CN103714311B - City navigation system constituting method and navigation system based on positioning Quick Response Code - Google Patents
City navigation system constituting method and navigation system based on positioning Quick Response Code Download PDFInfo
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- CN103714311B CN103714311B CN201310717854.7A CN201310717854A CN103714311B CN 103714311 B CN103714311 B CN 103714311B CN 201310717854 A CN201310717854 A CN 201310717854A CN 103714311 B CN103714311 B CN 103714311B
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Abstract
The invention discloses a kind of city navigation system constituting method based on positioning Quick Response Code, including step: (a), arrange multiple positioning Quick Response Code in city, positioning Quick Response Code is numbered;(b), to each positioning Quick Response Code enter row space mapping, obtain spatial coordinated information and geographical environment information accurately, spatial coordinated information refers to longitude and latitude coordinate;(c), be input to spatial coordinated information and geographical environment information in database;It is integrally formed application program;D (), user, by using mobile scanning terminal positioning Quick Response Code, obtain spatial coordinated information and the geographical environment information of correspondence position.Present invention also offers the city navigation system based on positioning Quick Response Code corresponding with as above method.The present invention is accurately positioned by using Quick Response Code scan mode to carry out user self, is obtained the detailed spatial data of user current location periphery, and the target inputting according to user simultaneously by mobile Internet, carries out the precision navigation of micro.
Description
Technical Field
The invention relates to the technical field of navigation, in particular to a city navigation system construction method based on a positioning two-dimensional code and a navigation system.
Background
At present, the development of electronic maps is rapid, and traditional real object maps are replaced in many places. The existing electronic map not only can show the regional distribution and the route schematic diagram of the place where the electronic map is located to a user, but also has the navigation function, namely after the user inputs an initial position and a target position, the electronic map can plan the route and show the route to a client, and the electronic map can be suitable for urban navigation service. At present, the urban navigation service is suitable for the macro scope, and lacks of effectiveness aiming at the micro level (within 200 meters). Although various navigation devices and mobile phone navigation software are increasingly popularized, on a microscopic level, the requirements of short-distance and accurate positioning and navigation of a user cannot be effectively met, so that the situation that a handheld navigator and a mobile phone continuously find a person and ask a way is caused. The main reasons are that: the user cannot obtain the current accurate spatial position of the user and the accurate data of surrounding places, roads and facilities (the microscopic navigation data is large in quantity and cannot be downloaded and stored in the user terminal at one time), so that effective accurate navigation guidance aiming at the position and the target direction of the user cannot be obtained. On the other hand, in indoor and underground places, it is difficult to effectively develop navigation services due to lack of positioning signals such as GPS.
Disclosure of Invention
In order to solve the problems in the prior art, the invention provides a city navigation system construction method and a navigation system based on a positioning two-dimensional code.
In order to achieve the purpose, the invention adopts the following technical scheme:
a city navigation system construction method based on a positioning two-dimensional code comprises the following steps:
(a) setting a plurality of positioning two-dimensional codes in a city, and numbering the positioning two-dimensional codes;
(b) mapping each positioning two-dimensional code to obtain space coordinate information, and implanting the space coordinate information into the pattern of the positioning two-dimensional code; carrying out microscopic mapping on the periphery of each positioning two-dimensional code to obtain geographic environment information; the space coordinate information refers to longitude and latitude coordinates of a position corresponding to the positioning two-dimensional code;
(c) inputting the space coordinate information and the geographic environment information into a database by taking the corresponding positioning two-dimensional code number as a data tag; integrating the space coordinate information and the geographic environment information to form an application program;
(d) the user scans and positions the two-dimensional code by using the mobile terminal to obtain the space coordinate information and the geographic environment information of the corresponding position, and navigation service content is formed in the mobile terminal; the mobile terminal is provided with a mobile map system.
