CN112233382A - Earthquake early warning broadcasting method and device, storage medium and electronic equipment - Google Patents

Abstract

The embodiment of the invention provides an earthquake early warning broadcasting method, an earthquake early warning broadcasting device, a storage medium and electronic equipment, and relates to the technical field of earthquake disaster early warning; when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio; when the linkage description audio is reported, determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest acquired earthquake early warning information, and at least broadcasting prestored earthquake sensation description audio with the earthquake sensation description grade; therefore, the aims of broadcasting the earthquake feeling description corresponding to the latest earthquake influence degree more quickly, shortening the voice synthesis response time, effectively dealing with the situation of voice generation failure, reducing the judgment times, reducing the voice synthesis times and reducing the interruption of voice broadcasting are fulfilled.

Description

Earthquake early warning broadcasting method and device, storage medium and electronic equipment

Technical Field

The invention relates to the technical field of earthquake disaster early warning, in particular to an earthquake early warning broadcasting method, an earthquake early warning broadcasting device, a storage medium and electronic equipment.

Background

The earthquake early warning (earthquakes early warning) means that after an earthquake occurs, the earthquake wave propagation speed is lower than the electric wave propagation speed, and the earthquake early warning is carried out on the place where the earthquake wave does not arrive in advance so as to reduce the loss of a defense area.

The prior art provides a method for carrying out earthquake early warning by adopting a warning sound alarm or a countdown alarm, and the warning method of the warning sound alarm or the countdown alarm still has some problems, so that the popular public can not clearly know that the earthquake occurs when hearing the early warning alarm, can not clearly know that the earthquake occurs, can not clearly know that the earthquake is an alarm before the coming earthquake wave, can not know the degree of the earthquake wave to be influenced, can not judge whether to take a risk avoidance measure, and can not achieve the expected earthquake early warning effect.

Therefore, the prior art provides a new early warning method, namely, according to received earthquake early warning information (such as the epicenter position, the earthquake influence degree and the like), the earthquake content (such as the epicenter position and the earthquake feeling) is broadcasted by voice. However, in the method, since the original voice insertion packet is broadcasted after being completely synthesized, referring to fig. 1, the voice insertion packet is synthesized within the insertion interval duration, and the voice insertion packet is broadcasted within the voice broadcasting duration. For example, in the prior art, a voice inter-cut package "Sichuan Changning earthquake, wuhou district will feel strong and pay attention to avoid danger" broadcast, firstly, a text format "Sichuan Changning earthquake" needs to be synthesized, and a wuhou district will feel strong and pay attention to avoid danger ", and then the text format is converted into an audio format. The process has long generation time, so that the earthquake feeling description corresponding to the updated earthquake information is broadcasted after being delayed.

Disclosure of Invention

The embodiment of the invention provides an earthquake early warning broadcasting method, an earthquake early warning broadcasting device, a storage medium and electronic equipment, and aims to overcome the technical problems.

According to one aspect of the invention, the embodiment of the invention discloses an earthquake early warning and broadcasting method, which comprises the following steps:

generating an epicenter position description audio according to the epicenter position in the earthquake early warning information;

when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio;

when the linkage description audio is reported, determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest acquired earthquake early warning information, and at least broadcasting prestored earthquake sensation description audio with the earthquake sensation description grade;

wherein the epicenter position description audio, the articulation description audio and the seismograph description audio are independent voice packets.

In an embodiment of the invention, the cohesive description audio comprises a magnitude description, the method further comprising:

determining a seismic level description corresponding to the early warning seismic level according to the early warning seismic level in the newly obtained earthquake early warning information;

when finishing broadcasting the earthquake position description audio, broadcast the linkage description audio of prestoring, include:

and when the epicenter position description audio is broadcasted, broadcasting the pre-stored connectivity description audio with the magnitude description.

In an embodiment of the invention, the adaptive description audio comprises a receiving location description, the method further comprises:

determining a receiving location description;

when finishing broadcasting the earthquake position description audio, broadcast the linkage description audio of prestoring, include:

and when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio with the receiving position description.

In an embodiment of the present invention, the method further includes:

judging whether the epicenter position description audio is successfully generated or not;

if the generation of the epicenter position description audio fails, extracting a pre-stored epicenter position fuzzification description audio;

and broadcasting the blurred description audio of the epicenter position in a time period of broadcasting the description audio of the epicenter position.

In an embodiment of the present invention, the method further includes:

setting inter-cut interval duration and voice broadcast duration; wherein the inter-cut interval duration is at least greater than the generation duration of the epicenter position description audio;

broadcasting a pre-stored countdown prompting audio in the inter-cut interval duration, and at least sequentially broadcasting the epicenter position description audio or the epicenter position fuzzification description audio, the articulation description audio and the earthquake sensation description audio in the voice broadcasting duration.

In an embodiment of the present invention, at least one of the epicenter position description audio, the epicenter position fuzzification description audio, the connectivity description audio, and the earthquake sensation description audio is broadcast sequentially within the voice broadcast duration, including:

broadcasting the epicenter position description audio by a first audio track, broadcasting the articulation description audio by a second audio track, and broadcasting the seismographic description audio by a third audio track;

or, the epicenter position description audio, the articulation description audio and the seismograph description audio are sequentially broadcasted by the same audio track;

or the epicenter position description audio and the articulation description audio are sequentially broadcasted by a first audio track, and then the seismographic description audio is broadcasted by a second audio track.

