CN112651806A

CN112651806A - Method for quickly finding passenger

Info

Publication number: CN112651806A
Application number: CN202011628836.8A
Authority: CN
Inventors: 陈万慧; 江洋明
Original assignee: Beijing Overlooking Technology Co ltd
Current assignee: Beijing Yankan Intelligent Technology Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-04-13
Anticipated expiration: 2040-12-30
Also published as: CN112651806B

Abstract

The invention provides a method for quickly finding a passenger, which comprises the following steps: generating an order according to a passenger request, wherein the order comprises a starting position and a terminal position; carrying out order dispatching according to a preset rule; when receiving order receiving confirmation information of a vehicle owner end, feeding back order receiving success information to the vehicle owner end and acquiring the real-time position of the vehicle owner end; and generating a first navigation route according to the current position and the initial position of the vehicle main end and displaying the first navigation route on the vehicle main end or the passenger end. The invention also provides a method for quickly finding the passenger. The method for quickly finding the passenger provided by the technical scheme of the invention can quickly find the passenger under the condition of inaccurate positioning or unfamiliar road conditions.

Description

Method for quickly finding passenger

Technical Field

The invention relates to the technical field of network appointment, in particular to a method for quickly finding passengers.

Background

With the improvement of convenience of travel of online car booking and shared vehicles, more and more users select the online car booking to travel, but the problem of inaccurate positioning exists at present when the vehicles are booked, the phenomenon that the users wait for the vehicles at the same place often occurs, and the users wait for the vehicles at the same place is particularly difficult to describe the positions of the users even if the two parties find that the positioning is inaccurate when the users travel to other places and travel on a poor road. Even if the positioning is accurate, the problem that the vehicle is wrong and the like often occurs to users who are not familiar with the road, and the problem that the vehicle cannot find the user is also caused.

Therefore, a method for quickly finding a passenger in a situation where the positioning is inaccurate or the road condition is not familiar is needed.

Disclosure of Invention

The invention provides a method for quickly finding out passengers, which effectively realizes the meeting between a vehicle and a user under the condition of inaccurate positioning or unfamiliar road conditions.

The invention provides a method for quickly finding a passenger, which comprises the following steps:

generating an order according to a passenger request, wherein the order comprises a starting position and a terminal position;

carrying out order dispatching according to a preset rule;

when receiving order receiving confirmation information of a vehicle owner end, feeding back order receiving success information to the vehicle owner end and acquiring the real-time position of the vehicle owner end;

generating a first navigation route according to the current position and the initial position of the vehicle main end and displaying the first navigation route on the vehicle main end or the passenger end;

judging whether the vehicle main end reaches an initial position or not according to the real-time position of the vehicle main end;

when the vehicle main end reaches the initial position, outputting a first meeting feedback request to the vehicle main end or the passenger end to prompt a vehicle owner or a passenger to input meeting feedback information, wherein the meeting feedback information comprises meeting success information or meeting failure information;

when meeting failure information sent by the vehicle main terminal or the passenger terminal is received, acquiring the current positioning information of the passenger terminal; and

and generating a second navigation route according to the current positioning information of the vehicle main end and the passenger end, and sending the second navigation route to the vehicle main end or the passenger end for displaying.

The invention also provides a method for quickly finding passengers, which comprises the following steps:

the server generates an order according to a passenger request, wherein the order comprises a starting position and a terminal position;

the server sends the order according to a preset rule;

the vehicle owner side obtains order information;

the owner end receives order receiving confirmation information input by the owner and sends the order receiving confirmation information to the server;

the server receives order receiving confirmation information of the vehicle owner end, feeds back order receiving success information to the vehicle owner end and acquires the real-time position of the vehicle owner end;

the vehicle owner end sends real-time positioning information to the server;

the server generates a first navigation route according to the current position and the initial position of the vehicle main end and displays the first navigation route on the vehicle main end or the passenger end;

the vehicle main end or the passenger end displays a first navigation route;

the server judges whether the vehicle main end reaches an initial position according to the real-time position of the vehicle main end;

