CN114741431A - Data transmission management system for urban underground comprehensive pipe gallery - Google Patents

Abstract

The invention relates to the technical field of urban underground comprehensive pipe galleries, in particular to a data transmission management system for the urban underground comprehensive pipe galleries, which comprises an integrated data acquisition device, a camera monitoring subsystem and a server, wherein the integrated data acquisition device is electrically connected with a plurality of sensors arranged in the urban underground comprehensive pipe galleries, and the server comprises: a data acquisition module: for acquiring acquisition data through a communication network; a data storage module: the system comprises a 3D BIM model used for acquiring and storing the urban underground comprehensive pipe gallery; a data analysis module: and marking the corresponding data acquisition device and the corresponding sensor in the emergency event on the data observation point position corresponding to the 3D BIM model, wherein the mark is used for skipping the emergency event and the corresponding camera screen in the camera monitoring subsystem. The invention can realize high-reliability transmission and data processing of the environmental data of the urban underground comprehensive pipe gallery, and solves the problem that measures cannot be taken effectively in time when a disaster or an accident occurs.

Description

Data transmission management system for urban underground comprehensive pipe gallery

Technical Field

The invention relates to the technical field of urban underground comprehensive pipe galleries, in particular to a data transmission management system for an urban underground comprehensive pipe gallery.

Background

The underground pipe gallery is an urban underground comprehensive pipe gallery, namely a tunnel space is built underground in a city, various engineering pipelines such as electric power, communication, gas, heat supply, water supply and drainage and the like are integrated, a special overhaul port, a lifting port and a monitoring system are arranged, unified planning, unified design, unified construction and management are implemented, and the underground pipe gallery is an important infrastructure and a 'life line' for guaranteeing urban operation. The urban underground municipal public facility is a municipal public facility which implements unified planning, design, construction and maintenance and is built under the city for laying municipal public pipelines.

City utility tunnel's environment is comparatively complicated, and personnel are difficult for long-term on duty, consequently in order to know its inside condition in real time, corresponding monitored control system adopts Area Controller (ACU) and sensor more to and the collocation that combines the camera comes the data acquisition. Data through the collection when realizing real time monitoring city utility tunnel environmental aspect, can conveniently make timely response to the abnormal conditions, improve operation efficiency and safety control level. However, the existing urban underground comprehensive pipe gallery has numerous electronic devices, so that management of various devices and processing of collected data are difficult to deal with and are very troublesome; and because the current domestic utility tunnel construction still is in the initial development stage, consequently the operation experience accumulation of utility tunnel is less, and is not enough to the data processing of city utility tunnel environment, can not comprehensive evaluation utility tunnel risk, can not in time get rid of when having led to the calamity or the accident appearing.

Disclosure of Invention

The invention aims to provide a data transmission management system for an urban underground comprehensive pipe gallery, which can realize high-reliability transmission and data processing of environmental data of the urban underground comprehensive pipe gallery and solve the problem that measures cannot be taken effectively in time when a disaster or an accident occurs.

In order to reach above-mentioned purpose, a data transmission management system for city utility tunnel is provided, including integrating data acquisition device, the monitoring subsystem of making a video recording and server, integrate the sensor of a plurality of settings in city utility tunnel of data acquisition device electricity connection, integrate data acquisition device and server communication connection, the server includes:

a data acquisition module: the integrated data acquisition device is used for acquiring the acquired data of each sensor acquired by the integrated data acquisition device through a communication network; the communication network is a single-mode optical fiber building ring network structure;

a data storage module: the system comprises a 3D BIM model used for acquiring and storing the urban underground comprehensive pipe gallery; the system is also used for storing position distribution data and acquisition data of each integrated data acquisition device and each connected sensor by taking each integrated data acquisition device as a unit, and setting data observation point positions in the 3D BIM model according to the position distribution data of each integrated data acquisition device and each connected sensor and performing associated storage;

a data analysis module: the system comprises a data acquisition device, a data processing device and a data processing device, wherein the data acquisition device is used for comparing and analyzing acquired data of each sensor with a corresponding alarm threshold value, if the acquired data exceeds the corresponding alarm threshold value, alarm information is generated, acquired data corresponding to other connected sensors are acquired through the data acquisition device corresponding to the sensor, and are used for judging emergency events and analyzing situation, and the situation analysis comprises emergency event phenomena, event reasons, event places and event time; the system is also used for marking the corresponding data acquisition device and the corresponding sensor in the emergency event on the data observation point corresponding to the 3D BIM model, and the mark is used for skipping the emergency event and the corresponding camera screen in the camera monitoring subsystem.

