CN111885315B - Interactive operation system for emergency disposal in broadcasting industry - Google Patents

Abstract

The invention provides an interactive operation system for emergency disposal in broadcast broadcasting industry, which comprises: the interactive operation interface comprises a plurality of interactive areas; the emergency processing module dynamically recommends a standby signal source as a current standby signal source according to data information associated with each broadcast frequency; when the signal source meets the alarm condition, taking the alarm information which has the highest alarm priority and is associated with the current standby signal source as main alarm information; generating an emergency prompt button when the duration of the main alarm information reaches a first time threshold; and when the emergency prompt button is not manually pressed, the duration reaches a second time threshold and is in an intelligent emergency state, the main signal source is automatically switched to the current standby signal source, and when the emergency prompt button is not in the intelligent emergency state, the main alarm information, the duration and the emergency prompt button are continuously output to the interaction area for displaying. The standby signal source dynamic optimization method has the advantages that the standby signal source is dynamically optimized, the emergency operation range is unified, and misoperation and selection errors are prevented.

Description

Interactive operation system for emergency disposal in broadcasting industry

Technical Field

The invention relates to the technical field of broadcast emergency treatment, in particular to an interactive operation system for emergency treatment in the broadcast industry.

Background

In the process of continuously expanding the broadcast television industry, the safe broadcasting of the broadcast television is the key for the stable development of the broadcast television industry, and broadcasting accidents occur in the broadcasting process of the broadcast television, so that the broadcast television industry is influenced. In the broadcasting process of the broadcast television, the safety broadcasting consciousness of personnel is strengthened, relevant emergency treatment plans and daily technical maintenance work are made, and the method has important significance for maintaining the smooth development of the broadcast television industry.

In the conventional broadcast emergency method, all available signal sources of each broadcast frequency are arranged in front of a user in a listing manner by means of hardware buttons or software interfaces, and although the interactive interface can inform the user of the state of each signal source, the interactive interface does not inform the user of which path is the optimal selection when emergency switching is required, and the path can be used as the emergency switching sequence only according to the arrangement sequence.

Meanwhile, in order to ensure quick emergency and operation response speed, the currently used broadcast emergency interaction interface is obtained as long as operation is needed, and error collision or error operation is easily caused. When emergency needs manual operation, all signal sources must be operable, and due to the dense arrangement of the signal sources, misoperation is easily caused, and the signal source switching with wrong selection is caused.

In order to prevent manual mistaken collision, the traditional broadcast emergency interaction adopts a method of locking the whole software screen and handing over the software screen to the system for automatic switching, and then unlocking the screen for operation when manual intervention is needed. The broadcast emergency of the broadcast television generally needs to be judged and finished within 1-3 seconds, and the screen locking causes inconvenience and prolonged operation time during manual operation emergency. The traditional broadcast emergency operation method has the contradiction between the use of instant response and the use of preventing mistaken collision.

In the traditional broadcast emergency process, emergency treatment is only carried out in the system, and the front-stage system and the rear-stage system cannot be judged and treated, so that the judgment difficulty in the case of associated emergency is easily caused.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an interactive operation system for emergency disposal in the broadcast broadcasting industry, which specifically comprises the following steps:

the interactive operation interface comprises a plurality of interactive areas, each interactive area corresponds to a broadcast frequency, each broadcast frequency is associated with a plurality of preset signal sources, and each signal source has a preset alarm priority;

the emergency processing module is connected with the interactive operation interface and comprises:

the dynamic adjusting unit is used for acquiring data information related to each broadcast frequency and dynamically recommending one standby signal source from all standby signal sources of the signal sources as a current standby signal source of the broadcast frequency according to the data information;

the data acquisition unit is connected with the dynamic adjustment unit and used for acquiring real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing the alarm priority when the real-time state information meets preset alarm conditions, and outputting the alarm information which has the highest alarm priority and is associated with the current standby signal source as main alarm information;

the emergency prompt unit is connected with the data acquisition unit and used for counting the duration time of the main alarm information, generating an emergency prompt button when the duration time reaches a preset first time threshold value and outputting the emergency prompt button to the corresponding interaction area for displaying;

