KR100210445B1 - Sound alarm system having multi-tone color - Google Patents

Abstract

The present invention relates to a voice alarm system that is applied to a large-scale automation system such as a ship or an aircraft, and to determine the grade corresponding to the severity of the state or predicted problems detected in the whole process of the large-scale system, A system for performing an alarm with a synthesized sound of a tone.

Conventional alarm systems used in large-scale systems alert alarm conditions using instructions, numeric indicators, or monitor displays, making it very difficult to determine, analyze, and respond to the urgency of the situation or the exact situation when the actual situation occurs.

The present invention is to determine the grade as a crisis situation, multi-level situation, normal situation, reference situation, etc. in consideration of their severity among the state or predicted problems detected in a large-scale process control system, pitch change to have a proper tone to the grade, It provides a voice alarm system that alerts the system status with a synthesized sound having a sense of urgency, softness, and rigidity through energy control and duration control.

Description

Voice alarm system with various tones

The present invention relates to a voice alarm system that provides a voice alarm for abnormal status of a system in a large-scale automation system such as a ship or an aircraft. In particular, the situation is classified into a plurality of classes corresponding to the seriousness of the situation, and the system abnormality or situation The present invention relates to a voice alarm system having a variety of tones that perform an alarm on the synthesized sound by forming a synthesized sound with various tones that give a sense of urgency in response to the determined grade. .

Background Art In the process control system of a large-scale automation system such as a ship or an aircraft, an alarm system is required as a means for the operator to grasp the state of each part of the system.

Such a system has a sensor for acquiring information to be monitored for each part and a process and a network for transmitting the information detected from the sensor to the main control system, and collects, analyzes and judges the information detected by the sensor. It is automated to verify the abnormality and take necessary measures (alarms, etc.).

By the way, the conventional alarm system is a technology for alarming the status of each process, part using a guide or a numeric display or computer monitor display.

However, the entire process of large-scale automation systems such as ships and aircrafts, and process control systems requires more than hundreds of situation diagnosis and grasping, so it is actually very difficult to grasp the status with numeric indicators, instructions, and monitor displays. Accurate situation identification is also impossible.

In other words, it is difficult to respond immediately when an abnormality occurs and it is difficult to identify the location, cause, and countermeasures of the abnormality, and thus it is easy to swell in case of an accident, and may cause an increase in the magnitude of damage.

In particular, large process control systems used in aircraft or ships have many components and complex structures, which require a great deal of manpower and time to understand and process all of these components.

In addition, when an abnormality occurs, it is not immediately understood the site of the abnormality or failure to predict in advance the site where the abnormality may cause serious damage to human life as well as serious material damage.

In order to accurately understand the status of various complex process control systems and reflect the results to the next process, many problems have been encountered in the conventional method of simply displaying the measured results in numbers or instructions and sounding an alarm (buzzer). Will follow.

In addition, under dangerous circumstances, it is accompanied by a disadvantage that a lot of difficulties arise in immediate response.

Conventional alarm systems rely on visual means, such as instructions, numeric indicators, or monitor displays, which make it difficult to identify the urgency of the situation, accurate situation determination, countermeasures, and problems, and make it difficult to respond immediately. Because the location, cause, and countermeasures were difficult to identify, the cause of the damage was further increased.

The present invention provides a system for voice alarm of the status of each part occurring in the whole process of a large-scale system.

The present invention divides the state of each part occurring in the whole process of the large-scale system into a plurality of grades according to the urgency, and the user responds to the situation by executing an alarm with the synthesized sound of the tone giving the appropriate tension according to each grade. Provides a voice alarm system with a variety of tones to promptly respond to, and promptly respond appropriately.

The present invention determines the grade of each part occurring in the whole process of the large-scale system according to the urgency, the crisis situation, the multi-level situation, the normal situation, the reference situation, etc. Provides a voice alarm system having a variety of tones that can inform.

1 is a block diagram of a voice alarm system of the present invention.

2 is a diagram showing the procedure of voice alarm processing in the present invention.

Table 1 is a table showing an example of the voice alert message used in the present invention.

Table 2 is a table of voice alert messages classified as fixed and variable in the present invention.