The principle and the advantages are as follows:

1. due to the arrangement of the communication network and the data acquisition module, in the optical fiber ring network structure, the network is in a redundant state, and the transmission of the whole network cannot be influenced when any point fails, so that the reliability of data transmission is greatly improved. The data acquisition module can follow the real-time and reliable environmental data who gathers in the city utility tunnel of communication network, avoids when calamity or accident appear, and the unable timely effective data that obtains to avoid unable timely measure of taking and enlarge the loss.

2. The data storage module is arranged, so that on one hand, a 3D BIM (three-dimensional information model) of the urban underground comprehensive pipe gallery can be obtained and stored, and data can be analyzed more visually through the 3D BIM of the urban underground comprehensive pipe gallery; another face can use each to integrate data acquisition device as the unit, and the position distribution data and the data collection of each sensor of storage each integrated data acquisition device and connection realize the categorised storage management of data to the calling and look up of later stage data of being convenient for. The position distribution data of each sensor through integrating each data acquisition device and connecting sets up data observation point position and carries out the normal form of associative storage at 3D BIM model again, can further be convenient for later data's the transfer and look up to improve the treatment effeciency of data.

3. The data analysis module is arranged, the collected data of each sensor and the corresponding alarm threshold value can be compared and analyzed, if the collected data exceeds the corresponding alarm threshold value, alarm information is generated, and the fact that disasters or accidents possibly exist in the urban underground comprehensive pipe gallery is indicated. The data analysis module can acquire the acquired data corresponding to the other connected sensors through the data acquisition devices corresponding to the sensors, so that the judgment and situation analysis of emergency events are performed through more data, and measures can be taken to solve the problem at the initial stage of disasters or accidents, so that the loss and the influence are reduced. In the subsequent stage, the corresponding data acquisition device and the corresponding sensor in the emergency event can be marked on the data observation point position corresponding to the 3D BIM model, and the mark is used for jumping to the corresponding camera view screen in the emergency event and the camera monitoring subsystem, so that the working personnel can conveniently and timely look up the corresponding data and take corresponding measures.

Further, the server further comprises:

a network checking module: and the method is used for checking whether a communication fault node exists in the communication network of the ring network structure after the alarm information is generated, and if so, marking the communication fault node on the 3D BIM model.

The network inspection module can inspect whether a communication fault node exists in the communication network of the ring network structure after the alarm information is generated, so that effective data can be obtained in time to analyze disasters or accidents, and timely measures can be taken conveniently. And the communication fault node is marked on the 3D BIM model, so that the communication fault can be more intuitively known where the communication fault occurs, and the communication fault can be timely eliminated.

Further, the server further includes:

an event analysis module: the system is used for performing association analysis on the communication fault node and the corresponding data observation point position in the emergency event, analyzing and judging whether the communication fault node and the data observation point position coincide, if so, analyzing the association degree of the communication fault node and the emergency event phenomenon, the event reason, the event place and the event time, and analyzing the emergency processing degree of the emergency event according to the association degree.

The event analysis module is arranged to perform association analysis on the communication fault node and the corresponding data observation point position in the emergency event so as to conveniently analyze whether association exists between the communication fault node and the emergency event, and then analyze the emergency processing degree of the emergency event through the association degree so as to identify the urgency of emergency event processing. Thereby being convenient for relevant staff to take measures to solve the problems in time.

Further, the data acquisition module: the integrated data acquisition device is also used for acquiring the acquisition data of the corresponding sensor and the corresponding power parameters from the integrated data acquisition device when the alarm information is received;

the server further comprises:

false alarm analysis module: the device is used for carrying out numerical comparison analysis on the acquired data and the power parameters and the historical data of the corresponding sensor, analyzing and judging whether the sensor causes false alarm or not, and if so, generating false alarm information.

The false alarm analysis module can carry out numerical value contrastive analysis with the historical data of gathering data and electric power parameter and corresponding sensor, and whether the analysis judges the sensor to whether have unusually, thereby cause the false alarm, if then generate the alert information of wrong report and inform piping lane maintenance work terminal, so that get rid of the alert condition of wrong report, and reduce staff's work load, and then promote work efficiency.