the first detection unit is respectively connected with the dynamic adjustment unit and the emergency prompt unit and is used for detecting the starting state of the emergency prompt button in real time, switching a main signal source in the signal sources to the current standby signal source when the starting state shows that the emergency prompt button is manually pressed down, and outputting a first detection instruction when the starting state shows that the emergency prompt button is not manually pressed down and the duration time reaches a preset second time threshold;

and the second detection unit is respectively connected with the dynamic adjustment unit and the first detection unit and is used for detecting whether the broadcast frequency is in an intelligent emergency state according to the first detection instruction, automatically switching the main signal source to the current standby signal source when the broadcast frequency is in the intelligent emergency state, and continuously outputting the main alarm information, the duration and the emergency prompt button to the corresponding interaction area for displaying when the broadcast frequency is not in the intelligent emergency state so as to wait for manual operation of a user.

Preferably, the emergency processing module further includes an emergency recovery unit, which is respectively connected to the first detection unit and the second detection unit, and the emergency recovery unit includes:

the first detection subunit is configured to detect the real-time status information of the main signal source in real time after the main signal source is switched to the current standby signal source, and generate a recovery prompt button and output the recovery prompt button to the corresponding interaction area for display when the real-time status information does not satisfy the alarm condition;

the second detection subunit is connected with the first detection subunit and used for counting the continuous display time of the recovery prompt button, detecting the starting state of the emergency prompt button in real time, switching the current standby signal source to the main signal source when the starting state indicates that the emergency prompt button is manually pressed down, and outputting a second detection instruction when the starting state indicates that the emergency prompt button is not manually pressed down and the continuous time reaches a preset third time threshold;

and the third detection subunit is connected with the second detection subunit and is used for detecting whether the broadcast broadcasting frequency is in an intelligent recovery state according to the second detection instruction, automatically switching the current standby signal source to the main signal source when the broadcast broadcasting frequency is in the intelligent recovery state, and continuously outputting the recovery prompt button to the corresponding interaction area for displaying when the broadcast broadcasting frequency is not in the intelligent recovery state so as to wait for manual operation of a user.

Preferably, the master signal source has the highest alarm priority;

the data acquisition unit comprises:

the first acquisition subunit is used for acquiring real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing the alarm priority when the real-time state information meets the preset alarm condition, and adding each alarm information into a first alarm queue;

the first processing subunit is connected to the first acquiring subunit, and configured to associate the acquired current standby signal source with the alarm information and output the current standby signal source as the main alarm information when the alarm information with the highest alarm priority in the first alarm queue is the alarm information associated with the main signal source;

and when the alarm information with the highest alarm priority is the alarm information associated with the standby signal source, counting the duration of the alarm information in real time, and outputting the alarm information and the corresponding duration to the interaction area for display so as to be checked and processed by technicians.

Preferably, the signal source further comprises at least one main output recovery signal, and the main output recovery signal has the highest alarm priority;

the data acquisition unit comprises:

the second acquisition subunit is used for acquiring the real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing the alarm priority when the real-time state information meets the preset alarm condition, and adding each alarm information into a second alarm queue;

the judgment subunit is connected with the second acquisition subunit and is used for outputting a judgment result when the alarm information with the highest alarm priority in the second alarm queue is the alarm information associated with the main output stoping signal;

the second processing subunit is connected with the judging subunit, and is configured to perform retrieval in the second alarm queue according to the judgment result, and generate alarm text information as the main alarm information when the alarm information of the main signal source does not exist in the second alarm queue, so that a technician can check and process the alarm text information;

and when the alarm information of the main signal source exists in the second alarm queue, associating the acquired current standby signal source with the alarm information and outputting the current standby signal source as the main alarm information.

Preferably, the emergency processing module further includes an information prompt unit, configured to give a corresponding information prompt and output the information prompt to the interaction area for display when the data information associated with the broadcast frequency meets a preset information prompt condition, so that a user can view and process the information.

Preferably, the information prompt has the highest display priority in the interactive region.

Preferably, the emergency processing module further includes a forced switching unit, configured to generate a corresponding forced switching button and output the forced switching button to the interaction area for display when the data information associated with the broadcast frequency meets a preset forced switching condition including a target signal source, so as to wait for a user to manually press the forced switching button to switch the main signal source to the target signal source.

