CN113459970A

CN113459970A - Vehicle operation intelligent monitoring system based on big data

Info

Publication number: CN113459970A
Application number: CN202010248539.4A
Authority: CN
Inventors: 张豪杰; 王斐; 王泽朋; 陈晔
Original assignee: Beijing Huixing Shida Technology Co ltd
Current assignee: Beijing Huixing Shida Technology Co ltd
Priority date: 2020-03-31
Filing date: 2020-03-31
Publication date: 2021-10-01
Anticipated expiration: 2040-03-31
Also published as: CN113459970B

Abstract

The invention discloses a vehicle operation intelligent monitoring system based on big data, which comprises a vehicle self-information acquisition module, a vehicle information acquisition module of the same type, an information input module, a navigation module, a driving route information acquisition module, a processing module I, a storage module I, a voice broadcast module, a voice recognition module, a network module I and a cloud server module, wherein the vehicle self-information acquisition module, the vehicle information acquisition module of the same type, the navigation module, the information input module, the driving route information acquisition module, the storage module I, the voice broadcast module, the voice recognition module, the network module I and the cloud server module are all connected with the processing module I. Has the advantages that: the time that the vehicle needs to be overhauled, maintained and parts are replaced can be provided for the vehicle owner, so that the trouble can be prevented, the probability of the vehicle breaking down is reduced, and the safety of the vehicle in the running process is improved.

Description

Vehicle operation intelligent monitoring system based on big data

Technical Field

The invention relates to the field of wheel operation monitoring systems, in particular to a vehicle operation intelligent monitoring system based on big data.

Background

The vehicle is a vehicle that has its own power to drive and can be driven by motor without the need of rail or electric power installation. In a broad sense, a vehicle having four-wheel driving is generally called an automobile, and in order to increase safety of driving of the automobile. The regular overhaul and maintenance of the vehicle are usually required, but the overhaul and maintenance cycles of each type of vehicle are different, so that a plurality of vehicle owners do not know when the overhaul and maintenance are required, the regular overhaul and maintenance of the vehicle are often omitted, the wheels often break down during operation, and greater troubles and even accidents are brought.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

The invention aims to provide a vehicle operation intelligent monitoring system based on big data, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a vehicle operation intelligent monitoring system based on big data comprises a vehicle self-information acquisition module, a homogeneous vehicle information acquisition module, an information input module, a navigation module, a driving route information acquisition module, a processing module I, a storage module I, a voice broadcast module, a voice recognition module, a network module I and a cloud server module, wherein the vehicle self-information acquisition module, the homogeneous vehicle information acquisition module, the navigation module, the information input module, the driving route information acquisition module, the storage module I, the voice broadcast module, the voice recognition module and the network module I are all connected with the processing module I, the vehicle self-information acquisition module comprises a tire air pressure acquisition module, an oil quantity acquisition module, a vehicle door state acquisition module, a vehicle speed acquisition module and a safety belt state acquisition module, the tire pressure acquisition module, the oil quantity acquisition module, the vehicle door state acquisition module, the vehicle speed acquisition module and the safety belt state acquisition module are all connected with the processing module I, the cloud server module comprises a network module II, a processing module II, a classification module, a storage module II, a data receiving module, a data analysis module and a data sending module, and the network module II, the classification module, the storage module II, the data receiving module, the data analysis module and the data sending module are all connected with the processing module II.

Further, the vehicle information acquisition module of the same type includes a maintenance cycle acquisition module of the vehicle of the same type, a maintenance cycle acquisition module of the vehicle of the same type and a vulnerable time acquisition module of each part of the vehicle of the same type, the maintenance cycle acquisition module of the vehicle of the same type and the vulnerable time acquisition module of each part of the vehicle of the same type are all connected with the processing module I.

Furthermore, the driving route information acquisition module comprises a road section blocking degree acquisition module, a road section accident rate acquisition module and a road section speed-limiting and weight-limiting acquisition module, and the road section blocking degree acquisition module, the road section accident rate acquisition module and the road section speed-limiting and weight-limiting acquisition module are all connected with the first processing module.

Furthermore, the navigation module comprises a line acquisition module, an information sending module, an information receiving module, a selection module and a line output module, wherein the line acquisition module is connected with the information sending module, the information sending module and the information receiving module are both connected with the processing module I, the information receiving module is connected with the selection module, and the selection module is connected with the line output module.

Furthermore, the line output module comprises a voice output module and an animation simulation output module.

The parking space acquisition module is connected with the processing module I and is used for acquiring parking space information near a destination.

Further, the system further comprises a gas station acquisition module, wherein the gas station acquisition module is connected with the processing module I, and the gas station acquisition module is used for acquiring the position information of nearby gas stations when the fuel quantity is insufficient.

Further, the information input module is a touch screen.