Further, the server further includes:

an alarm module: and the method is used for sending an alarm after the alarm information is generated and carrying out regional display early warning on the 3D BIM model.

Alarm module's setting can in time send out the police dispatch newspaper after generating alarm information, conveniently notifies the staff to look over. And the alarm area can be known more intuitively by the method of carrying out area display early warning on the 3D BIM model.

Further, the data storage module is further configured to store historical emergency events and historical emergency plans corresponding to the historical emergency events, and the server further includes:

an emergency plan module: the emergency treatment system is used for generating an emergency plan according to situation analysis and a historical emergency plan when the emergency treatment degree reaches a set threshold; the emergency plan comprises personnel scheduling, maintenance route planning, emergency equipment and consumable replacement.

The emergency plan module can generate an emergency plan in a short time according to situation analysis and a historical emergency plan when the emergency treatment degree reaches a set threshold value. Thereby facilitating the timely elimination of disasters or faults to reduce loss.

Further, the server further includes:

escape route module: the emergency processing device is used for generating a plurality of escape routes according to the collected data of the sensors collected by the integrated data collecting device when the emergency processing degree reaches a set threshold value, and pushing the escape routes to all workers in the urban underground comprehensive pipe gallery.

The setting of route module of fleing can be based on the collection data generation of the each sensor that integrates the data acquisition device collection a plurality of routes of fleing, guarantees that whole staff in the city utility tunnel can be safe withdraw.

Further, the server further includes:

a personnel statistics module: the face recognition system is used for carrying out face recognition on workers through the cameras on the escape route and carrying out auxiliary positioning on the workers through the installation positions of the cameras to obtain positioning data; and the system is also used for updating the identity data and the positioning data of the face recognition in real time, inputting the updated identity data and the positioning data into a data display screen and combining the updated identity data and the positioning data into a 3D BIM model to display the real-time state of the escape personnel.

Personnel count the setting of module, carry out assistance-localization real-time to the staff through the mounted position of camera and acquire the location data, can conveniently know the condition of withdrawing of whole staff in the city utility tunnel to further guarantee staff's personal safety.

Drawings

Fig. 1 is a logic block diagram of a data transmission management system for an urban underground comprehensive pipe gallery according to an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

examples

A data transmission management system for an urban underground utility tunnel, substantially as shown in figure 1: including integrating data acquisition device, camera monitoring subsystem and server, integrate the sensor of a plurality of settings in city utility tunnel of data acquisition device electricity connection, integrate data acquisition device and server communication connection, in this embodiment, it is ACU regional coordinated controller to integrate data acquisition device, and ACU regional coordinated controller collects signal acquisition, local control, data exchange, remote networking in an organic whole. The camera monitoring subsystem comprises a plurality of cameras which are distributed in the urban underground comprehensive pipe gallery. The server includes:

a data acquisition module: the integrated data acquisition device is used for acquiring the acquired data of each sensor acquired by the integrated data acquisition device through a communication network; the communication network is a single-mode fiber ring network structure. In the optical fiber ring network structure, the network is in a redundant state, and the transmission of the whole network cannot be influenced when any point fails, so that the reliability of data transmission is greatly improved. The sensors comprise a direction sensor, a wind speed sensor, a temperature sensor, a humidity sensor, a combustible gas sensor, a gas concentration sensor and the like.

A data storage module: the system comprises a 3D BIM model used for acquiring and storing the urban underground comprehensive pipe gallery; the system is also used for storing position distribution data and acquisition data of each integrated data acquisition device and each connected sensor by taking each integrated data acquisition device as a unit, and setting data observation point positions in the 3D BIM model according to the position distribution data of each integrated data acquisition device and each connected sensor and performing associated storage;

a data analysis module: the situation analysis comprises emergency event phenomena, event reasons, event places and event time, for example, a combustible gas sensor detects natural gas, a gas concentration sensor detects that the natural gas concentration threshold value exceeds the standard, and a local temperature sensor detects temperature rise, so that the situation that natural gas leakage occurs in an urban underground pipe gallery and fire disasters occur can be judged through the data. The system is also used for marking the corresponding data acquisition device and the corresponding sensor in the emergency event on the data observation point corresponding to the 3D BIM model, and the mark is used for skipping the emergency event and the corresponding camera screen in the camera monitoring subsystem.

