CN-121984984-A - Information acquisition processing terminal and analysis system of efficient distribution network

Abstract

The invention discloses an information acquisition processing terminal and an analysis system of a high-efficiency distribution network, which comprise the steps of powering on the IOT equipment, self-checking whether each functional component works normally, giving corresponding light indication or sound to remind a user if the function is not normal, switching to an AP mode through a key, setting an Internet terminal to be a Client mode when switching to the AP mode, giving corresponding indication to remind the user, ensuring higher safety and timeliness, ensuring simpler operation, detecting whether encryption or decoding is carried out according to the preset matching information when distributing the network, realizing quick distribution of the WIFI configuration information of the IOT equipment by touching a touch or sweeping mode, and ensuring that the Internet terminal is connected with a cloud platform on line only as a local server.

Inventors

• LIU JIE

Assignees

• 刘杰

Dates

Publication Date

20260505

Application Date

20230411

Claims (8)

1. 1. An information acquisition processing terminal and an analysis system of a high-efficiency distribution network are characterized in that: the method comprises the following steps of S1, powering on the IOT equipment, self-checking whether each functional component works normally, if not, giving corresponding light indication or sound reminding users, switching to an AP mode through a key, setting an Internet terminal to a Client mode when switching to the AP mode, and giving corresponding light indication or sound reminding users; The method comprises the steps of S2, in the case of NFC, enabling the IOT equipment to be close to an Internet terminal, automatically distributing a network and establishing TCP/IP connection after the Internet terminal reads WIFI information through NFC, and carrying out data transmission according to Socket communication; s3, when the TCP/IP connection is established, the IOT equipment only establishes data communication with the Internet terminal which receives the first attempt connection; S4, the Internet terminal comprises the steps of powering on the IOT equipment, self-checking whether each functional component works normally, and giving corresponding light indication or sound reminding users if the functional components cannot work normally; S5, switching to an AP mode by default, namely switching the Internet surfing mode according to user or system user definition, wherein the WAN/WIFI/4G has the highest default WAN priority, the system converts a WAN network into a WIFI hotspot for release, and when switching to the AP mode, the IOT equipment is set to a Client mode; S6, in the case of NFC, the IOT equipment is close to an Internet terminal, the Internet terminal writes WIFI information into the IOT equipment through NFC to carry out network allocation, TCP/IP connection is established, and data transmission is carried out according to Socket communication; in the case of no NFC, the effective acquisition area of the IOT equipment, which is close to the camera of the Internet terminal and is provided with the two-dimension code/multidimensional code, is pasted with the IOT equipment, the Internet terminal reads whether the two-dimension code/multidimensional code is matched with the characteristic information through client software, if the matching is successful, the wireless fidelity (WIFI) information is acquired through UDP broadcasting, then the network is automatically allocated, TCP/IP connection is established, and data transmission is carried out according to Socket communication; And S7, when the TCP/IP connection is established, the plurality of IOT devices are connected with the connected Internet terminal and establish data communication, the system stores the acquired data under a folder path appointed by the local server under the condition that the Internet terminal cannot access the network, processes the acquired picture data and returns corresponding result information, and the data is uploaded to the cloud platform for backup storage under the condition of accessing the network and is used for comparing the change of the acquired area information when the next access analysis is performed.
2. 2. The information acquisition processing terminal and analysis system of the efficient distribution network of claim 1, wherein the information acquisition processing terminal and analysis system is characterized in that for the IOT equipment without NFC function, after the two-dimensional code/multi-dimensional code of the IOT equipment is scanned by an Internet terminal client to realize characteristic information matching, the WIFI configuration information and the server configuration information are written by an agreed protocol, and the IOT equipment is in data connection with an Internet terminal or a cloud platform by TCP/IP network communication.
3. 3. The information acquisition processing terminal and analysis system of the efficient distribution network of claim 1, wherein the characteristic information is matched with the NFC-capable IOT equipment in an effective induction area through NFCP P connection, and then WIFI configuration information and server configuration information are written through a agreed protocol, and the IOT equipment is in data connection with an Internet terminal or a cloud platform through TCP/IP network communication.
4. 4. The information acquisition processing terminal and analysis system of the efficient distribution network of claim 1, wherein the switching of the AP server side or the client side is realized through a physical switch, the corresponding Internet terminal is switched to a client side or an AP server side mode through the system, the Internet terminal surfing mode can be self-defined and adapted according to the system or manually selected, and the data connection between the terminal and the cloud platform is realized through a WAN or mobile data and WIFI connection mode.
5. 5. The information acquisition processing terminal and analysis system of the efficient distribution network are characterized in that the hardware comprises an IOT device, an Internet terminal, a Microcontroller (MCU), a memory, an NFC sensing module or a two-dimensional code/multi-dimensional code, an indicator light or voice module, a high-definition camera module, a charging and discharging module and the like, an intelligent gateway, a cloud platform and the like.
6. 6. The information acquisition processing terminal and analysis system of the efficient distribution network according to claim 1, wherein the software part comprises an image acquisition wireless transmission system composed of IOT equipment, an Internet terminal and a server, the fast distribution network of WIFI hot spots is carried out on the IOT equipment meeting the requirements according to a agreed protocol mode by acquiring two-dimension codes/multi-dimension codes or NFC decoding distribution network feasibility, the wireless transmission of pictures and videos is realized through camera and WIFI transmission, a network link is established according to a Socket protocol and data transmission is carried out, the system carries out characteristic point analysis on the acquired images under a specified folder of the server and feeds corresponding results back on a screen.
7. 7. The information acquisition processing terminal and analysis system of the efficient distribution network of claim 1, wherein when the IOT device is used as an AP server, the corresponding internet terminal is used as a Client, the internet terminal realizes one-to-one TCP/IP communication in the local area network by bluetooth pairing, NFC or code scanning, and manual input of configuration WIFI hotspot information, and the IOT device sends acquired data to an internet terminal designated folder by Socket transmission protocol.
8. 8. The information acquisition processing terminal and analysis system of the efficient distribution network of claim 1, wherein when the IOT device is used as a Client, the corresponding internet terminal is used as an AP server, the TCP/IP communication of many-to-one in the local area network is realized by NFC or code scanning and manual input of WIFI hotspot information configuring multiple IOT devices, and the IOT devices respectively transmit acquired data to an appointed folder of the internet terminal through Socket transmission protocol.

