CN111050274A - Grid system and method based on longitude and latitude address geographic position - Google Patents

Abstract

The invention discloses a grid system and a method based on latitude and longitude address geographic position, which comprises a BDS/GPS/CAPS receiving and analyzing device, a keyboard, a scanning reader, a grid computing device, a display screen and a printer, wherein the BDS/GPS/CAPS receiving and analyzing device is used for receiving and analyzing the latitude and longitude information of the geographic position of a certain appointed point with the precision of meter, the keyboard is used for inputting the latitude and longitude information of the precise geographic position of the certain appointed point or inputting the name of the geographic position and analyzing the name of the geographic position into the latitude and longitude information of the precise geographic position, the grid computing device converts the latitude and longitude information of the precise geographic position of the appointed point into the unique grid code of the appointed point, the grid code is 34-bit code mixed with English letters and numbers, 25 bits before the grid code are uniquely mapped to a geographic grid on the latitude and longitude position of the certain appointed point, and the grid is about 1 meter square near the equat, the coded 9 bits represent 999, 999 and 999 sequential coded addresses of the grid of the table, the grid code is displayed on a display screen, and a grid certificate is printed by a printer.

Description

Grid system and method based on longitude and latitude address geographic position

Technical Field

The invention relates to the technical field of geographic information, in particular to a grid system and a method based on longitude and latitude address geographic positions.

Background

In the existing network technology, a virtual space is adopted.

However, the virtual space of the network brings problems of false information, irretrievable information, disjunction with the actual geographic space and the like, so that the security, traceability and authenticity of the virtual network space are low.

Based on the above, the invention designs a grid system and a method based on longitude and latitude address geographic positions to solve the above mentioned problems.

Disclosure of Invention

The invention aims to provide a grid system and a method based on longitude and latitude address geographic positions, which are used for solving the problems of low safety, traceability and authenticity in the prior network technology.

In order to achieve the purpose, the invention provides the following technical scheme: a grid system based on longitude and latitude address geographic position comprises a BDS/GPS/CAPS receiving and analyzing device, a keyboard and a scanning reader, a grid computing device, a display screen and a printer,

the BDS/GPS/CAPS receiving and analyzing device, the keyboard and the scanning reader, the display screen and the printer are all arranged outside the grid computing device, and the keyboard and the scanning reader, the display screen and the printer are connected with the grid computing device;

the BDS/GPS/CAPS receiving and analyzing device is used for receiving satellite navigation signals of a specified place and analyzing the satellite navigation signals into longitude and latitude information and altitude elevation information of the specified place;

the grid computing device is used for receiving longitude and latitude information and altitude elevation of a specified place from the BDS/GPS/CAPS receiving and analyzing device;

the grid computing device is used for appointing longitude and latitude information and altitude elevation information of a place from the keyboard and the scanning reader;

the grid computing device is used for reading the password and the information of the grid holder corresponding to the longitude and latitude information and the altitude elevation information of the appointed place from the keyboard and the scanning reader so as to establish the determined relationship between the appointed place and the grid holder;

the grid computing device is used for displaying longitude and latitude information, altitude elevation information and grid codes of a specified place through the connected display;

the grid computing device is used for printing longitude and latitude information, altitude elevation information and grid coding certificates of a specified place through the connected printer.

Preferably, the grid computing device is configured to convert the precise geographical location longitude and latitude and altitude elevation of the designated point into the unique grid code of the designated point, the grid computing device divides the designated point into regions according to the distance of about 1 meter in the longitude and latitude, divides the designated point into regions according to the altitude elevation number in the altitude elevation, and converts the regions into the designated altitude elevation of the grid at the designated point, which is the grid; the trellis has a unique trellis code.

Preferably, the grid computing device is further configured to encode the grid into 34-bit codes mixed by english letters and numbers, the first 25 bits of the grid codes uniquely map a geographic grid at a specified point longitude and latitude position, the grid is 1 meter square near the equator, the last 9 bits of the grid codes represent 0-999, 999, 999 billion sequential address codes possessed by the grid of the table, and each sequential address code is a unique grid address of the geographic grid.

Preferably, the grid computing device is further configured to input various grid information specified by the user through the keyboard and the scan reader, including but not limited to, a manager, a grid owner, genes of a geographic point corresponding to the grid, a pedigree, history, humanity, culture, cultural relics, an internet of things device, geography, virtual currency, economy, time and other grid information, where each grid code contains 999, 999, 999 grid addresses, so that each grid code can contain 999, 999, 999 pieces of grid information, and each piece of grid information corresponds to a unique grid address of a unique grid code.

