CN111669742A - Wireless emergency communication comprehensive scheduling system - Google Patents

Abstract

The invention relates to the technical field of command scheduling and discloses a wireless emergency communication comprehensive scheduling system; the invention discloses a wireless emergency communication comprehensive dispatching system, which comprises a telephone, a wireless communication telephone, a first public telephone network and a second public telephone network, wherein the telephone is electrically connected with an internal line controller in a bidirectional mode, the wireless communication telephone is electrically connected with a digital analog repeater in a bidirectional mode, the first public telephone network is electrically connected with a digital repeater in a bidirectional mode, the second public telephone network is electrically connected with an analog repeater in a bidirectional mode, and the internal line controller, the digital analog repeater, the digital repeater and the analog repeater are all electrically connected with a main control exchanger in a bidirectional mode.

Description

Wireless emergency communication comprehensive scheduling system

Technical Field

The invention belongs to the technical field of command scheduling, and particularly relates to a wireless emergency communication comprehensive scheduling system.

Background

Currently, various departments handling emergency events in China almost independently own wireless or wired communication systems. When an emergency happens, the traditional communication command scheduling method is that a dispatcher uses different communication terminals to transmit the same command information for many times, so that the linkage among departments is difficult and the command efficiency is low.

Different technical systems are adopted in most of the existing communication systems of all departments, and the different technical systems are usually updated continuously, and even if the same technical system is adopted, the frequency bands used by the communication systems of all the departments are not consistent. Therefore, direct communication between communication terminals of communication systems of all departments for processing emergency events cannot be realized, a plurality of problems are brought to emergency command scheduling, various emergency events cannot be processed quickly and effectively due to the fact that communication between all the departments is difficult, the existing emergency department scheduling is generally random scheduling, an optimal rescue department cannot be scheduled according to conditions, and the situation that rescue is not timely or delayed is likely to occur, so that serious consequences are caused; therefore, improvements are now needed in view of the current situation.

Disclosure of Invention

In view of the above situation, to overcome the defects in the prior art, the present invention provides a wireless emergency communication integrated scheduling system, which effectively solves the problem that most of the communication systems of each department in the prior art adopt different technical systems, and the different technical systems are usually updated continuously, and even if the same technical system is adopted, the frequency bands used by the communication systems of each department are not consistent. Therefore, direct communication between communication terminals of communication systems of all departments for processing emergency events cannot be realized, a plurality of problems are brought to emergency command scheduling, various emergency events cannot be processed quickly and effectively due to the fact that communication between all the departments is difficult, the existing emergency department scheduling is generally random scheduling, the optimal rescue department cannot be scheduled according to conditions, and the problem that rescue is not timely or delayed is likely to occur, so that serious consequences are caused.

In order to achieve the purpose, the invention provides the following technical scheme: a wireless emergency communication comprehensive dispatching system comprises a telephone, a wireless communication telephone, a first public telephone network and a second public telephone network, wherein the telephone is electrically connected with an internal line controller in a bidirectional way, the wireless communication telephone is electrically connected with a digital analog repeater in a bidirectional way, the first public telephone network is electrically connected with a digital repeater in a bidirectional way, the second public telephone network is electrically connected with an analog repeater in a bidirectional way, the internal line controller, the digital analog repeater, the digital repeater and the analog repeater are all electrically connected with a main control exchanger in a bidirectional way, the main control exchanger is electrically connected with a wireless emergency communication comprehensive dispatching system in a bidirectional way, the wireless emergency communication comprehensive dispatching system is electrically connected with a networking interface, an IP address converter, a first wireless terminal controller and a second wireless terminal controller in a bidirectional way, and the first wireless terminal controller is electrically connected with a first wireless terminal signal device in a bidirectional way, the second wireless terminal controller is electrically connected with a second wireless terminal annunciator in a bidirectional mode, the first wireless terminal annunciator and the second wireless terminal annunciator are electrically connected with a scheduling information monitor in a bidirectional mode, the scheduling information monitor is electrically connected with a scheduling time feedback system in an output mode, and the scheduling time feedback system is electrically connected with the master control exchanger and the wireless emergency communication comprehensive scheduling system in an output mode.

