CN110809257A - IOT interface method, IOT equipment interface and user equipment interface - Google Patents

Abstract

The invention discloses an IOT interface method, an IOT device interface and a user device interface, which can verify and identify IOT devices or user devices in the Internet of things by a triple verification identification mode of access encryption authentication, BSD open source code identification and API interface identification, ensure the data security in the Internet of things, and adopt a BSD open source code database comprising various BSD open source codes and an API interface database comprising various API interfaces to verify and identify the interface between the IOT devices and the user devices, and then verify and identify the user devices or the IOT devices by a triple verification identification mode of access encryption authentication, BSD open source code identification and API interface identification, ensure the data security of the IOT devices or the user devices, have good universality and can match the IOT devices and the user devices produced by different manufacturers for use.

Description

IOT interface method, IOT equipment interface and user equipment interface

Technical Field

The invention relates to the technical field of interfaces of the Internet of things, in particular to an IOT interface method, an IOT equipment interface and a user equipment interface.

Background

The Internet of Things (The Internet of Things, IOT for short) 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 technologies, global positioning systems, infrared sensors and laser scanners, and to realize ubiquitous connection of objects and people through various possible network accesses, so as to realize intelligent sensing, identification and management of objects and processes. 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. At present, an IOT device is generally controlled by an open source system, for example, BSD, when the IOT device and a user device perform data transmission, there are main problems that software interfaces adopted by IOT devices produced by different manufacturers are generally different, and correspondingly, interfaces adopted by user devices of different manufacturers are also different, so that there is an incompatibility problem between user devices produced by different manufacturers and the IOT device.

Disclosure of Invention

Aiming at the existing problems, the invention provides the IOT interface method, the IOT equipment interface and the user equipment interface, which can realize a triple verification identification mode of access encryption authentication, BSD open source code identification and API interface identification to verify and identify the IOT equipment or the user equipment in the Internet of things, and ensure the safety of data transmission between the IOT equipment and the user equipment in the Internet of things.

The technical scheme of the invention is as follows:

the invention provides an IOT interface method, which comprises the following steps:

s1, obtaining the access request information, verifying and identifying the initial ID of the access request;

s2, calling a BSD open source code corresponding to the initial ID based on the initial ID, and comparing and verifying BSD open source code information data in the access request information to obtain a free open source code ID;

s3, calling API interface data corresponding to the open source code ID based on the free open source code ID, and comparing the API interface data with API interface data in the access information in a verification manner to obtain a development authorization instruction code;

and S4, based on the development authorization instruction code, enabling the IOT equipment and the user equipment to generate data transmission according to the corresponding API interface.

Further, the access request is an access request encrypted by a public key, and the initial ID is obtained by decrypting the private key.

Further, the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned recognition operating system and a deep learning system.

The present invention also provides an IOT device interface, comprising:

the first dimension module is used for receiving an access request of user equipment, obtaining access request information, identifying an initial ID through access request information verification, and sending the initial ID to the second dimension module;

the second dimension module comprises a BSD open source code database and is used for receiving the initial ID sent by the first dimension module, calling a BSD open source code corresponding to the initial ID from the BSD open source code database, comparing and verifying BSD open source code information data sent by the user equipment to obtain a free open source code ID, and transmitting the free open source code ID to the third dimension module;

the third dimension module comprises an API interface database and is used for receiving the ID of the free open source code sent by the second dimension module, calling API interface data corresponding to the ID of the free open source code from the API interface database, verifying and comparing the API interface data with the API interface data of the user equipment to obtain a development authorization instruction code, and sending the development authorization instruction code to a fourth dimension module;

and the fourth dimension module is used for receiving the development authorization instruction code, so that data transmission is generated between the IOT equipment and the user equipment according to a corresponding API (application program interface).

Further, the access request information is access request information encrypted by a public key, and the initial ID is correspondingly an initial ID obtained by decryption by a private key.

Further, the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned recognition operating system and a deep learning system.

The present invention also provides a user equipment interface comprising:

the first dimension module is used for sending an access request to the IOT equipment, receiving access request information fed back by the IOT equipment, identifying an initial ID through the access request information verification, and sending the initial ID to the second dimension module;

the second dimension module comprises a BSD open source code database and is used for receiving the initial ID sent by the first dimension module, calling a BSD open source code corresponding to the initial ID from the BSD open source code database, comparing and verifying BSD open source code information data sent by the IOT equipment to obtain a free open source code ID, and transmitting the free open source code ID to the third dimension module;

the third dimension module comprises an API interface database and is used for receiving the free open source code ID sent by the second dimension module, calling API interface data corresponding to the free open source code ID from the API interface database, verifying and comparing the API interface data with the API interface data of the IOT equipment to obtain a development authorization instruction code, and sending the development authorization instruction code to a fourth dimension module;

and the fourth dimension module is used for receiving the development authorization instruction code, so that data transmission is generated between the user equipment and the IOT equipment according to a corresponding API (application program interface).

