CN103021171B - Method and system for taxi control information interaction - Google Patents

Abstract

The invention provides a method and system for taxi control information interaction. The method and system includes the following steps that a calculator determines a required time degree range and transmits the range to an information pushing server according to self storage information after receiving a book request, determines distance coefficient according to position information of determined no-load taxis and a customer client and determines speed limit coefficient according to road speed limit between the taxis and the customer client to determine supplier time coefficient and transmit the coefficient to the information pushing server. The information pushing server compares the required time degree range with the supplier time coefficient, and determines a target taxi. The information pushing server transmits information to be pushed to the customer client according to the required time degree range, the target taxi information and an information pushing comparison list. The method and system achieves dynamic selection of the taxis according to individual requirements of business to be done of customers and achieves resource utilization maximization of the taxis.

Description

A kind of taxi control information exchange method and system

Technical field

The invention belongs to dispatching communication field, relate in particular to a kind of taxi control information exchange method and system.

Background technology

At present, in the time that passenger need to call a taxi, subscribe to taxi dispatching center requests by phone, taxi dispatching center is according to passenger's position and periphery taxi no-load condition, inform the license plate number of the unloaded taxi that passenger subscribes, meanwhile, also inform unloaded cab-getter's contact method, thereby complete reservation.

In the time that passenger has specific demand, can select the type of hiring a car, for example: electricity recalls and hires a car, common taxi.

But such scheme, not according to the individual demand of the pending affairs of passenger, is realized the Dynamic Selection to taxi by dispatching system, and rational allocation taxi resource, realizes the maximization of taxi utilization of resources maximization and taxi driver's income.

Through retrieval, find one section of patent, patent name: the point-to-point taxi taking platform (application number: 201110268992.2 applyings date: 2011-09-13) based on smart mobile phone, applicant: Liu Jinbao, this patent Introduction following technical scheme:

A kind of point-to-point taxi taking platform based on smart mobile phone, it comprises passenger's client, central dispatching server, taxi driver's client, passenger's client is connected with one end of central dispatching server, the other end of central dispatching server is connected with taxi driver's client, passenger's client and taxi driver's client are intelligent mobile phone terminal, intelligent mobile phone terminal is provided with the application software based on intelligent operating system, passenger users sends by the function button of clicking on software the request of calling a taxi in passenger's client, application software based on intelligent operating system on intelligent mobile phone terminal is sent passenger users positional information automatically, central dispatching server receives after passenger users positional information, according to the positional information of passenger users, its taxi around of Auto-matching, load corresponding scheduling rule, filter out many taxis according to scheduling rule, the information of calling a taxi of passenger users and user's current location information are sent to many taxis that filter out, taxi driver's client is called a taxi after information and user's current location information to passenger users, whether order of prompting taxi driver, taxi driver can determine whether to be ready order according to own current situation and wish, if be ready order, be ready whether that it is option that order interface is clicked, taxi driver's selection can be sent to central dispatching server, and the taxi information that central dispatching server is options by all orders selections returns to passenger users, passenger users is selected a taxi according to the information oneself of the taxi that has order wish of seeing, the selection of passenger users can be sent to central dispatching server, central dispatching server selects to be transmitted to taxi driver's client by passenger users, taxi driver completes after Confirmation of Orders, user's phone is sent to taxi driver's client by central dispatching server, and the taxi license plate number of confirming order is issued to passenger's client.

But technique scheme does not also disclose: according to the individual demand of the pending affairs of passenger, realize the Dynamic Selection to taxi by dispatching system, rational allocation taxi resource, realizes the maximization of taxi utilization of resources maximization and taxi driver's income.

Summary of the invention

The invention provides a kind of taxi control information exchange method and system, to address the above problem.

The invention provides a kind of taxi control information exchange method.Said method comprises the following steps:

Passenger's client, according to the selected affairs importance rate classification of passenger, sends reservation request to counter, wherein, has carried positional information and the affairs importance rate classified information of passenger's client in described reservation request;

Described counter receives after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server;

Described counter receives after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient;

Described counter, according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, is determined speed limit coefficient;

Described counter, according to described distance coefficient and described speed limit coefficient, is determined supplier's time coefficient of each unloaded taxi and is sent to Information Push Server;

The required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi;

Described Information Push Server is according to the required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons that obtain, determine information to be pushed and send described information to be pushed to described passenger's client, wherein, in described information to be pushed, carried the attribute information of target taxi.

