CN114745679A - Double-platform self-adaptive method based on Bluetooth multilink - Google Patents

Abstract

The invention discloses a double-platform self-adaptive method based on Bluetooth multilink, comprising the following steps: two links are arranged in a Bluetooth chip of the electric equipment, so that the first link corresponds to a first platform, and the second link corresponds to a second platform; the electric equipment is powered on, the configuration information in the Bluetooth chip is read, and the current distribution network state is judged; if the electric equipment is in a state of not distributing the network, initializing parameters of a first link and a second link of the Bluetooth chip, simultaneously starting the first link and the second link for broadcasting, and waiting for the mobile equipment to distribute the network; if the mobile equipment adopts the first platform or the second platform to carry out network distribution and the network distribution is successful, the electric equipment automatically stops the broadcasting of the second link or the first link, so that the mobile equipment operates the first platform or the second platform. The invention arranges two links on the Bluetooth chip, which can realize automatic switch without downloading corresponding firmware from software, and is convenient to operate.

Description

Double-platform self-adaptive method based on Bluetooth multilink

Technical Field

The invention relates to the technical field of intelligent control, in particular to a double-platform self-adaptive method based on Bluetooth multilink.

Background

With the rapid development of wireless intelligent technology, smart homes gradually enter people's lives, for example, in the united states, people can adopt devices such as mobile phones and sound boxes to control the devices by means of amazon's alexa voice assistant, or adopt google platforms to intelligently control smart appliances such as lighting products.

At present, the existing Bluetooth direct connection technology which can be accessed to an Alexa platform or a Google platform of Amazon in the market mostly adopts a static double-platform technology; firstly, third-party APP software is downloaded and installed through mobile equipment such as a mobile phone, firmware upgrading is carried out on the intelligent electric appliance through the APP software, and switching is carried out to a corresponding platform. If the firmware corresponding to the amazon alexa platform is called as the firmware A, the firmware corresponding to the google platform is called as the firmware B, when the intelligent electric appliance is to be connected to the amazon alexa platform, the firmware A needs to be downloaded from the APP software to the intelligent electric appliance, and then the amazon alexa platform is connected according to the firmware A; if need switch to the google platform, need again from APP software download B firmware to intelligent electrical apparatus on, connect the google platform according to B firmware again.

The switching mode is complex in operation, a network is needed to exist when the firmware is downloaded, and switching between two platforms cannot be performed in places where the network does not cover.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a dual-platform self-adaptive method based on Bluetooth multilink.

The invention discloses a double-platform self-adaptive method based on Bluetooth multilink, comprising the following steps:

two links are arranged in a Bluetooth chip of the electric equipment, so that the first link corresponds to a first platform, and the second link corresponds to a second platform;

the electric equipment is powered on, the configuration information in the Bluetooth chip is read, and the current distribution network state is judged;

if the electric equipment is in a state of not distributing the network, initializing parameters of a first link and a second link of the Bluetooth chip, simultaneously starting the first link and the second link for broadcasting, and waiting for the mobile equipment to distribute the network;

if the mobile equipment adopts the first platform to carry out network distribution and the network distribution is successful, the electrical equipment automatically stops broadcasting of the second link, so that the mobile equipment runs the first platform;

and if the mobile equipment adopts the second platform to carry out network distribution and the network distribution is successful, the electrical equipment automatically stops the broadcasting of the first link, so that the mobile equipment operates the second platform.

As a further improvement of the invention, the method also comprises the following steps:

and if the mobile equipment fails to be distributed with the network, the electric equipment is automatically reset to an initial state.

As a further improvement of the invention, the method also comprises the following steps:

if the electric equipment is in a network distribution state, initializing parameters of a corresponding link according to network distribution information before power failure of the electric equipment, starting the link to broadcast, and then operating a corresponding platform of the mobile equipment to start working.

As a further improvement of the present invention,

when the electric equipment is in a distributed network state, if the first platform is accessed before the power failure of the electric equipment, initializing parameters of a first link, and starting broadcast of the first link to enable the mobile equipment which is accessed again to operate the first platform;

and when the electrical equipment is in a distributed network state, if the second platform is accessed before the power failure of the electrical equipment, initializing parameters of a second link, and starting broadcasting of the second link to enable the mobile equipment accessed again to operate the second platform.

As a further improvement of the invention, the method also comprises the following steps:

when the electrical equipment is in a network distribution state, if a platform operated by the current mobile equipment is inconsistent with a platform corresponding to an electrical equipment link in the network distribution state, the automatic network distribution fails, the electrical equipment needs to be manually unbundled, so that the electrical equipment enters a network distribution failure state and is accessed again in the network distribution failure state.

As a further improvement of the invention, the method also comprises the following steps:

the electrical device is unbundled and reset by turning off the electrical device through a switch, by an unbundling program on the mobile device, or by removing the mobile device.

As a further improvement of the present invention,

the first link adopts a Bluetooth technology, and the first platform is a Google platform;

the second link adopts a Bluetooth MESH technology, and the second platform is an Amazon platform.

