CN111447303A - GPS-based dynamic coding method for Internet of things platform equipment - Google Patents
GPS-based dynamic coding method for Internet of things platform equipment Download PDFInfo
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- CN111447303A CN111447303A CN202010259502.1A CN202010259502A CN111447303A CN 111447303 A CN111447303 A CN 111447303A CN 202010259502 A CN202010259502 A CN 202010259502A CN 111447303 A CN111447303 A CN 111447303A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L2101/00—Indexing scheme associated with group H04L61/00
- H04L2101/60—Types of network addresses
- H04L2101/69—Types of network addresses using geographic information, e.g. room number
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/30—Managing network names, e.g. use of aliases or nicknames
- H04L61/3015—Name registration, generation or assignment
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L61/00—Network arrangements, protocols or services for addressing or naming
- H04L61/50—Address allocation
- H04L61/5053—Lease time; Renewal aspects
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L2101/00—Indexing scheme associated with group H04L61/00
- H04L2101/30—Types of network names
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Abstract
The invention provides a dynamic coding method of an internet of things platform device based on a GPS, which comprises the following steps: the first step is as follows: defining a form of the code of the Internet of things platform equipment; the second step is that: determining a device type code of the Internet of things platform device; the third step: determining a location information code of the Internet of things platform equipment; the fourth step: determining a sequencing code of the Internet of things platform equipment; the fifth step: forming and distributing an internet of things platform equipment code; and a sixth step: dynamically updating the equipment code according to the position change information; the seventh step: and (4) coding application of the Internet of things platform equipment. The method provided by the invention can realize full-automatic coding of the terminal equipment accessed to the Internet of things, enrich the meaning of equipment coding and improve the management efficiency of the Internet of things access equipment.
Description
Technical Field
The invention belongs to the technical field of Internet of things equipment coding, and particularly relates to a dynamic coding method for Internet of things platform equipment based on a GPS.
Background
The internet of things is an extended and expanded network on the basis of the internet, and various information sensing devices are combined with the internet to form a huge network. The Internet of things is complex in composition, a large number of Internet of things platform devices are provided, and device management plays a vital role in success of the Internet of things. Coding a device is an important method for device management, however, the existing device coding methods have some disadvantages, including:
(1) the existing coding technology does not realize automation and the coding is irregular and can be followed.
(2) Most of the traditional codes are sequence numbers, and available information is less.
(3) The encoding cannot be dynamically changed in real time depending on the device location.
The invention provides a dynamic coding method for Internet of things platform equipment based on a GPS (global positioning system), aiming at realizing full-automatic coding of terminal equipment accessed to the Internet of things, enriching the meaning of equipment coding and improving the management efficiency of the Internet of things access equipment.
Disclosure of Invention
The invention provides a dynamic coding method of an internet of things platform device based on a GPS (global positioning system), aiming at the problems in the prior art, which can realize the automation and the dynamism of a coding technology, and comprises the following steps:
the first step is as follows: defining a form of the code of the Internet of things platform equipment;
the coding form of the Internet of things platform equipment is uniformly expressed as follows: TYYYYYXXXXX, the total number of codes is 11, the 1 st bit represents the equipment type code and is classified and represented by letters A-Z; the 2 nd to 7 th bits are zone information codes which are represented by administrative codes of the county where the equipment is located; the 8 th to 11 th bits represent the sequencing codes of the same type of equipment on the Internet of things platform and are marked by 16-system numbers 0 to F;
the second step is that: determining a device type code of the Internet of things platform device;
when the Internet of things platform equipment applies for registration to the Internet of things platform, the Internet of things platform equipment reports equipment type information to the Internet of things platform, and the Internet of things platform automatically selects a corresponding equipment type identification code according to the equipment type information;
the third step: determining a location information code of the Internet of things platform equipment;
STEP 1: acquiring GPS position information of the Internet of things platform equipment;
STEP 2: the Internet of things platform equipment reports the GPS position information of the equipment to the Internet of things platform;
