CN112019639B - Dynamic Internet of things equipment access platform and method - Google Patents

Abstract

The invention relates to a dynamic Internet of things equipment access platform and a dynamic Internet of things equipment access method. Wherein, developments thing networking equipment access platform includes: the system comprises communication equipment, dynamic identification equipment and a controller; the communication equipment and the dynamic identification equipment are both connected with the controller. According to the dynamic Internet of things equipment access platform and the method, the accessed IOT access equipment is identified and classified through the dynamic identification equipment, and the communication instruction is generated according to the type of the access frequency of the IOT access equipment, so that the interaction pressure of an interactive machine can be greatly relieved, the waste of a physical port of a switch is avoided, and the maximum utilization of resources can be realized. And a communication instruction is generated according to the identified access frequency type, and then the working mode of the IOT access equipment is controlled according to different communication instructions, so that the power consumption of the IOT access equipment can be greatly reduced.

Description

Dynamic Internet of things equipment access platform and method

Technical Field

The invention relates to the field of data processing, in particular to a dynamic Internet of things equipment access platform and a dynamic Internet of things equipment access method.

Background

The Internet of Things (IOT) is to collect any object or process needing monitoring, connection and interaction in real time and collect various required information such as sound, light, heat, electricity, mechanics, chemistry, biology and location through various devices and technologies such as various information sensors, radio frequency identification technology, global positioning system, infrared sensor and laser scanner, and to realize ubiquitous connection of objects and objects, objects and people and to realize intelligent sensing, identification and management of objects and processes through various possible network accesses. The internet of things is an information bearer based on the internet, a traditional telecommunication network and the like, and all common physical objects which can be independently addressed form an interconnected network.

Along with the continuous popularization of the internet of things technology, the internet of things is gradually enlarged, the sensors are small and single, the integrated signal base station is used as a sub-station in the internet of things, the access quantity of the internet of things is continuously increased, the concept of the internet of things access platform is further introduced for meeting the data interaction requirements among the internet of things, the access platform optimizes the access of the internet of things, and the interaction efficiency of data is improved.

The prior IOT network access platform can not dynamically adjust the IOT access equipment, the access frequency of the IOT is a real-time changing value, the access frequency of the special equipment is higher in a special time period, and basically no access data exists in idle time, the IOT continuously works at the moment, occupies communication IP, influences the access of subsequent equipment, and has larger power consumption loss on the IOT access equipment.

Disclosure of Invention

The invention aims to provide a dynamic Internet of things equipment access platform and a dynamic Internet of things equipment access method, so as to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following scheme:

a dynamic Internet of things device access platform, comprising: the system comprises communication equipment, dynamic identification equipment and a controller;

the communication equipment and the dynamic identification equipment are both connected with the controller;

the dynamic identification device is used for recording the access frequency of the IOT access device and identifying the type of the access frequency; the categories of the access frequency include: high frequency access, medium frequency access, and low frequency access;

the controller is used for generating a communication instruction according to the access frequency type identified by the dynamic identification equipment; the communication instruction comprises: a high-frequency communication command, a medium-frequency communication command and a low-frequency communication command;

and the communication equipment provides a physical IP for the IOT access equipment according to the communication instruction.

Preferably, the communication device includes: a switch and a virtual terminal;

the switch and the virtual terminal are both connected with the controller;

when the communication instruction generated by the controller is a high-frequency communication instruction, the switch provides a physical IP for the IOT access equipment;

when the communication instruction generated by the controller is an intermediate-frequency communication instruction or a low-frequency communication instruction, the virtual terminal provides a virtual IP address for the IOT access equipment;

the virtual terminal is also used for recording and clearing the virtual IP address in real time.

Preferably, the communication device, the dynamic identification device and the controller are all wirelessly connected to the IOT access device.

Preferably, the communication device, the dynamic identification device and the controller are all electrically connected with the IOT access device.

A dynamic Internet of things equipment access method is applied to the dynamic Internet of things equipment access platform; the access method comprises the following steps:

acquiring fingerprint information of the IOT access equipment;

receiving access frequency of each IOT access device according to the fingerprint information, and identifying the access frequency; identifying the category of the resulting access frequency includes: high frequency access, medium frequency access, and low frequency access;

generating a communication instruction according to the identified access frequency; the communication instruction comprises: a high-frequency communication command, a medium-frequency communication command and a low-frequency communication command;

allocating an IP address to each IOT access device according to the communication instruction; the IP address includes: physical IP and virtual IP address to complete the access of the IOT access device.