According to another aspect of the present invention, an embodiment of the present invention further discloses an earthquake early warning and broadcasting device, including:

the epicenter position description audio generation module is used for generating epicenter position description audio according to the epicenter position in the earthquake early warning information;

the linkage description audio broadcasting module is used for broadcasting the linkage description audio which is stored in advance when the epicenter position description audio is broadcasted;

the earthquake sensation description audio broadcasting module is used for determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest acquired earthquake early warning information when the connective description audio is broadcasted, and at least broadcasting the prestored earthquake sensation description audio with the earthquake sensation description grade;

wherein the epicenter position description audio, the articulation description audio and the seismograph description audio are independent voice packets.

In an embodiment of the present invention, the apparatus further includes:

the audio generation judging module is used for judging whether the epicenter position description audio is successfully generated or not;

the fuzzification description audio extraction module is used for extracting the prestored epicenter position fuzzification description audio when the generation of the epicenter position description audio fails;

and the fuzzification description audio broadcasting module is used for broadcasting the fuzzification description audio of the epicenter position in a time period of broadcasting the epicenter position description audio.

According to still another aspect of the present invention, the embodiment of the present invention further discloses a computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements the steps in the earthquake early warning broadcasting method according to the embodiment of the present invention.

According to still another aspect of the present invention, an embodiment of the present invention further discloses an electronic device, which includes a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor, when executing, implements the steps in the method for broadcasting a seismic warning according to the embodiment of the present invention.

Compared with the prior art, the embodiment of the invention has the following advantages:

according to the earthquake early warning information, the earthquake center position description audio is generated according to the earthquake center position in the earthquake early warning information; when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio; and when the connective description audio is reported, determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest acquired earthquake early warning information, and at least reporting a prestored earthquake sensation description audio with the earthquake sensation description grade, wherein the earthquake center position description audio, the connective description audio and the earthquake sensation description audio are independent voice packets. In the embodiment of the invention, because the time points for judging the epicenter position and the earthquake feeling description are different, and the earthquake feeling description is not synthesized by real-time text-to-audio, the system reaction time caused by the synthesis time is reduced, namely the judgment of the earthquake feeling description level and the broadcasting of the earthquake feeling description audio are almost completed simultaneously, therefore, the embodiment of the invention can achieve the purposes of more quickly broadcasting the latest earthquake feeling description corresponding to the earthquake influence degree, shortening the voice synthesis response time and effectively coping with the failure condition of voice generation. And because the embodiment of the invention only needs to judge the earthquake sensation description grade according to the latest earthquake early warning information at the earthquake sensation description broadcasting moment, compared with the prior art, the method and the device do not need to judge again according to each earthquake early warning information and synthesize the voice of the voice insert broadcast packet, thereby reducing the judgment times of the earthquake sensation description, reducing the voice synthesis times and avoiding the voice broadcast from being interrupted for many times.

Drawings

FIG. 1 is a schematic illustration of prior art seismic early warning using a complete voice break packet;

FIG. 2 is a schematic diagram of a seismic early warning system according to an embodiment of the invention;

fig. 3 is a flowchart illustrating steps of a method for reporting earthquake warning according to an embodiment of the present invention;

FIG. 4 is a schematic illustration of the break-in of earthquake warning according to example 2 of the present invention;

fig. 5 is a schematic structural diagram of an earthquake warning and broadcasting device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Based on the technical problems in the background art of the embodiments of the present invention, the inventor proposes an earthquake early warning broadcasting method, according to the characteristic that the earthquake early warning information has multiple update changes (including earthquake center position changes, earthquake influence degree changes, etc.), an original complete voice insertion packet is split into at least small voice packets, namely, earthquake center position description audios, connectivity description audios and earthquake sensation description audios, and then the earthquake center position description audios, connectivity description audios and earthquake sensation description audios are respectively broadcasted according to the splitting sequence. In the process, the earthquake location description audio and the earthquake sensation description audio are two independent voice packets which can be generated and broadcasted respectively, so when updated earthquake early warning information exists, the embodiment of the invention can determine the corresponding earthquake sensation description level again according to the earthquake influence degree in the updated earthquake early warning information within the time period of millisecond level, and extract the earthquake sensation description audio with the earthquake sensation description level from the earthquake sensation description broadcast library for broadcasting, namely judge that the earthquake sensation description level and the broadcast earthquake sensation description audio are almost finished at the same time. Therefore, the embodiment of the invention overcomes the problem that the original voice inter-cut packet can be broadcasted after the epicenter position and the seismograph description are completely synthesized, and the seismograph description corresponding to the updated earthquake information is broadcasted after delay due to longer generation time.

In order to make the embodiment of the present invention more clearly understood, before describing a specific implementation scheme of the present invention, a communication architecture of the embodiment of the present invention is first described.

Referring to fig. 2, a schematic structural diagram of a seismic early warning system according to an embodiment of the present invention is shown, which may include: the system comprises a plurality of earthquake monitoring terminals 201, an earthquake early warning center server 202 and at least 1 earthquake early warning terminal 203; wherein:

the earthquake monitoring terminal 201 is connected with the earthquake early warning center server 202 and is used for generating earthquake key information when earthquake waves are monitored and sending the earthquake key information to the earthquake early warning center server 202;

the earthquake early warning center server 202 is connected with the earthquake early warning terminal 203 and is used for analyzing earthquake key information, obtaining earthquake information and earthquake affected areas and sending the earthquake information to the earthquake early warning terminal 203 in the earthquake affected areas, or generating earthquake early warning information according to the earthquake information and sending the earthquake early warning information to the earthquake early warning terminal 203 in the earthquake affected areas;

the earthquake early warning terminal 203 is configured to generate earthquake early warning information according to the earthquake information, and execute the earthquake early warning broadcasting method according to the embodiment of the present invention, or execute the earthquake early warning broadcasting method according to the embodiment of the present invention when receiving the earthquake early warning information.