Compared with the prior art, the invention has the following beneficial effects:

(1) according to the invention, through arranging the vehicle self-information acquisition module, the like vehicle information acquisition module, the information input module, the navigation module, the driving route information acquisition module, the processing module I, the storage module I, the voice broadcast module, the voice recognition module, the network module I and the cloud server module, the vehicle self-information such as tire pressure, oil quantity, vehicle door state, safety belt state and the like can be automatically acquired, and the vehicle self-information is actively transmitted to a vehicle owner in a voice broadcast mode before the vehicle runs, so that a lot of unnecessary troubles can be reduced for the vehicle owner, and the time for the vehicle owner to overhaul, maintain and replace parts can be provided, so that the vehicle self-information acquisition module can be prevented from being in the bud, the probability of vehicle faults is reduced, and the safety in the vehicle running process is improved.

(2) The maintenance cycle acquisition module of the same type vehicle, the maintenance cycle acquisition module of the same type vehicle and the damageable time acquisition module of each part of the same type vehicle can be used for acquiring the maintenance cycle of the same type vehicle and the damageable time of each part of the same type vehicle, so that the time for next maintenance and repair and the time for replacing each part are calculated according to the maintenance and repair time and the damageable time of each part input by the vehicle.

(3) The road section jam degree acquisition module, the road section accident rate acquisition module and the road section speed-limiting and weight-limiting acquisition module are arranged, so that the road section jam degree acquisition module, the road section accident rate acquisition module and the road section speed-limiting and weight-limiting acquisition module can be used for acquiring the jam degree, the accident rate and the speed-limiting and weight-limiting information of the driving route provided by the navigation module.

(4) According to the invention, by arranging the line acquisition module, the information sending module, the information receiving module, the selection module and the line output module, a plurality of lines can be preselected according to the input destination, an optimal line is selected from the preselected lines according to the accident rate and the jam condition of the road section, and the optimal line is displayed to the vehicle owner in the form of voice and animation.

(5) The parking space acquisition module is arranged, so that the information of the parking space near the destination can be acquired according to the destination information, and a vehicle owner can select a proper parking space to park.

(6) The invention can be used for acquiring the position information of the nearby gas station when the fuel quantity of the vehicle is insufficient by arranging the gas station acquisition module.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a big data-based intelligent monitoring system for vehicle operation according to an embodiment of the invention;

fig. 2 is a schematic structural diagram of a cloud server module in a vehicle operation intelligent monitoring system based on big data according to an embodiment of the invention.

Reference numerals:

1. a vehicle self information acquisition module; 2. the vehicle information acquisition module of the same type; 3. an information input module; 4. a navigation module; 5. a driving route information acquisition module; 6. a first processing module; 7. a first storage module; 8. a voice broadcasting module; 9. a voice recognition module; 10. a first network module; 11. a cloud server module; 12. a tire air pressure acquisition module; 13. an oil quantity obtaining module; 14. a vehicle door state acquisition module; 15. a vehicle speed obtaining module; 16. a belt state acquisition module; 17. a network module II; 18. a second processing module; 19. a classification module; 20. a second storage module; 21. a data receiving module; 22. a data analysis module; 23. a data transmission module; 24. the maintenance cycle acquisition module of the same type of vehicle; 25. a maintenance period acquisition module of the same vehicle; 26. the same vehicle part damageable time acquisition module; 27. a road section blocking degree obtaining module; 28. a road section accident rate obtaining module; 29. a road section speed limit and weight limit acquisition module; 30. a line acquisition module; 31. an information sending module; 32. an information receiving module; 33. a selection module; 34. a line output module; 35. a voice output module; 36. an animation simulation output module; 37. a parking space acquisition module; 38. and a gas station acquisition module.

Detailed Description

The invention is further described with reference to the following drawings and detailed description:

the first embodiment is as follows:

referring to fig. 1-2, an intelligent vehicle operation monitoring system based on big data according to an embodiment of the present invention includes a vehicle self-information obtaining module 1, a vehicle information obtaining module 2 of the same type, an information input module 3, a navigation module 4, a driving route information obtaining module 5, a processing module 6, a storage module 7, a voice broadcasting module 8, a voice recognition module 9, a network module 10, and a cloud server module 11, where the vehicle self-information obtaining module 1, the vehicle information obtaining module 2 of the same type, the navigation module 4, the information input module 3, the driving route information obtaining module 5, the storage module 7, the voice broadcasting module 8, the voice recognition module 9, and the network module 10 are all connected to the processing module 6, and the vehicle self-information obtaining module 1 includes a tire air pressure obtaining module 12, a tire air pressure obtaining module 10, a memory module 6, and a vehicle operation monitoring module 6, The system comprises an oil quantity acquisition module 13, a vehicle door state acquisition module 14, a vehicle speed acquisition module 15 and a safety belt state acquisition module 16, wherein the tire air pressure acquisition module 12, the oil quantity acquisition module 13, the vehicle door state acquisition module 14, the vehicle speed acquisition module 15 and the safety belt state acquisition module 16 are all connected with the processing module I6, the cloud server module 11 comprises a network module II 17, a processing module II 18, a classification module 19, a storage module II 20, a data receiving module 21, a data analysis module 22 and a data sending module 23, and the network module II 17, the classification module 19, the storage module II 20, the data receiving module 21, the data analysis module 22 and the data sending module 23 are all connected with the processing module II 18.