Table 3 is a table showing an experimental example of the situation sensitivity according to the tone in the present invention.

The voice alarm system of the present invention is connected to the system network and receives the status information or the necessity of alarm generation from the sensors attached to each engine, and determines the alarm level and appropriate tension corresponding to the determined alarm level. Means for synthesizing an alarm message of a tone giving a tone, means for providing the voice information for determining the alarm class and voice synthesis as a database, and receiving and storing the synthesized voice message as a voice alarm broadcasting system. And means for performing alarm control by converting the stored voice message into an analog signal, and voice output means for filtering and appropriately amplifying the alarm voice signal output from the alarm control means and outputting the same to a speaker. .

Figure 1 shows one embodiment of such a voice alarm system of the present invention.

The local circuit network 1 is a network for grasping the state of sensors attached to each engine of a large-scale system such as a ship or an aircraft, and receiving the state information or the necessity information of an alarm generation. The voice alarm system of the present invention is connected thereto. do.

The host system 2 is connected to the local circuit network 1 and receives the detection signals to determine whether to execute an alarm, and to determine the type of alarm and the class corresponding to the alarm, and the sense of urgency corresponding to the determined class. Controls to compose synthesized sound with tone.

The host system 2 uses an IBM-PC host system, and RAM 5 for data processing is connected in consideration of scalability.

In addition, the alarm class is divided into four classes of crisis, multi-level, normal, and reference, and the pitch half, amplitude symmetry, Use duration adjustment by pitch search.

In this way, the speech pitch, duration, and energy adjustments are used to create an appropriate urgency synthesized message.

The first storage means 3 and the second storage means 4 are connected to the host system 1 to generate a synthesized tone message.

The first storage means 3 is constituted by a ROM in which a voice database is constructed, and the second storage means 4 is constituted by a program ROM having a speech synthesis rule.

Since voice database is an important part that affects the sound quality of the synthesized alarm, it secures the characteristics of masculinity, femininity, softness, and rigidity to have various tones according to the type of alarm and the environment.

To this end, in the present invention, the suggestive sentence pronunciation of a well-known announcer in a public broadcasting network is selected as a voice sample, and in a phonological sentence, in consideration of the grammatical characteristics of the Korean phoneme, a triphone unit, a half syllable unit, and a syllable unit are selected at 11 kHz Sampled and 12-bit linear quantized to be used as synthetic data.

At present, there are more than 2000 warning sentences used in ships, and 30 of them are shown in Table 1.

Even if the length of one sentence is about 1.7 seconds, if these sentences are analyzed and stored directly in a synthetic method, 1.7 seconds / sentences × 2000 sentences × 132 kbits / sec = 448,800 kbits require considerable memory capacity.

When the speaker is diversified or the type of warning sentence is increased, the capacity of the first storage means 3 is further increased.

Therefore, in the present invention, as shown in Table 2, these sentences are classified into variable and fixed forms and divided into approximately nine sentence groups.

In this case, even if more than 2000 sentences are actually used, the basic sentences can be reduced to less than 200. Therefore, the memory capacity can be significantly reduced, and even if the type of warning sentence is increased, it belongs to the basic sentence frame. The memory requirement of the memory can be maintained as it is.

On the other hand, the speech synthesis by the second storage means 4 having the speech synthesis rule is performed as follows.

Various collected alarm signals entering the host system 2 through the local circuit network 1 extract the fixed message corresponding to the alarm from the database of the first storage means 3 and insert variable data into the corresponding message. To synthesize the completed alert message.

The synthesized alert message is prioritized in the host system 2, and the grade of the broadcast voice alert is also divided into the above-mentioned crisis situation, emergency situation, normal situation, reference situation, and the like. Have a reasonable sense of urgency.

That is, as shown in FIG. 2, when the message class, the synthesis of the variable words, and the status grade according to the status alarm are determined, the voice pitch is determined by the pitch parameter selection in the rhyme controller, and the voice is selected by selecting the duration parameter. The duration is determined, and the urgency (strength) of the voice is selected by the energy parameter selection to complete the alarm message of the tone having the urgency corresponding to the status class.