In the embodiment of the present invention, the earthquake monitoring terminal 201 is preset near the epicenter to monitor earthquake waves, and when the earthquake waves are monitored, sends the earthquake key information obtained after analyzing the earthquake waves to the earthquake early warning center server 202. The earthquake early warning center server 202 analyzes the earthquake key information received each time, and can obtain earthquake information and an earthquake affected area, wherein the earthquake information comprises an earthquake starting time, an earthquake center position (at least including earthquake center longitude and latitude), an early warning earthquake magnitude and an earthquake source depth. The earthquake affected area can be determined according to a preset earthquake center distance or the influence degree of the earthquake, for example, the earthquake affected area is defined by taking the earthquake center position as the center of a circle and the preset earthquake center distance as the radius; for example, the area with high earthquake influence is defined as earthquake affected area. The earthquake early warning center server 202 can transmit earthquake information or earthquake early warning information to each earthquake early warning terminal 203 in the earthquake stricken area through multiple channels. Earthquake early warning terminal 203 can indicate disaster early warning voice broadcast software and intelligent terminal thereof that have the voice playing instrument, and this intelligent terminal can be smart mobile phone, smart television, panel computer, intelligent audio amplifier, family's thing networking device, intelligent wrist-watch and intelligent wearable equipment etc.. How to generate the earthquake early warning information according to the earthquake information by the earthquake early warning center server 202 or the earthquake early warning terminal 203 is not described in more detail herein, and reference may be made to the prior art.

Referring to fig. 3, a flowchart illustrating steps of a method for reporting earthquake early warning according to an embodiment of the present invention is shown, where the method specifically includes the following steps:

step S301, generating a epicenter position description audio according to the epicenter position in the earthquake early warning information;

in the embodiment of the invention, the epicenter position description audio broadcast is the administrative region description of the epicenter position place name, namely the epicenter position is described in a mode of ' provincial place name plus district-county place name ' for short ', such as ' Sichuan Changning ', ' inner Mongolian Xinghui ', and the process does not broadcast words such as ' province ', ' national autonomous region ', ' county ', and the like, so that the simplicity and the clarity of the epicenter position information are ensured, and a user can quickly identify and know where the earthquake happens currently in the shortest time.

In specific implementation, the epicenter position in the earthquake early warning information can be longitude and latitude of the epicenter position, and can also be administrative region description of a place name of the epicenter position. When the epicenter position in the earthquake early warning information refers to the longitude and latitude of the epicenter position, the earthquake early warning terminal can determine the geographic position of the earthquake according to the longitude and latitude through analytic calculation, and further determine the administrative region description of the epicenter position and place name. After the administrative area description of the earthquake center position place name is determined, the earthquake early warning terminal converts the 'administrative area description of the earthquake center position place name' in a text format into a voice format through a voice generation technology, and therefore the earthquake center position description audio is obtained. For example, the epicenter location describes the audio as the voice packet "Sichuan Changning".

Step S302, when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio;

after the earthquake center position description audio is generated, the audio is directly broadcasted without waiting for the generation of subsequent early warning voices, so that the user can obtain where the earthquake occurs in the first time, the distance of the earthquake center can be judged, and a reasonable risk avoiding scheme can be adopted in time. Then, in order to ensure the completeness and continuity of the earthquake early warning content, when the earthquake early warning terminal broadcasts the earthquake middle position description audio, the pre-stored connectivity description audio is broadcasted next.

The articulation description audio is audio content which confirms that the earthquake happens currently to the user and articulates the seismographic description audio. Specifically, the articulation description audio should include words that articulate the epicenter location description audio, such as words such as "earthquake", "earthquake occurrence", or magnitude description, as well as words that represent the user's current location, describe the audio in a smooth articulation sense, and words that represent the user's current location may be "local" or "receiving location description". The receiving position is different from the epicenter position, and the receiving position description does not have a provincial place name, but only broadcasts a city-level place name and a county-level place name or only broadcasts an abbreviation of the city-level place name, such as 'Bijie city', in order to reduce the number of unnecessary words for voice broadcasting.

In an embodiment of the invention, the connective description audio comprises a receiving location description, and when the epicenter location description audio is reported, the pre-stored connective description audio with the receiving location description can be reported, so that after the seismographic description audio is linked, the degree of influence of the earthquake on the current administrative area can be clearly indicated to the user. In specific implementation, the earthquake early warning terminal needs to determine the location description of a receiving place in advance, and can determine the location description in the following way: when the earthquake early warning terminal is equipment provided with a positioning module, the position can be positioned in real time through the earthquake early warning terminal; when the earthquake early warning terminal is fixed at a certain position, the earthquake early warning terminal can be obtained by selecting and inputting the position or longitude and latitude of the earthquake early warning terminal by an installer or a user, and can be directly determined by the earthquake early warning center server based on the longitude and latitude of the position where the earthquake early warning terminal is registered and then sent to the earthquake early warning terminal. After the receiving position description is determined, the earthquake early warning terminal converts words and phrases connecting the earthquake center position description audio frequency and the receiving position description into voice together from characters, and the voice is used as a voice packet to be stored independently so as to be convenient for later storage and broadcast.