Preferably, the data information includes alarm information of each signal source, and/or the real-time status information of each signal source, and/or broadcast program status information, and/or frequency on/off state information, and/or a routing status of signal output.

Preferably, the emergency processing module further includes an interface locking unit, configured to lock the corresponding interaction area when the broadcast broadcasting frequency is in a normal broadcasting state.

Preferably, the interactive operation interface is a touch screen.

The technical scheme has the following advantages or beneficial effects:

1) the optimal standby signal source can be dynamically and preferably selected by acquiring the data information of the broadcast frequency in real time, the standby signal source can be switched to by one key when the main signal source gives an alarm, the user does not need to select by himself, the listed arrangement of the signal sources is avoided, and misoperation and selection errors are prevented;

2) when the main signal source does not give an alarm, the interaction area is in a locked state, so that the mistaken collision is effectively avoided;

3) automatic switching and manual operation can be responded in parallel in the emergency process, and different operation requirements of users are met;

4) when the main signal source does not alarm or is in an emergency state, the alarm state of each standby signal source can be displayed so that technicians can check and process the alarm state in time;

5) all emergency operations are limited in a uniform interaction area range, so that the users can quickly judge and respond in the broadcast emergency disposal process;

6) the user can set information prompt conditions according to requirements, so that when the condition that the front-stage system and the rear-stage system meet the information prompt conditions needs to be judged and processed outside the system, information prompt is given;

7) the user can set the forced switching condition according to the requirement so as to remind the user of manual treatment in time when the system meets the forced switching condition.

Drawings

FIG. 1 is a schematic diagram of an interoperation system for emergency handling in the broadcast industry according to a preferred embodiment of the present invention;

FIG. 2 is a diagram illustrating the layout of the interaction area without alarm information in accordance with a preferred embodiment of the present invention;

FIG. 3 is a diagram illustrating the layout of interaction areas including panic button in accordance with a preferred embodiment of the present invention;

FIG. 4 is a diagram of interaction area layout including emergency status indications in accordance with a preferred embodiment of the present invention;

FIG. 5 is a diagram illustrating the layout of an interactive area including a restore prompt button according to a preferred embodiment of the present invention;

FIG. 6 is a diagram of the layout of the interaction area including the hint information in accordance with a preferred embodiment of the present invention;

FIG. 7 is a layout diagram of the interaction area including the force switch button according to the preferred embodiment of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.

In a preferred embodiment of the present invention, based on the above problems in the prior art, an interactive operation system for emergency handling in broadcast broadcasting industry is provided, as shown in fig. 1, specifically including:

the interactive operation interface 1 comprises a plurality of interactive areas, each interactive area corresponds to a broadcast frequency, each broadcast frequency is associated with a plurality of preset signal sources, and each signal source has a preset alarm priority;

emergency treatment module 2 connects interactive operation interface 1, and emergency treatment module 2 includes:

the dynamic adjusting unit 21 is configured to obtain data information associated with each broadcast frequency, and dynamically recommend a standby signal source from all standby signal sources of the signal sources as a current standby signal source of the broadcast frequency according to the data information;

the data acquisition unit 22 is connected with the dynamic adjustment unit 21 and is used for acquiring real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing alarm priority when the real-time state information meets preset alarm conditions, and outputting the alarm information which has the highest alarm priority and is associated with the current standby signal source as main alarm information;

the emergency prompt unit 23 is connected with the data acquisition unit 22, and is used for counting the duration of the primary alarm information, generating an emergency prompt button when the duration reaches a preset first time threshold, and outputting the emergency prompt button to a corresponding interaction area for displaying;

the first detection unit 24 is respectively connected with the dynamic adjustment unit 21 and the emergency prompt unit 23, and is configured to detect a start state of the emergency prompt button in real time, switch a main signal source in the signal sources to a current standby signal source when the start state indicates that the emergency prompt button is manually pressed, and output a first detection instruction when the start state indicates that the emergency prompt button is not manually pressed and a duration time reaches a preset second time threshold;

and the second detection unit 25 is respectively connected with the dynamic adjustment unit 21 and the first detection unit 24, and is configured to detect whether the broadcast frequency is in an intelligent emergency state according to the first detection instruction, automatically switch the main signal source to the current standby signal source when the broadcast frequency is in the intelligent emergency state, and continuously output the main alarm information, the duration and the emergency prompt button to a corresponding interaction area for display when the broadcast frequency is not in the intelligent emergency state, so as to wait for a user to perform manual operation.

