TR2024018273U5 - An Announcement System - Google Patents

Abstract

The invention relates to a remotely controlled announcement system used in call to prayer systems in mosques and announcement systems in municipalities, which enables data transfer between the center and the receivers by converting the received encrypted tone into numerical codes, thus ensuring that the system is activated only on certain days.

Description

DESCRIPTION An Announcement System TECHNICAL FIELD The invention relates to a remotely controlled announcement system used in mosque and municipal announcement systems. It converts encrypted tones into digital codes to transmit data between the central office and receivers, thus ensuring the system is activated only on designated days. PRIOR ART Current systems used for calling to prayer in mosques are designed to transmit the call to prayer from a central mosque to other surrounding mosques via radio frequency. This system transmits the call to prayer from the central mosque at a specific frequency, ensuring the same call to prayer is heard from loudspeakers in surrounding mosques. This application aims to facilitate the transmission of the call to prayer from a central mosque to different mosques, particularly in densely populated areas, ensuring consistent call to prayers. Similarly, central announcement systems are also implemented in municipalities. Municipalities transmit announcements from municipal buildings via radio frequency from loudspeakers mounted on street poles, enabling public announcements. However, these systems have security vulnerabilities. While calls to prayer and announcements are transmitted via radio, malicious individuals who have access to the frequency can use radio devices to listen in and conduct pirate broadcasts on this frequency. These illegal broadcasts, made using handheld or car radios, can be used for sabotage or provocative purposes. For example, fake messages can be added to announcements from mosque or municipal loudspeakers, thus misleading the public or creating unrest. This poses a potential problem that could jeopardize public safety. To minimize these security vulnerabilities in the current system, the Presidency of Religious Affairs (Diyanet) requires that calls to prayer be recited only by imams and that the system be activated on imams' days off. However, fulfilling this request is quite difficult in practice, as oversight and control of this process are limited to administrative procedures at the local level. Furthermore, the Presidency of Religious Affairs (Diyanet) requests that minaret balconies be lit on special religious occasions, but monitoring this poses a significant challenge. Supervising minaret lights and lighting them under the required conditions creates both security and organizational challenges, and this situation is overseen by local governments and mosque officials. Consequently, deficiencies, auditing difficulties, and security vulnerabilities in the current system prevent mosque management and the Presidency of Religious Affairs from effectively implementing these regulations. Such deficiencies carry potential dangers that could lead to disruption of social peace or misunderstanding of religious practices. A patent application titled "CONTROL SYSTEM" has been encountered in Turkey. The application in question is related to an announcement control system that includes a speaker that receives and transmits the voice of the user who makes the announcement by reading the text on the interface. However, there is no sign of a remotely controlled system that provides data transfer between the center and the receivers by converting the received encrypted tone into digital codes, which is used especially in the call to prayer systems in mosques and announcement systems in municipalities, and thus ensures that the system is activated only on specified days. As a result, the problems mentioned above that cannot be solved in the light of the current technique have made it necessary to make an innovation in the relevant technical field. BRIEF DESCRIPTION OF THE INVENTION The present invention is related to an announcement system to eliminate the above-mentioned disadvantages and to bring new advantages to the relevant technical field. The main purpose of the invention is to be used in the call to prayer systems in mosques and announcement systems in municipalities, to convert the received encrypted tone into digital codes, The aim of this invention is to enable data transfer between the center and the receivers by converting them into codes, thus ensuring that the system is activated only on specified days and can be controlled remotely. In order to realize all the purposes mentioned above and that will emerge from the detailed explanation below, the present invention includes a transmitter device that adds/combines the audio signal created by means of the audio output preamplifier onto the radio frequency, an adhan-sermon receiver device that receives the signal added/combined to the radio frequency by the transmitter device, a transmitter antenna that provides the transmission of the radio frequency, a receiver antenna that receives the radio frequency sent via the transmitter antenna, an adhan amplifier speaker that enables the adhan sound to be broadcast over it, a sermon amplifier speaker that enables the sermon sound to be broadcast over it, an adhan amplifier that amplifies the adhan signal to be transmitted to the adhan amplifier speaker, a sermon amplifier that amplifies the sermon signal to be transmitted to the sermon amplifier speaker, amplifiers/amplifiers It is an