Description

Information acquisition processing terminal and analysis system of efficient distribution network Technical Field The invention relates to the technical field of networks, in particular to an information acquisition processing terminal and an analysis system of an efficient distribution network. Background With the continuous development of distribution network automation, the distribution network automation terminals are increasingly popular in distribution networks of various areas, and the distribution network automation terminals refer to the general names of various feeder remote terminals, distribution transformer remote terminals, medium-voltage monitoring units and other devices for feeder circuits of the distribution networks. For example, the invention is applicable to a method (CN 113660651A) for configuring wifi parameters of an auxiliary electrical appliance based on NFC technology, a method and a system (CN 114143396A) for realizing wireless interconnection of a vehicle and a mobile phone based on NFC, and a method (CN 103442411A) for automatically connecting communication equipment to wifi by scanning two-dimensional code graphics, wherein the method is only suitable for the equipment in a Client mode, the equipment cannot be configured with a network under the condition that the communication equipment is not network, and meanwhile, aiming at the influence of the current network environment, most of the Internet terminals in the market cannot be switched to a network mode in a self-adaptive manner, and under the condition that weak signals or environment parameters are changed, the Internet terminals are easy to fall off so as to cause data disconnection; The two-dimensional code is a carrier of information of the Internet of things, WIFI distribution network information can be obtained after the two-dimensional code is scanned, but the information is limited by the change of distribution network information parameters, internet surfing can be realized only by secondary manual distribution network through IOT equipment of the WIFI distribution network, and bad service experience is brought to users; For IOT equipment without interactive functions, a user cannot perform WIFI network allocation setting through keys or voice, although RFID/Bluetooth can realize wireless network allocation of the equipment, the wireless network of the 2.4G frequency band is very crowded and easy to cause network allocation failure due to the influence of environment, so that extremely poor user experience is brought to the user; Traditional equipment file transmission is limited to a mode of Bluetooth 1 to 1, and as a WIFI hotspot is connected by a plurality of IOT equipment, bluetooth time delay is high and speed is extremely low for transmission of large files, bluetooth transmission can not meet service requirements, as an Internet terminal shares the development and popularization of WIFI, the risk of interception and cracking of network distribution information of the WIFI hotspot exists, and therefore user information leakage is caused. Disclosure of Invention In order to achieve the above purpose, the invention provides a technical scheme that an information acquisition processing terminal and an analysis system of a high-efficiency distribution network, The method comprises the following steps of S1, powering on the IOT equipment, self-checking whether each functional component works normally, if not, giving corresponding indication to remind a user, switching to an AP mode through a key, setting an Internet terminal to a Client mode when switching to the AP mode, and giving corresponding light indication or sound to remind the user; The method comprises the steps of S2, in the case of NFC, enabling the IOT equipment to be close to an Internet terminal, automatically distributing a network and establishing TCP/IP connection after the Internet terminal reads WIFI information through NFC, and carrying out data transmission according to Socket communication; s3, when the TCP/IP connection is established, the IOT equipment only establishes data communication with the Internet terminal which receives the first attempt connection; S4, the Internet terminal comprises the steps of powering on the IOT equipment, self-checking whether each functional component works normally, and giving corresponding light indication or sound reminding users if the functional components cannot work normally; S5, switching to an AP mode by default, wherein the system switches the Internet surfing priority mode according to a user, namely, WAN/WIFI/4G with highest default WAN priority, the system converts a WAN network into a WIFI hotspot to release, and when switching to the AP mode, the IOT equipment is set to a Client mode; S6, in the case of NFC, the IOT equipment is close to an Internet terminal, the Internet terminal writes WIFI information into the IOT equipment through NFC to carry out network allocation, TCP/IP connection i