CN112954447B

CN112954447B - Method for following channel under Miracast background resident condition

Info

Publication number: CN112954447B
Application number: CN202110112820.XA
Authority: CN
Inventors: 常献匀
Original assignee: Sichuan Changhong Electric Co Ltd
Current assignee: Sichuan Changhong Electric Co Ltd
Priority date: 2021-01-27
Filing date: 2021-01-27
Publication date: 2022-06-03
Anticipated expiration: 2041-01-27
Also published as: CN112954447A

Abstract

The invention relates to the technical field of screen projection, and provides a method for following a Miracast background resident channel, which aims to reasonably utilize resources, avoid channel resource waste caused by channel over-switching and improve the working efficiency between an STA and P2P, and comprises the following steps: miracast listening stage: the television end monitors a working channel of a channel following the STA mode of the television end Wi-Fi module; and (3) screen projection working stage: the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television. By adopting the mode, the searching time during screen projection matching can be reduced, so that the defect of channel resource waste of the smart television under the Miracast background resident function can be greatly solved without changing the inherent Wi-Fi resource of the smart television, and the working efficiency between the STA and the P2P is improved.

Description

Method for following channel under Miracast background resident condition

Technical Field

The invention relates to the technical field of screen projection, in particular to a method for following a channel in a Miracast background resident environment.

Background

Miracast screen projection (P2P screen projection) is a protocol for wireless screen projection among different electronic devices (such as televisions, smart phones and computers), and is promoted in 2012, and is obviously characterized in that in the Miracast specification, the device is divided into two parts, one part is called a transmission end GO-Group Owner, is a virtual role, and actually corresponds to a certain P2P server, which is similar to an AP in an infrastructured BSS, and can select information such as a working channel during Miracast screen projection; the other part is called the receiving end GC-P2P Client, a virtual role opposite to GO, which is similar to STA in Infrastructure BSS.

For television equipment, the application scene is most often screen projection interaction with a mobile phone or a computer. The screen projection modes are roughly divided into three types, namely Miracast screen projection, DLNA screen projection and screen projection by the proprietary protocol of part manufacturers including AirPlay. Various screen projection modes respectively have merits and disadvantages, most of Miracast screen projection functions in the current market all need to open specific APK at a television end, so that the television enters a monitoring state, a screen projection interface also needs to be opened at a mobile phone end to search television equipment, and the television end and the mobile phone end search each other to perform subsequent interactive connection. In order to simplify the series of operations and give better and faster Miracast screen projection experience to customers, a Miracast background resident function is developed and applied to part of televisions at present. However, due to the fact that inherent resources of a single Wi-Fi module carried by the smart television are limited, the Miracast background resident function performs frequent switching of a monitoring channel of P2P in the STA mode of the television end Wi-Fi module, and the problem of network connection coexistence under the STA channel of the television end Wi-Fi module when the television end Miracast works, work efficiency between the STA and the P2P is low.

Disclosure of Invention

In order to reasonably utilize resources, avoid channel resource waste caused by channel over-switching and improve the working efficiency between the STA and the P2P, the invention provides a method for following a Miracast background resident channel.

The technical scheme adopted by the invention for solving the problems is as follows:

a method for following a channel under Miracast background residence comprises the following steps:

miracast listening phase: the television end monitors a working channel of a channel following the STA mode of the television end Wi-Fi module;

and (3) screen projection working stage: the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television.

Further, in the Miracast monitoring stage, when the STA mode of the Wi-Fi module of the television end operates on a conventional channel of a 2.4G frequency band, the television end monitors the channel to follow the conventional channel of the AP to which the channel is connected; when the STA mode of the Wi-Fi module at the television end works on an unconventional channel of a 2.4G frequency band or a 5G frequency band channel, channel following is not carried out.

Further, when the STA mode of the Wi-Fi module of the tv end operates on an irregular channel of a 2.4G band or a 5G band channel, the tv end monitors that the channel is fixed to the scanning start channel.

Further, in the screen projection working phase, when the television end supports a 2.4G frequency band and is a transmission end, the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television end; when the television end supports double frequency, the STA channel is a 5G frequency band, the television end is a transmitting end, and the equipment interacting with the television end supports the 5G frequency band, the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television end.