Preferably, the IP address converter is electrically connected with a digital converter in a bidirectional manner, the digital converter is electrically connected with a mobile IP confirmation module and a fixed IP confirmation module in a bidirectional manner, the mobile IP confirmation module is electrically output and connected with a real-time address converter, the fixed IP confirmation module is electrically output and connected with a peripheral emergency address confirmation module, the peripheral emergency address confirmation module is electrically connected with the real-time address converter in a bidirectional manner, and the peripheral emergency address confirmation module is electrically connected with the digital converter in a bidirectional manner.

Preferably, the scheduling duration feedback system is electrically connected with a feedback time setting system module in a bidirectional manner, the feedback time setting system module is electrically connected with a single longest allowable time module and a calling frequent and frequency module in a bidirectional manner, the single longest allowable time module is electrically connected with the calling frequent and frequency module in a bidirectional manner, the single longest allowable time module and the calling frequent and frequency module are both electrically connected with an unconfirmed feedback module and a confirmed feedback module in a bidirectional manner, and the unconfirmed feedback module is electrically connected with the master switch and the wireless emergency communication integrated scheduling system in an output manner.

Preferably, the networking interface comprises a wireless network module and a local area network module, and the networking interface is electrically connected with a network self-checking module and an alarm module in a bidirectional mode.

Preferably, the wireless emergency communication integrated dispatching system comprises one or more of a conventional short wave radio station, a conventional ultra-short wave radio station, an MPT analog trunked mobile station, a TETRA digital trunked mobile station, a GSM terminal and a CDMA terminal, wherein the wireless terminal interface is connected with the wireless terminal controller.

Preferably, the connection mode between the first public telephone network and the digital repeater is a telephone line connection, and the connection mode between the second public telephone network and the analog repeater is a transmission line connection.

Preferably, the networking interface is electrically connected with the master control exchanger in a bidirectional way, and the networking interface connected with the master control exchanger is not communicated with the networking interface connected with the wireless emergency communication comprehensive dispatching system.

Preferably, the first wireless terminal controller and the second wireless terminal controller include: analog voice signaling, wireless terminal transmit control signal (PTT), serial data receive signal, serial data signaling, and ground.

Preferably, the scheduling information monitor is electrically connected with a voice broadcasting system module in a bidirectional manner, and the voice broadcasting system module is electrically connected with the confirmation feedback module in a bidirectional manner;

the scheduling information monitor comprises a display and a broadcaster.

Preferably, the network self-checking module performs the detection in the following manner:

the internet interface transmits the network communication signals in the wireless network module and the local area network module to the network self-checking module in real time,

when the network self-checking module detects that the network communication signal interruption time of the wireless network module and/or the local area network module exceeds 3 seconds, the network self-checking module transmits the information of the network communication signal interruption to the alarm module to automatically alarm.

Compared with the prior art, the invention has the beneficial effects that: the dispatching information monitor is communicated with the dispatching duration feedback system, the dispatching duration feedback system receives feedback signals and sets single longest allowable time (30S) and calling time frequency (1 time/min), when the calling frequency exceeds 3 times, the signals are defaulted to be unconfirmed and are transmitted to the main control exchanger and the wireless emergency communication comprehensive dispatching system, if an emergency department is selected for determination, the dispatching duration feedback system confirms feedback, if the selected emergency department exceeds the set time and is not fed back, the dispatching duration feedback system feeds back unconfirmed and transmits the signals to the main control exchanger and the wireless emergency communication comprehensive dispatching system, the wireless emergency communication comprehensive dispatching system searches for next-nearest emergency departments around the IP address and converts and transmits the signals, the emergency departments can be dispatched in time and the optimal emergency department is searched for emergency, when the optimal emergency department generates conditions, the suboptimal emergency department is dispatched through feedback, so that disastrous loss caused by untimely rescue is avoided;

the networking interface is arranged at the wireless emergency communication comprehensive scheduling system and comprises a wireless network and a local area network, the networking interface is provided with a network self-checking system and an alarm system, when the network is disconnected, the network self-checking system feeds back to the alarm system to alarm, the wireless emergency communication comprehensive scheduling system can be guaranteed to be networked constantly, signal faults caused by network disconnection are avoided, and the stability of system operation is guaranteed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 is a flowchart illustrating steps of an IP address translator in accordance with the present invention;

fig. 3 is a flow chart of the scheduling duration feedback system of the present invention.

