CN111489572A - Underground vehicle traffic management system, management method and computer equipment - Google Patents

Abstract

The invention relates to an underground vehicle traffic management system, a management method and computer equipment, wherein the underground vehicle traffic management system comprises a control terminal and a vehicle-mounted terminal; the vehicle-mounted terminal is mounted on a vehicle, the control terminal is mounted underground, communication connection based on a ZigBee communication protocol is established between the control terminal and the vehicle-mounted terminal, the vehicle-mounted terminal is used for transmitting real-time position information of the vehicle to the control terminal, and the control terminal is used for displaying the real-time position information of the vehicle to a user. The underground vehicle traffic management method comprises the steps of obtaining vehicle real-time position information through a vehicle-mounted terminal, obtaining the vehicle real-time position information through a communication connection between a control terminal and the vehicle-mounted terminal, and displaying the vehicle real-time position information to a user through the control terminal. By adopting the technical scheme provided by the invention, enterprise managers can conveniently acquire the real-time position information of the vehicle, so that the effective management of a driver is facilitated to be enhanced, and the driver can timely take measures to avoid other vehicles.

Description

Underground vehicle traffic management system, management method and computer equipment

Technical Field

The invention belongs to the technical field of mining industry, and particularly relates to an underground vehicle traffic management system, a management method and computer equipment.

Background

In mining engineering, various goods are transported by vehicles, various transportation vehicles are often very busy when coming and going in a mine, along with the increase of transportation vehicles, in addition, underground road conditions are very complicated, various potential safety hazards are also obvious, once a traffic accident occurs, the whole mine can be stopped production, the normal production operation of the mine is influenced, in addition, underground traffic roadways are criss-cross, if a vehicle driver gets lost underground, the driver and the vehicle which get lost can not be found by external management personnel due to the fact that the driver and the vehicle can not be communicated with the outside, the management personnel can not track the driving path of the driver driven vehicle, and adverse effects are caused to production management of enterprises.

Disclosure of Invention

In order to solve the technical problem, the invention provides an underground vehicle traffic management system, a management method and computer equipment.

The invention provides an underground vehicle traffic management system, which comprises a control terminal and a vehicle-mounted terminal, wherein the vehicle-mounted terminal is connected with the control terminal; the vehicle-mounted terminal is mounted on a vehicle, the control terminal is mounted underground, a communication connection based on a ZigBee communication protocol is established between the control terminal and the vehicle-mounted terminal, the vehicle-mounted terminal is used for transmitting the real-time position information of the vehicle to the control terminal, and the control terminal is used for displaying the real-time position information of the vehicle to a user.

The underground vehicle traffic management system further comprises exciters, the exciters are installed at each underground intersection, communication connection based on a ZigBee communication protocol is established between the exciters and the control terminal, and the exciters are used for acquiring vehicle running direction information and vehicle distance information and transmitting the vehicle running direction information and the vehicle distance information to the control terminal.

The exciter is also electrically connected with traffic signal lamps arranged at each underground intersection, and the exciter is also used for controlling the on/off of the traffic signal lamps.

The traffic signal lamp sends out optical fiber signals of red, yellow and green.

The vehicle-mounted terminal is electrically connected with a display screen installed on the vehicle, the control terminal is further used for transmitting the collected real-time position information of the vehicle to the vehicle-mounted terminal, and the display screen is used for displaying the collected real-time position information of the vehicle to a vehicle driver.

The control terminal also comprises a storage module which is used for classifying and storing the vehicle real-time position information from the vehicle-mounted terminal and displaying the vehicle real-time position information to a user when the user needs the vehicle real-time position information.

The control terminal further comprises a drawing module, the drawing module is electrically connected with the storage module, and the drawing module is used for drawing the vehicle real-time position information stored in the storage module into a continuous vehicle running track graph and displaying the continuous vehicle running track graph to a user when the user needs the vehicle running track graph.

In addition, the invention also provides an underground vehicle traffic management method using the underground vehicle traffic management system, which comprises the following steps:

the vehicle real-time position information is acquired through the vehicle-mounted terminal, the vehicle real-time position information is acquired through the control terminal through the communication connection between the control terminal and the vehicle-mounted terminal, and the vehicle real-time position information is displayed to a user through the control terminal.

Furthermore, the present invention provides a computer device, including a memory and a processor, wherein the memory module stores a computer program, and the computer program is characterized in that: the processor, when executing the computer program, implements the steps of the downhole vehicular traffic management method as previously described.

The invention has the beneficial effects that: by adopting the technical scheme provided by the invention, the real-time position information of the vehicle is transmitted to the control terminal through the communication connection based on the ZigBee communication protocol, which is established between the control terminal and the vehicle-mounted terminal, so that enterprise managers can conveniently acquire the real-time position information of the vehicle and know the driving track of the driver, thereby being convenient for enhancing the effective management of the driver.

Drawings

FIG. 1 is a schematic diagram of the structure of a downhole vehicular traffic management system of the present invention.