As a further improvement of the present invention, the electrical devices include, but are not limited to, smart lighting products and smart home appliances, and the mobile devices include, but are not limited to, mobile phones, tablets, computers, speakers, and kitty sprites.

Compared with the prior art, the invention has the following beneficial effects:

the two links are arranged in the Bluetooth chip of the electrical equipment, so that the first link corresponds to the first platform, the second link corresponds to the second platform, and the two links broadcast simultaneously; when the platform on the mobile equipment is matched with one link, the other link stops broadcasting and enables the mobile equipment to operate the platform; because two links are arranged on the Bluetooth chip, corresponding firmware does not need to be downloaded from software, automatic switching can be realized by wireless network support, and the operation is convenient.

Drawings

FIG. 1 is a flowchart of a Bluetooth multi-link based dual platform adaptation method according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a bluetooth multi-link according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The invention is described in further detail below with reference to the following drawings:

as shown in fig. 1, the present invention provides a dual-platform adaptive method based on bluetooth multilink, including:

step 1, two links are arranged in a Bluetooth chip of electrical equipment, so that a first link corresponds to a first platform, and a second link corresponds to a second platform; wherein,

in one embodiment:

the first link adopts a Bluetooth technology, and the first platform is a Google platform; the second link adopts a Bluetooth MESH technology, and the second platform is an Amazon platform;

the realization method of the Bluetooth chip multilink comprises the following steps:

adopt bluetooth 5.0 chip, can operate the function of two way bluetooths simultaneously based on a bluetooth chip, wherein be the bluetooth function of operation google platform all the way, another way is the bluetooth MESH function of operation amazon platform to realize the automatic switch-over between two kinds of platforms. The technology mainly utilizes the characteristic that a Bluetooth chip radio frequency transceiver (radio) is in an idle state most of time, extracts a part of idle time, and opens up one or more links, thereby realizing a macro multi-link structure, which is essentially the application of radio time-sharing slices. As shown in fig. 2, Adv Event #1 (broadcast Event #1) corresponds to a google Event, and Adv Event #2 (broadcast Event #2) corresponds to an amazon Event.

And 2, electrifying the electrical equipment, reading configuration information in the Bluetooth chip and judging the current distribution network state.

Step 3, if the electric equipment is in a state of not being distributed with a network, initializing relevant parameters of a first link and a second link of the Bluetooth chip, simultaneously starting the first link and the second link for broadcasting, and waiting for the mobile equipment to be distributed with the network;

if the mobile equipment adopts the first platform to carry out network distribution and the network distribution is successful, the electrical equipment automatically stops broadcasting of the second link, so that the mobile equipment runs the first platform;

if the mobile equipment adopts the second platform to carry out network distribution and the network distribution is successful, the electric equipment automatically stops the broadcasting of the first link, so that the mobile equipment runs the second platform;

and if the mobile equipment fails to be distributed with the network, the electric equipment is automatically reset to an initial state.

Step 4, if the electrical equipment is in a distribution network state, initializing relevant parameters of a corresponding link according to distribution network information before power failure of the electrical equipment, starting the link to broadcast, and then operating a corresponding platform of the mobile equipment to start working; namely:

when the electric equipment is in a distributed network state, if the first platform is accessed before the power failure of the electric equipment, initializing relevant parameters of a first link, and starting the first link to broadcast, so that the mobile equipment accessed again runs the first platform;

and when the electrical equipment is in a distributed network state, if the second platform is accessed before the power failure of the electrical equipment, initializing relevant parameters of a second link, and starting broadcasting of the second link to enable the mobile equipment accessed again to operate the second platform.

Step 5, when the electrical equipment is in a network-distributed state, if a platform operated by the current mobile equipment is inconsistent with a platform corresponding to a link of the electrical equipment in the network-distributed state, the automatic network distribution fails, the electrical equipment needs to be manually unbundled, so that the electrical equipment enters a network-unconnected state and is accessed again in the network-unconnected state;

if the current electric equipment is in the state of being already distributed with the network, the electric equipment can be accessed again if the mobile equipment corresponds to the google platform, but if the electric equipment is the amazon platform, the electric equipment needs to be unbound and then restored to the state of not being distributed with the network so as to be accessible.

And 6, turning off the electrical equipment through a switch, and performing unbinding resetting on the electrical equipment through an unbinding program on the mobile equipment or through removing the mobile equipment.

Further, the electrical equipment in the process can be intelligent lighting products, intelligent household appliances and the like, and the mobile equipment can be a mobile phone, a tablet, a computer, a sound box, a tianmao eidolon and the like.

