CN105812726A - Splicing wall system-based signal monitoring method and system - Google Patents

Abstract

The invention relates to a splicing wall system-based signal monitoring method and system. The method includes the following steps that: the signals of monitoring pictures are monitored, whether a predetermined target event appears in the monitoring pictures is detected; when the predetermined target event appears in the monitoring pictures, a correlation signal identifier correlated with the predetermined target event is obtained from mapping relations of target events and correlation signals; and correlation signals corresponding to the correlation signal identifier are obtained, and windowing display is performed on the obtained correlation signals on a splicing wall. According to the splicing wall system-based signal monitoring method and system provided by the embodiments of the invention, complicated windowing operation is not required, the target event can trigger the automatic launch of the correlation signals, correlation information can be quickly obtained, and efficiency and accuracy of the acquisition and display of the correlation information can be improved, and problem points can be located quickly and accurately under emergency situations, and valuable time can be saved for solving the problems.

Description

Signal monitoring method and system based on joined screen system

Technical field

The present invention relates to combination monitoring field, particularly relate to a kind of signal monitoring method based on joined screen system and system.

Background technology

Along with widely using of combination, kind and the quantity of the signal that joined screen system accesses also get more and more, therefore, on simple signal, wall (being shown on combination by signal) can not meet the demand of user, and one of them important application is namely based on the monitoring to anomalous event of combination.For the monitoring to anomalous event based on joined screen system, when the echo signal on the monitored picture of display on combination is monitored, if finding, there are abnormal conditions in this echo signal, typically require the object event called corresponding to this echo signal, wherein, here abnormal conditions can be by User Defined, can be generally go wrong, break down or the situations such as phenomenon occur.Owing to object event can be associated with a lot of signal, need to check to determine the state of the signal of these associations to the signal of these associations, such as determine whether the signal of association exception occurs, extremely whether echo signal occur on whether the signal of these associations produces impact, or current state of signal of association etc., if the signal of each association is checked by windowing one by one, user needs to carry out work of windowing complicated in a large number, and echo signal is written in water, the state that after windowing, the correlation signal possibility of display can not be checked required for real reaction, waste time and energy and accuracy is not high.

Summary of the invention

Based on this, the purpose of the embodiment of the present invention is in that to provide a kind of signal monitoring method based on joined screen system, and a kind of signal monitoring system based on joined screen system, it can obtain the information being associated rapidly, improve the efficiency and the accuracy that obtain and show related information, it is easy under emergency scene orientation problem point quickly and accurately, saves the quality time for solving problem.

For reaching above-mentioned purpose, the embodiment of the present invention by the following technical solutions:

A kind of signal monitoring method based on joined screen system, including step:

The signal of monitoring picture, whether detection monitored picture there is predeterminated target event；

When detecting that predeterminated target event occurs in monitored picture, from the mapping relations of object event Yu correlation signal, obtain the correlation signal mark being associated with described predeterminated target event；

Obtain the correlation signal corresponding with described correlation signal mark, and the correlation signal of acquisition is carried out on combination window display.

A kind of signal monitoring system based on joined screen system, including:

Monitoring modular, for the signal of monitoring picture, whether detection monitored picture there is predeterminated target event；

Correlation signal identifier acquisition module, for when described monitoring modular detects that predeterminated target event occurs in monitored picture, from the mapping relations of object event Yu correlation signal, obtaining the correlation signal mark being associated with described predeterminated target event；

Correlation signal acquisition module, for obtaining the correlation signal corresponding with described correlation signal mark, and carries out window display by the correlation signal of acquisition on combination.

Scheme according to the embodiment of the present invention as above, when detecting that predeterminated target event occurs in monitored picture, directly identify from object event with the mapping relations of correlation signal obtain the correlation signal being associated with described predeterminated target event, and then obtain the correlation signal corresponding with described correlation signal mark, and the correlation signal of acquisition is carried out on combination window display, thus, without complicated fenestration procedure, object event can trigger automatically opening up of correlation signal, such that it is able to obtain the information being associated rapidly, improve the efficiency and the accuracy that obtain and show related information, it is easy under emergency scene quickly, orientation problem point exactly, the quality time is saved for solving problem.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the inventive method in an embodiment；

Fig. 2 is the schematic diagram of the mapping relations that correlation signal and object event map one to one in a concrete example；

Fig. 3 is the schematic diagram of the mapping relations that correlation signal maps with object event one-to-many in a concrete example；

Fig. 4 is the schematic diagram of the mapping relations that correlation signal maps with object event many-one in a concrete example；

Fig. 5 is the schematic diagram of the mapping relations that correlation signal maps with object event multi-to-multi in a concrete example；

Fig. 6 is the structural representation of present system in an embodiment.