Wherein, the step (d) specifically comprises:
a user scans and positions the two-dimensional code by using a mobile terminal to obtain space coordinate information and a first data label;
downloading the application program through a mobile internet, downloading geographic environment information corresponding to a first data tag, and loading the geographic environment information into the mobile map system; the mobile internet is a 2G \3G mobile communication network or WIFI;
and activating the downloaded application program, and performing navigation calculation according to the destination to acquire navigation service content.
The geographic environment information comprises road names, place names, local features of buildings, road signs, house numbers and space coordinate information of other surrounding two-dimensional codes.
The navigation service content comprises a navigation line and navigation line node information.
The invention provides a city navigation system based on a positioning two-dimensional code, which comprises a plurality of positioning two-dimensional codes, a network navigation service center and a mobile terminal; wherein,
the positioning two-dimensional codes are distributed in a city, and each positioning two-dimensional code has a unique number;
the network navigation service center comprises:
the database module is used for storing space coordinate information and geographic environment information corresponding to the positioning two-dimensional code;
the application program module is used for integrating the spatial coordinate information and the geographic environment information to generate an application program;
the receiving/sending module is used for receiving the request information of the mobile terminal and sending service information to the mobile terminal;
the mobile terminal acquires service information of a corresponding position from the network navigation service center and forms navigation service content by scanning and positioning the two-dimensional code; the mobile terminal is provided with a mobile map system.
Wherein the service information includes the geographic environment information and the application program.
The navigation service content comprises a navigation line and navigation line node information.
Wherein the mobile terminal includes:
the mobile phone, the navigator or the tablet computer has a two-dimensional code scanning function and a mobile interconnection function.
Compared with the prior art, the longitude and latitude coordinates of the current position are obtained by adopting a two-dimensional code scanning mode, the user can accurately position the user, meanwhile, detailed geographic data information around the current position of the user is obtained through the mobile internet, and microscopic accurate navigation is carried out according to the target input by the user; particularly for indoor or underground workplaces, when GPS signals are not available for positioning, longitude and latitude information of the current position is obtained by scanning the positioning two-dimensional code and is loaded into a mobile terminal with a mobile map system, so that the current position can be accurately positioned, and the problems of micro navigation and navigation in the absence of GPS positioning signals are effectively solved.
Drawings
Fig. 1 is a flowchart illustrating steps of a navigation system construction method according to an embodiment of the present invention.
Fig. 2 is a schematic block diagram of a navigation system according to an embodiment of the present invention.
Detailed Description
As described above, the present invention is directed to solve the problem that the urban navigation service in the prior art cannot effectively meet the requirements of short-distance, precise positioning and navigation of a user on a microscopic level, and provides a method for constructing an urban navigation system based on a positioning two-dimensional code and a corresponding navigation system.
The present invention will be further described with reference to the following examples in conjunction with the accompanying drawings.
Referring to fig. 1, a flowchart of steps of a method for constructing a city navigation system based on a positioning two-dimensional code is provided in this embodiment. As shown in fig. 1, the method comprises the steps of:
s101, setting a plurality of positioning two-dimensional codes in a city, numbering the positioning two-dimensional codes and managing the positioning two-dimensional codes in a unified manner; specifically, the positioning two-dimensional codes are mainly arranged in busy zones and traffic hubs in the centers of cities, wherein the numbers of the positioning two-dimensional codes in the same area have similarity.
S102, mapping each positioning two-dimensional code to acquire space coordinate information and geographic environment information; specifically, spatial mapping is carried out on the positioning two-dimensional code to obtain accurate spatial coordinate information, wherein the spatial coordinate information refers to longitude and latitude coordinates of a position corresponding to the positioning two-dimensional code, and the spatial coordinate information is implanted into a pattern of the positioning two-dimensional code; and carrying out microscopic surveying and mapping on the periphery of each positioning two-dimensional code, acquiring geographic environment information, and acquiring element characteristics, positions, topological relations and the like of the geographic environment, wherein the geographic environment information comprises road names, place names, local characteristics of buildings, road signs, house numbers and space coordinate information of other peripheral two-dimensional codes.