The present invention also provides a kind of taxi control information interactive system, comprising: passenger's client, counter, Information Push Server; Described passenger's client is connected with described counter; Described Information Push Server is connected with described counter, described passenger's client respectively;

Described passenger's client, for according to the selected affairs importance rate classification of passenger, sends reservation request to counter, wherein, has carried positional information and the affairs importance rate classified information of passenger's client in described reservation request; The information to be pushed also sending for receiving described Information Push Server;

Described counter, for receiving after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server; Also for receiving after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient; Also, for according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, determine speed limit coefficient; Also, for according to described distance coefficient and described speed limit coefficient, determine supplier's time coefficient of each unloaded taxi and be sent to Information Push Server;

Described Information Push Server, for receiving after the required time degree scope of described counter transmission and supplier's time coefficient of each unloaded taxi, the required time degree scope relatively obtaining and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi; Also for according to obtain required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons, determine information to be pushed and send described information to be pushed to described passenger's client, wherein, in described information to be pushed, carried the attribute information of target taxi.

Compared to prior art, according to a kind of taxi control information exchange method provided by the invention and system, passenger's client, according to the selected affairs importance rate classification of passenger, sends reservation request to counter; Described counter receives after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server; Described counter receives after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient; Described counter, according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, is determined speed limit coefficient; Described counter, according to described distance coefficient and described speed limit coefficient, is determined supplier's time coefficient of each unloaded taxi and is sent to Information Push Server; The required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi; Described Information Push Server is according to the required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons that obtain, determine information to be pushed and send described information to be pushed to described passenger's client, realize according to the individual demand of the pending affairs of passenger, realize the Dynamic Selection to taxi by dispatching system, rational allocation taxi resource, realizes the maximization of taxi utilization of resources maximization and taxi driver's income.

Brief description of the drawings

Accompanying drawing described herein is used to provide a further understanding of the present invention, forms the application's a part, and schematic description and description of the present invention is used for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Figure 1 shows that the process flow diagram of the taxi control information exchange method that preferred embodiment according to the present invention provides;

Figure 2 shows that the structural drawing of the taxi control information interactive system that preferred embodiment according to the present invention provides.

Embodiment

Hereinafter also describe the present invention in detail with reference to accompanying drawing in conjunction with the embodiments.It should be noted that, in the situation that not conflicting, the feature in embodiment and embodiment in the application can combine mutually.

Figure 1 shows that the process flow diagram of the taxi control information exchange method that preferred embodiment according to the present invention provides.As shown in Figure 1, the taxi control information exchange method that preferred embodiment of the present invention provides, comprises step 101 ~ 107.

In step 101, passenger's client, according to the selected affairs importance rate classification of passenger, sends reservation request to counter, wherein, has carried positional information and the affairs importance rate classified information of passenger's client in described reservation request;

Wherein, passenger's client is intelligent mobile phone terminal, intelligent mobile phone terminal is provided with the application software based on intelligent operating system, passenger users is sent reservation request in passenger's client by the function button of clicking on software, wherein, positional information and the affairs importance rate classified information of passenger's client in described reservation request, have been carried.

Wherein, operation system of smart phone includes but not limited to the operating systems such as Android, IOS, Symbian.

Wherein, described affairs importance rate classification comprises following four classes: important and urgent, non-important and urgent, important and non-emergent, non-important and non-emergent.

In step 102, described counter receives after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server;

The classification of affairs importance rate and the transaction level coefficient table of comparisons

The classification of affairs importance rate	Transaction level coefficient
		Important and urgent	1.0
Non-important and urgent	0.6
		Important and non-emergent	0.4
Non-important and non-emergent	0.1

Table 1

Table 1 illustrates: the classification of affairs importance rate and the transaction level coefficient table of comparisons have comprised the corresponding relation of affairs importance rate classification with transaction level coefficient, and wherein, affairs importance rate is higher, and transaction level coefficient is larger.

Above-mentioned affairs importance rate classification, the concrete numerical value of transaction level coefficient can be set as required, and the present embodiment will not limit its scope.

Transaction level coefficient and the required time degree scope table of comparisons

Transaction level coefficient	Required time degree scope
		1.0	0＜P≤0.2
0.6	0.2＜P≤0.4
		0.4	0.4＜P≤0.6
0.1	P＞0.6

Table 2

Table 2 illustrates: transaction level coefficient and the required time degree scope table of comparisons comprise the corresponding relation of transaction level coefficient and required time degree scope, and wherein, transaction level coefficient is higher, need time degree scope less.

The concrete numerical value of above-mentioned transaction level coefficient, required time degree scope can arrange as required, and the present embodiment will not limit its scope.

