CN104144219A - Route inquiry system supporting browser access - Google Patents

Abstract

The invention discloses a route inquiry system based on the WEB. The system comprises mobile intelligent terminals, a first WEB server and a second WEB server. The mobile intelligent terminals send a first access request to the first WEB server based on a first access network address, receives a first HTTP response which is sent by the first WEB server, send a second access request to the second WEB server based on a second access network address and receive a second HTTP response which is sent by the second WEB server, wherein the second access request includes current geographical position information of users. The first WEB server receives the first access request and sends the first HTTP response to a browser, wherein the first HTTP response is used for obtaining the current geographical position information of the users. The second WEB server receives the second access request, generates/obtains route information from current geographical positions of the users to target geographical positions and returns the second HTTP response which includes the route information from the current geographical positions of the users to the target geographical positions. Dependency on special navigation application software is reduced as much as possible, and the operation steps of obtaining the route information are simplified for the users.

Description

Route query system supporting browser access

Technical Field

The invention relates to a route inquiry system based on a network, in particular to a route inquiry system supporting browser access.

Background

With the widespread use of digital maps, more and more companies are protecting their websites from contact addresses pages of the location of the company and its nearby information. However, such a map can only show information near the company to the user, and cannot guide the user to a driving or walking route.

In the chinese patent application 201210572427.X, a navigation method based on two-dimensional codes is provided. In the method, (1) two-dimensional code information with destination content is acquired; (2) decoding the acquired two-dimensional code information to obtain a destination address; (3) establishing a navigation route according to the destination address and the current position obtained by decoding; (4) and sending a navigation instruction according to the established navigation route. The method enables the input mode of the navigation system to be simpler, and reduces the operation difficulty of the user in navigation. However, this navigation method requires the user to install a dedicated navigation application software, which adds difficulty to the commercial deployment of the method. In addition, the method also requires that the navigation application software has the capability of identifying the type of the two-dimensional code, that is, the navigation application software is required to include a specific two-dimensional code scanning function different from a common two-dimensional code scanning function, so that it can be identified that the text information in the two-dimensional code is not common text information but address information, which increases the development difficulty and makes the popularization difficult.

Similarly, chinese patent application 201310484697.X discloses an intelligent parking lot reverse car searching method. In the reverse vehicle searching method, a vehicle owner uses a personal mobile terminal to scan a two-dimensional code on each parking space when parking, the two-dimensional code is used for marking XML configuration file download addresses, server addresses and position information of each parking space of different parking lots, and the personal mobile terminal downloads XML files and records the parking position of the vehicle owner in the parking lot through scanning; when the car owner returns to pick up the car, if the car owner needs to search for the parking space, the car owner scans the two-dimensional code in any area of the parking lot through the personal mobile terminal; and the personal mobile terminal automatically presents the route from the place of the two-dimensional code scanned in the step three to the parking space of the vehicle owner according to the scanning result and the parking lot map. It can be seen that this method also has the problem of requiring the user to install dedicated navigation software.

In addition, chinese patent application 201310276969.7 discloses a quick navigation method based on two-dimensional code, which includes the following steps: (1) scanning and decoding the two-dimensional code comprising the coordinates and the name; (2) extracting coordinate points and names from the analyzed two-dimensional code; (3) inquiring a designated coordinate point in a map module, and marking a name; (4) setting a designated coordinate point as a destination; (5) positioning the location of the terminal through a GPS system; (6) planning a route and starting navigation. The two-dimensional code including the coordinates and the name is generated by a two-dimensional code generation system. This system also similarly suffers from the problems described above.

In summary, it is an important issue how to simplify the dependence on the dedicated navigation application software as much as possible and simplify the operation steps of obtaining the route information by the user to facilitate the user's trip to the maximum extent.

Disclosure of Invention

One of the technical problems to be solved by the present invention is to provide a route query system supporting browser access, which simplifies the dependence on the dedicated navigation application software as much as possible, and simplifies the operation steps of obtaining route information by the user to make the user travel conveniently to the greatest extent.