In an embodiment of the present invention, the adaptive description audio further includes a magnitude description, and the earthquake early warning terminal may perform the following method: firstly, according to an early warning magnitude in newly obtained earthquake early warning information, determining a magnitude description corresponding to the early warning magnitude; and then when the epicenter position description audio is broadcasted, broadcasting the pre-stored connectivity description audio with the magnitude description. The early warning magnitude is a word representing the intensity of the earthquake, such as an x-magnitude, and the embodiment of the invention replaces fixed descriptions such as 'nearby earthquake' and the like by converting the early warning magnitude into corresponding magnitude descriptions, so that more earthquake information is broadcast to a user in a shorter earthquake early warning time. The earthquake magnitude description can be one of 'slight earthquake', 'strong earthquake' and 'strong earthquake', the three audio format files are prestored in the earthquake early warning terminal, and the three earthquake magnitude descriptions are obtained according to the early warning earthquake magnitude judgment in the earthquake early warning information. Wherein, the corresponding magnitude description relationship is shown in table 1.

TABLE 1

For example, the audio is described as voice packets "earthquake, local will";

for example, the articulation description audio is a voice packet "earthquake near, Pitch City will";

for example, the connectively descriptive audio is the voice packet "light earthquake" and the voice packet "local general";

by way of example, the articulation describes audio as a voice packet "slight earthquake" and a voice packet "Bijie City Vital".

It should be noted that the words "nearby", "occurring", etc. are intended to sound more coherent with the epicenter location description audio, and the addition of the word "will" indicates that the earthquake is about to be affected locally, and sounds more coherent with the seismographic description audio.

Step S303, when the linkage description audio is reported, determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest earthquake early warning information, and at least broadcasting prestored earthquake sensation description audio with the earthquake sensation description grade;

wherein the epicenter position description audio, the articulation description audio and the seismograph description audio are independent voice packets.

And when the linkage description audio is broadcasted, the earthquake early warning terminal determines the latest earthquake early warning information which is obtained currently, extracts the earthquake influence degree in the earthquake early warning information so as to judge the earthquake sense description level corresponding to the earthquake influence degree, and then selects a earthquake sense description audio with the earthquake sense description level from an earthquake sense description broadcast library which is prestored in an audio format according to the earthquake sense description level for broadcasting. In the process, the moment of judging the earthquake sensation description level and the moment of starting broadcasting the earthquake sensation description audio are almost the same (only different by millisecond level), so that the broadcasted earthquake sensation description audio is obtained according to the earthquake influence degree in the earthquake early warning information which is obtained at present newly. In addition, in the prior art, before broadcasting the voice insert package, the voice of the voice insert package needs to be judged again and synthesized according to each piece of earthquake early warning information, and in the invention, the earthquake sensation description grade is judged according to the latest earthquake early warning information only at the moment of broadcasting the earthquake sensation description, so that the times of judging the earthquake sensation description can be reduced, and the times of voice synthesis can be reduced. According to the embodiment of the invention, because the text needing to be converted into voice is shortened, the failure probability is reduced when the text format is converted into the audio format.

In practice, the earthquake influence degrees of different earthquake distances of the same earthquake are different, and the corresponding earthquake feeling description grades are also different. Referring to table 2, a corresponding relationship between the estimated intensity and the seismic sensation description level when the estimated intensity is used to represent the seismic influence degree in an embodiment of the present invention is shown.

TABLE 2

Prediction of intensity	Grade of the vibration sense
		Estimated intensity of less than 3.0 DEG	Slight vibration "
The estimated intensity is less than 5.0 degrees and less than or equal to 3.0 degrees	Strong sense of vibration "
		Estimated intensity is more than or equal to 5.0 DEG	Strong sense of vibration "

Of course, the seismic sensations can also be described according to the corresponding relationship between the estimated intensity and the seismic sensation description level shown in table 3.

TABLE 3

Estimated intensity of 0 DEG	"No vibration"
		0 degree < estimated intensity < 2.0 degree	"may feel earthquake"
2.0 degree or less estimated intensity less than 3.0 degree	Slight vibration "
		The estimated intensity is less than 5.0 degrees and less than or equal to 3.0 degrees	"Strong sense of vibration"
Estimated intensity of less than or equal to 5.0 degrees and less than 7.0 degrees	"may be damaged"
		Estimated intensity is more than or equal to 7.0 DEG	"has a damage"

According to the embodiment of the invention, the estimated intensity is divided into a plurality of different levels, and the earthquake sensation description audio with corresponding earthquake sensation description levels is broadcasted according to the level of the estimated intensity of the receiving place. The advantages are that: at present, the public generally knows the earthquake magnitude and is strange to the estimated intensity, and the public can judge the earthquake intensity of the location without the unknown estimated intensity and directly determine the intensity of the earthquake intensity, so that the public can make a reasonable risk avoidance decision in time, and the uncertainty of the user on the degree to be influenced is reduced.

For example, the following tremological description audio is specifically prestored:

1) the feeling of vibration is slight, and the danger is avoided;

2) the feeling of earthquake is strong, and the danger is avoided;

3) the feeling of earthquake is strong, and the danger is avoided.

Wherein, the 'attention risk avoidance' in the vibration description audio is used for prompting the user to pay attention to the risk avoidance.

Since in the above embodiment, the epicenter position is generated in real time, there may be a problem of text-to-speech failure, and therefore, for this problem, the present invention further provides the following method in another embodiment:

judging whether the epicenter position description audio is successfully generated or not;

if the generation of the epicenter position description audio fails, extracting a pre-stored epicenter position fuzzification description audio;

and broadcasting the blurred description audio of the epicenter position in a time period of broadcasting the description audio of the epicenter position.

The epicenter position fuzzification description audio is audio in which a fuzzification description of the epicenter position is made. For example, "Sichuan Changning" or "Sichuan North" originally, etc. change into "periphery" in this embodiment to fuzzify specific epicenter position, thereby make originally broadcast the time quantum of reporting epicenter position, and report the seism description the same, all be the voice packet broadcast of prestoring and need not to generate.