By the scheme, the vehicle information such as the tire pressure, the oil quantity, the door state, the safety belt state and the like can be automatically acquired, and is actively transmitted to the vehicle owner in a voice broadcasting mode before the vehicle runs, so that a lot of unnecessary troubles can be reduced for the vehicle owner, the time for the vehicle to be overhauled, maintained and replaced can be provided for the vehicle owner, the vehicle can be prevented from getting in the bud, the probability of vehicle failure is reduced, and the safety of the vehicle in the running process is improved.

Example two:

referring to fig. 1, for the vehicle information obtaining module 2 of the same type, the vehicle information obtaining module 2 of the same type includes a maintenance cycle obtaining module 24 of the same type, a maintenance cycle obtaining module 25 of the same type, and a vulnerable time obtaining module 26 of each part of the same type, and the maintenance cycle obtaining module 24 of the same type, the maintenance cycle obtaining module 25 of the same type, and the vulnerable time obtaining module 26 of each part of the same type are all connected to the processing module one 6; for the driving route information acquiring module 5, the driving route information acquiring module 5 includes a road section congestion degree acquiring module 27, a road section accident rate acquiring module 28 and a road section speed limit and weight acquiring module 29, and the road section congestion degree acquiring module 27, the road section accident rate acquiring module 28 and the road section speed limit and weight acquiring module 29 are all connected with the processing module one 6; for the line output module 34, the line output module 34 includes a voice output module 35 and an animation simulation output module 36.

According to the scheme of the invention, the method and the device can be used for acquiring the overhaul and maintenance period of the same type of vehicle and the vulnerable time of parts of the same type of vehicle, so that the next overhaul, maintenance and time for replacing each part are calculated according to the overhaul and maintenance time and the time for replacing each part input by the vehicle, the method and the device can also be used for acquiring the jam degree, the accident rate and the speed-limiting and weight-limiting information of the driving route provided by the navigation module 4, a plurality of routes can be preselected according to the input destination, the optimal route is selected from the preselected routes according to the accident rate and the jam condition of the road section, and the optimal route is displayed to a vehicle owner in the form of voice and animation.

Example three:

referring to fig. 1, as for the parking space obtaining module 37, the parking space obtaining module 37 further includes a parking space obtaining module 37, where the parking space obtaining module 37 is connected to the first processing module 6, and the parking space obtaining module 37 is configured to obtain parking space information near the destination; the gasoline station obtaining module 38 further comprises a gasoline station obtaining module 38, the gasoline station obtaining module 38 is connected to the first processing module 6, and the gasoline station obtaining module 38 is configured to obtain the position information of a gasoline station nearby when the gasoline amount is insufficient; for the information input module 3, the information input module 3 is a touch screen.

With the above-mentioned solution of the present invention, the parking space obtaining module 37 can obtain the parking space information near the destination according to the destination information, so that the vehicle owner can select a proper parking space to park, and the gas station obtaining module 38 can be used to obtain the position information of the nearby gas station when the vehicle is in short of fuel.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

In practical application, the tire pressure obtaining module 12, the oil amount obtaining module 13, the door state obtaining module 14, the vehicle speed obtaining module 15 and the safety belt state obtaining module 16 can obtain the tire pressure, the oil amount, the door state, the vehicle speed and the safety belt state information of the vehicle, so as to prevent the conditions of insufficient tire pressure, overspeed and unclosed vehicle door in the driving process of the vehicle, and can prompt the vehicle owner to refuel in time by voice when the oil amount is low, and remind the passenger or the driver to fasten the safety belt when the passenger or the driver does not fasten the safety belt, so as to reduce a lot of unnecessary troubles for the vehicle owner, and the vehicle information obtaining module 2 can provide the vehicle owner with the period of the need of repairing, maintaining and replacing parts, the vehicle owner only needs to input the time of repairing, maintaining and replacing parts at each time through the information input module 3, and the processing module 6 can repair, maintain and replace parts according to the need of the vehicle, The time that the vehicle needs to be overhauled, maintained and replaced next time is calculated according to the period of maintaining and replacing parts, so that the vehicle owner can be reminded of overhauling, maintaining or replacing parts in time by voice before the time of overhauling, maintaining and replacing parts is reached, the trouble can be prevented, the probability of vehicle failure is reduced, the safety of the vehicle in the running process is improved, the network module II 17 can transmit data with the network module I10, the passing between the processing module II 18 and the processing module I6 is completed, the classification module 19 can classify and store information such as various overhauling, maintaining and replacing periods of parts of the vehicle in the storage module II 20, the retrieval is convenient, the data receiving module 21 is used for receiving information received by the network module II 17, the data analyzing module 22 is used for analyzing data received by the data receiving module 21 and storing the received data in the storage module II 20, the data sending module 23 is configured to send data in the storage module two 20 to the processing module one 6 according to an instruction of the processing module one 6, the navigation module 4 can be configured to obtain congestion degree, accident rate and speed-limiting weight-limiting information of a driving route provided by the navigation module 4, and can pre-select multiple routes according to an input destination, select an optimal route from the pre-selected routes according to the accident rate and congestion condition of a road segment, and display the optimal route to a vehicle owner in a voice and animation mode, the parking space obtaining module 37 can obtain parking space information near the destination according to the destination information, so that the vehicle owner can select a proper parking space to park, and the gas station obtaining module 38 can be configured to obtain position information of a gas station near when the vehicle is in an insufficient fuel amount.