when the vehicle main end reaches the initial position, the server outputs a first meeting feedback request to be sent to the vehicle main end or the passenger end to prompt the vehicle owner or the passenger to input meeting feedback information, wherein the meeting feedback information comprises meeting success information or meeting failure information;

the vehicle main terminal or the passenger terminal receives meeting failure information input by the vehicle owner or the passenger and sends the meeting failure information to the server;

when the server receives meeting failure information sent by the vehicle main terminal or the passenger terminal, the server acquires the current positioning information of the passenger terminal;

the server generates a second navigation route according to the current positioning information of the vehicle main end and the passenger end and sends the second navigation route to the vehicle main end or the passenger end for displaying; and

and the vehicle main end or the passenger end displays a second navigation route.

According to the method for quickly finding the passenger, the current positioning information of the passenger end is obtained by receiving the meeting failure information sent by the vehicle main end or the passenger end; and generating a second navigation route according to the current positioning information of the vehicle main end and the passenger end, and sending the second navigation route to the vehicle main end or the passenger end for displaying. Therefore, a new route scheme can be generated in time when the passenger and the vehicle owner can not meet, the vehicle owner and the passenger can conveniently meet quickly, and the time spent in meeting is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is to be understood that the drawings in the following description are merely exemplary of the invention and that other drawings may be derived from the structure shown in the drawings by those skilled in the art without the exercise of inventive faculty.

Fig. 1 is a flowchart of a method for quickly finding a passenger according to an embodiment of the present invention.

Fig. 2 is a scene diagram of a method for quickly finding a passenger according to an embodiment of the present invention.

Fig. 3 is a route example diagram of a method for quickly finding a passenger according to an embodiment of the present invention.

Fig. 4 is a flowchart of a method for quickly finding a passenger according to another embodiment of the invention.

Fig. 5 is a schematic view of an image captured by a vehicle master end in response to a shooting instruction of a server in a method for quickly finding a passenger according to another embodiment of the present invention and generating a position marker.

Fig. 6a is a partial detailed flowchart of a method for quickly finding a passenger according to another embodiment of the present invention.

Fig. 6b is a flowchart illustrating the remaining steps of a method for quickly finding a passenger according to another embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be noted that the descriptions in this application referring to "first", "second", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

Referring to fig. 1-2, fig. 1 is a first embodiment of a method for quickly finding a passenger; FIG. 2 is an application scenario of the first embodiment; the method for quickly finding a passenger includes the following steps.

Step S10: an order is generated based on the passenger request, the order including a starting location and an ending location. Specifically, in the present embodiment, the server generates an order according to the passenger request. For example, when a passenger calls a vehicle using a passenger terminal, the passenger inputs a start position and an end position at the passenger terminal and transmits the start position and the end position to the server. In some possible embodiments, the passenger only needs to input the end position, and the start position is directly obtained from a positioning device arranged at the passenger end.

Referring to fig. 3, fig. 3 is a schematic route diagram of the present embodiment; illustratively, the passenger request includes a start position A1 and an end position C, and the server generates an order based on the start position A1 and the end position C.

Step S20: and dispatching the order according to a preset rule.

Illustratively, the server sends the order delivery to the vehicle owner according to a preset rule. In some possible embodiments, the server may dispatch the order to the owner within a predetermined distance of the starting distance. Such as sending an order dispatch to the owner of the vehicle at location B.

Step S30: and when receiving order receiving confirmation information of the vehicle owner, feeding back order receiving success information to the vehicle owner and acquiring the real-time position of the vehicle owner.

Specifically, in this embodiment, when the server receives the order receiving information confirmed by the owner, the server feeds back the order receiving success information to the owner, and obtains the real-time position of the owner. For example, the vehicle owner inputs the order receiving confirmation information through the vehicle owner terminal and sends the order receiving confirmation information to the server, and when the server receives the order receiving confirmation information, the server sends the order receiving success information to the vehicle owner terminal and obtains the real-time position of the vehicle owner terminal. Illustratively, the vehicle owner at the position B touches a confirmation order receiving information bar displayed by the vehicle owner end, the vehicle owner end sends the confirmation order receiving information to the server, and the server receives the confirmation order receiving information of the vehicle owner end; and acquiring the real-time position B of the vehicle main end.