Preferably, the grid computing device is further configured to display information of a grid code, a grid address, a geographic location, and a grid owner via the display.

Preferably, the grid computing device is further configured to print grid codes, grid addresses, and geographical location information of the administrator and the grid owner through the printer; the printed document is called a grid certificate.

A grid method based on latitude and longitude address geographic location, applied to the system of any one of claims 1-6, the method comprising:

the BDS/GPS/CAPS receiving and analyzing device acquires longitude and latitude information corresponding to at least one geographic point;

the keyboard and the scanning reader acquire longitude and latitude information and manager and owner information corresponding to at least one geographic point and grid information of genes, family tree, history, humanity, culture, cultural relics, Internet of things devices, geography, virtual currency, economy, time administration and the like of the corresponding geographic point;

the grid computing device converts the accurate longitude and latitude and altitude elevation of the geographic position of the designated point into the unique grid code of the designated point, divides the designated point into regions according to the distance of about 1 meter on the longitude and latitude, divides the designated point into regions according to the altitude height number on the altitude elevation, and converts the regions into the designated altitude elevation of the grid at the designated position, namely the grid; the grid has a unique grid code;

the grid computing device is used for encoding a grid into 34-bit codes mixed with English letters and numbers, the first 25 bits of the grid codes uniquely map a geographic grid of a longitude and latitude position of a certain designated point, the grid is 1 m square near the equator, the last 9 bits of the grid codes represent 0-999, 999 and 999 billions of sequential address codes of the grid in the table, and each sequential address code is a unique grid address of the geographic grid;

the grid computing device inputs various grid information specified by a user through the keyboard and the scanning reader, wherein the grid information comprises but is not limited to genes, family names, histories, humanistic, culture, cultural relics, Internet of things devices, geography, virtual currency, economy, time administration and the like of managers, grid owners, geographic points corresponding to grids, 999, 999 grid addresses and 999, so that each grid code can contain 999, 999, 999 grid information and each grid information corresponds to a unique grid address of a unique grid code;

the grid computing device displays the grid code, the grid address, the geographic position and the information of the grid owner through the display;

the grid computing device prints grid codes, grid addresses and geographical position information of a manager and a grid owner through the printer; the printed document is called a grid certificate.

Compared with the prior art, the invention has the beneficial effects that: the invention comprises a BDS/GPS/CAPS receiving and analyzing device, a keyboard, a scanning reader, a grid computing device, a display screen and a printer, wherein the BDS/GPS/CAPS receiving and analyzing device is used for receiving and analyzing the longitude and latitude information of the precise to meter-level geographic position of a certain appointed point, the keyboard is used for inputting the longitude and latitude information of the precise geographic position of the certain appointed point or inputting the name of the geographic position and analyzing the name of the geographic position into the longitude and latitude information of the precise geographic position, the grid computing device converts the longitude and latitude information of the precise geographic position of the appointed point into a unique grid code of the appointed point, the grid code is 34 bits code mixed by English letters and numbers, 25 bits before the grid code uniquely map a geographic grid on the longitude and latitude position of the certain appointed point, the grid is about 1 meter square near the equator, 9 bits after the code represent 999 bits of the grid of the table, 999, 999 sequentially code addresses, display screen display grid code, printer printing grid certificate, and solve the problems of lower safety, traceability and authenticity in the prior network technology.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a block diagram of the system of the present invention;

FIG. 2 is a block diagram of the longitude and latitude address geographic location identification code of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

This embodiment 1 provides a grid system and method based on latitude and longitude address geographic location, the structural schematic diagram of the system can be seen in fig. 1, the system includes a BDS/GPS/CAPS (beidou/GPS/CAPS) receiving and analyzing device 101, a keyboard and scanning reader 102, a grid computing device 103, a display screen 104 and a printer 105, wherein:

the BDS/GPS/CAPS receiving and analyzing device 101 is installed in an open place outside the grid computing device 103; the keyboard and scan reader 102, the display screen 104, and the printer 105 are all disposed outside of the grid computing device 103.

The BDS/GPS/CAPS receiving and analyzing device 101, the keyboard and scanner reader 102, the display screen 104 and the printer 105 are connected to the grid computing device 103.