Specifically, in this embodiment, the interactive operation interface 1 of the present invention preferably can simultaneously display broadcast emergency areas with 9 broadcast frequencies, that is, can simultaneously display 9 interactive areas, and each interactive area user realizes operation interaction such as signal alarm prompt, emergency and recovery with one corresponding broadcast frequency.

For each interactive region, it is preferable to have a display layout as shown in fig. 2, where the left side of the interactive region displays an in-use signal source, i.e., a main signal source, which is currently broadcasted by a broadcast, in the figure, the signal source 1, the right side of the interactive region displays a standby signal source, i.e., a current standby signal source, which is dynamically recommended according to data information associated with the broadcast frequency, in the figure, the signal source 3, and in addition to a signal source name, an audio peak program skip list and an audio phase list are also displayed. And displaying alarm information of the current broadcast frequency above the interaction area, wherein the alarm information comprises an alarm prompt and the alarm duration time. By means of different buttons and information prompting methods in the interactive operation range, various conditions of normal broadcasting and emergency disposal in the broadcasting process are solved, and the accuracy of emergency disposal is ensured. And the method covers the judgment prompt and interactive operation under the condition of a front-level system and a back-level system and the non-alarm state. Meanwhile, all the operations of the user are limited in a uniform interactive operation range, and the quick judgment and response of the user in the broadcasting emergency disposal process are ensured.

Furthermore, through logic processing in the system, the available standby signal sources under the current condition are selected in real time, the limitation of single arrangement sequence of the signal sources in the emergency process is solved, the dynamic selection of the optimal standby signal sources is realized, the accuracy of the selected signal sources is ensured, the arrangement in a row is avoided, and misoperation and selection errors are prevented. The logic processing is to analyze and process the acquired data information related to the broadcast frequency, and the data information includes, but is not limited to, alarm information of each signal source, real-time status information of each signal source, broadcast program status information, and frequency on-off broadcast status information. The user can customize the combination mode of the data information according to the requirement, in other words, the user can select one or more of the data information to perform analysis processing so as to dynamically recommend the standby signal source. If the above alarm information is selected, the recommended standby signal source first needs to meet the condition that no alarm information appears, if the above real-time state information is selected, the recommended standby signal source needs to meet the condition that no silence or the like appears, if the broadcast program state information is selected, the recommended standby signal source is associated with the broadcast program, in other words, if the current broadcast program is news simulcast, the user predefines that the signal source 3 is the optimal standby signal source, and once the main signal source alarms, the system recommends to switch the main signal source to the signal source 3. The available standby signal source under the current condition is selected in real time, the limitation of single arrangement sequence of the signal sources in the emergency process is solved, the dynamic selection of the optimal standby signal source is realized, the accuracy of the selected signal source is ensured, the listed arrangement is avoided, and misoperation and selection errors are prevented.

Furthermore, the signal sources of the system include, but are not limited to, a main output recovery signal, a main signal source, a standby signal source and other external signal sources to be detected, and each signal source has a preset alarm priority, so that when a plurality of signal sources alarm at the same time, alarm information of the signal source with a higher alarm priority is preferentially displayed and processed. Because the states of the main output extraction signal and the main signal source directly affect the program broadcasting condition, the main output extraction signal or the main signal source is usually used as the signal source with the highest alarm priority. According to the method, interactive prompt is realized by outputting the main alarm information which has the highest alarm priority and is associated with the current standby signal source, when the main alarm information appears, the duration time of the main alarm information is firstly counted, if the duration time is longer, namely the duration time reaches a preset first time threshold value, emergency prompt is given in a mode of generating an emergency prompt button, the emergency prompt button is displayed in an interactive area, as shown in fig. 3, the emergency prompt button is preferably an 'emergency prompt' button in a red arrow style, a user is prompted to press the button, a broadcasting route is switched to the standby signal source, and the signal source 1 in the graph is switched to the signal source 3.