Preferably, the access method further includes:

when the communication instruction is a high-frequency communication instruction, a physical IP is allocated to the IOT access equipment;

and when the communication command is an intermediate frequency communication command or a low frequency communication command, allocating a virtual IP address to the IOT access equipment.

Preferably, when the communication command is an intermediate frequency communication command or a low frequency communication command, after allocating a virtual IP address to the IOT access device, the method further includes:

and recording data interaction information of the IOT access equipment and the dynamic IOT equipment access platform in real time, and performing overlay storage on the data interaction information in a set storage period.

Preferably, the access method further includes:

when the types of the access frequencies of the IOT access equipment are low-frequency access, counting the access frequencies of the IOT access equipment, and determining a constant value frequency according to the counted access frequencies;

and judging whether the access frequency of each IOT access device is lower than the fixed value frequency, if so, starting a low power consumption mode by the IOT access device, otherwise, carrying out data interaction between the IOT access device and the dynamic IOT device access platform.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

according to the dynamic Internet of things equipment access platform and the method, the accessed IOT access equipment is identified and classified through the dynamic identification equipment, and the communication instruction is generated according to the type of the access frequency of the IOT access equipment, so that the interaction pressure of an interactive machine can be greatly relieved, the waste of a physical port of a switch is avoided, and the maximum utilization of resources can be realized. And a communication instruction is generated according to the identified access frequency type, and then the working mode of the IOT access equipment is controlled according to different communication instructions, so that the power consumption of the IOT access equipment can be greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described 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 to obtain other drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a dynamic internet of things device access platform provided by the present invention;

fig. 2 is a flowchart of a dynamic internet of things device access method provided by the present invention;

fig. 3 is a flowchart of the operation of the low power consumption mode of the IOT access device provided in 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.

The invention aims to provide a dynamic Internet of things equipment access platform and a dynamic Internet of things equipment access method, so that the dynamic adjustment of IOT access equipment is realized, the power consumption of the IOT access equipment is reduced, and the maximum utilization of resources is realized.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Fig. 1 is a schematic structural diagram of a dynamic internet of things device access platform provided in the present invention, and as shown in fig. 1, the dynamic internet of things device access platform includes: communication equipment (not shown), dynamic identification equipment and a controller.

The communication equipment and the dynamic identification equipment are both connected with the controller. The communication equipment, the dynamic identification equipment and the controller are all in wireless connection with the IOT access equipment, or the communication equipment, the dynamic identification equipment and the controller are all in electrical connection with the IOT access equipment.

The dynamic identification device is used for recording the access frequency of the IOT access device and identifying the type of the access frequency. The categories of access frequencies include: high frequency access, medium frequency access, and low frequency access.

The controller is used for generating a communication instruction according to the access frequency type identified by the dynamic identification equipment. The communication command comprises: a high frequency communication command, a medium frequency communication command, and a low frequency communication command.

And the communication equipment provides a physical IP for the IOT access equipment according to the communication instruction.

Specifically, the communication device preferably includes: a switch and a virtual terminal.

The switch and the virtual terminal are both connected with the controller.

And when the communication command generated by the controller is a high-frequency communication command, the switch provides a physical IP for the IOT access equipment.

And when the communication instruction generated by the controller is an intermediate-frequency communication instruction or a low-frequency communication instruction, the virtual terminal provides a virtual IP address for the IOT access equipment.

The virtual terminal is also used for recording and cleaning the virtual IP address in real time.

The working principle of the dynamic internet of things equipment access platform provided by the invention is detailed below, so that the advantages of the invention are more prominent.