The invention provides a route query system supporting browser access. The system comprises:

the mobile intelligent terminal sends a first access request to a first WEB server through a browser based on a first access website, receives a first HTTP response sent by the first WEB server and aiming at the first access request, sends a second access request to a second WEB server through the browser based on a second access website, wherein the second access request comprises the current geographic position information of a user, and receives a response sent by the second WEB server and aiming at the second access request; the first WEB server receives a first access request sent by a browser based on a first access website, and sends a first HTTP response for acquiring current geographic position information of a user to the browser in response to the first access request received from the browser; the second WEB server receives the second access request sent by the mobile intelligent terminal through the browser based on a second access website, generates route information from a current geographic position of the user to a target geographic position or acquires the route information from the current geographic position of the user to the target geographic position based on target geographic position information and the current geographic position information of the user in response to the second access request sent by the mobile intelligent terminal through the browser, and returns the second HTTP response comprising the route information from the current geographic position of the user to the target geographic position to the browser; the target geographic position information is contained in the first access request sent by the mobile intelligent terminal through the browser and/or contained in a second access request sent by the mobile intelligent terminal through the browser, the first HTTP response comprises the second access website, and the target geographic position information comprises at least one target geographic position.

According to one aspect of the present invention, the first WEB server and the second WEB server are the same WEB server, and the target geographical location information is included in the first access request sent from the browser; or, the first WEB server and the second WEB server are two WEB servers with different domain names, the first access website includes the domain name of the first WEB server, the second access website includes the domain name of the second WEB server, and the target geographic location information is included in a second access request sent from the browser.

According to one aspect of the invention, the first WEB server and the second WEB server are the same WEB server; the target geographical position information is contained in the first access request sent from the browser; and the first HTTP response comprises information which enables the browser receiving the first HTTP response to automatically trigger the mobile intelligent terminal to send a second access request to the second WEB server through the browser after acquiring the current geographic position information of the user.

According to one aspect of the present invention, before the step of receiving a first access request sent by the mobile intelligent terminal through a browser based on a first access website, the first WEB server further executes a process that the mobile intelligent terminal scans and analyzes a two-dimensional code through a two-dimensional code scanning application to obtain the first access website, where the first access website includes the target geographic location information; and the mobile intelligent terminal triggers the browser to send a first access request comprising the target geographical position information to the first WEB server based on a first access website through a two-dimensional code scanning application.

According to one aspect of the present invention, the two-dimensional code is provided in a web page, an brochure, a poster, or a route sign.

According to one aspect of the present invention, the second WEB server further performs the following steps: receiving a customization parameter input by a user by using a browser; generating a customized website containing the customized parameters based on the customized parameters to serve as a first access website; and generating a two-dimensional code containing the generated first access address.

According to one aspect of the present invention, the second WEB server further performs the following steps: receiving a customized parameter and a target website input by a user by using a browser; generating a first access website comprising the customization parameters and the target website based on the customization parameters and the target website according to a preset two-dimensional code generation rule corresponding to the preset website; and generating a two-dimensional code containing the generated first access address.

According to one aspect of the present invention, the first WEB server and the second WEB server are two WEB servers having different domain names; the first access website comprises a domain name of the first WEB server; the second access website comprises a domain name of the second WEB server; the target geographic position information is contained in a second access request sent from the browser; and the first HTTP response comprises information which enables the mobile intelligent terminal receiving the first HTTP response to present a trigger interface to a user through a browser and trigger the browser to send the second access request to the second WEB server based on the second access website in the first HTTP response when the user clicks the trigger interface.

One or more embodiments of the present invention may have the following advantages over the prior art: the invention simplifies the dependence on special navigation application software and simplifies the operation steps of obtaining route information by the user so as to bring convenience to the user to the trip to the maximum extent by skillful setting and interaction of the WEB network access address and the WEB content based on the WEB technology.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 illustrates a client-side WEB-based route query method according to an embodiment of the invention;

FIG. 2 illustrates a server-side WEB-based route query method according to an embodiment of the invention;

fig. 3 is a schematic structural diagram of a route query system supporting browser access according to an embodiment of the present invention.