Further, the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned recognition operating system and a deep learning system.

Further, the access request information is access request information encrypted by a public key, and the initial ID is correspondingly an initial ID obtained by decryption by a private key.

Due to the adoption of the technology, compared with the prior art, the invention has the following specific positive beneficial effects:

1. the IOT interface method can realize triple verification identification modes of access encryption authentication, BSD open source code identification and API interface identification to verify and identify IOT equipment or user equipment in the Internet of things, and ensures data security in the Internet of things.

2. The method adopts the BSD open source code database comprising various existing BSD open source codes and the API interface database comprising various API interfaces, firstly verifies and identifies the interface between the IOT equipment and the user equipment, and then verifies and identifies the user equipment by adopting a triple verification identification mode of access encryption authentication, BSD open source code identification and API interface identification, so that the IOT equipment can determine whether to permit the IOT equipment and the user equipment to realize data transmission according to the user equipment, and the data safety of the IOT equipment is ensured.

3. The invention adopts the BSD open source code database comprising various existing BSD open source codes and the API interface database comprising various API interfaces, firstly verifies and identifies the interface between the user equipment and the IOT equipment, and then verifies and identifies the user equipment by adopting a triple verification identification mode of access encryption authentication, BSD open source code identification and API interface identification, thereby realizing that the user equipment can determine whether to permit the IOT equipment and the user equipment to realize data transmission according to the IOT equipment and ensuring the data security of the user equipment.

4. The invention has good universality, can match and connect the IOT equipment produced by different manufacturers and the user equipment for use, and effectively solves the problem of incompatibility between the IOT equipment produced by different manufacturers and the user equipment.

Drawings

FIG. 1 is a flow chart diagram of the IOT interface method of the present invention.

Detailed Description

As shown in fig. 1, the present invention provides an IOT interface method, which comprises the following steps:

s1, obtaining the access request information, verifying and identifying the initial ID of the access request;

s2, calling a BSD open source code corresponding to the initial ID based on the initial ID, and comparing and verifying BSD open source code information data in the access request information to obtain a free open source code ID;

s3, calling API interface data corresponding to the open source code ID based on the free open source code ID, and verifying and comparing the API interface data with the API interface data in the access information to obtain a development authorization instruction code;

and S4, based on the development authorization instruction code, enabling the IOT equipment and the user equipment to generate data transmission according to the corresponding API interface.

Further, the access request is an access request encrypted by a public key, and the initial ID is obtained by decrypting the private key.

Further, the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned recognition operating system and a deep learning system.

By the method, the IOT equipment or the user equipment in the Internet of things can be verified and identified by a triple verification identification mode of access encryption authentication, BSD open source code identification and API interface identification, and data security in the Internet of things is guaranteed.

The first embodiment is as follows:

specifically, for a specific IOT device in the internet of things, the present invention further provides an IOT device interface, including:

the first dimension module is used for receiving an access request of the user equipment, obtaining access request information, identifying an initial ID through access request information verification, and sending the initial ID to the second dimension module;

the second dimension module comprises a BSD open source code database and is used for receiving the initial ID sent by the first dimension module, calling a BSD open source code corresponding to the initial ID from the BSD open source code database, comparing and verifying user equipment BSD open source code information data sent by the user equipment to obtain a free open source code ID, and transmitting the free open source code ID to the third dimension module;

the third dimension module comprises an API interface database and is used for receiving the free open source code ID sent by the second dimension module, calling API interface data corresponding to the open source code ID from the API interface database, verifying and comparing the API interface data with the API interface data of the user equipment to obtain a development authorization instruction code, and sending the development authorization instruction code to the fourth dimension module;

and the fourth dimension module is used for receiving the development authorization instruction codes, so that data transmission is generated between the IOT equipment and the user equipment according to the corresponding API interface.

The access request information is the access request information encrypted by the public key, and the initial ID is correspondingly the initial ID obtained by decryption of the private key.

The user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned recognition operation system and a deep learning system.

Through above-mentioned IOT equipment interface, adopt the BSD open source code database including current multiple BSD open source code and the API interface database of multiple API interface, the interface is verified the discernment earlier between IOT equipment and the user equipment, then adopt the access to encrypt the authentication, the triple verification identification mode of BSD open source code discernment and API interface discernment verifies discernment user equipment, it can confirm whether to permit IOT equipment and user equipment to realize data transmission according to user equipment to have realized IOT equipment, the data security of IOT equipment has been guaranteed, and can make the user equipment that IOT equipment can the different manufacturers of matched connection produce, good commonality.

