, wherein the signal link is formed into an emitting end, a base station and transmission and receiving equipment, at the moment, a plurality of link basic transmission units exist, the emitting end has all signals of the whole signal link of the current batch, the base station is of a certain type of signals to be transmitted, the transmission and receiving equipment is of a specific monitored signal, and the signals to be transmitted of different types enter different link basic transmission units respectively;

s6-2, setting an entering permission signal of a link basic transmission unit as a signal of a signal type to be transmitted, enabling the link basic transmission unit to be activated when a temporary unit marking module is endowed with a certain signal, enabling the link basic transmission unit to pass through the signal when the link basic transmission unit is not activated, and enabling a transmitting end and a base station to sequentially pass through the link basic transmission units of all the same base stations after forming a plurality of temporary unit marking modules;

s6-3, when two signals with the same signal type to be transmitted are detected, the signal marking level of the sending and receiving equipment is increased, signals on two sides connected with the link basic transmission unit are enhanced, a link temporary transmission unit is formed at the moment, and all sending and receiving equipment signals under the base station pass through the link basic transmission unit in the link temporary transmission unit;

in the step S6-3, the temporary transmission unit combination module works in such a way that two identical signal types to be transmitted represent two identical signals to be transmitted, and when a certain signal type signal increases within a period of time, the two situations are specifically:

(a) When two identical signals to be transmitted pass through two adjacent link basic transmission units;

(b) Very short time t ₀ The inner part continuously passes through a certain link basic transmission unit twice;

when the two conditions are generated, which means that the number of the current signal transmission units is high and the probability is not enough, other transmission units in an unactivated state around the signal transmission units are activated, after a plurality of temporary unit marking modules are formed, when the temporary unit marking modules with the same type are activated at the same time, the signal marking levels are high, the signal transmission units are connected with each other, the signal is enhanced, a link temporary transmission unit with obvious signal is gradually formed, and the signal of the type is allowed to pass through;

the link temporary transmission module further comprises a delay module, wherein the delay module is used for maintaining the formation of the link temporary transmission unit and determining the decomposition time of the link temporary transmission unit;

the working process of the delay module is that the delay module starts to be started after the link temporary transmission unit is formed, one formed link temporary transmission unit can keep a set time T, the link temporary transmission unit is decomposed after the time is ended, individual signal transmission units are formed again, and the delay module rechems when the link temporary transmission unit is prolonged;

the method for determining the time T for the formed link temporary transmission unit of the delay module to keep comprises the following steps:

wherein T is the link temporary transmission unit maintained for a prescribed extension time, A ₀ Time spent for this type of signal transmission, A ₁ Time spent for temporary unit marking module activation process, t ₀ In order to trigger the separation time of the link temporary transmission unit, t is the separation time of two signal passes of the same type.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a signal link tracking monitoring platform based on quadruple comparison mechanism which characterized in that: the system comprises a signal sending device monitoring module, a link temporary transmission module, signal sending and receiving devices and a manual operation recording module, wherein the signal sending device monitoring module is connected with the link temporary transmission module in a wired manner, and the link temporary transmission module is connected with the signal sending and receiving devices in a wired manner;

the link signal receiving module is used for receiving audio and video signals to be transmitted, the link temporary transmission module classifies and transmits the acquired signals, the signal sending and receiving equipment is used for storing various signals of the link, and the manual operation recording module is used for recording manual operation history records of the signal sending and receiving equipment.

2. The four-fold comparison mechanism-based signal link tracking monitoring platform according to claim 1, wherein: the signal monitoring module comprises a signal monitoring module of the transmitting and receiving equipment, a signal queuing module, a signal classifying module and a parallel classifying module, wherein the signal monitoring module of the transmitting and receiving equipment is in wired connection with the error reminding module, the timing module of the parallel classifying module is in wired connection with the parallel classifying module;

the signal monitoring module of the sending and receiving equipment is used for detecting the type of the transmitted signals in the wired link, the signal queuing module is used for carrying out temporary queuing and sequential transmission on a batch of signals to be transmitted in a set time, the signal classifying module is used for distinguishing the types of the signals to be transmitted, and the parallel classifying module is used for carrying out parallel classifying and transmitting processing on the signals to be transmitted.