announcement system that can be controlled remotely and includes a relay that enables switching, a microphone input with a low audio signal input, a sermon input with a high audio signal input, used in adhan systems in mosques and announcement systems in municipalities, provides data transfer between the center and receivers by converting the received encrypted tone into digital codes, thus ensuring that the system is activated only on specified days, and its features are; a transmitter unit through which encryption and command sending functions are performed, a preamplifier for adhan-sermon separator that amplifies the signal of the sound coming from the microphone input and sermon input in order to strengthen low-level electrical signals, a USB port that enables communication with the computer according to the information entered from the computer interface/screen, a receiver unit through which the encrypted signal and commands are decoded and the raw sound/speech sound/adhan sound is obtained, a contact output that enables connection to external units through it. The main control stage of the transmitter unit, which enables the operation and control of all layers of the transmitter unit through the software running inside it, communicates with the main control stage of the transmitter unit; microphone audio input filter, which filters the selected frequency in the microphone signal to prevent it from overlapping with the tone frequency, microphone preamplifier stage, which amplifies the signal of the sound coming from the microphone input to strengthen low-level electrical signals, carrier tone generator, which provides the generation of code carrier frequency, carrier tone filter stage, which cleans the frequency generated by the carrier tone generator by filtering it, tone level control stage, which automatically adjusts the amplitude level of the carrier tone frequency generated by the carrier tone generator according to the sound intensity, communication stage, which processes the information/commands entered from the computer interface via the USB port, and the amplitude level and sound gain of the microphone audio signal are automatically adjusted through it. The microphone volume control stage that provides adjustment, the modulator that superimposes the selected frequency on the audio signal and modulates the tone frequency, the audio output preamplifier that amplifies the audio output signal, the receiver unit main control stage that ensures the operation and control of all layers of the receiver unit, the commands in the data obtained by the demodulator and the switching of the contact output switching stage, the receiver unit main control stage that communicates with the main control stage; the line tone filter stage that separates the carrier tone frequency from the raw audio by means of the software run in it, the line tone preamplifier that amplifies the line audio signal in the receiver unit, the tone decoder that decodes the encrypted tone frequency and obtains the code data, the synthesizer that extracts the carrier tone from the line audio and obtains the raw audio, the contact output switching stage that drives the contact output containing external functions, It comprises a demodulator that obtains the data in the extracted carrier tone, a sound suppressor that enables the relay to be triggered and the sound output to be switched, and a sound output preamplifier 2 that amplifies the sound output and enables the sound to be transmitted to the adhan amplifier or sermon amplifier. In order to best understand the configuration of the present invention and its advantages with additional elements, it should be evaluated together with the figures explained below. BRIEF DESCRIPTION OF THE FIGURES Figure 1 is a representative illustration of the operation of the main control stage of the transmitter unit used in the invention. Figure 2 is a representative illustration of the operation of the main control stage of the receiver unit used in the invention. Figure 3 is a representative illustration of the receiver-transmitter system in an announcement system which is the subject of the invention. Figure 4 is a representative illustration of the transmission of an announcement system which is the subject of the invention through a loudspeaker. The drawings are not necessarily to scale, and details not essential to understanding the present invention may have been omitted. Furthermore, elements that are at least substantially identical or have at least substantially identical functions are designated by the same number. REFERENCE NUMBERS 11. Transmitter unit 12. Adhan-sermon separator preamplifier 13. USB port 21. Transmitter device 22. Transmitter antenna 31. Receiver antenna 32. Adhan-sermon receiver device 41. Receiver unit 42. Contact output port 51. Adhan amplifier 52. Sermon amplifier 53. Adhan amplifier speaker 54. Sermon amplifier speaker 60. Transmitter unit main control stage 61. Microphone audio input filter 62. Microphone preamplifier stage 63. Carrier tone generator 64. Carrier tone filter stage 65. Tone level control stage 66. Communication stage 67. Microphone volume control stage 68. Modulator 70. Receiver unit main control stage 71. Line tone filter stage 72. Line tone preamplifier 73. Tone decoder 74. Synthesizer 75. Relay 76. Contact output switching stage 77. Demodulator 78. Mute switch 79. Sound output preamplifier 2 111. Microphone input 112. Sermon input DETAILED DESCRIPTION OF THE INVENTION In this detailed description, an announcement system which is the subject of the invention is explained with examples that will not create