Step S40: and generating a first navigation route according to the current position and the initial position of the vehicle main end and displaying the first navigation route on the vehicle main end or the passenger end.

Specifically, in this embodiment, the server generates a first navigation route according to the current position and the starting position of the vehicle host and displays the first navigation route on the vehicle host or the passenger. For example, the server generates a first navigation route according to the rule that the distance is shortest according to the current position and the starting position of the vehicle main end. Illustratively, the first navigation route is a straight line B-A1. It is understood that the first navigation route may also be displayed at both the owner end and the passenger end.

Step S50: and judging whether the vehicle main end reaches the initial position or not according to the real-time position of the vehicle main end. Specifically, in this embodiment, the server determines whether the vehicle master arrives at the start position according to the real-time position of the vehicle master. For example, the server determines whether the vehicle main end reaches the starting position according to whether the distance between the real-time position of the vehicle main end and the starting position is smaller than a preset distance. In some possible embodiments, the preset distance is 3 meters depending on the accuracy of the civilian GPS. For example, the server determines whether the owner of the vehicle reaches the start position a1 according to whether the distance between the real-time position B of the owner of the vehicle and the start position a1 is less than 3 meters.

Step S60: when the vehicle main end reaches the initial position, a first meeting feedback request is output and sent to the vehicle main end or the passenger end to prompt a vehicle owner or a passenger to input meeting feedback information, wherein the meeting feedback information comprises meeting success information or meeting failure information.

Specifically, in this embodiment, when the owner terminal reaches the start position, the server outputs the first meeting feedback request to the owner terminal or the passenger terminal and displays the first meeting feedback request on the passenger terminal or the owner terminal to prompt the owner or the passenger to input meeting feedback information, where the meeting feedback information includes meeting success information or meeting failure information. For example, when the vehicle owner reaches the starting position, the server sends a feedback request box to the vehicle owner or the passenger, and a selection column of meeting success and meeting failure is displayed on the feedback request box. Illustratively, when the vehicle owner terminal reaches the starting position a1, the server pops up a feedback request box to prompt the vehicle owner or the passenger terminal to input meeting feedback information, and the vehicle owner or the passenger forms the meeting feedback information by touching a meeting success bar or a meeting failure bar displayed by the vehicle owner or the passenger terminal and sends the meeting feedback information to the server; the server is convenient to receive the meeting feedback of the passenger and the vehicle owner, so that the meeting can be adjusted in time after the meeting fails, a scheme is formed, and the passenger can be found out quickly in time.

Step S70: when meeting failure information sent by the vehicle main terminal or the passenger terminal is received, acquiring the current positioning information of the passenger terminal; and generating a second navigation route according to the current positioning information of the vehicle main end and the passenger end, and sending the second navigation route to the vehicle main end or the passenger end for displaying.

In this embodiment, when the server receives the meeting failure information sent by the vehicle master end or the passenger end, the server sends the meeting failure information to obtain the current positioning information of the passenger end again, obtains the current positioning information of the vehicle master end according to the real-time position of the vehicle master end, generates a second navigation route according to the current positioning information of the vehicle master end and the passenger end, and sends the second navigation information to the vehicle master end or the passenger end so that the second navigation information is displayed on the vehicle master end or the passenger end. In some possible implementation examples, when the positioning is not accurate or the vehicle owner and/or the passenger are not familiar with the road conditions, a situation that the vehicle owner and the passenger have a meeting failure occurs, the vehicle owner or the passenger sends the meeting failure information to the server through the vehicle owner end or the passenger end, when the server receives the meeting failure feedback of the vehicle owner end or the passenger end, the server obtains the current positioning information a2 of the passenger end again, the server generates a second navigation route a1-a2 according to the obtained current position a1 of the vehicle owner end and the obtained actual position a2 of the passenger and according to the shortest distance principle, and sends the second navigation route a1-a2 to the vehicle owner end or the passenger end so that the second navigation route a1-a2 is displayed on the vehicle owner end or the passenger end; therefore, effective and timely navigation routes are quickly made, the searching time is reduced, and the purpose of quickly finding passengers is promoted.