The IOT access equipment is in data communication with the dynamic identification equipment through a wireless network, and the dynamic identification equipment records the access frequency of the IOT access equipment in real time. The dynamic identification device divides the recorded access frequency of the IOT access device into: and after the high-frequency access, the medium-frequency access and the low-frequency access, transmitting the divided access frequencies to the controller in real time. And after receiving the divided access frequencies, the controller performs classification control on the access frequencies. When the access is high-frequency access, the switch provides physical IP for the IOT access equipment so as to ensure the transmission effect of the IOT access equipment. When the access is moderate access or low-frequency access, the virtual terminal sets a virtual IP address for the IOT access equipment as temporary communication and records the virtual IP address information in real time, and the virtual terminal has an automatic cleaning function.

And a storage period is also arranged in the virtual terminal, the storage period is recorded as x, the current time of the virtual terminal is recorded as T, and data before (T-x/2) time is automatically cleared to provide a stable memory space for the virtual terminal.

The controller is provided with a low-power-consumption sleep mode for the IOT access equipment accessed at the low frequency, the controller counts the access frequency of the IOT access equipment accessed at the low frequency through the dynamic identification equipment, averages the counted frequency and records the averaged frequency as a constant value frequency, the controller makes an access request for the IOT access equipment accessed at the low frequency at the constant value frequency and performs data interaction with the IOT access equipment, and the IOT access equipment is in the low-power-consumption sleep mode in the rest time. And when the access frequency of the IOT access equipment to the access platform is lower than the fixed value frequency, closing the main functions of the IOT access equipment, and only keeping the basic IOT acquisition and communication functions to wait for the wake-up signal of the fixed value frequency of the controller. Otherwise, if the access frequency of the IOT access equipment is higher than the fixed value frequency, the IOT access equipment carries out normal data interaction work.

For the above dynamic internet of things device access platform, the present invention also correspondingly provides a dynamic internet of things device access method, as shown in fig. 2, the access method includes:

step 100: and acquiring fingerprint information of the IOT access equipment.

Step 101: and receiving the access frequency of each IOT access device according to the fingerprint information, and identifying the access frequency. Identifying the category of the resulting access frequency includes: high frequency access, medium frequency access, and low frequency access.

Step 102: and generating a communication command according to the identified access frequency. The communication command comprises: a high frequency communication command, a medium frequency communication command, and a low frequency communication command.

Step 103: and allocating an IP address to each IOT access device according to the communication instruction. The IP address includes: physical IP and virtual IP address to complete the access of the IOT access device.

And when the communication command is a high-frequency communication command, allocating a physical IP (Internet protocol) for the IOT access equipment.

And when the communication command is an intermediate frequency communication command or a low frequency communication command, allocating a virtual IP address for the IOT access equipment.

In order to enable the virtual terminal to have a stable and sufficient memory space, the dynamic internet of things device access method provided by the invention further comprises the following steps: and recording data interaction information of the IOT access equipment and the dynamic IOT equipment access platform in real time, and performing overlay storage on the data interaction information in a set storage period.

The storage period is recorded as x, the current time of the virtual terminal is recorded as T, and data before (T-x/2) time is automatically cleared.

Further, in order to reduce power consumption, the access method further includes:

and when the types of the access frequency of each IOT access device are low-frequency access, counting the access frequency of each IOT access device, and determining the constant value frequency according to the counted access frequency.

And judging whether the access frequency of each IOT access device is lower than a fixed value frequency, if so, starting a low power consumption mode by the IOT access device, waiting for a controller wake-up signal, and otherwise, performing data interaction between the IOT access device and the dynamic IOT device access platform. As shown in fig. 3, the workflow of this step specifically includes:

the controller sends the fixed value frequency to the low-frequency access IOT access equipment and sends a wake-up signal to the low-frequency access IOT access equipment according to the fixed value evaluation rate, and after the low-frequency access IOT access equipment receives the fixed value frequency, if the access frequency per se is lower than the fixed value frequency, the low-power consumption mode is started, and the controller wake-up signal is waited.