any limiting effects only for a better understanding of the subject. The transmitter unit (11) used in an announcement system is the unit through which the encryption and command sending functions are performed. Adhan-sermon The separator preamplifier (12) is the unit that amplifies the sound signal coming from the microphone input (111) and the sermon input (112) to strengthen the low-level electrical signals. The USB port (13) is the port that enables communication with the computer according to the information entered from the computer interface. The transmitter device (21) is the unit that superimposes the sound signal created by the sound output preamplifier (69) onto the radio frequency. The transmitter antenna (22) is the unit that provides the transmission of the radio frequency. The receiver antenna (31) is the antenna that receives the radio frequency sent via the transmitter antenna (22). The adhan-sermon receiver device (32) is the unit that receives the signal superimposed onto the radio frequency by the transmitter device (21). The receiver unit (41) is the unit where the encrypted signal and commands are decoded and the raw sound is obtained. The output port (42) is the port that allows connection to external units. The adhan amplifier (51) is the element that amplifies the adhan signal to be transmitted to the adhan amplifier speaker (53). The sermon amplifier (52) is the element that amplifies the sermon signal to be transmitted to the sermon amplifier speaker (54). The adhan amplifier speaker (53) is the unit that enables the adhan sound to be broadcast through it. The sermon amplifier speaker (54) is the unit that enables the sermon sound to be broadcast through it. The transmitter unit main control stage (60) is the unit that enables the operation and control of all layers of the transmitter unit (11) through the software running in it. The microphone audio input filter (61) is the unit that filters the selected frequency in the microphone signal to prevent it from overlapping with the tone frequency. The microphone preamplifier stage (62) is the unit that filters the microphone to amplify low-level electrical signals. The unit that amplifies the sound signal coming from the input (111). The carrier tone generator (63) is the unit that generates the code carrier frequency. The carrier tone filter stage (64) is the unit that cleans the frequency generated by the carrier tone generator (63) by filtering it. The tone level control stage (65) is the unit that automatically adjusts the amplitude level of the carrier tone frequency generated by the carrier tone generator (63) according to the sound intensity. The communication stage (66) is the unit that processes the information/commands entered from the computer interface via the USB port (13). The microphone sound level control stage (67) is the unit that automatically adjusts the amplitude level and sound gain of the microphone sound signal. The modulator (68) is the unit that superimposes the selected frequency on the sound signal and modulates the tone frequency. Audio output preamplifier (69) is the unit that amplifies the audio output signal. The receiver unit main control stage (70) is the unit that operates and controls all layers of the receiver unit (41), controls the commands in the data obtained by the demodulator (77), and switches the contact output switching stage (76). The line tone filter stage (71) is the unit that separates the carrier tone frequency from the raw audio through the software running in it. The line tone preamplifier (72) is the element that amplifies the line tone signal in the receiver unit (41). The tone decoder (73) is the unit that decodes the encrypted tone frequency and obtains the code data. The synthesizer (74) is the unit that extracts the carrier tone from the line audio and obtains the raw audio. The relay (75) is the element that enables the switching of the amplifiers. Contact The output switching stage (76) drives the contact output containing external functions. The demodulator (77) is the unit that obtains the data in the carrier tone extracted from the raw sound. The mute (78) is the unit that enables the switching of the sound output by triggering the relay (75). The sound output preamplifier 2 (79) is the unit that amplifies the sound output and ensures that the sound is transmitted to the adhan amplifier (51) or the sermon amplifier (52). The microphone input (111) is the low sound signal input. The sermon input (112) is the high sound signal input. When an announcement system is connected to the transmitter input of the central mosque or the municipality building transmitter input, to the output of other mosque receivers or receivers on municipal poles, it enables the external broadcasts to be transmitted thanks to a continuously encrypted tone in addition to the speech/adhan sound between the receiver and the transmitter. or prevents attempts by other transmitters from outside to enter the broadcast. In this case, since the central system's broadcast will be suppressed, the encrypted tone broadcast is also interrupted, and since the receiver unit (41) does not receive this tone, it automatically cuts the sound, preventing the pirate broadcast from being transmitted from the receivers to the speakers. The bandwidth for the sound that can be transmitted in analog radio systems is in the audible range between 300Hz and 3kHz. Therefore, the frequency of 2500Hz has been preferably chosen for the encrypted tone. This frequency is encrypted according to a specific algorithm, and the data is superimposed on the speech/adhan sound. On the other