Step S80: carrying out face recognition according to the image shot by the vehicle main end; and when the passenger is identified, sending a prompt instruction to the vehicle main end to enable the vehicle main end to output corresponding prompt information according to the prompt instruction so as to remind the vehicle owner.

In some possible embodiments, the server receives the passenger's image and loads the passenger's image into the map detail library as a destination object; then receiving an image shot by a vehicle owner end, wherein the image shot by the vehicle owner end can be a picture around the vehicle or a real-time video around the vehicle; then comparing and identifying the human face in the acquired image or video with the target object; when the server identifies the passenger, a prompt instruction is sent to the vehicle main terminal to remind the vehicle owner. For example, the prompt instruction may be that the passenger marks the image of the passenger and sends the image to the main terminal of the vehicle, or the direction and clothing of the passenger and the distance information between the passenger and the main terminal of the vehicle; when the vehicle owner receives the prompt instruction, the vehicle owner can prompt passengers to get on the vehicle through a communication mode with the passenger end, and can also prompt the passengers to get on the vehicle by sending characters or voice through the instant messaging software.

Step S90: when the passenger is identified, outputting a second meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information; and when meeting feedback information of successful meeting is received, sending a closing instruction to the vehicle main end or the passenger end to control the vehicle main end or the passenger end to close the camera.

In some possible embodiments, the second meeting feedback request may be that the server returns a pop-up window to the passenger end or the vehicle owner end, a selective meeting success bar and a meeting failure bar are displayed on the pop-up window, and the passenger or the vehicle owner inputs meeting feedback information through the passenger end or the vehicle owner end; when feedback information that the passenger end or the vehicle owner end successfully meets is received, the server sends a closing instruction to the vehicle owner end, and the camera is closed when the vehicle owner end receives the closing instruction; the camera can be a built-in camera at the vehicle main end or a camera which is independent of the vehicle main end and is installed on the roof.

Referring to fig. 4-5, fig. 4 is a method for quickly finding a passenger according to a second embodiment; fig. 5 is a schematic view of a scene in which a vehicle master generates a position marker in response to an image captured by a shooting instruction from a server in a second embodiment, and the second embodiment is different from the first embodiment in that the second embodiment further includes the following steps.

Step S700: when meeting failure information sent by the vehicle main terminal or the passenger terminal is received, sending a shooting instruction to the vehicle main terminal or the passenger terminal; and receiving the image shot by the main vehicle end or the passenger end in response to the shooting instruction to generate a vehicle owner position mark or passenger position mark information, and sending the vehicle owner position mark to the passenger end or sending the passenger position mark information to the main vehicle end.

In some specific embodiments, the server generates a shooting instruction and sends the shooting instruction to the vehicle master end when receiving the meeting failure information sent by the vehicle master end or the passenger end, when the vehicle master end receives the shooting instruction, the actual environment around the vehicle master end is shot to form a plurality of photos representing the actual location of the vehicle owner, then the plurality of photos representing the actual location of the vehicle owner are sent to the server, and the server sends the photos to the passenger end again.

Specifically referring to fig. 5, for example, when the server receives the meeting failure information sent by the vehicle main end or the passenger end, a shooting instruction for shooting pictures in four directions of east, west, south and north by the vehicle main end is generated, after the vehicle main end receives the shooting instruction, the surrounding pictures of the vehicle are shot by the vehicle main end to form four pictures of XX road-south, XX road-north, XX market and XX bank, the vehicle main end sends the four pictures to the server, after receiving the pictures, the server can splice the pictures according to four directions of top, bottom, left and right and then send the pictures to the passenger end, and after receiving the spliced pictures, the passenger end identifies a building or a landmark in the spliced pictures, so that the position of the vehicle can be quickly found; it should be understood that the passenger end may also take a picture and forward the picture to the main end of the vehicle through the server, which is not limited by the embodiment.