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented. It should be noted that, as long as there is no conflict, the embodiments and the features of the embodiments of the present invention may be combined with each other, and the technical solutions formed are within the scope of the present invention.

Additionally, the steps illustrated in the flow charts of the figures may be performed in a computer system such as a set of computer-executable instructions and, although a logical order is illustrated in the flow charts, in some cases, the steps illustrated or described may be performed in an order different than here.

Fig. 3 is a schematic structural diagram of a route query system supporting browser access according to an embodiment of the present invention. Fig. 1 illustrates a WEB-based route query method on a client side (mobile intelligent terminal side) according to an embodiment of the present invention. The client can be a notebook, a tablet computer or a smart phone terminal. The following description is made with reference to fig. 1 and 3. In fig. 3, a first WEB server 20 and a second WEB server 30 are respectively connected to the mobile intelligent terminal 10 through a wireless network, and the first WEB server 20 and the second WEB server 30 are respectively connected to a communication network or the internet 40.

In step S110, the two-dimensional code scanning application of the mobile intelligent terminal 10 obtains a first visited website (usually expressed as a Uniform resource Locator) by scanning and analyzing the two-dimensional code, where the first visited website includes the target geographic location information, and then step S115 is performed.

In step S115, the two-dimensional code scanning application 15 of the mobile intelligent terminal 10 triggers the browser to send a first access request including the target geographic location information to the first WEB server 20 based on the first access website, and then the process goes to step S120.

The steps S110 and S115 are optional, and the browser of the mobile intelligent terminal 10 may also obtain the first visited network address including the target geographical location information through a copy or input operation of the user, pre-storage, or other manners. Even the event of monitoring the duplicated WEB address automatically triggers the mobile intelligent terminal 10 to send the first access request to the first WEB server 20 through the browser 16 installed thereon based on the first access WEB address, and the step S120 is entered.

In step S120, the mobile intelligent terminal 10 sends a first access request to the first WEB server 2020 through the browser 16 based on the first access website.

In step S125, the mobile intelligent terminal 10 receives, through the browser, a first response to the first access request sent by the first WEB server 20, where the first response includes a second access website and an instruction for obtaining the current geographic location information of the user.

In one example, a second visited web address and instructions for obtaining the user's current geographic location information are set in the company home page. In this case, steps S110 and S115 need not be executed, but when the user accesses the homepage, the browser issues a first access request to the first WEB server 20 according to the WEB address (corresponding to the first network address) of the homepage of the company input by the user, clicked by the user, or defaulted by the browser. The first WEB server 20 returns the home page content (corresponding to the first HTTP response) as the first HTTP response to the first access request. In this example, the first access request may not include the target geographic location information, but the second access request includes the target geographic location information, or both the first access request and the second access request may include the target geographic location information. The method greatly facilitates the user to find the route from the position of the user to the company, improves the image of the company and avoids the displeasure caused by the fact that the user does not install a navigation system.

In step S130, the mobile intelligent terminal 10 obtains the current geographic location information of the user based on the first HTTP response through the browser.

In step S135, the mobile intelligent terminal 10 sends a second access request for requesting route information from the current geographic location of the user to the target geographic location to the second WEB server 30 based on the second access website through the browser, where the second access request includes the current geographic location information of the user.

In step S140, the mobile intelligent terminal 10 receives a second HTTP response to the first access request from the second WEB server 30 through the browser, where the second HTTP response includes route information from the current geographic location of the user to the target geographic location. The target geographical position is included in the aforementioned target geographical position information.

In step S145, the mobile intelligent terminal 10 presents route information from the current geographical location of the user to the target geographical location based on the second HTTP response through the browser.