Detailed description of the invention

For making the purpose of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is described in further detail.Should be appreciated that detailed description of the invention described herein is only in order to explain the present invention, does not limit protection scope of the present invention.

Fig. 1 has illustrated the schematic flow sheet of the signal monitoring method based on joined screen system of the present invention in an embodiment.As it is shown in figure 1, the method in the present embodiment includes:

Step S101: the signal of monitoring picture, whether detection monitored picture there is predeterminated target event；

Step S102: when detecting that predeterminated target event occurs in monitored picture, from the mapping relations of object event Yu correlation signal, obtains the correlation signal mark being associated with described predeterminated target event；

Step S103: obtain the correlation signal corresponding with described correlation signal mark, and the correlation signal of acquisition is carried out on combination window display.

Scheme according to the embodiment of the present invention as above, when detecting that predeterminated target event occurs in monitored picture, directly identify from object event with the mapping relations of correlation signal obtain the correlation signal being associated with described predeterminated target event, and then obtain the correlation signal corresponding with described correlation signal mark, and the correlation signal of acquisition is carried out on combination window display, thus, without complicated fenestration procedure, object event can trigger automatically opening up of correlation signal, such that it is able to obtain the information being associated rapidly, improve the efficiency and the accuracy that obtain and show related information, it is easy under emergency scene quickly, orientation problem point exactly, the quality time is saved for solving problem.

In the explanation of above-described embodiment, it is directly be associated with correlation signal with predeterminated target event to illustrate, in actual applications, for same monitored picture, it is possible to there will be different object events.Accordingly, as it is shown in figure 1, in a concrete example, between above-mentioned steps S101 and step S102, it is also possible to including:

Step S1011: determine the event type of described predeterminated target event.

Now, the correlation signal mark obtained in above-mentioned steps S102, is that the correlation signal that the event type with described predeterminated target event is associated identifies.Namely the mapping relations mentioned in above-mentioned steps S102, are the event type mapping relations with correlation signal of object event.

In another specific example, in actual application, for same kind of event, it is possible to have different exception level, there may be different processing modes for the event of different exception level, thus required for the correlation signal checked be likely to also can be variant.Accordingly, as it is shown in figure 1, between above-mentioned steps S101 and step S102, it is also possible to including:

Step S1012: determine the exception level of described predeterminated target event.

Now, the correlation signal mark obtained in above-mentioned steps S102, is that the correlation signal that the exception level with described predeterminated target event is associated identifies.Namely the mapping relations mentioned in above-mentioned steps S102, are the exception level mapping relations with correlation signal of object event.

In another specific example, between above-mentioned steps S101 and step S102, above-mentioned steps S1011 and step S1012 can also be included simultaneously, namely after detecting that predeterminated target event occurs in monitored picture, both the event type of this predeterminated target event had been determined, it is also determined that the exception level of this predeterminated target event.Now, the correlation signal mark obtained in above-mentioned steps S102, is that the correlation signal that event type and exception level with predeterminated target event are associated identifies.Namely the mapping relations mentioned in above-mentioned steps S102, are the relations of the event type of object event, exception level and correlation signal.

Wherein, the above-mentioned mapping relations mentioned, can be realized by the association between queue, i.e. above-mentioned object event, can realize in the way of object event queue, correlation signal can also be realized by the mode of queue, and in the case, above-mentioned mapping relations can show as the mapping relations of the object event in object event queue and the correlation signal in correlation signal queue.

In another specific example, above-mentioned mapping relations can also be the mapping relations of the signal source identification of described monitored picture, object event and correlation signal.

It is understood that by setting different object events, and the mapping relations between different object events and correlation signal, it is possible to achieve different object events triggers different correlation signals window display on combination.Correspondingly, difference due to object event, the characteristic of different target event is also different, therefore, when above-mentioned setting mapping relations, an object event can be associated with one or more correlation signal, namely there are mapping relations, one correlation signal can also be associated with one or more object event, namely there are mapping relations.It is of course also possible to be set as between object event and correlation signal being relation one to one.It is illustrated below in conjunction with wherein concrete example.

