CN113490257B

CN113490257B - Multi-equipment hot spot preemption processing method

Info

Publication number: CN113490257B
Application number: CN202110751108.4A
Authority: CN
Inventors: 何文举
Original assignee: Readboy Education Technology Co Ltd
Current assignee: Readboy Education Technology Co Ltd
Priority date: 2021-07-01
Filing date: 2021-07-01
Publication date: 2023-11-17
Anticipated expiration: 2041-07-01
Also published as: CN113490257A

Abstract

The invention discloses a processing method for multi-device hotspot preemption, which is characterized in that a better upper limit N of the connection quantity is set, when connected devices reach N-1, the N-th device can suspend to connect a designated WIFI hotspot and share a hotspot with a specific name, so that other unconnected devices also suspend to attempt to connect the designated WIFI hotspot after detecting the hotspot, and the problem of blocking caused by too many connected devices is avoided. The devices which have finished downloading and pre-installing the application also actively share the hotspots with specific names, the N-th device actively connects the hotspots after detecting the hotspots, so that the devices are triggered to automatically close the hotspots and the WIFI, the N-th device also closes the hotspots of the N-th device, and the N-th device and other unconnected devices can try to connect the specified hotspots again at the moment, so that connection of all the devices is automatically finished.

Description

Multi-equipment hot spot preemption processing method

Technical Field

The invention relates to the technical field of intelligent terminals, in particular to a multi-equipment hot spot preemption processing method.

Background

In a narrow production workshop, a large number of machines are required to be produced in a high-sales season, and because the applications are required to be downloaded in a server and pre-installed, a long time is required because of a large number of applications and a large number of applications, and the phenomena of WIFI hot spot preemption and blocking occur in the produced equipment, such as traffic jam.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a processing method for multi-equipment hot spot preemption.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

a processing method for multi-equipment hot spot preemption comprises the following specific processes:

after the device which needs to download and pre-install the application is connected with the appointed WIFI hotspot, checking the IP address tail number of the device, if the IP address tail number of the device is found to be the set number N, disconnecting the connection, and sharing a WIFI hotspot by itself and naming the WIFI hotspot as NAME1 according to a preset rule, wherein the NAME1 contains the number N;

if the device connected with the appointed WIFI hotspot by the front N-1 finishes downloading and pre-installing the application, automatically disconnecting after recording the current IP address tail number of the device, respectively sharing one WIFI hotspot, naming the WIFI hotspot as NAME2 according to a preset rule, wherein the NAME2 contains the IP address tail number recorded by the corresponding device;

other unconnected devices open WIFI, do not attempt to connect to the WIFI after searching for a hotspot named NAME1, but do so circularly and wait;

the equipment sharing the hotspot NAME1 circularly inquires all the shared hotspots NAME2 and sequentially connects the hotspots; after the hotspots are connected, the hotspots are closed, and the appointed WIFI hotspots are reconnected;

the device sharing the hotspot NAME2 automatically disconnects the hotspot after the device connection is found, and closes the WIFI;

after other unconnected devices no longer search for a hotspot named NAME1, try to connect with the designated WIFI hotspot again to finish downloading and pre-installation of the application, and start the process again if the own IP address tail number is N.

As a preferred embodiment, N is 201.

The invention has the beneficial effects that: according to the invention, by setting the upper limit N of the preferred connection quantity, when the connected equipment reaches N-1, the N-th equipment can suspend to connect the appointed WIFI hot spot and share a hot spot with a specific name, so that other unconnected equipment also suspend to try to connect the appointed WIFI hot spot after detecting the hot spot, and the problem of blocking caused by too many connected equipment is avoided. The devices which have finished downloading and pre-installing the application also actively share the hotspots with specific names, the N-th device actively connects the hotspots after detecting the hotspots, so that the devices are triggered to automatically close the hotspots and the WIFI, the N-th device also closes the hotspots of the N-th device, and the N-th device and other unconnected devices can try to connect the specified hotspots again at the moment, so that connection of all the devices is automatically finished.

Detailed Description

The present invention will be further described below, and it should be noted that, while the present embodiment provides a detailed implementation manner and a specific operation process on the premise of the present technical solution, the protection scope of the present invention is not limited to the present embodiment.

The embodiment provides a processing method for multi-equipment hot spot preemption, which comprises the following specific processes:

after the device which needs to download and pre-install the application connects the appointed WIFI hotspot, the IP address tail number of the device is checked (generally, the IP address tail number is 1-255, namely, most of devices are connected), if the IP address tail number of the device is found to be 201, the device is disconnected, and the device shares a WIFI hotspot by itself and is named as Readboy_201;

if the device connected with the appointed WIFI hotspot in the first 200 bits finishes downloading and pre-installing the application, the device is automatically disconnected after recording the current IP address tail number of the device, and shares a WIFI hotspot, and names the WIFI hotspot by using the Readboy_IP address tail number.

Other unconnected devices do not attempt to connect to WIFI after opening the WIFI and searching for the hotspot of readboy_201, but do circularly inquire and wait;

the device sharing the hotspot Readboy_201 circularly inquires all shared hotspots Readboy_XXX and connects the hotspots in turn; after the hotspots are connected, the hotspots are closed, and the appointed WIFI hotspots are reconnected;

the device sharing the hotspot Readboy_XXX automatically disconnects the hotspot after the device connection is found, and closes the WIFI;

after other unconnected devices no longer search for a hotspot named NAME1, try to connect with the designated WIFI hotspot again to finish downloading and pre-installation of the application, and start the process again if the own IP address tail number is N. Thus, the loop and mutual exclusion are completed, and the problem that equipment to be connected is blocked due to too many equipment is solved.

Various modifications and variations of the present invention will be apparent to those skilled in the art in light of the foregoing teachings and are intended to be included within the scope of the following claims.

Claims

1. A processing method for multi-equipment hot spot preemption is characterized by comprising the following specific steps:

if the device connected with the appointed WIFI hotspot by the front N-1 finishes downloading and pre-installing the application, automatically disconnecting after recording the current IP address tail number of the device, respectively sharing one WIFI hotspot and naming the device as NAME2 according to a preset rule, wherein the NAME2 contains the recorded current IP address tail number of the device;

2. The method of claim 1, wherein N is 201.