1. A telephone; 2. a wireless communication telephone; 3. a first public telephone network; 4. a second public telephone network; 5. an internal wire controller; 6. a digital analog repeater; 7. a digital repeater; 8. an analog repeater; 9. a master switch; 10. a networking interface; 11. an IP address translator; 12. a wireless emergency communication comprehensive dispatching system; 13. a first wireless terminal controller; 14. a second wireless terminal controller; 15. a first wireless termination annunciator; 16. a second wireless terminal annunciator; 17. a scheduling information monitor; 18. a scheduling duration feedback system; 19. a digitizer; 20. a real-time address translator.

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 only a part of the embodiments of the present invention, and not all of the embodiments; 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.

In a first embodiment, as shown in fig. 1, 2 and 3, the integrated dispatching system for wireless emergency communication of the present invention comprises a telephone set 1, a wireless communication telephone set 2, a first public telephone network 3 and a second public telephone network 4, wherein the telephone set 1 is electrically connected with an internal controller 5 in a bidirectional manner, the wireless communication telephone set 2 is electrically connected with a digital analog repeater 6 in a bidirectional manner, the first public telephone network 3 is electrically connected with a digital repeater 7 in a bidirectional manner, the second public telephone network 4 is electrically connected with an analog repeater 8 in a bidirectional manner, the internal controller 5, the digital analog repeater 6, the digital repeater 7 and the analog repeater 8 are electrically connected with a master control switch 9 in a bidirectional manner, the master control switch 9 is electrically connected with an integrated dispatching system for wireless emergency communication 12 in a bidirectional manner, and the integrated dispatching system for wireless emergency communication 12 is electrically connected with a networking interface 10, an IP address converter 11, a, The wireless emergency communication system comprises a first wireless terminal controller 13 and a second wireless terminal controller 14, wherein the first wireless terminal controller 13 is electrically connected with a first wireless terminal annunciator 15 in a bidirectional mode, the second wireless terminal controller 14 is electrically connected with a second wireless terminal annunciator 16 in a bidirectional mode, the first wireless terminal annunciator 15 and the second wireless terminal annunciator 16 are both electrically connected with a scheduling information monitor 17 in a bidirectional mode, the scheduling information monitor 17 is electrically connected with a scheduling duration feedback system 18 in an output mode, and the scheduling duration feedback system 18 is electrically connected with a master control exchanger 9 and a wireless emergency communication comprehensive scheduling system 12 in an output mode.

In the second embodiment, based on the first embodiment, as shown in fig. 3, the IP address converter 11 is electrically connected to the digitizer 19 in a bidirectional manner, the digitizer 19 is electrically connected to the mobile IP confirmation module and the fixed IP confirmation module in a bidirectional manner, the mobile IP confirmation module is electrically connected to the real-time address converter 20 in an output manner, the fixed IP confirmation module is electrically connected to the peripheral emergency address confirmation module in an output manner, the peripheral emergency address confirmation module is electrically connected to the real-time address converter 20 in a bidirectional manner, and the peripheral emergency address confirmation module is electrically connected to the digitizer 19 in a bidirectional manner.

The IP address converter 11 converts the address sending the emergency signal through the digital converter 19, determines the converted address type, confirms the fixed IP and the mobile IP through the mobile IP confirmation module and the fixed IP confirmation module, and converts through the real-time address converter 20 if the address type is the mobile IP; and confirming the emergency address around the IP, converting the emergency address information through a digital converter 19 and transmitting the converted emergency address information to the wireless emergency communication comprehensive dispatching system 12.

In a third embodiment, based on the first embodiment, as shown in fig. 3, the scheduling duration feedback system 18 is electrically connected to a feedback time setting system module in a bidirectional manner, the feedback time setting system module is electrically connected to a single longest allowable time module and a calling frequent and frequency module in a bidirectional manner, the single longest allowable time module is electrically connected to the calling frequent and frequency module in a bidirectional manner, the single longest allowable time module and the calling frequent and frequency module are electrically connected to an unconfirmed feedback module and a confirmed feedback module in a bidirectional manner, and the unconfirmed feedback module is electrically connected to the master switch 9 and the wireless emergency communication integrated scheduling system 12 in an output manner.

The dispatch duration feedback system 18 receives the feedback signal, confirms the signal through the single longest allowable time module and the call time and frequency module, and transmits the signal to the master switch 9 and the wireless emergency communication integrated dispatch system 12.