Step S800: recognizing a license plate according to the image shot by the passenger side; and when the license plate is identified, sending a prompt instruction to the passenger end to enable the passenger end to output corresponding prompt information according to the prompt instruction so as to remind the passenger.

In some possible embodiments, the passenger may take 4 pictures along the front, back, left, and right of the passenger by the passenger end pair and then send to the server; the passenger can also record the video around the passenger through the passenger side to form a video and send the video to the server; the server firstly obtains a license plate number corresponding to a vehicle main end and sets the license plate number as a target license plate number; then the server identifies the license plate part in the received picture or video to obtain a license plate number, and then compares the obtained license plate number with the license plate number of the vehicle owner end; when a certain license plate number is identified to be consistent with the target license plate number, marking the target license plate number in the corresponding picture, and sending the marked picture to a passenger end; illustratively, the cueing instructions may be bearing, distance, and vehicle color and number of vehicle seats, such as a40 meter red tandem vehicle directly behind.

Step S900: when the license plate is identified, outputting a third meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information; and when meeting feedback information of successful meeting is received, sending a closing instruction to the vehicle main end or the passenger end to control the vehicle main end or the passenger end to close the camera.

In some feasible embodiments, when the server identifies the license plate, the server returns a pop-up window to the passenger end or the vehicle owner end, the pop-up window comprises and displays a meeting success bar or a meeting failure bar, and the passenger or the vehicle owner operates the passenger end or the vehicle owner end to input meeting feedback information; when receiving the feedback of successful meeting, the server generates a closing instruction and sends the closing instruction to the passenger end, and when the passenger end receives the closing instruction, the passenger end closes the camera of the passenger end; it can be understood that the camera is a built-in camera of the passenger side.

In the embodiment, when the passenger and the vehicle owner can not meet, the real-time position of the passenger and the real-time position of the vehicle owner can be obtained through the server to generate the planning route, so that the vehicle owner is guided to quickly find the passenger; the photographing instruction can be sent to the owner end or the passenger end through the server, the owner or the passenger photographs the surrounding environment where the owner or the passenger is located and sends the surrounding environment to the other side to prompt and guide the other side to search, the speed of finding the passenger is increased, and the time spent on getting on the bus is saved.

Referring to fig. 6a and 6b, fig. 6a and 6b are specific flowcharts of a method for quickly finding a passenger according to another embodiment, which specifically include the following steps.

Step a 10: the server generates an order according to the passenger request, wherein the order comprises a starting position and an end position.

Step a 20: and the server dispatches the order according to a preset rule.

Step a 30: the vehicle owner side obtains order information.

Step a 40: and the vehicle owner end receives the order receiving confirmation information input by the vehicle owner and sends the order receiving confirmation information to the server.

Step a 50: and the server receives order receiving confirmation information of the vehicle owner terminal, feeds back order receiving success information to the vehicle owner terminal and acquires the real-time position of the vehicle owner terminal.

Step a 60: and the server generates a first navigation route according to the current position and the initial position of the vehicle main end and displays the first navigation route on the vehicle main end or the passenger end.

Step a 61: and the vehicle owner end sends real-time positioning information to the server.

Step a 70: the vehicle main end or the passenger end displays a first navigation route.

Step a 80: and the server judges whether the vehicle main end reaches the initial position according to the real-time position of the vehicle main end.

Step a 90: when the vehicle main end reaches the initial position, the server outputs a first meeting feedback request to be sent to the vehicle main end or the passenger end to prompt the vehicle owner or the passenger to input meeting feedback information, wherein the meeting feedback information comprises meeting success information or meeting failure information. The step of the server for feeding back the meeting is added, so that whether the passenger meets the vehicle owner or not can be mastered in time.