Step 103: described counter receives after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient;

Specified otherwise one: taxi driver's client is intelligent mobile phone terminal, intelligent mobile phone terminal is provided with the application software based on intelligent operating system, taxi driver's client is all the time in running status, (for example: 2 minutes), sends unloaded information and positional information from trend counter at regular intervals.

Wherein, operation system of smart phone includes but not limited to the operating systems such as Android, IOS, Symbian.

Specified otherwise two: described counter is according to positional information, each the unloaded taxi positional information of passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to apart from and the distance coefficient table of comparisons, determine distance coefficient; Wherein, in the time having mulitpath between taxi and passenger's client, according to shortest path selection strategy, select shortest path, as the distance between taxi and passenger's client; Certainly, also can take other selection strategy, the present embodiment will not limit.

Distance and the distance coefficient table of comparisons

Distance (unit: km) between taxi and passenger's client	Distance coefficient
		X＞75	1.0
50＜X≤75	0.6
		25＜X≤50	0.2
0＜X≤25	0.1

Table 3

Table 3 illustrates: described distance and the distance coefficient table of comparisons comprise distance between taxi and passenger's client and the corresponding relation of distance coefficient, and wherein, the distance between taxi and passenger's client is far away, and distance coefficient is larger.

Distance between above-mentioned taxi and passenger's client, the concrete numerical value of distance coefficient, can set as required, and the present embodiment will not limit its scope.

Step 104: described counter, according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, is determined speed limit coefficient;

Speed limit and the speed limit coefficient table of comparisons

Road speed limit (unit: km/h) between taxi and passenger's client	Speed limit coefficient
		Y＞80	1.0
60＜Y≤80	0.6
		40＜Y≤60	0.4
0＜Y≤40	0.1

Table 4

Wherein, described speed limit and the speed limit coefficient table of comparisons comprise road speed limit between taxi and passenger's client and the corresponding relation of speed limit coefficient, and wherein, the road speed limit between taxi and passenger's client is higher, and speed limit coefficient is larger.

Road speed limit between above-mentioned taxi and passenger's client, the concrete numerical value of speed limit coefficient, can set as required, and the present embodiment will not limit its scope.

Wherein, step 102,103,104 does not have strict time sequencing, can carry out simultaneously.

Step 105: described counter, according to described distance coefficient and described speed limit coefficient, is determined supplier's time coefficient of each unloaded taxi and is sent to Information Push Server;

Wherein, described counter, according to described distance coefficient and described speed limit coefficient, determines that the process of supplier's time coefficient of each unloaded taxi is: supplier's time coefficient=(distance coefficient)/(speed limit coefficient)

Step 106: the required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi;

Wherein, the required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine that the process of target taxi is:

If supplier's time coefficient of multiple unloaded taxis all falls into described required time degree scope, selecting the taxi corresponding to supplier's time coefficient of minimum value is target taxi.

If supplier's time coefficient of single unloaded taxi falls into described required time degree scope, this zero load taxi is target taxi.

Wherein, target taxi information comprises: license plate number, this taxi contact method.

Step 107: described Information Push Server is according to the required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons that obtain, determine information to be pushed and send described information to be pushed to described passenger's client, wherein, in described information to be pushed, carried the attribute information of target taxi.

Wherein, carried the attribute information of target taxi in described information to be pushed, wherein, attribute information comprises: paying price, license plate number, target taxi contact method.

Wherein, described required time degree scope and the information pushing table of comparisons comprise the corresponding relation of required time degree scope and information to be pushed.

Required time degree scope and the information pushing table of comparisons

Table 5

Give an example below, be elaborated:

Passenger A sends reservation request by intelligent mobile phone terminal, wherein, has carried positional information W and the affairs importance rate classified information (for example: important and urgent) of passenger's client in described reservation request.

Counter receives after reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons (table 1), determines corresponding transaction level coefficient 1.0; And according to transaction level coefficient and the required time degree scope table of comparisons (table 2), determine corresponding required time degree scope 0 < P≤0.2 and corresponding required time degree scope 0 < P≤0.2 of determining is sent to Information Push Server;

Counter receives after reservation request, determine that each unloaded taxi positional information is (as an example of 3 unloaded taxis example (taxi 1, taxi 2, taxi 3), position is respectively W1, W2, W3) and according to positional information (W), each unloaded taxi positional information (W1, W2, W3) of the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons (table 3), determine distance coefficient;

If have three paths D1, D2, D3 between W1 to W, be respectively 40 km, 50 km, 60 km, get shortest path 40km, distance coefficient is 0.2;

If have two paths M1, M2 between W2 to W, be respectively 20km, 30km, get shortest path 20km, distance coefficient is 0.1;

If there is a paths Q between W3 to W, distance is 70km, and distance coefficient is 0.6.