3. The four-fold comparison mechanism-based signal link tracking monitoring platform according to claim 2, wherein: the link temporary transmission module comprises a link basic transmission unit, a temporary unit marking module, a temporary transmission unit combination module, a signal storage module, a signal sending module and a task flow automation system task sheet, wherein the link basic transmission unit is electrically connected with the temporary unit marking module and the signal storage module, the temporary unit marking module is in wired connection with the temporary transmission unit combination module, the signal storage module is electrically connected with the parallel classification module, and the signal sending module is electrically connected with the signal sending and receiving equipment;

the system comprises a temporary unit marking module, a temporary transmission unit combining module, a signal receiving module and a task flow automation system task sheet, wherein the temporary unit marking module is used for recording signals of a signal type to be transmitted and giving marks to the basic transmission unit of the link, the temporary transmission unit combining module is used for forming a large number of link temporary transmission units with consistent marks, the signal receiving module is used for receiving the processed signals to be transmitted and judging the admission of the signals to be transmitted, the signal transmitting module is used for transmitting the signals to signal transmitting and receiving equipment for storage, and the task flow automation system task sheet is used for generating a standard automation flow for the signal transmission mode.

4. The four-fold comparison mechanism-based signal link tracking monitoring platform of claim 3, wherein: the operation method of the system specifically comprises the following steps:

s1, a monitoring platform for signals to be transmitted is arranged in a base station where a signal link is located, and the transmission process of the wired link is detected;

s2, the signals enter the platform to be transmitted, a signal monitoring module of the transmitting and receiving equipment is started, and the type of the transmitted signals is detected by the signal monitoring module of the transmitting and receiving equipment;

s5, storing signals to be transmitted in a current period of time by using a signal queuing module, and classifying the signals temporarily stored in the signal queuing module by using a signal classification module so as to facilitate transmission;

s6, the signal to be transmitted is classified by the signal classification module by utilizing the parallel classification module, and then is transmitted to the signal transmitting and receiving equipment through the link temporary transmission module.

5. The four-fold comparison mechanism-based signal link tracking monitoring platform according to claim 4, wherein: in the step S6, the working process of the temporary unit marking module specifically includes the following steps:

s6-1, carrying out signal recording on signals to be transmitted, which are conveyed by a monitoring module of signal transmission equipment, by a signal recording module, and carrying out signal link formation on signal marks, wherein the signal link is formed into an emitting end, a base station and transmission and receiving equipment, at the moment, a plurality of link basic transmission units exist, the emitting end has all signals of the whole signal link of the current batch, the base station is of a certain type of signals to be transmitted, the transmission and receiving equipment is of a specific monitored signal, and the signals to be transmitted of different types enter different link basic transmission units respectively;

s6-2, setting an entering permission signal of a link basic transmission unit as a signal of a signal type to be transmitted, enabling the link basic transmission unit to be activated when a temporary unit marking module is endowed with a certain signal, enabling the link basic transmission unit to pass through the signal when the link basic transmission unit is not activated, and enabling a transmitting end and a base station to sequentially pass through the link basic transmission units of all the same base stations after forming a plurality of temporary unit marking modules;

s6-3, when two signals with the same signal type to be transmitted are detected, the signal marking level of the sending and receiving equipment is increased, the signals on two sides connected with the link basic transmission unit are enhanced, a link temporary transmission unit is formed at the moment, and all sending and receiving equipment signals under the base station pass through the link basic transmission unit in the link temporary transmission unit.

6. The four-fold comparison mechanism-based signal link tracking monitoring platform of claim 5, wherein: in the step S6-3, the working process of the temporary transmission unit combination module is that two identical signal types to be transmitted represent two identical signals to be transmitted, and when a certain signal type signal increases in a period of time, the two situations are specifically:

(a) When two identical signals to be transmitted pass through two adjacent link basic transmission units;

(b) Very short time t ₀ The inner part continuously passes through a certain link basic transmission unit twice;

when the two conditions are generated, which means that the number of the current signal transmission units is not enough in a large probability, other transmission units in an unactivated state around the signal transmission units are activated, after a plurality of temporary unit marking modules are formed, when the temporary unit marking modules with the same type are activated simultaneously, the signal marking levels are high, the signal transmission units are connected with each other, the signal is enhanced, a link temporary transmission unit with obvious signal is gradually formed, and the type of signal is allowed to pass through.

7. The four-fold comparison mechanism-based signal link tracking monitoring platform of claim 6, wherein: the link temporary transmission module further comprises a delay module, wherein the delay module is used for maintaining the formation of the link temporary transmission unit and determining the decomposition time of the link temporary transmission unit;

the working process of the delay module is that the delay module starts after the link temporary transmission unit is formed, one formed link temporary transmission unit can be kept for a set time T, the link temporary transmission unit is decomposed after the time is ended, individual signal transmission units are formed again, and the delay module rechems when the link temporary transmission unit is prolonged.

8. The four-fold alignment mechanism based signal link tracking monitoring platform of claim 7, wherein: the method for determining the time T for maintaining the formed link temporary transmission unit of the time delay module is as follows:

wherein T is the link temporary transmission unit maintained for a prescribed extension time, A ₀ Time spent for this type of signal transmission, A ₁ Time spent for temporary unit marking module activation process, t ₀ In order to trigger the separation time of the link temporary transmission unit, t is the separation time of two signal passes of the same type.

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