S103, inputting the spatial coordinate information and the geographic environment information into a database of a network navigation service center by taking the corresponding positioning two-dimensional code number as a data tag; and integrating the space coordinate information and the geographic environment information, and developing the space coordinate information and the geographic environment information in a network navigation service center through software to form an application program.
S104, scanning and positioning the two-dimensional code by using the mobile terminal by the user, acquiring spatial coordinate information and geographic environment information of the corresponding position, and forming navigation service content in the mobile terminal; the mobile terminal is provided with a mobile map system; the method specifically comprises the following steps:
scanning the positioning two-dimensional code of the position by using a mobile terminal by a user to obtain longitude and latitude coordinates of the current position and a corresponding data tag; combining the longitude and latitude coordinates with a mobile map system in the mobile terminal to obtain the accurate position of the mobile terminal;
the mobile terminal sends service request information to the network navigation service center through the mobile internet, downloads the application program, downloads the geographic environment information of the corresponding data tag and loads the geographic environment information into a mobile map system in the mobile terminal; the mobile internet is a 2G \3G mobile communication network or WIFI;
and activating the downloaded application program at the mobile terminal, and performing navigation calculation according to the destination to acquire navigation service contents, wherein the service contents refer to navigation lines, navigation line node information and the like.
In the navigation system constructed above, a user firstly obtains the accurate position of the user by scanning the positioning two-dimensional code at the position, and obtains detailed geographic data information of the corresponding position from the network navigation service center according to the data information of the positioning two-dimensional code and loads the detailed geographic data information into the mobile map system of the mobile terminal, so as to obtain microscopic and accurate route guidance.
Referring to a corresponding positioning two-dimensional code-based city navigation system, as shown in fig. 2, the system includes a plurality of positioning two-dimensional codes 100 (positioning two-dimensional code 1-positioning two-dimensional code n), a network navigation service center 200, and a mobile terminal 300; wherein,
the positioning two-dimensional codes 100 are distributed in a city, each positioning two-dimensional code 100 has a unique number, and spatial coordinate information of a corresponding position is implanted in a pattern of the positioning two-dimensional code, wherein the spatial coordinate information refers to longitude and latitude coordinates of the corresponding position of the positioning two-dimensional code; microscopic mapping is carried out through the periphery of each positioning two-dimensional code 100, and geographic environment information of the position, namely, the characteristics, the position, the topological relation and the like of each element of the geographic environment are obtained; the geographic environment information comprises road names, place names, local features of buildings, road signs, house numbers and space coordinate information of other surrounding two-dimensional codes.
The network navigation service center 200 includes:
the database module 201 is used for storing space coordinate information and geographic environment information corresponding to the positioning two-dimensional code; the application program module 202 is used for integrating the spatial coordinate information and the geographic environment information and generating an application program through software development; a receiving/transmitting module 203, configured to receive request information of the mobile terminal, and send service information to the mobile terminal, where the service information specifically includes the geographic environment information and the application.
The mobile terminal 300 obtains the accurate position of the mobile terminal by scanning the positioning two-dimensional code 100, and obtains service information of a corresponding position from the network navigation service center according to the data information of the positioning two-dimensional code 100 and forms navigation service content; the mobile terminal 100 has a moving map system therein. The navigation service content comprises a navigation line and navigation line node information.
In this embodiment, the mobile terminal 300 may be a mobile phone, a navigator or a tablet computer with a two-dimensional code scanning function and a mobile internet function.
The term "periphery" as used herein means a range of 200 m around the position of a certain two-dimensional code.