STEP 3: the Internet of things platform determines the province, the city, the district and the county where the Internet of things platform equipment is located according to the GPS position information of the Internet of things platform equipment, and inquires and acquires a nationwide unique 6-bit regional administrative code as a regional information code of the Internet of things platform equipment;
the fourth step: determining a sequencing code of the Internet of things platform equipment;
STEP 1: the Internet of things platform equipment reports time information of equipment application registration to the Internet of things platform;
STEP 2: the Internet of things platform sorts the same type of Internet of things platform equipment in the same region according to the registration time sequence of the Internet of things platform equipment to obtain the serial number of the Internet of things platform equipment;
STEP 3: the Internet of things platform converts the serial number of the Internet of things platform equipment into 16-system representation, and the 16-system representation is used as a sequencing code of the Internet of things platform equipment;
the fifth step: forming and distributing an internet of things platform equipment code;
after equipment registration is completed, the Internet of things platform connects the equipment type code, the zone bit information code and the sequencing code of the Internet of things platform equipment according to a code form to form an equipment code of the Internet of things platform equipment, the equipment code is automatically distributed to the equipment, and a background of the Internet of things platform records the code;
and a sixth step: dynamically updating the equipment code according to the position change information;
STEP 1: after the position of the IOT platform equipment is changed, the IOT platform equipment actively reports the GPS position information of the equipment to the IOT platform, or the IOT platform actively inquires the GPS position change information of the IOT platform equipment;
STEP 2: the Internet of things platform automatically determines the administrative region where the Internet of things platform equipment is located according to the change situation of the current position information, inquires and acquires the administrative code of the region where the Internet of things platform equipment is located, and uses the administrative code as the position information code of the Internet of things platform equipment;
STEP 3: the Internet of things platform automatically sequences the same type of Internet of things platform equipment in the same region according to the current position to obtain the serial number of the Internet of things platform equipment, and converts the serial number of the equipment into 16-system representation to be used as a sequencing code of the Internet of things platform equipment;
STEP 4: forming and distributing an Internet of things platform equipment code by the Internet of things platform, and recording the code by the Internet of things platform background;
the seventh step: coding application of the Internet of things platform equipment;
and inquiring the position historical record information of the Internet of things platform equipment, and displaying the historical movement track of the equipment.
Preferably, the method for acquiring the GPS location information of the internet of things platform device in the third step includes acquiring the GPS location information of the internet of things platform device by using a GPS positioning module configured in the internet of things platform device itself, acquiring the GPS location information of the internet of things platform device by using an attached GPS positioning device, and acquiring the GPS location information of the internet of things platform device by using a map positioning method.
Compared with the prior art, the method has the following advantages:
(1) the coding of the Internet of things equipment is normalized, and the regularity is enhanced.
(2) According to the equipment codes, the information of the county, the type and the number of the same type of equipment can be mastered.
(3) The code can be automatically and dynamically adjusted, and the efficiency of query positioning and daily management of the platform equipment is greatly improved.
Drawings
FIG. 1 is a flow chart of a dynamic encoding method for a GPS-based Internet of things platform device;
fig. 2 is a schematic diagram formed by the codes of the internet of things platform device.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. Referring to fig. 1, the present invention comprises the following steps:
the first step is as follows: defining a form of the code of the Internet of things platform equipment;
the coding form of the Internet of things platform equipment is uniformly expressed as follows: TYYYYYXXXXX, the total number of codes is 11, the 1 st bit represents the equipment type code and is classified and represented by letters A-Z; the 2 nd to 7 th bits are zone information codes which are represented by administrative codes of the county where the equipment is located; 8 th to 11 th bits represent the sequencing codes of the same type of equipment on the Internet of things platform, and the data of the same type of equipment which can be coded in the same district and county of the Internet of things platform is guaranteed to be larger than 10000 by using 16-system numbers (0-F).