Detailed Description

The technical solution of the present invention is further explained with reference to the accompanying drawings, but the claimed protection scope is not limited thereto;

the invention provides an underground vehicle traffic management system, which comprises a control terminal and a vehicle-mounted terminal, as shown in figure 1; the vehicle-mounted terminal is mounted on a vehicle, the control terminal is mounted underground, communication connection based on a ZigBee communication protocol is established between the control terminal and the vehicle-mounted terminal, the vehicle-mounted terminal is used for transmitting real-time position information of the vehicle to the control terminal, and the control terminal is used for displaying the real-time position information of the vehicle to a user.

Furthermore, the underground vehicle traffic management system also comprises exciters, the exciters are installed at each underground intersection, a communication connection based on a ZigBee communication protocol is established between the exciters and the control terminal, and the exciters are used for acquiring vehicle running direction information and vehicle distance information and transmitting the information to the control terminal.

In addition, the exciter is also electrically connected with traffic lights installed at each underground intersection, and the exciter is also used for controlling the turning on or off of the traffic lights. The traffic signal light sends out optical fiber signals of red, yellow and green.

In addition, the vehicle-mounted terminal is electrically connected with a display screen installed on the vehicle, the control terminal is further used for transmitting the collected real-time position information of the vehicle to the vehicle-mounted terminal, and the display screen is used for displaying the collected real-time position information of the vehicle to a vehicle driver.

Further, the control terminal also comprises a storage module, and the storage module is used for storing the vehicle real-time position information from the vehicle-mounted terminal in a classified mode and displaying the vehicle real-time position information to a user when the user needs the vehicle real-time position information. The control terminal further comprises a drawing module, the drawing module is electrically connected with the storage module, and the drawing module is used for drawing the vehicle real-time position information stored in the storage module into a continuous vehicle running track graph and displaying the continuous vehicle running track graph to a user when the user needs the vehicle running track graph.

In addition, the invention also provides a downhole vehicle traffic management method using the downhole vehicle traffic management system, which comprises the following steps:

the real-time vehicle position information is acquired through the vehicle-mounted terminal, the real-time vehicle position information is acquired through the control terminal through the communication connection between the control terminal and the vehicle-mounted terminal, and the real-time vehicle position information is displayed to a user through the control terminal.

In addition, the invention also provides computer equipment which comprises a memory and a processor, wherein the memory module stores computer programs, and the processor executes the computer programs to realize the steps of the underground vehicle traffic management method.

By adopting the technical scheme provided by the invention, the real-time position information of the vehicle is transmitted to the control terminal through the communication connection based on the ZigBee communication protocol, which is established between the control terminal and the vehicle-mounted terminal, so that enterprise managers can conveniently acquire the real-time position information of the vehicle and know the driving track of the driver, thereby being convenient for enhancing the effective management of the driver.

Claims (9)

1. A downhole vehicular traffic management system, characterized by: the system comprises a control terminal and a vehicle-mounted terminal; the vehicle-mounted terminal is mounted on a vehicle, the control terminal is mounted underground, a communication connection based on a ZigBee communication protocol is established between the control terminal and the vehicle-mounted terminal, the vehicle-mounted terminal is used for transmitting the real-time position information of the vehicle to the control terminal, and the control terminal is used for displaying the real-time position information of the vehicle to a user.

2. A downhole vehicular traffic management system according to claim 1, wherein: the underground vehicle traffic management system further comprises exciters, the exciters are installed at each underground intersection, communication connection based on a ZigBee communication protocol is established between the exciters and the control terminal, and the exciters are used for acquiring vehicle running direction information and vehicle distance information and transmitting the vehicle running direction information and the vehicle distance information to the control terminal.

3. A downhole vehicular traffic management system according to claim 2, wherein: the exciter is also electrically connected with traffic signal lamps arranged at each underground intersection, and the exciter is also used for controlling the on/off of the traffic signal lamps.

4. A downhole vehicular traffic management system according to claim 3, wherein: the traffic signal lamp sends out optical fiber signals of red, yellow and green.

5. A downhole vehicular traffic management system according to claim 1, wherein: the vehicle-mounted terminal is electrically connected with a display screen installed on the vehicle, the control terminal is further used for transmitting the collected real-time position information of the vehicle to the vehicle-mounted terminal, and the display screen is used for displaying the collected real-time position information of the vehicle to a vehicle driver.

6. A downhole vehicular traffic management system according to claim 1, wherein: the control terminal also comprises a storage module which is used for classifying and storing the vehicle real-time position information from the vehicle-mounted terminal and displaying the vehicle real-time position information to a user when the user needs the vehicle real-time position information.

7. A downhole vehicular traffic management system according to claim 6, wherein: the control terminal further comprises a drawing module, the drawing module is electrically connected with the storage module, and the drawing module is used for drawing the vehicle real-time position information stored in the storage module into a continuous vehicle running track graph and displaying the continuous vehicle running track graph to a user when the user needs the vehicle running track graph.

8. A downhole vehicular traffic management method using the downhole vehicular traffic management system according to any one of claims 1 to 7, characterized in that: the method comprises the following steps:

the vehicle real-time position information is acquired through the vehicle-mounted terminal, the vehicle real-time position information is acquired through the control terminal through the communication connection between the control terminal and the vehicle-mounted terminal, and the vehicle real-time position information is displayed to a user through the control terminal.

9. A computer device comprising a memory and a processor, the memory module storing a computer program, characterized in that: the processor, when executing the computer program, performs the steps of the method for downhole vehicular traffic management of claim 8.

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