It is all be shown as example by queue table with object event, correlation signal, Fig. 2 has illustrated the schematic diagram of the mapping relations that correlation signal and object event map one to one in a concrete example.As shown in Figure 2, correlation signal S21, S22 ... S2n respectively with object event A21, A22 ... A2n one_to_one corresponding, there are corresponding mapping relations, namely after object event occurs, the mark of the correlation signal of acquisition is the mark of the correlation signal with this object event unique association.Such as, when generation object event A21 being detected, acquisition is the signal identification of correlation signal S21, and is shown at combination uplifting window by correlation signal S21.And when generation object event A22 being detected, the signal identification of the correlation signal S22 of acquisition, and correlation signal S22 is shown at combination uplifting window.

Similarly, same is all be shown as example by queue table with object event, correlation signal, having illustrated the schematic diagram of the mapping relations that correlation signal maps with object event one-to-many in a concrete example in Fig. 3, namely there are mapping relations with multiple object events in a correlation signal simultaneously.As it is shown on figure 3, correlation signal S31 is corresponding with object event A31, there are mapping relations.Meanwhile, this correlation signal S31 also there is also corresponding mapping relations with object event A32.When generation object event A31 being detected, what obtain is the signal identification of correlation signal S31, is shown at combination uplifting window by correlation signal S31, when generation object event A32 being detected, what obtain is also the signal identification of correlation signal S32, is shown at combination uplifting window by correlation signal S32.

Similarly, having illustrated the schematic diagram of the mapping relations that correlation signal maps with object event many-one in a concrete example in Fig. 4, namely there are mapping relations with an object event in multiple correlation signals simultaneously.As shown in Figure 4, correlation signal S41 is corresponding with object event A41, there are mapping relations.Meanwhile, also there are corresponding mapping relations with object event A41 in correlation signal S42.When generation object event A41 being detected, not only obtain the signal identification of correlation signal S41, correlation signal S41 is shown at combination uplifting window, also obtain the signal identification of correlation signal S42, correlation signal S42 is shown at combination uplifting window.Wherein, as a rule, correlation signal S41 and correlation signal S42 displays on combination simultaneously, it is also possible to be combine to be actually needed to set DISPLAY ORDER.Respective position and the size of windowing of windowing of correlation signal S41, S42, it is possible to combination is actually needed and is set.

Certainly, in conjunction with being actually needed, correlation signal and object event can also be the mapping relations of multi-to-multi, illustrated the schematic diagram of the mapping relations that correlation signal maps with object event multi-to-multi in a concrete example in Fig. 5.As it is shown in figure 5, correlation signal S51 is corresponding with object event A51, there are mapping relations.Meanwhile, also there are corresponding mapping relations with object event A51 in correlation signal S52.Additionally, also there are corresponding mapping relations with object event A52, A53 in correlation signal S52.When generation object event A51 being detected, obtain the signal identification of correlation signal S51, S52, correlation signal S51, S52 are shown at combination uplifting window.When generation object event A52, A53 being detected, it is also the signal identification obtaining correlation signal S52, correlation signal S52 is shown at combination uplifting window.

Illustrated in greater detail is carried out below in conjunction with one of them concrete application example.Assuming in certain concrete application scenarios, somewhere needs the switch of the sluice to user to be monitored, and this ground has 15 sluice switches.Assuming there are two kinds of anomalous events for this sluice switch, one switchs water leakage situation for sluice, and one switchs aging conditions for sluice.

Accordingly, object event queue can be configured according to the event that this 15 sluice switch leaks, object event A1-1 that respectively sluice switch 1 leaks, sluice switch 1 aging object event A1-2, sluice switch 2 leaks object event A2-1, sluice switch 2 aging object event A2-2 ... .., sluice switch 15 leaks object event A15-1, sluice switch 15 aging object event A15-2,.

Assume that the object event that each sluice switch leaks is required for 2 correlation signals of association, one of them signal switchs the picture signal at certain distance (such as 200 meters) place, front end for this sluice, and another correlation signal is the picture signal at this sluice back segment certain distance (such as 300 meters) place.Assume that each sluice switchs aging object event and needs 4 correlation signals of association, one of them signal switchs the picture signal at certain distance (such as 200 meters) place, front end for this sluice, another correlation signal is the picture signal at this sluice back segment certain distance (such as 300 meters) place, and third and fourth signal is the picture signal at two the sluice switch places adjacent with this sluice switch.nullTherefore，Correlation signal queue could be arranged to: the correlation signal S1-1 picture signal of (corresponding sluice switch 1 a distance, front end)、The correlation signal S1-2 picture signal of (corresponding sluice switch 1 back segment a distance)、Correlation signal S1-3 (picture signal that the corresponding sluice switching 1 adjacent front end with sluice switchs)、Correlation signal S1-4 (picture signal that the corresponding sluice switching 1 adjacent rear end with sluice switchs)、The correlation signal S2-1 picture signal of (corresponding sluice switch 2 a distance, front end)、The correlation signal S2-2 picture signal of (corresponding sluice switch 2 back segment a distance)、Correlation signal S2-3 (picture signal that the corresponding sluice switching 2 adjacent front ends with sluice switchs)、Correlation signal S2-4 (picture signal that the corresponding sluice switching 2 adjacent rear ends with sluice switchs)、…….