In a fourth embodiment, based on the first embodiment, as shown in fig. 3, the networking interface 10 includes a wireless network module and a local area network module, and the networking interface 10 is electrically connected to a network self-checking module and an alarm module in a bidirectional manner.

Networking interface 10 includes wireless network module and local area network module, and networking interface 10 two-way electric connection has network self-checking module and alarm module's design can guarantee when the network disconnection, and the alarm system is reported to the police to network self-checking system feedback, and is concrete, and network self-checking module detects through following mode:

the internet interface transmits network communication signals in the wireless network module and the local area network module to the network self-checking module in real time, when the network self-checking module detects that the interruption time of the network communication signals of the wireless network module and/or the local area network module exceeds 3 seconds and the signals are not recovered after 3 seconds, the network self-checking module determines that the network signals are interrupted, and transmits the information of the interruption of the network communication signals to the alarm module for automatic alarm. The mode can ensure that the wireless emergency communication comprehensive dispatching system 12 is connected with the network at all times, signal faults caused by network disconnection are avoided, the alarm delayed for three seconds is a certain automatic recovery time given to the wireless network module and the local area network module, and the error alarm is avoided from being too frequent.

Fifth embodiment, based on the first embodiment, as shown in fig. 3, the wireless emergency communication integrated dispatching system 12 includes one or more of a conventional short wave radio, a conventional ultra short wave radio, an MPT1327 analog trunked mobile station, a TETRA digital trunked mobile station, a GSM terminal and a CDMA terminal, in which the wireless terminal interface is connected with the wireless terminal controller.

The wireless terminal controller is connected with the wireless terminal through a wireless terminal interface, the wireless terminal interface comprises a simulation voice receiving signal, a simulation voice signaling signal, a wireless terminal transmitting control signal (PTT), a radio station carrier indicating signal, a serial data receiving signal, a serial data signaling signal and a ground, and the wireless terminal controller respectively transmits voice and data in two directions between the simulation voice receiving and transmitting signal and the serial data receiving and transmitting signal and the wireless terminal. The wireless terminal controller controls the transceiving of wireless signals of the wireless terminal by transmitting a control signal (PTT) through the wireless terminal. The wireless terminal indicates the receiving and sending state of the wireless terminal to the wireless terminal controller through the radio station carrier indicating signal.

Sixth embodiment, based on the first embodiment, as shown in fig. 3, the connection between the first public telephone network 3 and the digital repeater 7 is specifically a telephone line connection, and the connection between the second public telephone network 4 and the analog repeater 8 is specifically a transmission line connection.

The connection between the first public telephone network 3 and the digital repeater 7 is in particular a telephone line connection, and the connection between the second public telephone network 4 and the analog repeater 8 is in particular a two-colour machine with a transmission line connection, which ensures that messages from the differently connected public telephone networks can be received. .

Seventh embodiment, based on the first embodiment, as shown in fig. 1, the networking interface 10 is electrically connected to the master switch 9 in both directions, and the networking interface 10 connected to the master switch 9 is not intercommunicated with the networking interface 10 connected to the wireless emergency communication integrated dispatching system 12.

The networking interface 10 is electrically connected with the master switch 9 in a bidirectional way, and the networking interface 10 connected with the master switch 9 and the networking interface 10 connected with the wireless emergency communication comprehensive dispatching system 12 are not communicated with each other, so that the problem of one networking interface 10 can be avoided, and all the systems are further influenced.

Eighth embodiment, based on the first embodiment, as shown in fig. 1, the first wireless terminal controller 13 and the second wireless terminal controller 14 include: analog voice signaling, wireless terminal transmit control signal (PTT), serial data receive signal, serial data signaling, and ground.

The type of wireless terminal may be one or more of a conventional short wave radio, a conventional ultra short wave radio, an MPT1327 analog trunked mobile, a TETRA digital trunked mobile, a GSM terminal and a CDMA terminal. The wireless terminal controller is connected with the wireless terminal through a wireless terminal interface, the wireless terminal interface comprises a simulation receiving signal, a simulation voice signal, a wireless terminal emission control signal (PTT), a radio station carrier indication signal, a serial data receiving signal, a serial data signal and a ground, and the wireless terminal controller respectively transmits voice and data in two directions between the simulation voice receiving and transmitting signal and the serial data receiving and transmitting signal and the wireless terminal. The wireless terminal controller controls the transceiving of wireless signals of the wireless terminal by transmitting a control signal (PTT) through the wireless terminal. The wireless terminal indicates the transmission/reception state of the wireless terminal to the wireless terminal controller by the station carrier indication signal.