The method comprises the steps that in consideration of the problem that the epicenter position description audio is likely to fail to be generated, the epicenter position fuzzification description audio is stored in an earthquake early warning terminal in advance, so that when the epicenter position description audio is judged to fail to be generated, the epicenter position fuzzification description audio can be adopted to replace the epicenter position description audio to be broadcasted, and therefore completeness and smoothness of earthquake early warning are guaranteed. Judging whether the epicenter position description audio is successfully generated or not, wherein the epicenter position description audio can be actively and continuously generated when the epicenter position is obtained, and a coping strategy is timely made; alternatively, an alternative strategy of describing the audio by epicenter position fuzzification can be performed passively according to a generation failure signal of the epicenter position description audio.

The foregoing describes in detail how to split an original complete voice insertion packet into at least small voice packets, i.e., a epicenter position description audio, a connective description audio, and a tremological sensation description audio, and then, the embodiment of the present invention describes a broadcasting process of the small voice packets.

In the embodiment of the invention, inter-cut interval duration and voice broadcast duration are set; wherein the inter-cut interval duration is at least greater than the generation duration of the epicenter position description audio;

broadcasting a pre-stored countdown prompting audio in the inter-cut interval duration, and at least sequentially broadcasting the epicenter position description audio or the epicenter position fuzzification description audio, the articulation description audio and the earthquake sensation description audio in the voice broadcasting duration.

In the embodiment of the present invention, the duration is used to broadcast a small voice packet, namely, the epicenter position description audio or the epicenter position fuzzification description audio, the articulation description audio, and the earthquake sensation description audio, so as to replace the complete voice insertion packet to notify the user of the complete earthquake early warning message, and solve the technical problems mentioned in the background technology of the embodiment of the present invention.

The inter-cut duration indicates the duration between two complete voice inter-cut packets. In the embodiment of the invention, the inter-cut interval duration is at least longer than the generation duration of the epicenter position description audio, so that the epicenter position description audio can be generated in the time period of the inter-cut interval duration to ensure that the epicenter position description audio can be successfully broadcast in the time period of the voice broadcast duration. In the embodiment of the invention, the pre-stored countdown prompting audio is also broadcast in the inter-cut interval duration, so that the user can be informed of how long the current earthquake transverse wave reaches the position of the earthquake transverse wave in addition to the voice early warning.

Count down suggestion audio frequency prestore in the storehouse is reported in the count down suggestion, the example, can include that three kinds of report packages correspond different earthquake influence degrees respectively, and concrete prestore:

first count-down suggestion is reported package: dingdong, 1009896 … … 6058 … … 20181614121098 … … 1 whining sound;

the second countdown prompts the broadcast packet: dingdong, 100 tic, 98 tic, 96 … … 60 tic, 58 tic, 56 … … 20 tic, 18 tic, 16 tic, 14 tic, 10 tic, 9 tic, 8 … … 3 tic, 2 tic, 1 tic;

the third countdown prompts the broadcast packet: dingdong, 100 tic 98 tic 96 … … 60 tic 58 tic 56 … … 20 tic 18 tic 16 tic 14 tic 12 tic 10 tic 9 tic 8 … … 3 tic 2 tic 1 tic.

When the epicenter position description audio or the epicenter position fuzzification description audio, the connectivity description audio and the earthquake sensation description audio are at least sequentially broadcasted within the voice broadcasting duration, different audio tracks can be adopted for broadcasting, and the method and the device are optional:

(1) broadcasting the epicenter position description audio by a first audio track, broadcasting the articulation description audio by a second audio track, and broadcasting the seismographic description audio by a third audio track;

(2) sequentially broadcasting the epicenter position description audio, the articulation description audio and the seismograph description audio by using the same audio track;

(3) the epicenter position description audio and the articulation description audio are sequentially broadcasted by a first audio track, and then the seismographic description audio is broadcasted by a second audio track.

Meanwhile, the embodiment of the invention can also independently broadcast the countdown prompting audio by using one audio track. The present invention will now be described by way of examples of the above (1) to (3).

Example 1: aiming at (1), Changning earthquake, Bijie city estimated intensity of 4.0, early warning time of 31 seconds:

track a: dingdong, 30 tic 28 tic 24 tic 22 tic 20 tic 18 tic 16 tic 14 tic 12 tic 10 tic 9 tic 8 … … singing sound (pre-stored countdown prompt)

Where track B ends and track C begins, and track C ends and track D begins.

Track B: (25 start broadcasting) Sichuan Changning (synthetic voice packet);

track C: (24, starting broadcasting) nearby earthquakes, and a Bijie city (pre-storing voice packets);

track D: (22, judging and obtaining the jolt description and starting to broadcast) the jolt is strong, and taking care of avoiding danger (pre-storing voice packets);

track B: (14 start broadcasting) Sichuan Changning (synthetic voice packet);

track C: (13, starting broadcasting) nearby earthquakes, and a Bijie city (pre-storing voice packets);

track D: (11, judging and obtaining the seismograph description and starting to broadcast) the seismograph is strong, and taking care of avoiding danger (pre-storing voice packets).

With respect to example 1, it is noted that: in the actual broadcasting process, for example, the start and end times of the track C and the track D are not necessarily integers such as 24 or 22, but may be values such as 23.85 and 22.14, so that the tracks need to be quickly connected when the previous track ends, so that the user can sound more naturally. This is written here specifically for convenience in describing the concatenation of the broadcast start between tracks. The numbers appearing in the following examples can be explained with reference to the figures, which are not described in detail later.