Accordingly, the concrete mapping relations in mapping relations can be discussed further below:

That associate with object event A1-1 is correlation signal S1-1 and correlation signal S1-2；

That associate with object event A1-2 is correlation signal S1-1, correlation signal S1-2, correlation signal S1-3, correlation signal S1-4；

That associate with object event A2-1 is correlation signal S2-1 and correlation signal S2-2；

That associate with object event A2-2 is correlation signal S2-1, correlation signal S2-2, correlation signal S2-3, correlation signal S2-4；

Remaining by that analogy.

In another concrete application example, it is also possible to only directly the signal source identification of monitored picture, the event type of object time are associated with correlation signal, for instance:

With sluice switch 1, the event correlation that leaks be correlation signal S1-1 and correlation signal S1-2；

With sluice switch 1, aging event correlation be correlation signal S1-1, correlation signal S1-2, correlation signal S1-3, correlation signal S1-4；

With sluice switch 2, the event correlation that leaks be correlation signal S2-1 and correlation signal S2-2；

With sluice switch 2, aging event correlation be correlation signal S2-1, correlation signal S2-2, correlation signal S2-3, correlation signal S2-4；

Remaining by that analogy.

Based on the characteristic of sluice switch, the time leaked for sluice switch below is illustrated.Switching, for sluice, the event leaked, the exception level of event can be divided into urgent, serious, warning Three Estate.When detecting that echo signal there are flowing out, when the water yield of the speed or outflow that analyze water outflow further is beyond default high threshold, determine that corresponding exception level is urgent, when the water yield of the speed that the water analyzed flows out or outflow is less than default Low threshold, determine that the exception level of correspondence is for warning, when the water yield of the speed that the water that analyzes flows out or outflow is more than default Low threshold and less than default high threshold, it is determined that corresponding exception level is serious.Now, above-mentioned correlation signal, it is possible to be that the exception level with object event and this object event is associated, for instance when exception level is urgent, object event A1-1, urgent exception level are associated with correlation signal S1-1, S1-2；And when exception level is serious, object event A1-1, severely subnormal grade are associated with correlation signal S1-2.Certainly, it will be appreciated by persons skilled in the art that in actual various different application scenarios, it is also possible to other mapping relations are set, as long as the mapping relations of the event type of event, exception level and correlation signal can be embodied.

In concrete signal monitoring process, the monitored picture switched for each sluice on this ground is monitored, by monitored picture is analyzed, judge that whether each sluice switch is abnormal, after judging that sluice switch is abnormal, further determine that the event type that this sluice switch is abnormal, for instance occur leaking or sluice switch is aging.Whether abnormal specifically monitored picture is analyzed sluice switch mode, judges sluice and switch whether to occur to leak or aging mode, it is possible to being adopt to carry out in any way, the embodiment of the present invention is not specifically limited.

If the result analyzed after testing is that certain sluice switch is after k exception occurs and determine abnormal event type, such as sluice switch k leaks event, then judge to there occurs the object event Ak that sluice switch k leaks, and then analyze the exception level of the Ak of this object event, in conjunction with above-mentioned example, if the exception level analyzing this object event Ak is urgent, then obtain and object event Ak, the correlation signal Sk-1 that urgent exception level is associated, the mark of Sk-2, and obtain the correlation signal Sk-1 corresponding with this correlation signal mark, Sk-2, the correlation signal Sk-1 that will obtain, Sk-2 carries out window display on combination.

In another concrete example, occur abnormal analyzing certain switch sluice switch k, and after analyzing the exception level of this object event Ak, can be after receiving object event correlation signal triggering command, obtain the mark of the correlation signal being associated with object event Ak, exception level again, thus in case of need, then correlation signal is carried out on combination window display.When specifically applying, it is possible to be when receiving click commands by described monitored picture, it is determined that receive described object event correlation signal triggering command.Wherein, this combination can be provided in any position, can be at different regional locations from each monitored picture, for instance can be different room etc..