Step a 91: and the vehicle main end or the passenger end receives the meeting failure information input by the vehicle main end or the passenger end and sends the meeting failure information to the server.

Step a 100: and when receiving meeting failure information sent by the vehicle main terminal or the passenger terminal, the server acquires the current positioning information of the passenger terminal.

Step a 110: and the server generates a second navigation route according to the current positioning information of the vehicle main end and the passenger end and sends the second navigation route to the vehicle main end or the passenger end for displaying.

Step a 120: and the vehicle main end or the passenger end displays a second navigation route. When the meeting fails, the second navigation route is generated by reacquiring the real-time position of the passenger, so that the response can be quickly made, the process of finding the passenger is accelerated, and the searching time is saved; and the passenger only needs to wait for the vehicle to come.

Step a 130: and when receiving meeting failure information sent by the vehicle main terminal or the passenger terminal, the server sends a shooting instruction to the vehicle main terminal or the passenger terminal.

Step a 140: and the vehicle main end or the passenger end receives the shooting instruction of the server, responds to the image shot by the shooting instruction to generate the vehicle owner position mark or the passenger position mark information and sends the vehicle owner position mark or the passenger position mark information to the server.

Step a 150: and the server receives the image shot by the vehicle main terminal or the passenger terminal in response to the shooting instruction to generate a vehicle owner position mark or passenger position mark information, and sends the vehicle owner position mark to the passenger terminal or sends the passenger position mark information to the vehicle main terminal.

Step a 160: and the server carries out face recognition according to the image shot by the vehicle main end.

Step a 170: when the server identifies the passenger, a prompt instruction is sent to the vehicle main terminal.

Step a 180: and the vehicle main end outputs corresponding prompt information according to the prompt instruction so as to remind the vehicle owner. According to the process of face recognition by photographing, high-precision searching can be performed in a larger range, the searching speed is improved, the searching accuracy is improved, and the searching error is reduced.

Step a 190: when the passenger is identified, the server outputs a second meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information.

Step a 200: and the passenger end or the vehicle main end receives and displays the second meeting feedback request and generates meeting feedback information of successful meeting.

Step a 210: and when receiving meeting feedback information of successful meeting, the server sends a closing instruction to the vehicle master end or the passenger end. After the meeting is successful, the camera is still in an open state, and the server sends out an instruction for closing the camera, so that electric energy can be saved, and the waste of the electric energy is avoided.

Step a 220: and the vehicle main end or the passenger end responds to the closing instruction and closes the camera.

Step a 230: and the server identifies the license plate according to the image shot by the passenger end.

Step a 240: when the license plate is identified by the server, a prompt instruction is sent to the passenger end, so that the passenger end outputs corresponding prompt information according to the prompt instruction to remind the passenger. The vehicle is large in size and high in recognition degree, when the license plate is recognized, the vehicle is located around the passenger, and the passenger can conveniently and quickly find the vehicle through giving a passenger prompt message.

Step a 250: and the passenger end outputs corresponding prompt information according to the prompt instruction so as to remind passengers.

Step a 260: when the license plate is identified, the server outputs a third meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information.

Step a 270: and the vehicle main end or the passenger end inputs meeting feedback information of successful meeting to the server.

Step a 280: and when receiving meeting feedback information of successful meeting, the server sends a closing instruction to control the owner end or the passenger end to close the camera. After the meeting is successful, the camera is still in an open state, and the server sends out an instruction for closing the camera, so that electric energy can be saved, and the waste of the electric energy is avoided.