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

1. The intelligent vehicle operation monitoring system based on big data is characterized by comprising a vehicle self information acquisition module (1), a same type vehicle information acquisition module (2), an information input module (3), a navigation module (4), a driving route information acquisition module (5), a processing module I (6), a storage module I (7), a voice broadcasting module (8), a voice recognition module (9), a network module I (10) and a cloud server module (11), wherein the vehicle self information acquisition module (1), the same type vehicle information acquisition module (2), the navigation module (4), the information input module (3), the driving route information acquisition module (5), the storage module I (7), the voice broadcasting module (8), the voice recognition module (9) and the network module I (10) are all connected with the processing module I (6), the vehicle self-information acquisition module (1) comprises a tire air pressure acquisition module (12), an oil quantity acquisition module (13), a vehicle door state acquisition module (14), a vehicle speed acquisition module (15) and a safety belt state acquisition module (16), the tire air pressure acquisition module (12), the oil quantity acquisition module (13), the vehicle door state acquisition module (14), the vehicle speed acquisition module (15) and the safety belt state acquisition module (16) are all connected with the processing module I (6), the cloud server module (11) comprises a network module II (17), a processing module II (18), a classification module (19), a storage module II (20), a data receiving module (21), a data analysis module (22) and a data sending module (23), and the network module II (17), the classification module (19), the storage module II (20), The data receiving module (21), the data analyzing module (22) and the data sending module (23) are all connected with the second processing module (18).

2. The intelligent vehicle operation monitoring system based on big data is characterized in that the vehicle information acquisition module (2) comprises a maintenance period acquisition module (24) of the vehicle, a maintenance period acquisition module (25) of the vehicle and a vulnerable time acquisition module (26) of each part of the vehicle, wherein the maintenance period acquisition module (24) of the vehicle, the maintenance period acquisition module (25) of the vehicle and the vulnerable time acquisition module (26) of each part of the vehicle are all connected with the first processing module (6).

3. The vehicle operation intelligent monitoring system based on big data according to claim 1, characterized in that the driving route information obtaining module (5) comprises a road section blocking degree obtaining module (27), a road section accident rate obtaining module (28) and a road section speed limit weight obtaining module (29), and the road section blocking degree obtaining module (27), the road section accident rate obtaining module (28) and the road section speed limit weight obtaining module (29) are all connected with the processing module I (6).

4. The vehicle operation intelligent monitoring system based on big data is characterized in that the navigation module (4) comprises a line acquisition module (30), an information sending module (31), an information receiving module (32), a selection module (33) and a line output module (34), wherein the line acquisition module (30) is connected with the information sending module (31), the information sending module (31) and the information receiving module (32) are both connected with the processing module I (6), the information receiving module (32) is connected with the selection module (33), and the selection module (33) is connected with the line output module (34).

5. The big data based intelligent monitoring system for vehicle operation according to claim 4, wherein the line output module (34) comprises a voice output module (35) and an animation simulation output module (36).

6. The intelligent big data-based vehicle operation monitoring system according to claim 1, further comprising a parking space obtaining module (37), wherein the parking space obtaining module (37) is connected to the first processing module (6), and the parking space obtaining module (37) is configured to obtain parking space information near a destination.

7. The big data-based intelligent monitoring system for vehicle running according to claim 1, further comprising a gasoline station obtaining module (38), wherein the gasoline station obtaining module (38) is connected to the first processing module (6), and the gasoline station obtaining module (38) is used for obtaining the position information of the gasoline station nearby when the gasoline amount is insufficient.

8. The intelligent big data-based monitoring system for vehicle running is characterized in that the information input module (3) is a touch screen.