Based on thought same as mentioned above, the embodiment of the present invention also provides for a kind of signal monitoring system based on joined screen system.Fig. 6 has illustrated the structural representation of system in an embodiment.

As shown in Figure 6, the system in the present embodiment includes:

Monitoring modular 601, for the signal of monitoring picture, whether detection monitored picture there is predeterminated target event；

Correlation signal identifier acquisition module 602, for when described monitoring modular detects that predeterminated target event occurs in monitored picture, from the mapping relations of object event Yu correlation signal, obtaining the correlation signal mark being associated with described predeterminated target event；

Correlation signal acquisition module 603, for obtaining the correlation signal corresponding with described correlation signal mark, and carries out window display by the correlation signal of acquisition on combination.

Scheme according to the embodiment of the present invention as above, when detecting that predeterminated target event occurs in monitored picture, directly identify from object event with the mapping relations of correlation signal obtain the correlation signal being associated with described predeterminated target event, and then obtain the correlation signal corresponding with described correlation signal mark, and the correlation signal of acquisition is carried out on combination window display, thus, without complicated fenestration procedure, object event can trigger automatically opening up of correlation signal, such that it is able to obtain the information being associated rapidly, improve the efficiency and the accuracy that obtain and show related information, it is easy under emergency scene quickly, orientation problem point exactly, the quality time is saved for solving problem.

In the explanation of above-described embodiment, it is directly be associated with correlation signal with predeterminated target event to illustrate, in actual applications, for same monitored picture, it is possible to there will be different object events.Accordingly, as shown in Figure 6, in a concrete example, the system in the present embodiment also includes:

Described concept determination module 604, for when described monitoring modular 601 detects that predeterminated target event occurs in monitored picture, it is determined that the event type of described predeterminated target event.

Now, the correlation signal mark that above-mentioned correlation signal identifier acquisition module 602 obtains, is that the correlation signal that the event type with described predeterminated target event is associated identifies.The i.e. above-mentioned mapping relations mentioned, are the event type mapping relations with correlation signal of object event.

In another specific example, in actual application, for same kind of event, it is possible to have different exception level, there may be different processing modes for the event of different exception level, thus required for the correlation signal checked be likely to also can be variant.Accordingly, as shown in Figure 6, in a concrete example, the system in the present embodiment also includes:

Described exception level determines module 605, for when described monitoring modular 601 detects that predeterminated target event occurs in monitored picture or after described concept determination module 604 determines the event type of described predeterminated target event, it is determined that the exception level of described predeterminated target event.

Now, the correlation signal mark that above-mentioned correlation signal identifier acquisition module 602 obtains, is that the correlation signal that the exception level with described predeterminated target event is associated identifies.The i.e. above-mentioned mapping relations mentioned, are the exception level mapping relations with correlation signal of object event.

In another specific example, above-mentioned concept determination module 604 can also be included simultaneously and exception level determines module 605, namely, after detecting that predeterminated target event occurs in monitored picture, the event type of this predeterminated target event had both been determined, it is also determined that the exception level of this predeterminated target event.Now, the correlation signal mark that above-mentioned correlation signal identifier acquisition module 602 obtains, is that the correlation signal that event type and exception level with predeterminated target event are associated identifies.The i.e. above-mentioned mapping relations mentioned, are the relations of the event type of object event, exception level and correlation signal.

Wherein, the above-mentioned mapping relations mentioned, can be realized by the association between queue, i.e. above-mentioned object event, can realize in the way of object event queue, correlation signal can also be realized by the mode of queue, and in the case, above-mentioned mapping relations can show as the mapping relations of the object event in object event queue and the correlation signal in correlation signal queue.

In another specific example, above-mentioned mapping relations can also be the mapping relations of the signal source identification of described monitored picture, object event and correlation signal.

It is understood that by setting different object events, and the mapping relations between different object events and correlation signal, it is possible to achieve different object events triggers different correlation signals window display on combination.Correspondingly, difference due to object event, the characteristic of different target event is also different, therefore, when above-mentioned setting mapping relations, an object event can be associated with one or more correlation signal, namely there are mapping relations, one correlation signal can also be associated with one or more object event, namely there are mapping relations.It is of course also possible to be set as between object event and correlation signal being relation one to one.