In summary, according to the urban navigation system construction method based on the positioning two-dimensional code and the corresponding navigation system provided by the invention, the accurate spatial position of the user is quickly obtained by scanning the positioning two-dimensional code, and accurate navigation is carried out by downloading detailed geographic environment information of the corresponding position, so that the situation that the urban microscopic navigation capability is poor is effectively compensated; in addition, particularly for indoor or underground workplaces, when GPS signals do not exist for positioning, the longitude and latitude information of the current position is acquired by scanning the positioning two-dimensional code and is loaded into a mobile terminal with a mobile map system, and the current position can be accurately positioned.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The foregoing is directed to embodiments of the present application and it is noted that numerous modifications and adaptations may be made by those skilled in the art without departing from the principles of the present application and are intended to be within the scope of the present application.
Claims (6)
1. A city navigation system construction method based on a positioning two-dimensional code is characterized by comprising the following steps:
(a) setting a plurality of positioning two-dimensional codes in a city, and numbering the positioning two-dimensional codes;
(b) carrying out spatial mapping on each positioning two-dimensional code to obtain spatial coordinate information, and implanting the spatial coordinate information into the pattern of the positioning two-dimensional code; carrying out microscopic mapping on the periphery of each positioning two-dimensional code to obtain geographic environment information; the space coordinate information refers to longitude and latitude coordinates of a position corresponding to the positioning two-dimensional code;
(c) inputting the space coordinate information and the geographic environment information into a database by taking the corresponding positioning two-dimensional code number as a data tag; integrating the space coordinate information and the geographic environment information to form an application program;
(d) scanning and positioning the two-dimensional code by using the mobile terminal by the user, acquiring space coordinate information and geographic environment information of the corresponding position, and forming navigation service content in the mobile terminal; the mobile terminal is provided with a mobile map system, and the navigation service content comprises a navigation line and navigation line node information;
wherein, the step (d) specifically comprises:
a user scans and positions the two-dimensional code by using a mobile terminal to obtain space coordinate information and a first data label;
downloading the application program through a mobile internet, downloading geographic environment information corresponding to a first data tag, and loading the geographic environment information into the mobile map system; the mobile internet is a 2G \3G mobile communication network or WIFI;
and activating the downloaded application program, and performing navigation calculation according to the destination to acquire navigation service content.
2. The city navigation system construction method based on the positioning two-dimensional code as claimed in claim 1, wherein the geographic environment information includes road name, place name, local feature of building, road sign, house number and spatial coordinate information of other surrounding two-dimensional codes.
3. The utility model provides a city navigation based on location two-dimensional code which characterized in that includes: the system comprises a plurality of positioning two-dimensional codes, a network navigation service center and a mobile terminal; wherein,
the positioning two-dimensional codes are distributed in a city, and each positioning two-dimensional code has a unique number;
the network navigation service center comprises:
the database module is used for storing space coordinate information and geographic environment information corresponding to the positioning two-dimensional code;
the application program module is used for integrating the spatial coordinate information and the geographic environment information to generate an application program;
the receiving/sending module is used for receiving the request information of the mobile terminal and sending service information to the mobile terminal;
the mobile terminal acquires service information of a corresponding position from the network navigation service center and forms navigation service content by scanning and positioning the two-dimensional code; the mobile terminal is provided with a mobile map system, and the navigation service content comprises a navigation line and navigation line node information;
specifically, the mobile terminal scans and positions the two-dimensional code to obtain space coordinate information and a first data label, downloads the application program through the mobile internet, downloads geographic environment information corresponding to the first data label and loads the geographic environment information into the mobile map system; and then activating the downloaded application program, and performing navigation calculation according to the destination to acquire navigation service content.
4. The city navigation system based on location two-dimensional code of claim 3, wherein the service information comprises the geographic environment information and the application program.
5. The city navigation system based on location two-dimensional code of claim 3, wherein the navigation service content comprises navigation route and navigation route node information.
6. The city navigation system based on positioning two-dimensional code according to claim 3, wherein the mobile terminal comprises:
the mobile phone, the navigator or the tablet computer has a two-dimensional code scanning function and a mobile internet function.
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| CN201310717854.7A CN103714311B (en) | 2013-12-20 | 2013-12-20 | City navigation system constituting method and navigation system based on positioning Quick Response Code |
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