If the duration is short, namely the duration is smaller than a preset first time threshold, the main alarm information is used for alarming in a short time, and the main alarm information is automatically recovered after the short-time alarm, at the moment, an emergency response is not needed, namely, the emergency prompt button does not appear. More preferably, only one emergency prompt button can be operated in the interaction area, and the button covers more than 80% of the area of the operation range, so that the simplicity and the accuracy of the operation are ensured, and misoperation and selection errors are avoided.

After the emergency prompt button is given, a user can press the button through manual operation to realize the switching of the main signal source, if the user does not press the button all the time and the duration of the main alarm information reaches a preset second time threshold, whether the intelligent emergency function is opened by the system is detected, namely whether the intelligent emergency function is in an intelligent emergency state is detected, if the intelligent emergency state is detected, the system automatically switches the main signal source to the current standby signal source when the second time threshold is reached, and if the intelligent emergency function is not in the intelligent emergency state, the system continuously waits for the manual operation of the emergency prompt button by the user, and the time progress bar continuously displays the duration. And operation urgency is prompted through duration display, and the response speed of a user is improved. Preferably, whether the intelligent emergency function is opened or not is represented by detecting whether an intelligent emergency button of the interactive area is pressed down or not.

After the emergency switching from the main signal source to the standby signal source is successfully completed, as shown in fig. 4, the signal source 3 is used as the main signal source, the current standby signal source is the signal source 4, and an icon display of "in emergency" is preferably displayed in the interactive operation range to prompt that the emergency switching is successfully completed. When no further operation prompt is given, no operable button is displayed in the interactive operation range, and misoperation is avoided. At the moment, when standby alarm information appears in a standby signal source in the system, the standby alarm information is displayed for a technician to check and process. If a plurality of standby signal sources alarm at the same time, displaying standby alarm information of the standby signal source with the highest alarm priority according to the preset alarm priority, and displaying the standby alarm information with the lower alarm priority after the standby alarm information is eliminated, and so on. Preferably, the alarm priority of the main signal source is higher than that of each standby signal source, that is, when the main alarm information of the main signal source appears, the main alarm information is preferentially displayed so as to facilitate subsequent emergency treatment.

In the preferred embodiment of the present invention, the emergency processing module 2 further includes an emergency recovery unit 26, which is respectively connected to the first detection unit 24 and the second detection unit 25, and the emergency recovery unit includes 26:

the first detection subunit 261 is configured to detect real-time state information of the main signal source in real time after the main signal source is switched to the current standby signal source, and generate a recovery prompt button and output the recovery prompt button to a corresponding interaction area for display when the real-time state information does not meet an alarm condition;

the second detection subunit 262 is connected to the first detection subunit 261, and is configured to count the duration display time of the recovery prompt button, detect the start state of the emergency prompt button in real time, switch the current standby signal source to the main signal source when the start state indicates that the emergency prompt button is manually pressed, and output a second detection instruction when the start state indicates that the emergency prompt button is not manually pressed and the duration time reaches a preset third time threshold;

and the third detecting subunit 263, connected to the second detecting subunit 262, configured to detect whether the broadcast frequency is in the intelligent recovery state according to the second detection instruction, and automatically switch the current standby signal source to the main signal source when the broadcast frequency is in the intelligent recovery state, and continuously output a recovery prompt button to a corresponding interaction area for displaying when the broadcast frequency is not in the intelligent recovery state, so as to wait for a manual operation of a user.

Specifically, in this embodiment, when the alarm of the active signal source is removed and the system can recover to the active signal source, a recovery prompt button is displayed in the interactive operation range of the interactive area, as shown in fig. 5, the recovery prompt button is preferably a "recovery prompt" button in a blue arrow pattern, which prompts the user to press the button to switch the broadcast route back to the active signal source, that is, the current signal source 3 is switched to the signal source 1. The button arrow points to the signal source for recovering the main road from the current route, and the color of the button is obviously different from that of the 'emergency prompt' button.