In order to assign various tones like this, the conventional pitch half method, amplitude symmetry method, and duration adjustment method by pitch search are used.

In order to synthesize the above rules, it is efficient to implement the basic unit of synthesis in as small amount as possible, and use the triphone synthesis method as a unit to obtain high sound quality without damaging the clarity and naturalness of phonology. It was.

The synthesis method of the triphone unit can reduce the voice database capacity of the first storage means 3 and can prevent a significant increase in the memory capacity even if the type of warning sentence is increased.

As described above, when the synthesized voice message data corresponding to the class is constructed using the database of the first storage means 3 and the voice synthesis rule of the second storage means 4, the host system generates the synthesized voice message data. Output

A voice alert broadcast system 7 is connected to the host system 1 with an interface 5 for alerting by the voice message data.

The voice alarm broadcasting system 7 used an 8088 series microprocessor for generality of the system implementation.

The microprocessor includes a buffer 7a for storing voice alert message data and a D / A converter 7b for converting and outputting voice message data stored in the buffer 7a into an analog signal.

When the voice message data synthesized in the host system 2 is sent to the microprocessor 7 via the interface 6, the microprocessor 7 sequentially stores this in the buffer 7a.

Then, the priority and grade of the voice message data in the queue are checked, and the voice message is output at a constant sample rate through the corresponding D / A converter 7b port.

The low pass filter 8, the amplifier 9, and the speaker 10 are connected to the output port of the microprocessor 7 as a means for outputting the output voice message.

The low pass filter 8 filters the voice message with a cutoff frequency of 4 kHz since the message for voice alert is limited for communication, and the amplifier 9 uses a two channel 20W or higher amplifier to provide a sufficient level of voice message. To be delivered through the speaker 10.

Table 3 shows three different listening groups consisting of ten listeners with various age distributions. This is a table that records the response of crisis situation.

As shown in Table 3, it can be seen that a crisis response is more effectively achieved when a tone change giving a sense of urgency to the synthesized sound is achieved.

The voice alarm system of the present invention divides the ratings in response to the urgency of the situation, and since the alarm is performed by a synthesized voice message of appropriate tension corresponding to each rating, the conventional alarm device that relies on a guideline, a numeric display, a monitor display, or the like Compared to this, it is possible to identify system abnormality more accurately.

In addition, it is possible to take appropriate measures accordingly there is an advantage that can be prevented and solved in advance, not only physical damage but also human life.

Claims (5)

Means for determining the status information or alarm occurrence alarm level from a sensor attached to each institution connected to the system network, means for synthesizing an alarm message of a tone corresponding to the determined alarm level, and the alarm level determination means described above. Means for providing a voice information for determining an alarm class and corresponding voice synthesis as a database, and receiving and storing the synthesized voice message as a voice alarm broadcasting system and converting the stored voice message into an analog signal to control alarm And voice output means for filtering and amplifying the alarm voice signal output from the alarm control means and outputting the same to a speaker. A host system (2) which receives sensing information from sensors attached to each engine through the local circuit network (1), determines the class according to the situation, and controls the synthesis of alarm messages with the tone corresponding to the class; A first storage means 3 connected to (2) to provide speech synthesis information as a database of an alarm voice message, and a first connection means connected to the host system 2 to provide a synthesis rule according to the grade of the alarm voice message. 2 storage means 4, an interface 6 for connecting the host system 2 and an alarm voice output means, and a host system 2 via the interface 6 to transmit synthetic voice message data. A microprocessor (7) for receiving and processing according to its priority and grade, and a low pass as a means for outputting a voice alert message output from the microprocessor (7). The voice alarm system having various tones are configured to include a filter 8 and the amplifier 9 and a speaker 10. The voice alarm system of claim 2, wherein the voice alarm is divided into four grades of crisis, emergency, normal, and reference to give different tones. The voice synthesis according to claim 2, wherein the speech database and the speech synthesis rule are classified into fixed and variable sentences, divided into a plurality of sentence groups, and synthesized using this as a basic sentence. Voice alarm system. The voice alarm system of claim 2, wherein the tone control of the synthesized voice is performed through voice pitch, duration, and energy adjustment.