In example 1, in the sound track B, when the countdown broadcasting is started to 25, the epicenter position description audio (for example, sikangning) is broadcasted, then the "sikangning" needs to be synthesized into characters before the broadcasting is 25 and converted into an audio format, and therefore, in a time period in which the remaining duration of the earthquake early warning time is reduced from 31 seconds to 25 seconds, the nth epicenter position place name in the nth earthquake position is extracted from the latest report (i.e., the nth earthquake early warning information) and converted into the nth epicenter position description audio in the audio format, so that the broadcasting is performed at 25 ℃. Similarly, at the time of broadcasting 14, according to the latest report in the time period that the residual time of the earthquake early warning time is reduced from 25 seconds to 14 seconds (in the time period that the residual time of the earthquake early warning time is reduced from 25 seconds to 14 seconds, compared with the time period that 31 seconds is reduced to 25 seconds, the K-report earthquake early warning information is updated, and the latest report is the N + K-report earthquake early warning information), the position place name in the N + K-report earthquake early warning information is converted into the N + K-report earthquake middle position description audio in the audio format, and the broadcasting is carried out at the time of 14. Wherein N is a positive integer greater than or equal to 1, and K is a positive integer greater than or equal to 0.

In specific implementation, the 'nearby earthquake' in the audio track C can also be changed to broadcast one of three voice packets, namely 'slight earthquake', 'strong earthquake' and 'strong earthquake'. When linkage description audio of the vibration level description is broadcasted, the vibration level description is judged according to the latest early warning vibration level obtained at the current moment, and a corresponding vibration level description voice packet is obtained for broadcasting. For example, in example 1, the current latest warning magnitude is determined at both times 24 and 13 and rebroadcast. The following are exemplified:

track B: (25 start broadcasting) Sichuan Changning (synthetic voice packet);

track C: (24, judging the magnitude description and starting to broadcast) a strong earthquake (or a strong earthquake), and (pre-storing voice packets) in the Bijie city;

track D: (22, judging and obtaining the jolt description and starting to broadcast) the jolt is strong, and taking care of avoiding danger (pre-storing voice packets);

track B: (14 start broadcasting) Sichuan Changning (synthetic voice packet);

track C: (13 judge the magnitude description and start broadcasting) Strong earthquake (or Strong earthquake), Bijie City (prestore voice packet)

Track D: (11, judging and obtaining the seismograph description and starting to broadcast) the seismograph is strong, and taking care of avoiding danger (pre-storing voice packets).

Example 2: aiming at (2), Changning earthquake, Bijie city estimated intensity is 4.0, and early warning time is 31 seconds:

track a: dingdong, 30 tic 28 tic 24 tic 22 tic 20 tic 18 tic 16 tic 14 tic 12 tic 10 tic 9 tic 8 … … singing sound (pre-stored countdown prompt)

Track B: (27 starts broadcasting) Sichuan Changning (synthesized voice packet), (26 starts broadcasting) nearby earthquake, Bijie city (prestore voice packet), (24 judges and obtains earthquake feeling description and starts broadcasting) earthquake feeling is stronger, and danger avoidance (prestore voice packet) is paid attention (22 is finished);

track B: (17 begin broadcast) Sichuan Changning (synthetic voice packet), (16 begin broadcast) nearby earthquake, Bijie city (prestore voice packet), (14 judge and obtain the joke description and begin broadcast) the sense of earthquake stronger, pay attention to avoid danger (prestore voice packet) (12 finishes). Referring to fig. 4, there is shown a schematic illustration of the break-in of the earthquake warning in example 2 of the present invention. It should be noted that, within the same voice broadcasting time length, the respective independent broadcasting time lengths of the voice packet 1, the voice packet 2, and the voice packet 3 are not fixed, and the segmentation in fig. 4 simply indicates that the voice packet 1, the voice packet 2, and the voice packet 3 are respectively broadcasted, and does not have the meaning of equally dividing the time axis.

Example 3: aiming at (3), the intensity of the Changning earthquake and the Wuhou district is estimated to be 2.9 degrees, and the early warning time is 61 seconds:

track a: dingdong, 6058 … 20181614121098 … … 1 whining sound (pre-stored countdown prompt);

track B: (55 start broadcasting) Sichuan Changning (synthetic voice packet) nearby earthquake, Wuhou district will (52 end) (synthetic voice packet);

track C: (52 judging and acquiring the seismograph description and starting to broadcast) the seismograph is slight, and taking care of avoiding danger (pre-storing voice packets);

track B: (43 start broadcasting) the earthquake around Sichuan Changning (synthetic voice packet), Wuhou district will (synthetic voice packet);

track C: (40 judging and obtaining the seismograph description and starting to broadcast) the seismograph is slight, and taking care of avoiding danger (pre-storing voice packets);

track B: (31 start broadcasting) the earthquake around Sichuan Changning (synthetic voice packet), Wuhou district will (synthetic voice packet);

track C: (28 judge and obtain the joke description and start broadcasting) the joke is slight, pay attention to avoid danger (pre-store voice packet).

Example 4: in the time period of broadcasting the epicenter position description audio, broadcasting the prestored epicenter position fuzzification description audio, and solving the technical problem that when the voice insertion packet audio is synthesized in the prior art, the text-to-voice or text synthesis fails in text conversion voice or synthesis. Early warning time 60 seconds:

track a: dingdong, 6058 … 20181614121098 … … 1 whining sound (pre-stored countdown prompt);

track B: 54 begin broadcasting) a surrounding earthquake, and a certain area will (pre-store voice packets);

track C: (52 judging and acquiring the seismograph description and starting to broadcast) the seismograph XX and paying attention to risk avoidance (pre-storing voice packets);

track B: (43 start broadcasting) peripheral earthquake, and a certain area (pre-storing voice packet);

track C: (40, judging and acquiring the seismograph description and starting to broadcast) the seismograph XX and paying attention to risk avoidance (pre-storing voice packets);

track B: (31 starting to broadcast) peripheral earthquakes, and storing voice packets in a certain area;

track C: (28 judge and retrieve the seismograph description and start broadcasting) the seismograph XX, pay attention to risk avoidance (pre-store voice packets).