Counter, according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons (table 4), is determined speed limit coefficient;

If D3 speed limit is 120 km/h; M1 speed limit 80 km/h; Q speed limit 100km/h, D3 speed limit coefficient is 1.0; M1 speed limit coefficient 0.6; Q speed limit coefficient 1.0.

Counter, according to distance coefficient and speed limit coefficient, determines that the process of supplier's time coefficient of each unloaded taxi is:

Supplier's time coefficient=(distance coefficient)/(speed limit coefficient)=0.2/1.0=0.2 of taxi 1

Supplier's time coefficient=(distance coefficient)/(speed limit coefficient)=0.1/0.6=0.17 of taxi 2

Supplier's time coefficient=(distance coefficient)/(speed limit coefficient)=0.6/1.0=0.6 of taxi 3

Supplier's time coefficient of above-mentioned each unloaded taxi of determining is sent to Information Push Server by counter.

Required time degree scope 0 < P≤0.2 that Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, judge 1 the supplier's time coefficient of hiring a car, supplier's time coefficient of taxi 2 has all fallen into definite required time degree scope, according to minimum value selection strategy, selecting the taxi corresponding to supplier's time coefficient of minimum value is that target taxi is taxi 2.

Information Push Server is according to required time degree scope 0 < P≤0.2 obtaining and the number-plate number, the contact method of taxi 2, by searching required time degree scope and the information pushing table of comparisons (table 5), definite information to be pushed is: this taxi (taxi 2) number-plate number is XXX; Contact method is YYYY; This taxi starting fare than normal taxi starting fare high 3 yuan and every kilometer than 0.3 yuan of the many receipts of normal taxi.

Figure 2 shows that the structural drawing of the taxi control information interactive system that preferred embodiment according to the present invention provides.As shown in Figure 2, the taxi control information interactive system that preferred embodiment of the present invention provides comprises: passenger's client 101, counter 102, Information Push Server 103; Described passenger's client 101 is connected with described counter 102; Described Information Push Server 103 is connected with described counter 102, described passenger's client 101 respectively;

Described passenger's client 101, for according to the selected affairs importance rate classification of passenger, sends reservation request to counter 102, wherein, has carried positional information and the affairs importance rate classified information of passenger's client 101 in described reservation request; The information to be pushed also sending for receiving described Information Push Server 103;

Described counter 102, for receiving after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server 103; Also for receiving after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client 101 obtaining, determine distance between each unloaded taxi and passenger's client 101 and according to distance and the distance coefficient table of comparisons, determine distance coefficient; Also, for according to the road speed limit between taxi and passenger's client 101 and according to speed limit and the speed limit coefficient table of comparisons, determine speed limit coefficient; Also, for according to described distance coefficient and described speed limit coefficient, determine supplier's time coefficient of each unloaded taxi and be sent to Information Push Server 103;

Described Information Push Server 103, for receiving after supplier's time coefficient of required time degree scope that described counter 102 sends and each unloaded taxi, the required time degree scope relatively obtaining and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi; Also for according to obtain required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons, determine information to be pushed and send described information to be pushed to described passenger's client 101, wherein, in described information to be pushed, carried the attribute information of target taxi.

In sum, according to a kind of taxi control information exchange method provided by the invention and system, passenger's client, according to the selected affairs importance rate classification of passenger, sends reservation request to counter; Described counter receives after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server; Described counter receives after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient; Described counter, according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, is determined speed limit coefficient; Described counter, according to described distance coefficient and described speed limit coefficient, is determined supplier's time coefficient of each unloaded taxi and is sent to Information Push Server; The required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi; Described Information Push Server is according to the required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons that obtain, determine information to be pushed and send described information to be pushed to described passenger's client, realize according to the individual demand of the pending affairs of passenger, realize the Dynamic Selection to taxi by dispatching system, rational allocation taxi resource, realizes the maximization of taxi utilization of resources maximization and taxi driver's income.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (8)

1. a taxi control information exchange method, is characterized in that, comprises the following steps:

Passenger's client, according to the selected affairs importance rate classification of passenger, sends reservation request to counter, wherein, has carried positional information and the affairs importance rate classified information of passenger's client in described reservation request;

Described counter receives after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server;

Described counter receives after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient;

Described counter, according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, is determined speed limit coefficient;

Described counter, according to described distance coefficient and described speed limit coefficient, is determined supplier's time coefficient of each unloaded taxi and is sent to Information Push Server;

The required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi;

Described Information Push Server is according to the required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons that obtain, determine information to be pushed and send described information to be pushed to described passenger's client, wherein, in described information to be pushed, carried the attribute information of target taxi;

Wherein, the required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine that the process of target taxi is:

If supplier's time coefficient of multiple unloaded taxis all falls into described required time degree scope, taxi corresponding to supplier's time coefficient of selecting minimum value be target taxi or

If supplier's time coefficient of single unloaded taxi falls into described required time degree scope, this zero load taxi is target taxi.