Example 1

The electric equipment is an intelligent lighting product, a first link corresponding to a Google platform and a second link corresponding to an Amazon platform are arranged in a Bluetooth chip of the intelligent lighting product, and the intelligent lighting product is in a state of not being distributed with a network; at this time, the dual-platform self-adaptive method for the intelligent lighting product based on the mobile phone comprises the following steps:

step 11, powering on the intelligent lighting product, and reading configuration information in the Bluetooth chip;

step 12, initializing relevant parameters of a first link and a second link of the Bluetooth chip, simultaneously starting the first link and the second link for broadcasting, and waiting for the mobile phone to carry out network distribution;

step 13, if the mobile phone adopts the google platform to carry out network distribution and the network distribution is successful, the intelligent lighting product automatically stops broadcasting of the second link, so that the mobile phone runs the google platform;

step 14, if the mobile phone adopts the amazon platform to carry out network distribution and the network distribution is successful, the intelligent lighting product automatically stops broadcasting of the first link, so that the mobile phone operates the second platform;

and step 15, if the distribution of the mobile phone and the intelligent lighting product fails, automatically resetting the intelligent lighting product to an initial state, and waiting for distribution.

Example 2:

the electric equipment is an intelligent lighting product, a first link corresponding to the Google platform and a second link corresponding to the Amazon platform are arranged in a Bluetooth chip of the intelligent lighting product, and the intelligent lighting product is in a distribution network state and is connected to the Google platform before power failure; at this time, the dual-platform self-adaptive method for the intelligent lighting product based on the mobile phone comprises the following steps:

step 21, judging whether a platform running on the mobile phone is a Google platform or an Amazon platform;

step 22, if the running platform of the mobile phone is a google platform, initializing relevant parameters of a first link according to distribution network information of the intelligent lighting product before power failure, and starting broadcasting of the first link to enable the re-accessed mobile phone to run the google platform;

and step 23, if the platform for operating the mobile phone is the amazon platform, the intelligent lighting product needs to be unbound and then restored to the state of the non-distribution network for access.

The invention has the advantages that:

the invention sets two links in the Bluetooth chip of the electrical equipment, so that the first link corresponds to a first platform, the second link corresponds to a second platform, and the two links broadcast at the same time; when the platform on the mobile equipment is matched with one link, the other link stops broadcasting and enables the mobile equipment to operate the platform; because two links are arranged on the Bluetooth chip, corresponding firmware does not need to be downloaded from software, automatic switching can be realized by wireless network support, and the operation is convenient.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A dual-platform self-adaptive method based on Bluetooth multilink is characterized by comprising the following steps:

two links are arranged in a Bluetooth chip of the electric equipment, so that the first link corresponds to a first platform, and the second link corresponds to a second platform;

the electric equipment is powered on, the configuration information in the Bluetooth chip is read, and the current distribution network state is judged;

if the electric equipment is in a state of not distributing the network, initializing parameters of a first link and a second link of the Bluetooth chip, simultaneously starting the first link and the second link for broadcasting, and waiting for the mobile equipment to distribute the network;

if the mobile equipment adopts the first platform to carry out network distribution and the network distribution is successful, the electrical equipment automatically stops broadcasting of the second link, so that the mobile equipment runs the first platform;

and if the mobile equipment adopts the second platform to carry out network distribution and the network distribution is successful, the electrical equipment automatically stops the broadcasting of the first link, so that the mobile equipment operates the second platform.

2. The dual platform adaptive method of claim 1, further comprising:

and if the mobile equipment fails to be distributed with the network, the electric equipment is automatically reset to an initial state.

3. The dual-platform adaptive method of claim 1, further comprising:

if the electric equipment is in a network distribution state, initializing parameters of a corresponding link according to the network distribution information before the power failure of the electric equipment, starting the link to broadcast, and then operating a corresponding platform of the mobile equipment to start working.

4. The dual-platform adaptive method of claim 3,

when the electric equipment is in a distributed network state, if the first platform is accessed before the power failure of the electric equipment, initializing parameters of a first link, and starting broadcast of the first link to enable the mobile equipment which is accessed again to operate the first platform;

and when the electrical equipment is in the distributed network state, if the second platform is accessed before the power failure of the electrical equipment, initializing parameters of a second link, and starting broadcasting of the second link to enable the newly accessed mobile equipment to operate the second platform.

5. The dual platform adaptive method of claim 3, further comprising:

when the electrical equipment is in a network distribution state, if a platform operated by the current mobile equipment is inconsistent with a platform corresponding to an electrical equipment link in the network distribution state, the automatic network distribution fails, the electrical equipment needs to be manually unbundled, so that the electrical equipment enters a network distribution failure state and is accessed again in the network distribution failure state.

6. The dual platform adaptive method of claim 1, further comprising:

the electrical device is unbundled and reset by turning off the electrical device through a switch, by an unbundling program on the mobile device, or by removing the mobile device.

7. The dual platform adaptive method according to any one of claims 1 to 6,

the first link adopts a Bluetooth technology, and the first platform is a Google platform;

the second link adopts a Bluetooth MESH technology, and the second platform is an Amazon platform.

8. The dual platform adaptive method according to any one of claims 1 to 6, wherein the electrical devices include but are not limited to smart lighting products and smart home appliances, and the mobile devices include but are not limited to mobile phones, tablets, computers, speakers and Templex.

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