In a ninth embodiment, based on the first embodiment, as shown in fig. 1, the scheduling information monitor 17 is electrically connected to a voice broadcasting system module in a bidirectional manner, and the voice broadcasting system module is electrically connected to the confirmation feedback module in a bidirectional manner.

The design of voice broadcast system module can be after confirming the feedback, with signal transmission to voice broadcast system module, voice broadcast system module reports.

Tenth embodiment, based on the first embodiment, as shown in fig. 1, the schedule information monitor 17 includes a display and a broadcaster.

The display can be used to monitor the dispatching information and feedback condition, and the broadcaster can be used to broadcast the condition of confirming the feedback in time.

The working principle is as follows: when an emergency occurs, an emergency signal is sent out through a telephone set or a wireless communication telephone set or two public telephone networks; the telephone sends out the signal and is received by the internal line controller, the wireless communication telephone sends out the signal and is received by the digital analog repeater, send out the signal and is received by the digital repeater through the public telephone network that the telephone line connects, send out the signal and is received by the analog repeater through the public telephone network that the transmission line connects, and the internal line controller, digital analog repeater, digital repeater and analog repeater transmit the received signal to the master control switchboard; the master control exchanger converts the emergency signals and then transmits the converted emergency signals to the wireless emergency communication comprehensive dispatching system; the IP address converter analyzes the IP address which sends the emergency signal, converts the address which sends the emergency signal through the digital converter, determines the converted address type, confirms the fixed IP and the mobile IP, and converts through the real-time address converter if the address type is the mobile IP to confirm the emergency address around the IP; the emergency address information is converted through a digital converter and is transmitted to a wireless emergency communication comprehensive scheduling system, the result is transmitted to the wireless emergency communication comprehensive scheduling system, the wireless emergency communication comprehensive scheduling system analyzes the type of an emergency signal, if the emergency signal is a one-way emergency signal, the emergency signal is transmitted to a first wireless terminal controller, the first wireless terminal controller sends a signal to a selected emergency department through a first wireless terminal annunciator, if the emergency signal is an integrated emergency signal, the emergency signal is transmitted to a second wireless terminal controller, and the second wireless terminal controller sends a signal to the selected emergency department through a second wireless terminal annunciator; the signal sent by the first wireless terminal annunciator or the second wireless terminal annunciator is monitored by a dispatching information monitor which is communicated with a dispatching time length feedback system, the dispatching time length feedback system receives the feedback signal and is provided with a single longest allowable time (30S) and a calling time frequency (1 time/min), when the calling frequency exceeds 3 times, the signal is defaulted to be unconfirmed and is transmitted to a main control exchanger and a wireless emergency communication comprehensive dispatching system, if the emergency department is selected for determination, the dispatching time length feedback system confirms feedback, if the selected emergency department exceeds the set time and is not fed back, the dispatching time length feedback system gives unconfirmed feedback and transmits the signal to the main control exchanger and the wireless emergency communication comprehensive dispatching system, and the wireless emergency communication comprehensive dispatching system searches for the next-nearest emergency department around the IP address, and the signal is converted and sent out, so that emergency departments can be dispatched in time, the optimal emergency department is searched for emergency, when the optimal emergency department generates conditions, the suboptimal emergency department is dispatched through feedback, and the heavy loss caused by untimely rescue is avoided.

It is 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 apparatus 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 apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A wireless emergency communication comprehensive dispatching system comprises a telephone (1), a wireless communication telephone (2), a first public telephone network (3) and a second public telephone network (4), and is characterized in that: the telephone (1) is electrically connected with an internal line controller (5) in a bidirectional way, the wireless communication telephone (2) is electrically connected with a digital analog repeater (6) in a bidirectional way, the first public telephone network (3) is electrically connected with a digital repeater (7) in a bidirectional way, the second public telephone network (4) is electrically connected with an analog repeater (8) in a bidirectional way, the internal line controller (5), the digital analog repeater (6), the digital repeater (7) and the analog repeater (8) are electrically connected with a master control exchanger (9) in a bidirectional way, the master control exchanger (9) is electrically connected with a wireless emergency communication comprehensive dispatching system (12) in a bidirectional way, the wireless emergency communication comprehensive dispatching system (12) is electrically connected with a networking interface (10), an IP address converter (11), a first wireless terminal controller (13) and a second wireless terminal controller (14) in a bidirectional way, the wireless emergency communication system is characterized in that a first wireless terminal annunciator (15) is electrically connected to a first wireless terminal controller (13) in a two-way mode, a second wireless terminal annunciator (16) is electrically connected to a second wireless terminal controller (14) in a two-way mode, the first wireless terminal annunciator (15) and the second wireless terminal annunciator (16) are electrically connected to a scheduling information monitor (17) in an all-two-way mode, the scheduling information monitor (17) is electrically connected with a scheduling time feedback system (18), and the scheduling time feedback system (18) is electrically connected with a master control exchanger (9) and a wireless emergency communication comprehensive scheduling system (12) in an output mode.