In the foregoing example in which the instruction including the second visited WEB address and for acquiring the user's current geographical location information is set in the homepage of the company, the first WEB server 20 and the second WEB server 30 are preferably different servers. For example, the first WEB server 20 may be each WEB server supporting the homepage of each company, and the second WEB server 30 is preferably a WEB server good at a network service provider who provides an electronic map. At this time, the process of the mobile intelligent terminal 10 sending the second access request for requesting the route information from the current geographical location of the user to the target geographical location to the second WEB server 30 through the browser based on the second access website may further include: the mobile intelligent terminal 10 presents a trigger interface (which can be embodied as a button or hyperlink displaying "go to brick and mortar store", "i want to go to XXX", etc.) to the user through the browser based on the first HTTP response, and when the user clicks the trigger interface, the mobile intelligent terminal 10 is triggered to send a second access request for obtaining route information from the current geographic position of the user to the target geographic position to the second WEB server 30 for providing the electronic map through the browser based on the second access website in the first HTTP response. At this time, the first access website includes the domain name of the first WEB server 20, the second access website includes the domain name of the second server, and preferably the second access request includes the target geographical location information.

In an example of acquiring the first network access address by performing steps S110 and S115, the first WEB server 20 and the second WEB server 30 may be the same WEB server, for example, the same WEB server as a WEB server specializing in a network service providing an electronic map. At this time, the two-dimensional code scanning application of the mobile intelligent terminal 10 obtains a first access website by scanning the two-dimensional code, where the first access website includes the target geographic location information, and the two-dimensional code scanning application of the mobile intelligent terminal 10 triggers the mobile intelligent terminal 10 to send a first access request including the target geographic location information to the first WEB server 20 through the mobile intelligent terminal 10 via the browser based on the first access website.

Fig. 2 illustrates a WEB-based route query method on a server side according to an embodiment of the present invention.

In step S210, the first WEB server 20 receives a first access request sent by the mobile intelligent terminal 10 through the browser based on the first access website.

In step S215, the first WEB server 20 sends a first HTTP response for acquiring the current geographic location information of the user to the mobile intelligent terminal 10 through the browser in response to the first access request received from the mobile intelligent terminal 10, as a response to the first access request sent by the mobile intelligent terminal 10 through the browser. For example, there is a Geoloration API specification in W3C, which can be used to obtain the user's geographic location from a browser using navigator.

The following is a description of commonly used functions in the geocation API specification.

Acquiring a current geographic position:

navigator.geolocation.getCurrentPosition(success_callback_function,error_callback_function,position_options)；

continuously acquiring the geographic position:

navigator.geolocation.watchPosition(success_callback_function,error_callback_function,position_options)

clearing a continuous acquisition geo-location event:

navigator.geolocation.clearWatch(watch_position_id)

the success _ callback _ function is a function processed after success, the error _ callback _ function is a processing function returned after failure, and the parameter position _ options is a configuration item and is transmitted from the JSON format.

In step S220, the second WEB server 30 receives a second access request sent by the mobile intelligent terminal 10 through the browser based on the second access website, where the second access request includes the current geographic location information of the user.

In step S225, the second WEB server 30 generates route information from the current geographical location of the user to the target geographical location or acquires route information from the current geographical location of the user to the target geographical location based on the target geographical location information and the current geographical location information of the user in response to the second access request sent by the mobile intelligent terminal 10 through the browser. The route information may be route information from the user's current location to the target geographical location including at least one of a route map, bus transfer information, and a driving route from the user's current location to the target geographical location.

In step S230, the second WEB server 30 returns a second HTTP response including route information from the current geographical location of the user to the target geographical location to the mobile intelligent terminal 10 as a response to the second access request sent from the mobile intelligent terminal 10 through the browser. In this way, the user can conveniently view route information from the location to the target geographical location through the browser of the mobile intelligent terminal 10 without manually inputting the target geographical location and without installing a navigation application.

The target geographic location information is contained in a first access request sent by the mobile intelligent terminal 10 through the browser and/or contained in a second access request sent by the mobile intelligent terminal 10 through the browser, the first HTTP response comprises a second access website, and the target geographic location information comprises at least one target geographic location.