As shown in Figure 6, in a concrete example, the system of the present embodiment also includes instruction triggers module 606, wherein:

This instruction triggers module 606, for, after described monitoring modular 606 detects that predeterminated target event occurs in monitored picture, receiving object event correlation signal triggering command.

Now, above-mentioned correlation signal identifier acquisition module 602, it is possible to be after instruction triggers module 606 receives described object event correlation signal triggering command, obtains described correlation signal mark.

In concrete practical application, above-mentioned instruction triggers module 606 can be after monitoring modular 601 detects that predeterminated target event occurs in monitored picture, when receiving click commands by described monitored picture, it is determined that receive described object event correlation signal triggering command.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. the signal monitoring method based on joined screen system, it is characterised in that include step:

The signal of monitoring picture, whether detection monitored picture there is predeterminated target event；

When detecting that predeterminated target event occurs in monitored picture, from the mapping relations of object event Yu correlation signal, obtain the correlation signal mark being associated with described predeterminated target event；

Obtain the correlation signal corresponding with described correlation signal mark, and the correlation signal of acquisition is carried out on combination window display.

2. the signal monitoring method based on joined screen system according to claim 1, it is characterised in that:

After determining the event type of described predeterminated target event, obtain described correlation signal mark before, further comprise the steps of: the event type and/or exception level of determining described predeterminated target event；

Described correlation signal is designated the correlation signal mark that event type and/or exception level with described predeterminated target event are associated.

3. the signal monitoring method based on joined screen system according to claim 1, it is characterized in that, after detecting that predeterminated target event occurs in monitored picture, before obtaining described correlation signal mark, further comprise the steps of: reception object event correlation signal triggering command.

4. the signal monitoring method based on joined screen system according to claim 3, it is characterized in that, when detecting after predeterminated target event occurs in monitored picture, receiving click commands by described monitored picture, it is determined that receive described object event correlation signal triggering command.

5. the signal monitoring method based on joined screen system according to Claims 1-4 any one, it is characterised in that include following every in any one or combination in any:

Described correlation signal mark includes at least two；

One correlation signal mark is associated with at least one predeterminated target event；

Described mapping relations are the mapping relations of the object event in object event queue and the correlation signal in correlation signal queue；

Described mapping relations are the mapping relations of the signal source identification of described monitored picture, object event and correlation signal.

6. the signal monitoring system based on joined screen system, it is characterised in that including:

Monitoring modular, for the signal of monitoring picture, whether detection monitored picture there is predeterminated target event；

Correlation signal identifier acquisition module, for when described monitoring modular detects that predeterminated target event occurs in monitored picture, from the mapping relations of object event Yu correlation signal, obtaining the correlation signal mark being associated with described predeterminated target event；

Correlation signal acquisition module, for obtaining the correlation signal corresponding with described correlation signal mark, and carries out window display by the correlation signal of acquisition on combination.

7. the signal monitoring system based on joined screen system according to claim 6, it is characterised in that also include concept determination module and/or exception level determines module:

Described concept determination module, for when described monitoring modular detects that predeterminated target event occurs in monitored picture, it is determined that the event type of described predeterminated target event；

Described exception level determines module, for when described monitoring modular detects that predeterminated target event occurs in monitored picture or after described concept determination module determines the event type of described predeterminated target event, it is determined that the exception level of described predeterminated target event；

Described correlation signal identifier acquisition module, for obtaining the correlation signal mark that event type and/or exception level with described predeterminated target event are associated.

8. the signal monitoring system based on joined screen system according to claim 6, it is characterised in that also include instruction triggers module；

Described instruction triggers module, for, after described monitoring modular detects that predeterminated target event occurs in monitored picture, receiving object event correlation signal triggering command；

Described correlation signal identifier acquisition module, for, after described instruction triggers module receives described object event correlation signal triggering command, obtaining described correlation signal mark.

9. the signal monitoring system based on joined screen system according to claim 8, it is characterized in that: described instruction triggers module, when described monitoring modular detects after predeterminated target event occurs in monitored picture, receives click commands by described monitored picture, it is determined that receive described object event correlation signal triggering command.

10. the signal monitoring system based on joined screen system according to claim 6 to 9 any one, it is characterised in that include following every in any one or combination in any:

Described correlation signal mark includes at least two；

One correlation signal mark is associated with at least one predeterminated target event；

Described mapping relations are the mapping relations of the object event in object event queue and the correlation signal in correlation signal queue；

Described mapping relations are the mapping relations of the signal source identification of described monitored picture, object event and correlation signal.