The second step is that: determining a device type code of the Internet of things platform device;
as shown in fig. 2, when the platform device of the internet of things applies for registration to the platform of the internet of things, the platform device of the internet of things reports type information of the device to the platform of the internet of things, and the platform of the internet of things automatically selects a corresponding device type identification code according to the device type information, for example, a sensor identification code is G, and a remote sensing terminal identification code is F;
the third step: determining a location information code of the Internet of things platform equipment;
STEP 1: acquiring GPS position information of the Internet of things platform equipment; the method for acquiring the GPS position information of the IOT platform equipment comprises the steps of acquiring the GPS position information of the IOT platform equipment by using a GPS positioning module configured for the IOT platform equipment, acquiring the GPS position information of the IOT platform equipment by using an attached GPS positioning device and acquiring the GPS position information of the IOT platform equipment by using a map positioning method.
STEP 2: the Internet of things platform equipment reports the GPS position information of the equipment to the Internet of things platform;
STEP 3: the Internet of things platform determines the province, the city, the district and the county where the Internet of things platform equipment is located according to the GPS position information of the Internet of things platform equipment, and inquires and acquires a nationwide unique 6-bit regional administrative code as a regional information code of the Internet of things platform equipment;
for example, 320106 denotes the drumbeat district of Nanjing city, Jiangsu province, 310114 denotes the Jiading district of Shanghai city;
the fourth step: determining a sequencing code of the Internet of things platform equipment;
STEP 1: the Internet of things platform equipment reports time information of equipment application registration to the Internet of things platform;
STEP 2: the Internet of things platform sorts the same type of Internet of things platform equipment in the same region according to the registration time sequence of the Internet of things platform equipment to obtain the serial number of the Internet of things platform equipment;
STEP 3: the Internet of things platform converts the serial number of the Internet of things platform equipment into 16-system representation, and the 16-system representation is used as a sequencing code of the Internet of things platform equipment;
for example, 001E represents the 30 th access internet of things platform;
the fifth step: forming and distributing an internet of things platform equipment code;
after equipment registration is completed, the Internet of things platform connects the equipment type code, the zone bit information code and the sequencing code of the Internet of things platform equipment according to a code form to form an equipment code of the Internet of things platform equipment, the equipment code is automatically distributed to the equipment, and a background of the Internet of things platform records the code; for example, the code F320106001E represents the 30 th telemetry terminal device registered in the tympaninal area of Nanjing, Jiangsu province on the internet of things platform.
And a sixth step: dynamically updating the equipment code according to the position change information;
STEP 1: after the position of the IOT platform equipment is changed, the IOT platform equipment actively reports the GPS position change information of the equipment to the IOT platform, or the IOT platform actively inquires the GPS position change information of the IOT platform equipment;
STEP 2: the Internet of things platform automatically determines the administrative region where the Internet of things platform equipment is located according to the change situation of the current position information, inquires and acquires the administrative code of the region where the Internet of things platform equipment is located, and uses the administrative code as the position information code of the Internet of things platform equipment;
STEP 3: the Internet of things platform automatically sequences the same type of Internet of things platform equipment in the same region according to the current position to obtain the serial number of the Internet of things platform equipment, and converts the serial number of the equipment into 16-system representation to be used as a sequencing code of the Internet of things platform equipment;
STEP 4: forming and distributing an Internet of things platform equipment code by the Internet of things platform, and recording the code by the Internet of things platform background;
for example, if the equipment (F320106001E) of the internet of things is transferred to jiangning district of south kyo city, and the equipment of the same type is ranked as 25, the newly generated equipment code is F3201150019; and recording the code in the background.
The seventh step: coding application of the Internet of things platform equipment;
and automatically identifying corresponding longitude and latitude and the county according to the position historical record information of the platform equipment, and displaying the historical movement track of the equipment.
The method provided by the invention can realize full-automatic coding of the terminal equipment accessed to the Internet of things, enrich the meaning of equipment coding and improve the management efficiency of the Internet of things access equipment.
The above-described embodiments are merely preferred embodiments of the present invention, which is not intended to limit the present invention in any way. Those skilled in the art can make many changes, modifications, and equivalents to the embodiments of the invention without departing from the scope of the invention as set forth in the claims below. Therefore, equivalent variations made according to the idea of the present invention should be covered within the protection scope of the present invention without departing from the contents of the technical solution of the present invention.