Example two:

for specific user equipment in the internet of things, the invention also provides a user equipment interface, which comprises:

the first dimension module is used for sending an access request to the IOT equipment, receiving access request information fed back by the IOT equipment, identifying an initial ID through access request information verification and sending the initial ID to the second dimension module;

the second dimension module comprises a BSD open source code database and is used for receiving the initial ID sent by the first dimension module, calling a BSD open source code corresponding to the initial ID from the BSD open source code database, comparing and verifying BSD open source code information data of the user equipment sent by the IOT equipment to obtain a free open source code ID, and transmitting the free open source code ID to the third dimension module;

the third dimension module comprises an API interface database and is used for receiving the free open source code ID sent by the second dimension module, calling API interface data corresponding to the open source code ID from the API interface database, verifying and comparing the API interface data with the API interface data of the IOT equipment to obtain a development authorization instruction code, and sending the development authorization instruction code to the fourth dimension module;

and the fourth dimension module is used for receiving the development authorization instruction codes so as to enable the user equipment and the IOT equipment to generate data transmission according to the corresponding API interface.

The user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned recognition operation system and a deep learning system.

The access request information is the access request information encrypted by a public key, and the initial ID is correspondingly the initial ID obtained by decrypting the private key.

Through the user equipment interface, the BSD open source code database comprising various BSD open source codes and the API interface database comprising various API interfaces are adopted, the interface between the user equipment and the IOT equipment is verified and identified firstly, then access encryption authentication is adopted, the user equipment is verified and identified by a triple verification identification mode of BSD open source code identification and API interface identification, the fact that whether the IOT equipment and the user equipment are permitted to realize data transmission or not can be determined by the user equipment according to the IOT equipment is achieved, the data safety of the user equipment is guaranteed, the user equipment can be enabled to be connected with the IOT equipment produced by different manufacturers in a matching mode, and the universality is good.

Claims (9)

1. An IOT interface method, comprising: the method comprises the following steps:

s1, obtaining the access request information, verifying and identifying the initial ID of the access request;

s2, calling a BSD open source code corresponding to the initial ID based on the initial ID, and comparing and verifying BSD open source code information data in the access request information to obtain a free open source code ID;

s3, calling API interface data corresponding to the open source code ID based on the free open source code ID, and comparing the API interface data with API interface data in the access information in a verification manner to obtain a development authorization instruction code;

and S4, based on the development authorization instruction code, enabling the IOT equipment and the user equipment to generate data transmission according to the corresponding API interface.

2. The IOT interface method of claim 1, wherein: the access request is encrypted by a public key, and the initial ID is obtained by decrypting the private key.

3. The IOT interface method of claim 1, wherein: the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned driving recognition operation system and a deep learning system.

4. An IOT device interface, comprising: the method comprises the following steps:

the first dimension module is used for receiving an access request of user equipment, obtaining access request information, identifying an initial ID through access request information verification, and sending the initial ID to the second dimension module;

the second dimension module comprises a BSD open source code database and is used for receiving the initial ID sent by the first dimension module, calling a BSD open source code corresponding to the initial ID from the BSD open source code database, comparing and verifying BSD open source code information data sent by the user equipment to obtain a free open source code ID, and transmitting the free open source code ID to the third dimension module;

the third dimension module comprises an API interface database and is used for receiving the ID of the free open source code sent by the second dimension module, calling API interface data corresponding to the ID of the free open source code from the API interface database, verifying and comparing the API interface data with the API interface data of the user equipment to obtain a development authorization instruction code, and sending the development authorization instruction code to a fourth dimension module;

and the fourth dimension module is used for receiving the development authorization instruction code, so that data transmission is generated between the IOT equipment and the user equipment according to a corresponding API (application program interface).

5. The IOT device interface in accordance with claim 4, wherein: the access request information is the access request information encrypted by a public key, and the initial ID is correspondingly the initial ID obtained by decrypting the private key.

6. The IOT device interface in accordance with claim 4, wherein: the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned driving recognition operation system and a deep learning system.

7. A user equipment interface, characterized by: the method comprises the following steps:

the first dimension module is used for sending an access request to the IOT equipment, receiving access request information fed back by the IOT equipment, identifying an initial ID through the access request information verification, and sending the initial ID to the second dimension module;

the second dimension module comprises a BSD open source code database and is used for receiving the initial ID sent by the first dimension module, calling a BSD open source code corresponding to the initial ID from the BSD open source code database, comparing and verifying BSD open source code information data sent by the IOT equipment to obtain a free open source code ID, and transmitting the free open source code ID to the third dimension module;

the third dimension module comprises an API interface database and is used for receiving the free open source code ID sent by the second dimension module, calling API interface data corresponding to the free open source code ID from the API interface database, verifying and comparing the API interface data with the API interface data of the IOT equipment to obtain a development authorization instruction code, and sending the development authorization instruction code to a fourth dimension module;

and the fourth dimension module is used for receiving the development authorization instruction code, so that data transmission is generated between the user equipment and the IOT equipment according to a corresponding API (application program interface).

8. A user equipment interface according to claim 7, wherein: the user equipment comprises a smart phone, a voice recognition system, an image recognition system, a cloud computing system, a big data system, an unmanned driving recognition operation system and a deep learning system.

9. A user equipment interface according to claim 7, wherein: the access request information is the access request information encrypted by a public key, and the initial ID is correspondingly the initial ID obtained by decrypting the private key.

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