As described in the above description of the client side, the first WEB server 20 and the second WEB server may be the same WEB server, and in this case, the target geographical location information may be included in the first access request sent by the mobile intelligent terminal 10 through the browser, or may be included in both the first access request and the second access request sent by the mobile intelligent terminal 10 through the browser. The target geographic location information is preferably included in a first access request sent by the mobile intelligent terminal 10 through the browser. More preferably, the first HTTP response includes information that causes the mobile intelligent terminal 10 that receives the first HTTP response to automatically trigger the browser of the mobile intelligent terminal 10 to issue the second access request to the second WEB server 30 after acquiring the current geographic location information of the user, so as to reduce the user's operations.

Take a scenario example. An event is held in a large commercial square in Beijing. Due to the large dimensions of the square, the event location is located at a distance from the entrance to the square. In this case, the event organization unit may attach route signs with the same route guide two-dimensional code to each entrance and each route of the square. The user can send a first access request including the geographical location of the event venue to a WEB server of a certain map provider by scanning the two-dimensional code (steps S110 to S115) regardless of which two-dimensional code the user sees, and the target geographical location information can be obtained by parsing the two-dimensional code. Then, the WEB server of the map provider can return the detailed route from the current location of the user to the event venue geographic location to the mobile intelligent terminal 10 of the user through steps S210 and S230, and the mobile intelligent terminal 10 of the other side interacts with the WEB server through steps S120 and S145, and finally presents the route information from the current location of the user to the event venue geographic location to the user.

In the scene, the same route guide two-dimensional code is arranged in each route indicator, and the user can obtain different routes from different directions to the destination, so that the cost of the event host is reduced, the user can conveniently go out, and the user is not required to install specific navigation software.

In other scenarios, the two-dimensional code may be disposed in a web page, a brochure, a poster, or a route sign, which may have similar technical effects.

As described in the above description of the client side, the first WEB server 20 and the second WEB server 30 may be two WEB servers with different domain names, the first visited site includes the domain name of the first WEB server 20, and the second visited site includes the domain name of the second WEB server 30, in which case, the target geographic location information is preferably included in the second visit request sent from the browser of the mobile intelligent terminal 10, so as to simplify the operation of the user instructing the mobile intelligent terminal 10 to send the first visit request.

In this case, the first HTTP response includes information that causes the browser of mobile intelligent terminal 10 that received the first HTTP response to present a trigger interface to the user and trigger the browser of mobile intelligent terminal 10 to send a second access request to second WEB server 30 based on the second access website in the first HTTP response when the user clicks on the trigger interface.

For example, the national intellectual property office may set a location (target geographical location), an instruction for acquiring the current location of the user, an "i want to go to the national intellectual property office" button (trigger interface) on its official homepage, and the user may issue the first access request only by inputting the national intellectual property office homepage (domain name www.sipo.gov.cn) without adding a parameter regarding the location of the national intellectual property office. The first WEB server 20 having domain name www.sipo.gov.cn returns the national intellectual property office homepage as the first HTTP response to the first access request.

When the user clicks the "i want to go to the national intellectual office" button on the national intellectual office home page, the browser of the mobile intelligent terminal 10 is triggered to issue a second access request including the user's current location and target geographical location to a second WEB server 30 (e.g., a WEB server with a domain name of map. Thus, when the user receives the second HTTP response from the WEB server with the domain name map, the user can conveniently see the route map from the current location to the national intellectual property office through the browser of the mobile intelligent terminal 10, which is obviously a very convenient matter for the national intellectual property office.

In this example, the second access address may be:

http:// map. sogou. com/# s ═ m ═ bus! | A from ═ Tiananmen | | | | Name |. | A to ═ Name | | | Name |, No. 6 of Jimen Wensh Tucheng Luo in Hai lake district of Beijing City

The heaven and earth door is the current geographic position of the user, and the Jimenqiao West local city road No. 6 in the Hai lake region of Beijing is the target geographic position.

OTHER EMBODIMENTS

In addition, the invention also provides a two-dimensional code generator. The two-dimensional code generator receives customization parameters input by a user by using a browser of the mobile intelligent terminal 10, generates a result website (which can be used as a first access website of the invention) containing the customization parameters based on the customization parameters, and then generates a two-dimensional code containing the result website.