Because all voice packets in the example 4 are prestored, the time of the inter-cut interval can be set to be 0-3 seconds, and the countdown prompt is broadcasted while the voice packets are broadcasted, so that the contents of more voice inter-cut packets are broadcasted in precious earthquake early warning time, a user only needs to listen to the next voice broadcast packet in a shorter time, and in addition, the updated earthquake early warning message can be broadcasted as soon as possible, and the time for broadcasting the updated earthquake early warning message after delay is shortened as much as possible. As shown in example 5:

(warning time 61 seconds), assuming a spot break duration of 3 seconds:

track a: dingdong, 6058 … … 20181614121098 … … 1 whining sound (pre-stored countdown prompt);

track B: (58 start broadcast) peripheral earthquake, and a certain area will (55 finish) (pre-storing voice packet);

track C: (55, judging and acquiring the seismograph description and starting to broadcast) the seismograph XX, and paying attention to risk avoidance (pre-storing voice packets) (53, ending);

track B: (start broadcast-end broadcast): (50-47) (42-39) (34-31) (26-23) (18-15) (10-7);

track C: (start broadcast-end broadcast): (47-45)(39-37)(31-29)(23-21)(15-13)(7-5)

It is apparent that embodiment 5 broadcasts a larger number of voice insertion packets than embodiment 4.

In summary, in the embodiment of the present invention, since the time points for judging the epicenter position and the earthquake description are different, the time for judging the earthquake description level and the time for starting broadcasting the earthquake description audio are almost the same time (only different by millisecond level), so that the broadcasted earthquake description audio is obtained according to the earthquake influence degree in the currently and newly obtained earthquake early warning information. The earthquake sensation description grade is judged only according to the latest earthquake early warning information at the moment of earthquake sensation description broadcasting, and the earthquake sensation description is not real-time text-to-audio synthesis any more, so that the system processing time brought by the synthesis time is reduced. Therefore, the embodiment of the invention can achieve the aims of more quickly reporting the latest earthquake influence degree, shortening the voice synthesis response time, effectively responding to the situation of voice generation failure, reducing the judgment times, reducing the voice synthesis times and reducing the interruption of voice broadcasting.

It is also noted that while for simplicity of explanation, the method embodiments are shown as a series of acts, those skilled in the art will appreciate that the present invention is not limited by the illustrated ordering of acts, as some steps may occur in other orders or concurrently depending on the embodiment. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

Based on the same inventive concept, referring to fig. 5, a schematic structural diagram of an earthquake early warning and broadcasting device according to an embodiment of the present invention is shown, and the device may specifically include the following modules:

the epicenter position description audio generation module 501 is configured to generate an epicenter position description audio according to an epicenter position in the earthquake warning information;

a linkage description audio broadcasting module 502, configured to broadcast a pre-stored linkage description audio when the epicenter position description audio is broadcasted;

a seismic description audio broadcasting module 503, configured to determine a corresponding seismic description level according to the degree of influence of the earthquake in the latest earthquake warning information when the connective description audio is broadcasted, and broadcast at least a pre-stored seismic description audio with the seismic description level;

wherein the epicenter position description audio, the articulation description audio and the seismograph description audio are independent voice packets.

In an embodiment of the invention, the connective description audio comprises a magnitude description, the apparatus further comprising:

the earthquake level description determining module is used for determining the earthquake level description corresponding to the early warning earthquake level according to the early warning earthquake level in the newly obtained earthquake early warning information;

the adaptive description audio broadcasting module 502 includes:

and the earthquake magnitude description broadcasting submodule is used for broadcasting the pre-stored linkage description audio with the earthquake magnitude description when the earthquake location description audio is broadcasted.

In an embodiment of the present invention, the adaptive description audio includes a receiving location description, and the apparatus further includes:

a receiving location description determining module for determining a receiving location description;

the adaptive description audio broadcasting module 502 includes:

and the receiving position description broadcasting submodule is used for broadcasting the pre-stored linkage description audio with the receiving position description when the epicenter position description audio is broadcasted.

In an embodiment of the present invention, the apparatus further includes:

the audio generation judging module is used for judging whether the epicenter position description audio is successfully generated or not;

the fuzzification description audio extraction module is used for extracting the prestored epicenter position fuzzification description audio when the generation of the epicenter position description audio fails;

and the fuzzification description audio broadcasting module is used for broadcasting the fuzzification description audio of the epicenter position in a time period of broadcasting the epicenter position description audio.

In an embodiment of the present invention, the apparatus further includes:

the time length setting module is used for setting the inter-cut time length and the voice broadcasting time length; wherein the inter-cut interval duration is at least greater than the generation duration of the epicenter position description audio;

the voice broadcasting module is used for broadcasting prestored countdown prompting audios in the inter-cut interval duration, and at least sequentially broadcasting the epicenter position description audios or the epicenter position fuzzification description audios, the connectivity description audios and the earthquake sensation description audios in the voice broadcasting duration.