The BDS/GPS/CAPS receiving and analyzing device 101 is used for receiving satellite navigation signals of a specified place and analyzing the satellite navigation signals into longitude and latitude information and altitude elevation information of the specified place;

the grid computing device 103 is used for receiving longitude and latitude information and altitude elevation of a specified place from the BDS/GPS/CAPS receiving and analyzing device 101;

the grid computing device 103 is used for specifying longitude and latitude information and altitude elevation information of a place from the keyboard and the scanning reader 102;

the grid computing device 103 is used for reading the read information from the keyboard and the scanning reader 102, and then computing the password and the information of the grid holder corresponding to the longitude and latitude information and the altitude elevation information of the specified place so as to establish the determined relationship between the specified place and the grid holder;

the grid computing device 103 is used for displaying longitude and latitude information, altitude and elevation information and grid codes of a specified place through the display 104 connected with the grid computing device;

the grid computing device 103 is used for printing longitude and latitude information, elevation information and grid coding certificate of a specified place through the connected printer 105;

the grid computing device 103 is configured to convert the precise longitude and latitude and altitude elevation of the geographic position of the designated point into a unique grid code of the designated point, partition the grid computing device 103 at a distance of about 1 meter in the longitude and latitude near the equator, partition the grid at the altitude elevation according to the altitude number, and convert the grid into the designated altitude elevation of the grid at the designated location, which is the grid; the grid has a unique grid code;

the grid computing device 103 is further configured to convert the grid code into a 42-bit code in which english letters and numbers are mixed, the first 33 bits of the grid code uniquely map a geographic grid of 1 meter square at a longitude and latitude position of a certain specified point, the last 9 bits of the grid code represent 0-999, 999, 999 billion sequential address codes possessed by the grid of the table, and each sequential address code is a unique grid address of the geographic grid;

the grid computing device 103 is further configured to input various grid information specified by a user through the keyboard and the scan reader 102, including but not limited to a manager, a grid owner, genes of a geographic point corresponding to a grid, a pedigree, history, humanity, culture, cultural relics, an internet of things device, geography, virtual currency, economy, time and other grid information, where each grid code contains 999, 999, 999 grid addresses, so that each grid code can contain 999, 999, 999 pieces of grid information, and each piece of grid information corresponds to a unique grid address of a unique grid code;

the grid computing device 103 is further used for displaying information of grid codes, grid addresses, geographic positions and grid owners through the display;

the grid computing device 103 is also used for printing grid codes, grid addresses and geographical position information of managers and grid owners through the printer 105; the printed document, called a grid certificate;

the grid longitude and latitude address adopts actual longitude and latitude;

the grid coding method according to the longitude and latitude comprises the following steps: the trellis encodes the first bit as an east-west longitude flag, E for east and W for west, as shown in fig. 2;

the 2 nd, 3 rd and 4 th bits of the grid code are degrees of the actual longitude, the 5 th and 6 th bits are fractions of the actual longitude, and the 7 th and 8 th bits are seconds of the actual longitude;

the trellis encodes the 9 th and 10 th bits as 30 equal parts of the longitude seconds of the trellis, the 30 equal parts corresponding to about 1 meter per 1 equal part near the equator;

the 11 th bit of the grid code is a mark of north-south latitude, N represents north, and S represents south;

the 12 th, 13 th and 14 th bits of the grid code are degrees of actual latitude, the 15 th and 16 th bits are fractions of the actual latitude, and the 17 th and 18 th bits are seconds of the actual latitude;

the trellis-encoded bits 19, 20 are 30 halves of the longitude seconds of the trellis, the 30 halves corresponding to about 1 meter per 1 half near the equator;

the 21 st bit of the grid code is an elevation positive and negative mark, P is positive, and N is negative;

the 26 th bit to the 29 th bit of the grid code are actual elevation meters;

the 30 th bit to 34 th bit of the trellis code are trellis address codes.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. A grid system based on latitude and longitude address geographic position is characterized in that: the system comprises a BDS/GPS/CAPS receiving and analyzing device, a keyboard and a scanning reader, a grid computing device, a display screen and a printer,

the BDS/GPS/CAPS receiving and analyzing device, the keyboard and the scanning reader, the display screen and the printer are all arranged outside the grid computing device, and the keyboard and the scanning reader, the display screen and the printer are connected with the grid computing device;

the BDS/GPS/CAPS receiving and analyzing device is used for receiving satellite navigation signals of a specified place and analyzing the satellite navigation signals into longitude and latitude information and altitude elevation information of the specified place;

the grid computing device is used for receiving longitude and latitude information and altitude elevation of a specified place from the BDS/GPS/CAPS receiving and analyzing device;

the grid computing device is used for appointing longitude and latitude information and altitude elevation information of a place from the keyboard and the scanning reader;

the grid computing device is used for reading the password and the information of the grid holder corresponding to the longitude and latitude information and the altitude elevation information of the appointed place from the keyboard and the scanning reader so as to establish the determined relationship between the appointed place and the grid holder;

the grid computing device is used for displaying longitude and latitude information, altitude elevation information and grid codes of a specified place through the connected display;

the grid computing device is used for printing longitude and latitude information, altitude elevation information and grid coding certificates of a specified place through the connected printer.