For example, if the user inputs "jimen sie guo cheng lu 6" in the hai lake area of beijing through a browser of a mobile smart terminal, the two-dimensional code generator may generate the result website "http:// www.mapproviderxxx.com/# lq ═ 6" in the hai lake area of beijing qian guo cheng lu 6 ", where www.mapproviderxxx.com is an example of a domain name of a map provider. Then, the two-dimensional code generator generates a two-dimensional code containing a result address of http:// www.mapproviderxxx.com/# lq ═ 6 th soil city road, Jimenqiao, Hai lake, Beijing. Therefore, the two-dimension code containing the network address with a complex structure can be conveniently and quickly set without any professional knowledge about the network address. Compared with a two-dimensional code generation method for generating the website in the traditional technology, the user friendliness is greatly improved.

Further, more preferably, the two-dimensional code generator may further perform the following steps: receiving a customized parameter and a target domain name input by a user by using a browser; according to a preset two-dimensional code generation rule corresponding to a preset target domain name, a website (which can be used as a first access website of the invention) containing the customization parameters and the target website is generated based on the customization parameters and the target website, and then a two-dimensional code containing the generated first access address is generated. Therefore, different two-dimension code generating rules can be set for different target domain names, so that more flexible two-dimension code generating service can be provided for various WEB service providers or users, and the users do not need to input complicated complete websites.

For example, a preset two-dimensional code generation rule corresponding to the target domain name map.http://map.sogou.com/#lqWhen the customized parameter entered by the user is "jimen sie city, tokyo, 6", the resulting website "http:// map. sogou. com/# lq ═ beijing sie city, thimen sie city, tokyo, 6", is generated. The preset two-dimensional code generation rule corresponding to the customized parameter www.soopat.com can be preset as prefixed "http:// www.soopat.com/Patent/". At this point, when the customization parameter entered by the user is "201310276969," the resulting web address "http:// www.soopat.com/Patent/201310276969" will be generated.

Further, the user may be allowed to input a plurality of customized parameters, for example, a preset two-dimensional code generation rule corresponding to the target domain name map.http:// map.sogou.com/#city＝para1&c＝12956000,4824875,10&lq＝para2 ", wherein, in generating the visited web site, para1 is replaced by a first customization parameter entered by the user using the browser, and para2 is replaced by a second customization parameter entered by the user using the browser. For example, when the first customization parameter entered by the user is "Beijing", the second customization parameter is "Tiananmen". The two-dimensional code generator generates a result website address of http:// map. sogou.com/index. html # city ═ Beijing according to the preset two-dimensional code generation rule corresponding to map&c＝12956000,4824875,10&lq is Tiananmen. Although the resulting web site is very complex, it requires a skilled practitioner to understand other meanings. However, through the above steps, based on the two-dimensional code generation rule preset by the professional, the user can conveniently customize numerous result websites satisfying various requirements of the user without having any professional knowledge about the URL.

In a preferred embodiment, the two-dimensional code generator may be disposed in the second WEB server 30, in which case, the customized parameter is a target geographic location, and the generated visited website may be used as the first visited website.

Further, the two-dimensional code generator may be provided independently of the second WEB server 30 and provided by another service provider specializing in the two-dimensional code generation service. In other words, the two-dimensional code generator may be a technical solution independent of the second WEB server 30, or may be a part of the second WEB server 30.

It should be noted that, though, the whole WEB-based routing query needs to be completed through the mutual cooperation of the browser and the server. However, since the server and the browser are often independent devices, the present invention is directed to methods for the server side and the browser side that can be either separately protected or combined. The server may exist alone and may interface with any browser that meets the requirements of the server's interface.

Those skilled in the art will appreciate that the modules or steps of the invention described above can be implemented in a general purpose computing device, centralized on a single computing device or distributed across a network of computing devices, and optionally implemented in the form of instructions executable by the computing devices, such that the instructions are stored in a memory device and executed by the computing devices, or fabricated separately as integrated circuit modules, or fabricated as a single integrated circuit module from a plurality of modules or steps. Thus, the present invention is not limited to any specific combination of hardware and software.