2. method according to claim 1, is characterized in that, described affairs importance rate classification comprises following four classes: important and urgent, non-important and urgent, important and non-emergent, non-important and non-emergent.

3. method according to claim 2, is characterized in that, described counter, according to described distance coefficient and described speed limit coefficient, determines that the process of supplier's time coefficient of each unloaded taxi is:

Supplier's time coefficient=(distance coefficient)/(speed limit coefficient).

4. method according to claim 3, is characterized in that, has carried the attribute information of target taxi in described information to be pushed, and wherein, attribute information comprises: paying price, license plate number, target taxi contact method.

5. method according to claim 4, it is characterized in that, described affairs importance rate classification and the transaction level coefficient table of comparisons have comprised the corresponding relation of affairs importance rate classification with transaction level coefficient, wherein, affairs importance rate is higher, and transaction level coefficient is larger;

Described transaction level coefficient and the required time degree scope table of comparisons comprise the corresponding relation of transaction level coefficient and required time degree scope, and wherein, transaction level coefficient is higher, need time degree scope less;

Described distance and the distance coefficient table of comparisons comprise distance between taxi and passenger's client and the corresponding relation of distance coefficient, and wherein, the distance between taxi and passenger's client is far away, and distance coefficient is larger;

Described speed limit and the speed limit coefficient table of comparisons comprise road speed limit between taxi and passenger's client and the corresponding relation of speed limit coefficient, and wherein, the road speed limit between taxi and passenger's client is higher, and speed limit coefficient is larger.

6. method according to claim 5, is characterized in that, in the time having mulitpath between taxi and passenger's client, selects shortest path, as the distance between taxi and passenger's client.

7. method according to claim 6, is characterized in that, described required time degree scope and the information pushing table of comparisons comprise the corresponding relation of required time degree scope and information to be pushed.

8. a taxi control information interactive system, is characterized in that, comprising: passenger's client, counter, Information Push Server; Described passenger's client is connected with described counter; Described Information Push Server is connected with described counter, described passenger's client respectively;

Described passenger's client, for according to the selected affairs importance rate classification of passenger, sends reservation request to counter, wherein, has carried positional information and the affairs importance rate classified information of passenger's client in described reservation request; The information to be pushed also sending for receiving described Information Push Server;

Described counter, for receiving after described reservation request, according to the classification of affairs importance rate and the transaction level coefficient table of comparisons, determines corresponding transaction level coefficient; And according to transaction level coefficient and the required time degree scope table of comparisons, determine corresponding required time degree scope and be sent to Information Push Server; Also for receiving after described reservation request, determine each unloaded taxi positional information positional information, each unloaded taxi positional information according to the passenger's client obtaining, determine distance between each unloaded taxi and passenger's client and according to distance and the distance coefficient table of comparisons, determine distance coefficient; Also, for according to the road speed limit between taxi and passenger's client and according to speed limit and the speed limit coefficient table of comparisons, determine speed limit coefficient; Also, for according to described distance coefficient and described speed limit coefficient, determine supplier's time coefficient of each unloaded taxi and be sent to Information Push Server;

Described Information Push Server, for receiving after the required time degree scope of described counter transmission and supplier's time coefficient of each unloaded taxi, the required time degree scope relatively obtaining and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine target taxi; Also for according to obtain required time degree scope, target taxi information, required time degree scope and the information pushing table of comparisons, determine information to be pushed and send described information to be pushed to described passenger's client, wherein, in described information to be pushed, carried the attribute information of target taxi;

Wherein, the required time degree scope that described Information Push Server relatively obtains and supplier's time coefficient of each unloaded taxi, according to default selection strategy, determine that the process of target taxi is:

If supplier's time coefficient of multiple unloaded taxis all falls into described required time degree scope, taxi corresponding to supplier's time coefficient of selecting minimum value be target taxi or

If supplier's time coefficient of single unloaded taxi falls into described required time degree scope, this zero load taxi is target taxi.