More preferably, the interactive operation range only has one 'recovery prompt' button, and the button covers more than 80% of the area of the operation range, so that the simplicity and the accuracy of the operation are ensured, and misoperation and selection errors are avoided. The button preferably displays the duration of the "recovery cue" in a two-color stroke, increasing the speed of the user's response. When the prompt duration reaches a preset third time threshold value, if the intelligent recovery function is turned on, the system automatically presses the recovery prompt button and switches the route, if the intelligent emergency function is not turned on, the system waits for the user to manually operate the recovery prompt button, and the button continues to be stroked. When the continuous time stroke finishes the whole recovery prompting button, the stroke continuously flickers to emphatically prompt the user to operate. After the 'recovery prompt' button is pressed, the system recovers to the normal condition without alarm and broadcasts.

In the preferred embodiment of the invention, the main signal source has the highest alarm priority;

the data acquisition unit 22 includes:

the first acquisition subunit 221 is configured to acquire real-time state information of each signal source in real time for each broadcast frequency, generate alarm information including an alarm priority when the real-time state information meets a preset alarm condition, and add each alarm information to a first alarm queue;

the first processing subunit 222, connected to the first acquiring subunit 221, is configured to associate the acquired current standby signal source with the alarm information and output the alarm information as the main alarm information when the alarm information with the highest alarm priority in the first alarm queue is the alarm information associated with the main signal source;

and when the alarm information with the highest alarm priority is the alarm information associated with the standby signal source, counting the duration of the alarm information in real time, and outputting the alarm information and the corresponding duration to an interaction area for display so as to be checked and processed by technicians.

Specifically, in this embodiment, when the main signal source has the highest alarm priority and when it is detected that alarm information occurs in both the main signal source and the standby signal source, the alarm information of the main signal source is output as the main alarm information, so that the display of the emergency prompt button is triggered according to the main alarm information in the following process, and thus the emergency interaction is realized. After the emergency interaction processing is completed, namely after the signal source switching is completed, the system is in an emergency state, if alarm information of a plurality of standby signal sources still exists, the alarm information with the highest alarm priority is displayed, only an alarm information prompt is given, and emergency interaction is not triggered.

In a preferred embodiment of the present invention, the signal source further comprises at least one main output mining signal, and the main output mining signal has the highest alarm priority;

the data acquisition unit 22 includes:

the second acquisition subunit 223 is configured to acquire real-time status information of each signal source in real time for each broadcast frequency, generate alarm information including an alarm priority when the real-time status information meets a preset alarm condition, and add each alarm information to a second alarm queue;

the judgment subunit 224 is connected to the second acquisition subunit 223, and is configured to output a judgment result when the alarm information with the highest alarm priority in the second alarm queue is the alarm information associated with the main output mining signal;

the second processing subunit 225, connected to the judging subunit 224, is configured to perform retrieval in the second alarm queue according to the judgment result, and generate alarm text information as the primary alarm information when the alarm information of the primary signal source does not exist in the second alarm queue, so that a technician can check and process the alarm text information;

and when the alarm information of the main signal source exists in the second alarm queue, associating the acquired current standby signal source with the alarm information and outputting the alarm information as the main alarm information.

Specifically, in this embodiment, when the main output back-mining signal has the highest alarm priority, and when it is detected that alarm information occurs in both the main output back-mining signal and the main signal source, the acquired current standby signal source associated alarm information is output as the main alarm information, and a subsequent prompt of the emergency prompt button is triggered.

In a preferred embodiment of the present invention, the emergency processing module 2 further includes an information prompting unit 27, configured to give a corresponding information prompt and output the information prompt to an interaction area for display when the data information related to the broadcast frequency meets a preset information prompting condition, so that a user can view and process the information.

Specifically, in this embodiment, the system is configured to process the determination without performing emergency operation through switching, or prompt other relevant information to prompt the user for determination and processing. And displaying an information prompt in the interactive operation range, wherein the content of the prompt is predefined by a user when logic processing setting is carried out. As shown in fig. 6, the content of the information prompt may be to start an emergency switch, the information prompt solves a prompting method that a user needs to perform external judgment and processing when a front-stage system and a rear-stage system are in a condition, and the prompting content appears in an interactive operation range and is in the same range as an operation button, so that the attention focus of the user is focused, the response speed of the user is increased, and the problem that the information prompt may not be found in time when displayed in other places is avoided.

In a preferred embodiment of the invention, the information cue has the highest display priority in the interactive area.