A network check module: and the method is used for checking whether a communication fault node exists in the communication network of the ring network structure after the alarm information is generated, and marking the communication fault node on the 3D BIM model if the communication fault node exists. The network inspection module inspects whether a communication fault node exists in the communication network of the ring network structure after the alarm information is generated, so that effective data can be obtained in time to analyze disasters or accidents, and timely measures can be taken conveniently. And the communication fault node is marked on the 3D BIM model, so that the communication fault can be more intuitively known where the communication fault occurs, and the communication fault can be timely eliminated.

An event analysis module: the system is used for performing association analysis on the communication fault node and the corresponding data observation point position in the emergency event, analyzing and judging whether the communication fault node and the data observation point position coincide, if so, analyzing the association degree of the communication fault node and the emergency event phenomenon, the event reason, the event place and the event time, and analyzing the emergency processing degree of the emergency event according to the association degree. The event analysis module can perform association analysis on the communication fault node and the corresponding data observation point in the emergency event so as to conveniently analyze whether association exists between the communication fault node and the emergency event, and then analyze the emergency processing degree of the emergency event through the association degree so as to identify the urgency of emergency event processing. Thereby being convenient for relevant staff to take measures to solve the problems in time.

The data acquisition module: the integrated data acquisition device is also used for acquiring the acquisition data of the corresponding sensor and the corresponding power parameters from the integrated data acquisition device when the alarm information is received;

false alarm analysis module: the device is used for carrying out numerical comparison analysis on the acquired data and the power parameters and the historical data of the corresponding sensor, analyzing and judging whether the sensor causes false alarm or not, and if so, generating false alarm information. The false alarm analysis module can carry out numerical value contrastive analysis with the historical data of gathering data and electric power parameter and corresponding sensor, and whether the analysis judges the sensor to whether have unusually, thereby cause the false alarm, if then generate the alert information of wrong report and inform piping lane maintenance work terminal, so that get rid of the alert condition of wrong report, and reduce staff's work load, and then promote work efficiency.

An alarm module: and the method is used for sending an alarm after the alarm information is generated and carrying out regional display early warning on the 3D BIM model. The alarm module can timely send out an alarm after generating the alarm information, and is convenient for informing a worker to check. And the alarm area can be known more intuitively by the method of carrying out area display early warning on the 3D BIM model.

The data storage module is also used for storing historical emergency events and historical emergency plans corresponding to the historical emergency events;

an emergency plan module: the emergency treatment system is used for generating an emergency plan according to situation analysis and a historical emergency plan when the emergency treatment degree reaches a set threshold; the emergency plan comprises personnel scheduling, maintenance route planning, emergency equipment and consumable replacement. The emergency plan module can generate an emergency plan in a short time according to situation analysis and a historical emergency plan when the emergency treatment degree reaches a set threshold. Thereby facilitating the timely elimination of disasters or faults to reduce loss. Still be used for according to emergent equipment of speedily carrying out rescue work, change consumptive material and data collection station's position distribution data, generate and change equipment flow list, through change equipment flow folk prescription just maintainer maintain according to the corresponding replacement part of quick and accurate preparation of change equipment flow list, save time, work efficiency is high, thereby the convenience is in time just the pertinence is maintained city utility tunnel's data collection station, avoid appearing wrong early warning or the untimely condition of early warning. The event analysis module can store the emergency processing degree of the emergency event into the equipment replacement flow sheet according to the association degree analysis.

Escape route module: the emergency processing device is used for generating a plurality of escape routes according to the collected data of the sensors collected by the integrated data collecting device when the emergency processing degree reaches a set threshold value, and pushing the escape routes to all workers in the urban underground comprehensive pipe gallery. The route module of fleing can generate a plurality of routes of fleing, guarantees that whole staff in the city utility tunnel can be safe withdraw.

A personnel statistics module: the face recognition system is used for carrying out face recognition on workers through the cameras on the escape route and carrying out auxiliary positioning on the workers through the installation positions of the cameras to obtain positioning data; and the system is also used for updating the identity data and the positioning data of the face recognition in real time, inputting the updated identity data and the positioning data into a data display screen and combining the updated identity data and the positioning data into a 3D BIM model to display the real-time state of the escape personnel. Personnel count the mounted position that the module passes through the camera and carry out assistance-localization real-time to the staff and acquire the location data, can conveniently know the condition of withdrawing of whole staff in the city utility tunnel to further guarantee staff's personal safety.