Although the embodiments of the present invention have been described above, the embodiments are only used for understanding the present invention, and are not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. A route query system supporting browser access, comprising:

the mobile intelligent terminal sends a first access request to a first WEB server through a browser based on a first access website, receives a first HTTP response sent by the first WEB server and aiming at the first access request, sends a second access request to a second WEB server through the browser based on a second access website, wherein the second access request comprises the current geographic position information of a user, and receives a second HTTP response sent by the second WEB server and aiming at the second access request;

the first WEB server receives a first access request sent by a browser of the mobile intelligent terminal based on a first access website, and sends a first HTTP response for acquiring current geographic position information of a user to the browser of the mobile intelligent terminal in response to the first access request received from the browser of the mobile intelligent terminal;

the second WEB server receives the second access request sent by the mobile intelligent terminal through the browser based on a second access website, generates route information from a current geographic position of the user to a target geographic position or acquires route information from the current geographic position of the user to the target geographic position based on target geographic position information and the current geographic position information of the user in response to the second access request sent by the mobile intelligent terminal through the browser, and returns the second HTTP response comprising the route information from the current geographic position of the user to the target geographic position to the browser of the mobile intelligent terminal; wherein,

the target geographic position information is contained in the first access request sent by the mobile intelligent terminal through the browser and/or contained in a second access request sent by the mobile intelligent terminal through the browser, the first HTTP response comprises the second access website, and the target geographic position information comprises at least one target geographic position.

2. The system of claim 1, wherein,

the first WEB server and the second WEB server are the same WEB server, and the target geographic position information is contained in the first access request sent from the browser; or,

the first WEB server and the second WEB server are two WEB servers with different domain names, the first access website includes the domain name of the first WEB server, the second access website includes the domain name of the second WEB server, and the target geographic position information is included in a second access request sent from the browser.

3. The system of claim 2,

the first WEB server and the second WEB server are the same WEB server;

the target geographical position information is contained in the first access request sent from the browser; and the number of the first and second groups,

the first HTTP response comprises information which enables the browser receiving the first HTTP response to automatically trigger the mobile intelligent terminal to send a second access request to the second WEB server through the browser after acquiring the current geographic position information of the user.

4. The system according to claim 3, wherein the first WEB server further performs the following processing before the step of receiving the first access request sent by the mobile intelligent terminal through the browser based on the first access WEB address,

the mobile intelligent terminal scans and analyzes the two-dimension code through the two-dimension code scanning application to obtain the first access website, wherein the first access website comprises the target geographical position information;

and the mobile intelligent terminal triggers the browser to send a first access request comprising the target geographical position information to the first WEB server based on a first access website through a two-dimensional code scanning application.

5. The system of claim 4, wherein the two-dimensional code is disposed in a web page, brochure, poster, or route sign.

6. The system according to any of claims 1 to 5, wherein the second WEB server further performs the steps of:

receiving a customization parameter input by a user by using a browser;

generating a customized website containing the customized parameters based on the customized parameters to serve as a first access website;

and generating a two-dimensional code containing the generated first access address.

7. The system according to any of claims 1 to 5, wherein the second WEB server further performs the steps of:

receiving a customized parameter and a target website input by a user by using a browser;

generating a first access website comprising the customization parameters and the target website based on the customization parameters and the target website according to a preset two-dimensional code generation rule corresponding to the preset website;

and generating a two-dimensional code containing the generated first access address.

8. The system of claim 2,

the first WEB server and the second WEB server are two WEB servers with different domain names; the first access website comprises a domain name of the first WEB server; the second access website comprises a domain name of the second WEB server;

the target geographical position information is contained in a second access request sent from the browser; and the number of the first and second groups,

the first HTTP response comprises information which enables the mobile intelligent terminal receiving the first HTTP response to present a trigger interface to a user through a browser and trigger the browser to send the second access request to the second WEB server based on the second access website in the first HTTP response when the user clicks the trigger interface.