2. The wireless emergency communication integrated dispatching system of claim 1, wherein: the bidirectional electrical connection of IP address converter (11) has digitizer (19), the bidirectional electrical connection of digitizer (19) has mobile IP to confirm module and fixed IP and confirms the module, mobile IP confirms module electrical output and is connected with real-time address converter (20), fixed IP confirms module electrical output and is connected with peripheral emergent address and confirms the module, peripheral emergent address confirm the module with the bidirectional electrical connection of real-time address converter (20), peripheral emergent address confirms the module bidirectional electrical connection and has digitizer (19).

3. The wireless emergency communication integrated dispatching system of claim 1, wherein: the dispatching duration feedback system (18) is electrically connected with a feedback time setting system module in a bidirectional mode, the feedback time setting system module is electrically connected with a single longest allowable time module and a calling frequent and frequency module in a bidirectional mode, the single longest allowable time module and the calling frequent and frequency module are electrically connected in a bidirectional mode, the single longest allowable time module and the calling frequent and frequency module are both electrically connected with an unconfirmed feedback module and a confirmed feedback module in a bidirectional mode, and the unconfirmed feedback module is electrically connected with the main control exchanger (9) and the wireless emergency communication comprehensive dispatching system (12) in an output mode.

4. The wireless emergency communication integrated dispatching system of claim 1, wherein: the networking interface (10) comprises a wireless network module and a local area network module, and the networking interface (10) is electrically connected with a network self-checking module and an alarm module in a bidirectional mode.

5. The wireless emergency communication integrated dispatching system of claim 1, wherein: the wireless emergency communication comprehensive scheduling system (12) comprises one or more of a conventional short-wave radio station, a conventional ultra-short-wave radio station, an MPT1327 analog trunking mobile station, a TETRA digital trunking mobile station, a GSM terminal and a CDMA terminal, wherein a wireless terminal interface is connected with a wireless terminal controller.

6. The wireless emergency communication integrated dispatching system of claim 1, wherein: the connection mode between the first public telephone network (3) and the digital repeater (7) is specifically a telephone line connection, and the connection mode between the second public telephone network (4) and the analog repeater (8) is specifically a transmission line connection.

7. The wireless emergency communication integrated dispatching system of claim 1, wherein: the networking interface (10) is electrically connected with the master control exchanger (9) in a bidirectional mode, and the networking interface (10) connected with the master control exchanger (9) is not communicated with the networking interface (10) connected with the wireless emergency communication comprehensive dispatching system (12).

8. The wireless emergency communication integrated dispatching system of claim 1, wherein: the first wireless terminal controller (13) and the second wireless terminal controller (14) include: analog voice signaling, wireless terminal transmit control signal (PTT), serial data receive signal, serial data signaling, and ground.

9. The wireless emergency communication integrated dispatching system of claim 1, wherein: the scheduling information monitor (17) is electrically connected with a voice broadcasting system module in a bidirectional mode, and the voice broadcasting system module is electrically connected with the confirmation feedback module in a bidirectional mode;

the scheduling information monitor (17) comprises a display and a broadcaster.

10. The wireless emergency communication integrated dispatching system of claim 4, wherein: the network self-checking module performs detection in the following way:

the internet interface transmits the network communication signals in the wireless network module and the local area network module to the network self-checking module in real time,

when the network self-checking module detects that the network communication signal interruption time of the wireless network module and/or the local area network module exceeds 3 seconds, the network self-checking module transmits the information of the network communication signal interruption to the alarm module to automatically alarm.

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