Claims (2)
1. A dynamic coding method of an Internet of things platform device based on a GPS is characterized in that: the method comprises the following steps:
the first step is as follows: defining a form of the code of the Internet of things platform equipment;
the coding form of the Internet of things platform equipment is uniformly expressed as follows: TYYYYYXXXXX, the total number of codes is 11, the 1 st bit represents the equipment type code and is classified and represented by letters A-Z; the 2 nd to 7 th bits are zone information codes which are represented by administrative codes of the county where the equipment is located; the 8 th to 11 th bits represent the sequencing codes of the same type of equipment on the Internet of things platform and are marked by 16-system numbers 0 to F;
the second step is that: determining a device type code of the Internet of things platform device;
when the Internet of things platform equipment applies for registration to the Internet of things platform, the Internet of things platform equipment reports equipment type information to the Internet of things platform, and the Internet of things platform automatically selects a corresponding equipment type identification code according to the equipment type information;
the third step: determining a location information code of the Internet of things platform equipment;
STEP 1: acquiring GPS position information of the Internet of things platform equipment;
STEP 2: the Internet of things platform equipment reports the GPS position information of the equipment to the Internet of things platform;
STEP 3: the Internet of things platform determines the province, the city, the district and the county where the Internet of things platform equipment is located according to the GPS position information of the Internet of things platform equipment, and inquires and acquires a nationwide unique 6-bit regional administrative code as a regional information code of the Internet of things platform equipment;
the fourth step: determining a sequencing code of the Internet of things platform equipment;
STEP 1: the Internet of things platform equipment reports time information of equipment application registration to the Internet of things platform;
STEP 2: the Internet of things platform sorts the same type of Internet of things platform equipment in the same region according to the registration time sequence of the Internet of things platform equipment to obtain the serial number of the Internet of things platform equipment;
STEP 3: the Internet of things platform converts the serial number of the Internet of things platform equipment into 16-system representation, and the 16-system representation is used as a sequencing code of the Internet of things platform equipment;
the fifth step: forming and distributing an internet of things platform equipment code;
after equipment registration is completed, the Internet of things platform connects the equipment type code, the zone bit information code and the sequencing code of the Internet of things platform equipment according to a code form to form an equipment code of the Internet of things platform equipment, the equipment code is automatically distributed to the equipment, and a background of the Internet of things platform records the code;
and a sixth step: dynamically updating the equipment code according to the position change information;
STEP 1: after the position of the IOT platform equipment is changed, the IOT platform equipment actively reports the GPS position information of the equipment to the IOT platform, or the IOT platform actively inquires the GPS position change information of the IOT platform equipment;
STEP 2: the Internet of things platform automatically determines the administrative region where the Internet of things platform equipment is located according to the change situation of the current position information, inquires and acquires the administrative code of the region where the Internet of things platform equipment is located, and uses the administrative code as the position information code of the Internet of things platform equipment;
STEP 3: the Internet of things platform automatically sequences the same type of Internet of things platform equipment in the same region according to the current position to obtain the serial number of the Internet of things platform equipment, and converts the serial number of the equipment into 16-system representation to be used as a sequencing code of the Internet of things platform equipment;
STEP 4: forming and distributing an Internet of things platform equipment code by the Internet of things platform, and recording the code by the Internet of things platform background;
the seventh step: coding application of the Internet of things platform equipment;
and inquiring the position historical record information of the Internet of things platform equipment, and displaying the historical movement track of the equipment.
2. The dynamic encoding method for the GPS-based Internet of things platform equipment according to claim 1, wherein the dynamic encoding method comprises the following steps: the method for acquiring the GPS location information of the internet of things platform device in the third step includes acquiring the GPS location information of the internet of things platform device by using a GPS positioning module configured in the internet of things platform device itself, acquiring the GPS location information of the internet of things platform device by using an attached GPS positioning device, and acquiring the GPS location information of the internet of things platform device by using a map positioning method.
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