Specifically, in this embodiment, when the system outputs the information prompt and the emergency prompt button at the same time, the information prompt has a higher display priority, that is, the information prompt is preferentially displayed on the interactive interface.

In a preferred embodiment of the present invention, the emergency processing module 2 further includes a forced switching unit 28, configured to generate a corresponding forced switching button and output the forced switching button to the interaction area for displaying when the data information associated with the broadcast frequency meets a preset forced switching condition including the target signal source, so as to wait for a user to manually press the forced switching button to switch the active signal source to the target signal source.

Specifically, in this embodiment, the processing of the tunneling logic in the system determines that a switching operation is required, and at this time, when the operation button is not triggered by an alarm, a forced switching button is displayed in the interactive operation range. As shown in FIG. 7, the forced switching button preferably adopts an emergency prompt button, and the interaction habits are kept uniform by means of an information prompt manner of Force Switch above the emergency prompt button. The high attention degree of the user to the button is ensured, and the button is distinguished from the emergency prompt button to represent different interactive operation prompts. The logic for triggering the forced switching, namely the forced switching condition is predefined by the user when the logic processing is set, and the forced switching button prompts the user to carry out quick judgment and manual treatment without carrying out automatic switching. And if the user predefines that another program is inserted in the next time slot, and the user does not switch the signal source when the next time slot is reached, giving a forced switching prompt.

In a preferred embodiment of the present invention, the data information includes alarm information of each signal source, and/or real-time status information of each signal source, and/or broadcast program status information, and/or frequency on/off status information, and/or routing status of signal output.

In a preferred embodiment of the present invention, the emergency processing module 2 further includes an interface locking unit 29 for locking the corresponding interactive area when the broadcast broadcasting frequency is in a normal broadcasting state.

Specifically, in this embodiment, the interactive operation interface 1 is preferably a touch screen, and broadcast emergency can be more intuitive and convenient through touch screen interaction, and meanwhile, a hidden danger of misoperation due to mistaken touch also exists. Therefore, as shown in fig. 2, when the broadcast frequency is not alarmed and the broadcast is normal, the interactive operation range is not prompted and cannot be operated by locking the interactive area, so that the daily condition of preventing mistaken collision is solved.

In the preferred embodiment of the present invention, the interactive operation interface 1 is a touch screen.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. The utility model provides an interactive operation system of broadcast trade emergency treatment which characterized in that specifically includes:

the interactive operation interface comprises a plurality of interactive areas, each interactive area corresponds to a broadcast frequency, each broadcast frequency is associated with a plurality of preset signal sources, and each signal source has a preset alarm priority;

the emergency processing module is connected with the interactive operation interface and comprises:

the dynamic adjusting unit is used for acquiring data information related to each broadcast frequency and dynamically recommending one standby signal source from all standby signal sources of the signal sources as a current standby signal source of the broadcast frequency according to the data information;

the data acquisition unit is connected with the dynamic adjustment unit and used for acquiring real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing the alarm priority when the real-time state information meets preset alarm conditions, and outputting the alarm information which has the highest alarm priority and is associated with the current standby signal source as main alarm information; the main signal source has the highest alarm priority;

the emergency prompt unit is connected with the data acquisition unit and used for counting the duration time of the main alarm information, generating an emergency prompt button when the duration time reaches a preset first time threshold value and outputting the emergency prompt button to the corresponding interaction area for displaying;

the first detection unit is respectively connected with the dynamic adjustment unit and the emergency prompt unit and is used for detecting the starting state of the emergency prompt button in real time, switching a main signal source in the signal sources to the current standby signal source when the starting state shows that the emergency prompt button is manually pressed down, and outputting a first detection instruction when the starting state shows that the emergency prompt button is not manually pressed down and the duration time reaches a preset second time threshold;

and the second detection unit is respectively connected with the dynamic adjustment unit and the first detection unit and is used for detecting whether the broadcast frequency is in an intelligent emergency state according to the first detection instruction, automatically switching the main signal source to the current standby signal source when the broadcast frequency is in the intelligent emergency state, and continuously outputting the main alarm information, the duration and the emergency prompt button to the corresponding interaction area for displaying when the broadcast frequency is not in the intelligent emergency state so as to wait for manual operation of a user.