In summary, the present invention provides a dynamic identification device for a device access platform, wherein the dynamic identification device can identify and classify accessed IOT access devices, and perform classification adjustment according to the access frequency of the IOT access devices, wherein a high-speed physical IP in a switch provides a high-frequency accessed IOT access device, so as to provide stable data support for the high-frequency access device, and meanwhile, in a low-frequency or medium-frequency accessed IOT access device, because the access frequency is low, the amount of data generated is small, the requirement on data rate is low, and further, by providing a virtual terminal for the low-frequency and medium-frequency accessed IOT access devices, the interaction pressure of an interactive machine is greatly relieved, and simultaneously, the waste of physical ports of the switch is avoided, and the virtual port is provided with an automatic cleaning function, the virtual port only stores data in a specified period, and data in an excess period will be automatically covered or deleted, in order to guarantee the high-efficient work of virtual port, the controller is directed at low frequency access equipment simultaneously, read the access frequency of low frequency IOT access equipment through dynamic identification equipment, and calculate after taking the average value statistics and obtain definite value frequency, and will calculate the definite value frequency that obtains and send to IOT access equipment, and send the wakening up signal to low frequency IOT access equipment with definite value frequency, when IOT access equipment self access frequency is less than definite value frequency then IOT access equipment then gets into low-power consumption mode dormancy, and then reduce IOT access equipment self power consumption loss, also avoid low frequency equipment frequent access to cause the redundancy of platform data simultaneously, and then improve equipment access platform's handling capacity greatly, avoid access platform data redundancy.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (6)

1. A dynamic Internet of things equipment access platform, comprising: the system comprises communication equipment, dynamic identification equipment and a controller;

the communication equipment and the dynamic identification equipment are both connected with the controller;

the dynamic identification device is used for recording the access frequency of the IOT access device and identifying the type of the access frequency; the categories of the access frequency include: high frequency access, medium frequency access, and low frequency access;

the controller is used for generating a communication instruction according to the access frequency type identified by the dynamic identification equipment; the communication instruction comprises: a high-frequency communication command, a medium-frequency communication command and a low-frequency communication command;

the communication equipment provides a physical IP for the IOT access equipment according to the communication instruction;

the communication device includes: a switch and a virtual terminal;

the switch and the virtual terminal are both connected with the controller;

when the communication instruction generated by the controller is a high-frequency communication instruction, the switch provides a physical IP for the IOT access equipment;

when the communication instruction generated by the controller is an intermediate-frequency communication instruction or a low-frequency communication instruction, the virtual terminal provides a virtual IP address for the IOT access equipment;

the virtual terminal is also used for recording and clearing the virtual IP address in real time.

2. The dynamic internet of things device access platform of claim 1, wherein the communication device, the dynamic identification device, and the controller are all wirelessly connected to the IOT access device.

3. The dynamic internet of things equipment access platform according to claim 1, wherein the communication equipment, the dynamic identification equipment and the controller are all electrically connected with the IOT access equipment.

4. A dynamic Internet of things equipment access method is applied to the dynamic Internet of things equipment access platform according to any one of claims 1 to 3; the access method comprises the following steps:

acquiring fingerprint information of the IOT access equipment;

receiving access frequency of each IOT access device according to the fingerprint information, and identifying the access frequency; identifying the category of the resulting access frequency includes: high frequency access, medium frequency access, and low frequency access;

generating a communication instruction according to the identified access frequency; the communication instruction comprises: a high-frequency communication command, a medium-frequency communication command and a low-frequency communication command;

allocating an IP address to each IOT access device according to the communication instruction; the IP address includes: physical IP and virtual IP address to complete the access of IOT access device;

further comprising:

when the communication instruction is a high-frequency communication instruction, a physical IP is allocated to the IOT access equipment;

and when the communication command is an intermediate frequency communication command or a low frequency communication command, allocating a virtual IP address to the IOT access equipment.

5. The dynamic internet of things equipment access method according to claim 4, wherein when the communication command is an intermediate frequency communication command or a low frequency communication command, after allocating a virtual IP address to the IOT access equipment, the method further comprises:

and recording data interaction information of the IOT access equipment and the dynamic IOT equipment access platform in real time, and performing overlay storage on the data interaction information in a set storage period.

6. The dynamic internet of things device access method according to claim 4, wherein the access method further comprises:

when the types of the access frequencies of the IOT access equipment are low-frequency access, counting the access frequencies of the IOT access equipment, and determining a constant value frequency according to the counted access frequencies;

and judging whether the access frequency of each IOT access device is lower than the fixed value frequency, if so, starting a low power consumption mode by the IOT access device, otherwise, carrying out data interaction between the IOT access device and the dynamic IOT device access platform.

Images