2. The grid system based on latitude and longitude address geographic location of claim 1 wherein: the grid computing device is used for converting the accurate longitude and latitude and altitude elevation of the geographic position of the specified point into the unique grid code of the specified point, dividing the grid computing device into regions according to the distance of about 1 meter on the longitude and latitude, dividing the regions according to the altitude elevation number on the altitude elevation, and converting the regions into the specified altitude elevation of the grid at the specified place, namely the grid; the trellis has a unique trellis code.

3. The grid system based on latitude and longitude address geographic location of claim 2 wherein: the grid computing device is further used for enabling the grid codes to be 34-bit codes mixed by English letters and numbers, the first 25 bits of the grid codes are uniquely mapped to a geographic grid at a longitude and latitude position of a certain designated point, the grid is 1 meter square near the equator, the last 9 bits of the grid codes represent 0-999, 999 and 999 billion sequential address codes of the grid in the grid, and each sequential address code is a unique grid address of the geographic grid.

4. The grid system based on latitude and longitude address geographic location of claim 3 wherein: the grid computing device is also used for inputting various grid information specified by a user through the keyboard and the scanning reader, wherein the grid information comprises but is not limited to genes, pedigrees, histories, human characters, cultures, cultural objects, Internet of things devices, geography, virtual currency, economy, time administration and the like of managers, grid owners, geographic points corresponding to grids, and each grid code contains 999, 999 and 999 grid addresses, so that each grid code can contain 999, 999 and 999 grid information, and each grid information corresponds to a unique grid address of a unique grid code.

5. The grid system based on latitude and longitude address geographic location of any one of claims 3-5, wherein: the grid computing device is also for displaying, via the display, information of a grid code, a grid address, a geographic location, and a grid owner.

6. The grid system based on latitude and longitude address geographic location of any one of claims 3-5, wherein: the grid computing device is also used for printing grid codes, grid addresses and geographical position information of a manager and a grid owner through the printer; the printed document is called a grid certificate.

7. A grid method based on longitude and latitude address geographic position is characterized in that: the system as claimed in any one of claims 1-6, the method comprising:

the BDS/GPS/CAPS receiving and analyzing device acquires longitude and latitude information corresponding to at least one geographic point;

the keyboard and the scanning reader acquire longitude and latitude information and manager and owner information corresponding to at least one geographic point and grid information of genes, family tree, history, humanity, culture, cultural relics, Internet of things devices, geography, virtual currency, economy, time administration and the like of the corresponding geographic point;

the grid computing device converts the accurate longitude and latitude and altitude elevation of the geographic position of the designated point into the unique grid code of the designated point, divides the designated point into regions according to the distance of about 1 meter on the longitude and latitude, divides the designated point into regions according to the altitude height number on the altitude elevation, and converts the regions into the designated altitude elevation of the grid at the designated position, namely the grid; the grid has a unique grid code;

the grid computing device is used for encoding a grid into 34-bit codes mixed with English letters and numbers, the first 25 bits of the grid codes uniquely map a geographic grid of a longitude and latitude position of a certain designated point, the grid is 1 m square near the equator, the last 9 bits of the grid codes represent 0-999, 999 and 999 billions of sequential address codes of the grid in the table, and each sequential address code is a unique grid address of the geographic grid;

the grid computing device inputs various grid information specified by a user through the keyboard and the scanning reader, wherein the grid information comprises but is not limited to genes, family names, histories, humanistic, culture, cultural relics, Internet of things devices, geography, virtual currency, economy, time administration and the like of managers, grid owners, geographic points corresponding to grids, 999, 999 grid addresses and 999, so that each grid code can contain 999, 999, 999 grid information and each grid information corresponds to a unique grid address of a unique grid code;

the grid computing device displays the grid code, the grid address, the geographic position and the information of the grid owner through the display;

the grid computing device prints grid codes, grid addresses and geographical position information of a manager and a grid owner through the printer; the printed document is called a grid certificate.

Images