In the embodiment, when the passenger and the vehicle owner can not meet, the real-time position of the passenger and the real-time position of the vehicle owner can be obtained through the server to generate the planning route, so that the vehicle owner is guided to quickly find the passenger; the server can also send a photographing instruction to the owner end or the passenger end, and the owner or the passenger photographs the surrounding environment in which the owner or the passenger is located and sends the surrounding environment to the other side to prompt and guide the other side to search, so that the speed of finding the passenger is increased, and the time spent on getting on the bus is saved; and when the server receives the feedback of successful meeting, an instruction for closing the camera is generated and sent to the passenger side or the client side, so that the waste of electric energy is avoided, and the use time of the camera is prolonged.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims

1. A method for quickly finding a passenger, the method comprising:

carrying out order dispatching according to a preset rule;

2. A method of quickly finding a passenger as recited in claim 1, further comprising:

when meeting failure information sent by the vehicle main terminal or the passenger terminal is received, sending a shooting instruction to the vehicle main terminal or the passenger terminal; and

and receiving the image shot by the main vehicle end or the passenger end in response to the shooting instruction to generate a vehicle owner position mark or passenger position mark information, and sending the vehicle owner position mark to the passenger end or sending the passenger position mark information to the main vehicle end.

3. A method of quickly finding a passenger as recited in claim 1, further comprising:

carrying out face recognition according to the image shot by the vehicle main end; and

when the passenger is identified, a prompt instruction is sent to the vehicle main end, so that the vehicle main end outputs corresponding prompt information according to the prompt instruction to remind the vehicle owner.

4. A method of quickly finding a passenger as set forth in claim 3, further comprising:

when the passenger is identified, outputting a second meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information; and

and when meeting feedback information of successful meeting is received, sending a closing instruction to the vehicle main end or the passenger end to control the vehicle main end or the passenger end to close the camera.

5. A method of quickly finding a passenger as recited in claim 1, further comprising:

recognizing a license plate according to the image shot by the passenger side; and

when the license plate is identified, a prompt instruction is sent to the passenger end, so that the passenger end outputs corresponding prompt information according to the prompt instruction to remind the passenger.

6. A method of quickly locating a passenger as defined in claim 5, further comprising:

when the license plate is identified, outputting a third meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information; and

7. A method for quickly finding a passenger, the method comprising:

the server sends the order according to a preset rule;

the vehicle owner side obtains order information;

the vehicle owner end sends real-time positioning information to the server;

the vehicle main end or the passenger end displays a first navigation route;

8. The method of quickly finding a passenger as set forth in claim 7, wherein the method of quickly finding a passenger further comprises:

when receiving meeting failure information sent by the vehicle main terminal or the passenger terminal, the server sends a shooting instruction to the vehicle main terminal or the passenger terminal;

the vehicle main end or the passenger end receives a shooting instruction of the server, responds to an image shot by the shooting instruction to generate vehicle owner position marks or passenger position mark information and sends the vehicle owner position marks or the passenger position mark information to the server;

the server receives an image shot by the vehicle main end or the passenger end in response to the shooting instruction to generate a vehicle owner position mark or passenger position mark information, and sends the vehicle owner position mark to the passenger end or sends the passenger position mark information to the vehicle main end;

the server carries out face recognition according to the image shot by the vehicle main end;

when the server identifies the passenger, a prompt instruction is sent to the vehicle main terminal;

the vehicle main terminal outputs corresponding prompt information according to the prompt instruction to remind the vehicle owner; or

And when the server identifies the passenger, outputting a second meeting feedback request to the passenger end or the vehicle main end to prompt the vehicle owner or the passenger to input the meeting feedback information.

9. The method of quickly finding a passenger as set forth in claim 8, wherein the method of quickly finding a passenger further comprises:

the passenger end or the vehicle main end receives and displays the second meeting feedback request and generates meeting feedback information of successful meeting;

when receiving meeting feedback information of successful meeting, the server sends a closing instruction to the car owner end or the passenger end;

and the passenger end or the vehicle main end responds to the closing instruction and closes the camera.

10. The method of quickly finding a passenger as set forth in claim 8, wherein the method of quickly finding a passenger further comprises:

the server identifies the license plate according to the image shot by the passenger end;

when the server identifies the license plate, the server sends a prompt instruction to the passenger end so that the passenger end outputs corresponding prompt information according to the prompt instruction to remind the passenger;

and the passenger end outputs corresponding prompt information according to the prompt instruction so as to remind the passenger.