In an embodiment of the present invention, the voice broadcasting module includes:

the first broadcasting submodule is used for broadcasting the epicenter position description audio frequency through a first audio track, broadcasting the connectivity description audio frequency through a second audio track, and broadcasting the seismographic sensation description audio frequency through a third audio track;

or, the second broadcasting sub-module is configured to broadcast the epicenter position description audio, the connectivity description audio, and the earthquake sensation description audio in sequence with the same audio track;

or the third broadcasting submodule is used for firstly broadcasting the epicenter position description audio and the connectivity description audio in sequence by using the first audio track and then broadcasting the seismographic description audio by using the second audio track.

Based on the same inventive concept, an embodiment of the present invention provides a computer-readable storage medium, on which a computer program is stored, wherein the computer program, when executed by a processor, implements the steps in the earthquake early warning broadcasting method according to the embodiment of the present invention.

Based on the same inventive concept, an embodiment of the present invention provides an electronic device, which includes a memory, a processor, and a computer program stored in the memory and running on the processor, and is characterized in that the processor implements the steps in the earthquake early warning broadcasting method according to the embodiment of the present invention when executing the steps.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, apparatus, or computer program product. Accordingly, embodiments of the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, embodiments of the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

Embodiments of the present invention are described with reference to flowchart illustrations and/or block diagrams of methods, terminal devices (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing terminal to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing terminal, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing terminal to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing terminal to cause a series of operational steps to be performed on the computer or other programmable terminal to produce a computer implemented process such that the instructions which execute on the computer or other programmable terminal provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications of these embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the embodiments of the invention.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be 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. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal 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 terminal. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or terminal that comprises the element.

The method, the device, the storage medium and the electronic device for earthquake early warning broadcast provided by the invention are described in detail, specific examples are applied in the text to explain the principle and the implementation mode of the invention, and the description of the examples is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. An earthquake early warning broadcasting method is characterized by comprising the following steps:

generating an epicenter position description audio according to the epicenter position in the earthquake early warning information;

when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio;

when the linkage description audio is reported, determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest acquired earthquake early warning information, and at least broadcasting prestored earthquake sensation description audio with the earthquake sensation description grade;

wherein the epicenter position description audio, the articulation description audio and the seismograph description audio are independent voice packets.

2. The method of claim 1, wherein the engagement description audio comprises a magnitude description, the method further comprising:

determining a seismic level description corresponding to the early warning seismic level according to the early warning seismic level in the newly obtained earthquake early warning information;

when finishing broadcasting the earthquake position description audio, broadcast the linkage description audio of prestoring, include:

and when the epicenter position description audio is broadcasted, broadcasting the pre-stored connectivity description audio with the magnitude description.

3. The method of claim 1, wherein the engagement description audio comprises a recipient location description, the method further comprising:

determining a receiving location description;

when finishing broadcasting the earthquake position description audio, broadcast the linkage description audio of prestoring, include:

and when the epicenter position description audio is broadcasted, broadcasting a pre-stored connectivity description audio with the receiving position description.

4. The method of claim 1, further comprising:

judging whether the epicenter position description audio is successfully generated or not;

if the generation of the epicenter position description audio fails, extracting a pre-stored epicenter position fuzzification description audio;

and broadcasting the blurred description audio of the epicenter position in a time period of broadcasting the description audio of the epicenter position.

5. The method of claim 1 or 4, further comprising:

setting inter-cut interval duration and voice broadcast duration; wherein the inter-cut interval duration is at least greater than the generation duration of the epicenter position description audio;

broadcasting a pre-stored countdown prompting audio in the inter-cut interval duration, and at least sequentially broadcasting the epicenter position description audio or the epicenter position fuzzification description audio, the articulation description audio and the earthquake sensation description audio in the voice broadcasting duration.

6. The method of claim 5, wherein broadcasting at least the epicenter location description audio or the epicenter location obfuscation description audio, the articulation description audio, and the seismographic description audio in sequence for the voice broadcast duration comprises:

broadcasting the epicenter position description audio by a first audio track, broadcasting the articulation description audio by a second audio track, and broadcasting the seismographic description audio by a third audio track;

or, the epicenter position description audio, the articulation description audio and the seismograph description audio are sequentially broadcasted by the same audio track;

or the epicenter position description audio and the articulation description audio are sequentially broadcasted by a first audio track, and then the seismographic description audio is broadcasted by a second audio track.

7. The utility model provides a earthquake early warning reports device which characterized in that, the device includes:

the epicenter position description audio generation module is used for generating epicenter position description audio according to the epicenter position in the earthquake early warning information;

the linkage description audio broadcasting module is used for broadcasting the linkage description audio which is stored in advance when the epicenter position description audio is broadcasted;

the earthquake sensation description audio broadcasting module is used for determining a corresponding earthquake sensation description grade according to the earthquake influence degree in the latest acquired earthquake early warning information when the connective description audio is broadcasted, and at least broadcasting the prestored earthquake sensation description audio with the earthquake sensation description grade;

wherein the epicenter position description audio, the articulation description audio and the seismograph description audio are independent voice packets.

8. The apparatus of claim 7, further comprising:

the audio generation judging module is used for judging whether the epicenter position description audio is successfully generated or not;

the fuzzification description audio extraction module is used for extracting the prestored epicenter position fuzzification description audio when the generation of the epicenter position description audio fails;

and the fuzzification description audio broadcasting module is used for broadcasting the fuzzification description audio of the epicenter position in a time period of broadcasting the epicenter position description audio.

9. A computer-readable storage medium having stored thereon a computer program, wherein the program, when executed by a processor, performs the steps of the method of earthquake warning announcement according to any of claims 1-6.

10. An electronic device comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein the processor when executed performs the steps of the method of earthquake warning reporting according to any of the claims 1-6.

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