side, the frequency is decoded using the same algorithm, and this frequency is filtered and extracted from the broadcasted sound, leaving only the raw sound, i.e., the speech/adhan sound. The encrypted tone extracted from the sound is also simultaneously It is decoded and processed, and the system decides whether the voice is released or not. This code is time-based and variable, and is also stored in memory by the receiver unit (41), so even if the voice broadcast is recorded and rebroadcast by a radio, the receiver system cannot open the voice broadcast. An announcement system is capable of giving/receiving various commands by converting the encrypted tone it receives into digital codes and providing data transfer between the center and the receivers. In this way, in mosques, the imam's days off can be entered into the central unit via a computer (which can also be an electronic device), ensuring that the system is activated only on designated days. Furthermore, the mosque's ceremony lights can be turned on and off using contact outputs on the receiver unit (41) via a command received from the center. An announcement system operates as follows: The transmitter unit includes the main control floor (60), the receiver unit (70), the main control floor (11), and the software within the MYK (Central Broadcast Protection) receiver unit (41) that enables the operation of all the aforementioned floors. The term "main control floor" is a concept used particularly in communication systems. This term refers to the layer of the main control and management unit in a system that oversees the operation of the transmitter devices (21). The transmitter unit is the device or hardware that transmits signals or data. For example, a transmitter used in a radio station or mosque speaker system converts audio signals to a specific frequency and transmits them to other receivers. These devices are necessary to ensure the broadcast of a signal. The main control stage is the central system that manages and supervises the operation of the transmitter unit. It performs tasks such as monitoring the transmitter unit's activity, adjusting frequencies, controlling output power, and verifying the system's proper operation. It also provides intervention in the event of any malfunction or error in the system. The combination of these two components ensures the correct and safe operation of the transmitter unit. The transmitter unit's main control stage (60) represents the central control and management function, particularly in large-scale broadcasting systems, mosque speaker systems, or municipal public address systems. This stage serves as the main control center, monitoring and managing the operation of the devices responsible for signal transmission. The sound coming through the microphone input (111) and the sermon input (112) is amplified by the microphone preamplifier stage (62) and the adhan-sermon separator preamplifier (12). The microphone audio input filter (61) filters the frequency by subtracting it to prevent it from overlapping with the tone frequency. A preamplifier is an electronic device that amplifies low-level electrical signals (e.g., weak signals from a microphone, instrument, or other sound source). This amplifies the signal to a sufficient level for better sound processing and smooth transmission to the rest of the system (e.g., amplifiers or speakers). The frequency generated by the carrier tone generator (63) is filtered by the carrier tone filter stage (64), and its level is automatically adjusted by the tone level control stage (65) according to the sound intensity. The microphone volume control stage (67) automatically adjusts the sound gain, and the modulator (68) modulates the tone frequency. The tone frequency is encoded by the transmitter unit's main control stage (60) according to the algorithm in its internal software and is delivered to the audio output preamplifier (69), creating an audio signal. This audio signal is transmitted to the transmitter device (21) and output as radio waves from the transmitter antenna (22). Command data is added to the coded tone frequency by the communication stage (66) based on the information entered from the computer interface via the USB port (13). The radio waves are received from the adhan/sermon receiver device (32) via the receiver antenna (31), where they are converted into an audio signal. The line tone preamplifier (72) in the MYK receiver unit (41) amplifies the sound, and the line tone filter stage (71) separates the tone from the raw sound. The tone decoder (73) decodes the encrypted tone. If the decryption matches the algorithm decoding software of the receiver unit's main control stage (70), the time-based data obtained by the demodulator (77) is compared with the old data stored by the receiver unit's main control stage (70). If the time information in the decoded data is greater than the recorded time, the new time data is recorded by the receiver unit's main control stage (70), and the relay (75) is triggered, disabling the mute (78). The synthesizer (74) extracts the carrier tone from the audio signal, and the raw sound is obtained. The commands in the data obtained by the demodulator (77) are controlled by the receiver unit main control stage (70) and switched by the contact output switching stage (76). The sound is supplied to the adhan amplifier (51) or the sermon amplifier (52) through the audio output preamplifier 2 (79). The amplified pure sound is broadcast from the adhan amplifier speakers (53) or the sermon amplifier speakers (54).

Claims (1)

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