2. The os of claim 1, wherein the emergency processing module further comprises an emergency recovery unit respectively connected to the first detection unit and the second detection unit, the emergency recovery unit comprising:

the first detection subunit is configured to detect the real-time status information of the main signal source in real time after the main signal source is switched to the current standby signal source, and generate a recovery prompt button and output the recovery prompt button to the corresponding interaction area for display when the real-time status information does not satisfy the alarm condition;

the second detection subunit is connected with the first detection subunit and used for counting the continuous display time of the recovery prompt button, detecting the starting state of the recovery prompt button in real time, switching the current standby signal source to the main signal source when the starting state indicates that the recovery prompt button is manually pressed down, and outputting a second detection instruction when the starting state indicates that the recovery prompt button is not manually pressed down and the continuous time reaches a preset third time threshold;

and the third detection subunit is connected with the second detection subunit and is used for detecting whether the broadcast broadcasting frequency is in an intelligent recovery state according to the second detection instruction, automatically switching the current standby signal source to the main signal source when the broadcast broadcasting frequency is in the intelligent recovery state, and continuously outputting the recovery prompt button to the corresponding interaction area for displaying when the broadcast broadcasting frequency is not in the intelligent recovery state so as to wait for manual operation of a user.

3. The interoperation system according to claim 1, wherein the data acquisition unit comprises:

the first acquisition subunit is used for acquiring real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing the alarm priority when the real-time state information meets the preset alarm condition, and adding each alarm information into a first alarm queue;

the first processing subunit is connected to the first acquiring subunit, and configured to associate the acquired current standby signal source with the alarm information and output the current standby signal source as the main alarm information when the alarm information with the highest alarm priority in the first alarm queue is the alarm information associated with the main signal source;

and when the alarm information with the highest alarm priority is the alarm information associated with the standby signal source, counting the duration of the alarm information in real time, and outputting the alarm information and the corresponding duration to the interaction area for display so as to be checked and processed by technicians.

4. The interactive operating system of claim 1, wherein the signal source further comprises at least one primary output extraction signal, and the primary output extraction signal has the highest priority of the alarm;

the data acquisition unit comprises:

the second acquisition subunit is used for acquiring the real-time state information of each signal source in real time aiming at each broadcast frequency, generating alarm information containing the alarm priority when the real-time state information meets the preset alarm condition, and adding each alarm information into a second alarm queue;

the judgment subunit is connected with the second acquisition subunit and is used for outputting a judgment result when the alarm information with the highest alarm priority in the second alarm queue is the alarm information associated with the main output stoping signal;

the second processing subunit is connected with the judging subunit, and is configured to perform retrieval in the second alarm queue according to the judgment result, and generate alarm text information when the alarm information of the main signal source does not exist in the second alarm queue, so that a technician can check and process the alarm text information;

and when the alarm information of the main signal source exists in the second alarm queue, associating the acquired current standby signal source with the alarm information and outputting the alarm information as the main alarm information.

5. The interactive operation system according to claim 1, wherein the emergency processing module further comprises an information prompt unit, configured to give a corresponding information prompt and output the information prompt to the interactive area for display, when the data information associated with the broadcast broadcasting frequency meets a preset information prompt condition, so as to allow a user to view and process the information.

6. The interactive operating system of claim 5, wherein the informational prompt has a highest display priority in the interactive region.

7. The os of claim 1, wherein the emergency processing module further comprises a forced switching unit, configured to generate a corresponding forced switching button and output the forced switching button to the interactive area for displaying when the data information associated with the broadcast frequency meets a preset forced switching condition including a target signal source, so as to wait for a user to manually press the forced switching button to switch the active signal source to the target signal source.

8. The interactive operation system according to claim 1, 5 or 7, wherein the data information comprises alarm information of each of the signal sources, and/or the real-time status information of each of the signal sources, and/or broadcast program status information, and/or frequency on/off broadcast status information, and/or routing status of signal output.

9. The os of claim 1, wherein the emergency processing module further comprises an interface locking unit for locking the corresponding interactive area when the broadcast frequency is in a normal broadcast state.

10. The interactive operating system of claim 1, wherein the interactive operating interface is a touch screen.

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