A maintenance planning module: the method and the system are used for analyzing the optimal maintenance route according to the position distribution data of the data acquisition unit in the equipment replacement flow list and continuously optimizing and adjusting the maintenance route according to the data acquired by the data acquisition unit in real time to obtain the optimal route. The initial maintenance route is analyzed according to the position distribution data of the data collector in the equipment replacement flow sheet, so that maintenance personnel can conveniently and accurately reach the position of the data collector to carry out maintenance work, and the data of the data collector is collected in real time to continuously optimize and adjust the maintenance route to obtain the optimal route, so that the life safety of the maintenance personnel is ensured, and safety accidents are avoided.

Example two

The difference between the second embodiment and the first embodiment is that the system further comprises a pipe gallery maintenance work terminal used by maintenance personnel. Integrate and be provided with the bluetooth serial ports among the data acquisition device, through bluetooth serial ports connection bluetooth equipment, be provided with GPS module and bluetooth module among the pipe gallery maintenance work terminal, in the pipe gallery maintenance work terminal got into city underground pipe gallery, bluetooth module can pair with the bluetooth equipment among the data acquisition device that integrates, and realizes the location among the city underground pipe gallery through bluetooth location technology. The server further comprises the following modules:

a personnel database: the system comprises a data acquisition module, a data storage module, a data processing module and a data processing module, wherein the data acquisition module is used for acquiring and storing identity data and fault maintenance capability data of maintenance personnel, and the fault maintenance capability data comprises technical grades, maintenance capability advantages and disadvantages and fault maintenance records;

a positioning module: the system comprises a data acquisition module, a management center and a management center, wherein the data acquisition module is used for acquiring the Bluetooth positioning information of a pipe rack maintenance work terminal;

a staff planning module: the target maintenance personnel are used for matching corresponding technical grades from the personnel database and are in an idle state according to the state emergency degree recorded in the equipment replacement flow sheet; the system is also used for acquiring GPS information or Bluetooth positioning information of the target maintainer, analyzing the geographical position of the target maintainer, comprehensively analyzing the rush time of the target maintainer reaching the setting position of the integrated data acquisition device according to the geographical position of the target maintainer and the optimal maintenance route analyzed by the maintenance planning module, and screening and removing the target maintainer if the rush time exceeds the optimal maintenance time interval; when no maintainer meeting the optimal maintenance time interval exists, reducing the matching conditions of the target maintainer, specifically: matching target maintenance personnel which are lower than the corresponding technical grade by one grade and are in an idle state from a personnel database;

and the system is also used for analyzing and processing the maintenance capacity required by the fault according to the equipment replacement flow sheet, performing combined planning on the maintainers according to the required maintenance capacity and the advantages and disadvantages of the maintenance capacity of the target maintainer, and acquiring a plurality of maintainer combinations meeting the required maintenance capacity.

The system is also used for acquiring GPS (global positioning system) information or Bluetooth positioning information of target maintainers in the maintainer combination, analyzing the geographical positions of the target maintainers in the maintainer combination, comprehensively analyzing the rush time when the target maintainers in the maintainer combination all reach the setting position of the integrated data acquisition device according to the geographical positions of the target maintainers and the optimal maintenance route analyzed by the maintenance planning module, and combining and screening the maintainers if the rush time exceeds the optimal maintenance time interval; when the maintainer combinations meeting the optimal maintenance time interval exist and are in multiple groups, the part information carried by the maintainers in each maintainer combination is acquired, whether the carried part information meets an equipment replacement flow list or not is judged, if the carried part information meets the equipment replacement flow list and multiple combinations exist, final screening is carried out according to the rush time, and the maintainer combination which is shortest in rush time and carries the part information and meets the equipment replacement flow list is screened out.

The data pushing module: the pipe gallery maintenance work terminal is used for issuing the equipment replacement flow sheet to the maintenance personnel combination; and sending the optimal maintenance route to a pipe gallery maintenance work terminal of the maintenance personnel combination.

The foregoing are merely exemplary embodiments of the present invention, and common general knowledge in the field of known specific structures and characteristics is described in more detail herein, so that a person of ordinary skill in the art would know how to implement the present invention based on the present disclosure and may now appreciate that many modifications may be made to the present disclosure without departing from the spirit and scope of the present invention. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (8)

1. A data transmission management system for city utility tunnel, its characterized in that: including integrating data acquisition device, camera monitoring subsystem and server, integrate the sensor of a plurality of settings in city utility tunnel is connected to the data acquisition device electricity, integrate data acquisition device and server communication connection, the server includes:

a data acquisition module: the integrated data acquisition device is used for acquiring the acquired data of each sensor acquired by the integrated data acquisition device through a communication network; the communication network is a single-mode optical fiber ring network structure;

a data storage module: the system comprises a 3D BIM model used for acquiring and storing the urban underground comprehensive pipe gallery; the system is also used for storing position distribution data and acquisition data of each integrated data acquisition device and each connected sensor by taking each integrated data acquisition device as a unit, and setting data observation point positions in the 3D BIM model according to the position distribution data of each integrated data acquisition device and each connected sensor and performing associated storage;

a data analysis module: the system comprises a data acquisition device, a data processing device and a data processing device, wherein the data acquisition device is used for comparing and analyzing acquired data of each sensor with a corresponding alarm threshold value, if the acquired data exceeds the corresponding alarm threshold value, alarm information is generated, acquired data corresponding to other connected sensors are acquired through the data acquisition device corresponding to the sensor, and are used for judging emergency events and analyzing situation, and the situation analysis comprises emergency event phenomena, event reasons, event places and event time; the system is also used for marking the corresponding data acquisition device and the corresponding sensor in the emergency event on the data observation point corresponding to the 3D BIM model, and the mark is used for skipping the emergency event and the corresponding camera screen in the camera monitoring subsystem.

2. The data transmission management system for the urban underground utility tunnel according to claim 1, characterized in that: the server further comprises:

a network check module: and the method is used for checking whether a communication fault node exists in the communication network of the ring network structure after the alarm information is generated, and marking the communication fault node on the 3D BIM model if the communication fault node exists.

3. The data transmission management system for the urban underground utility tunnel according to claim 2, characterized in that: the server further comprises:

an event analysis module: the system is used for performing association analysis on the communication fault node and the corresponding data observation point position in the emergency event, analyzing and judging whether the communication fault node and the data observation point position coincide, if so, analyzing the association degree of the communication fault node and the emergency event phenomenon, the event reason, the event place and the event time, and analyzing the emergency processing degree of the emergency event according to the association degree.

4. The data transmission management system for the urban underground utility tunnel according to claim 3, characterized in that: the data acquisition module: the integrated data acquisition device is also used for acquiring the acquisition data of the corresponding sensor and the corresponding power parameters from the integrated data acquisition device when the alarm information is received;

the server further comprises:

false alarm analysis module: the device is used for carrying out numerical comparison analysis on the acquired data and the power parameters and the historical data of the corresponding sensor, analyzing and judging whether the sensor causes false alarm or not, and if so, generating false alarm information.

5. The data transmission management system for the urban underground utility tunnel according to claim 4, characterized in that: the server further comprises:

an alarm module: and the method is used for sending an alarm after the alarm information is generated and carrying out regional display early warning on the 3D BIM model.

6. The data transmission management system for the urban underground utility tunnel according to claim 3, characterized in that: the data storage module is further configured to store historical emergency events and historical emergency plans corresponding to the historical emergency events, and the server further includes:

an emergency plan module: the emergency treatment system is used for generating an emergency plan according to situation analysis and a historical emergency plan when the emergency treatment degree reaches a set threshold; the emergency plan comprises personnel scheduling, maintenance route planning, emergency equipment and consumable replacement.

7. The data transmission management system for the urban underground utility tunnel according to claim 6, characterized in that: the server further comprises:

escape route module: the emergency processing device is used for generating a plurality of escape routes according to the collected data of the sensors collected by the integrated data collecting device when the emergency processing degree reaches a set threshold value, and pushing the escape routes to all workers in the urban underground comprehensive pipe gallery.

8. The data transmission management system for the urban underground utility tunnel according to claim 7, characterized in that: the server further comprises:

a personnel statistics module: the face recognition system is used for carrying out face recognition on workers through the cameras on the escape route and carrying out auxiliary positioning on the workers through the installation positions of the cameras to obtain positioning data; and the system is also used for updating the identity data and the positioning data of the face recognition in real time, inputting the updated identity data and the positioning data into a data display screen and combining the updated identity data and the positioning data into a 3D BIM model to display the real-time state of the escape personnel.

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