Compared with the prior art, the invention has the beneficial effects that: according to the method, the whole screen projection scheme is divided into a Miracast monitoring stage and a screen projection working stage, different channel following schemes are respectively set, and searching time during screen projection matching is reduced through channel following, so that the defect of channel resource waste of the smart television under the Miracast background resident function is greatly overcome without changing the inherent Wi-Fi resource of the smart television, and the working efficiency between the STA and the P2P is improved.

Drawings

FIG. 1 is a schematic view of the process of the present invention;

FIG. 2 is a schematic diagram of channel following during Miracast listening phase;

fig. 3 and 4 are schematic diagrams of following channels with different specifications in the screen projection working stage.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, a method for channel following in Miracast background resident includes:

miracast listening stage: the television end monitors a working channel of a channel following the STA mode of the television end Wi-Fi module;

Specifically, as shown in fig. 2, in the Miracast monitoring stage, when the STA mode of the Wi-Fi module of the tv end operates on three conventional channels of 2.4G frequency bands, i.e., 1, 6, and 11, the tv end monitors the conventional channel of the channel, which is connected to the AP, following the conventional channel; when the STA mode of the Wi-Fi module at the tv end operates in an unconventional channel (2, 3, 4, 5, 7, 8, 9, 10, 12, 13 channels) of a 2.4G band or a 5G band channel, channel following is not performed, and at this time, a monitoring channel at the tv end is fixed to a scanning start channel, for example: when the screen is projected, the screen projection interactive equipment firstly searches channels 1 to 13 for the television side monitoring channel in sequence, and then fixes the television side monitoring channel to the channel 1. For ease of understanding, the following is presented in tabular form.

The searching speed of the screen projection interaction equipment can be increased by setting the channel following or fixing the monitoring channel on the scanning starting channel, so that the working efficiency between the STA and the P2P is improved.

As shown in fig. 3 and 4, in the screen projection working phase, when the tv supports the 2.4G frequency band and the tv is a transmitting end, the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the tv; when the television end supports double frequency, the STA channel is a 5G frequency band, the television end is a transmitting end, and the equipment interacting with the television end supports the 5G frequency band, the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television end.

The situation can be divided into four types according to the specifications of television end and screen projection interactive equipment: a single frequency-single frequency, a single frequency-double frequency, a double frequency-single frequency, and a double frequency-double frequency are described below with reference to the table.

1. Single frequency-single frequency: if the television end and the screen projection interactive device both support the 2.4G frequency band:

firstly, when a television end acts as a transmission end (GO) in the negotiation process of the television end and the transmission end, the television end can select a Miracast working channel of the television end and the Miracast working channel to follow an STA working channel of a Wi-Fi module of the television end;

secondly, when the television end is used as a receiving end (GC) in the negotiation process of the television end and the television end, the Miracast working channels of the television end and the Miracast working channels are determined by equipment which is in screen projection interaction with the television, and channel following is not performed at the moment.

2. Single-double frequency: if the television end only supports the 2.4G frequency band and the screen projection interactive device supports the 2.4G and 5G frequency bands:

3. Dual-single frequency: if the television end supports 2.4G and 5G frequency bands and the screen projection interactive device only supports the 2.4G frequency band:

firstly, when a television end is connected with an AP of any channel of a 2.4G frequency band and serves as a transmission end (GO) in a negotiation process of the AP and the AP, the television end can select a Miracast working channel of the AP and the AP to follow an STA working channel of the 2.4G frequency band of a Wi-Fi module of the television end;

secondly, when the television end is connected with the AP of any channel of the 2.4G frequency band and is used as a receiving end (GC) in the negotiation process of the AP and the AP, the Miracast working channels of the AP and the GC are determined by a device which is in screen projection interaction with the television Miracast, and channel following is not performed at the moment;

thirdly, when the television end is connected with the AP of any channel of the 5G frequency band and is used as a transmission end (GO) in the negotiation process of the AP and the AP, the device interacted with the Miracast does not support the 5G frequency band, so that the working channel of the television end can be selected to be a conventional channel of the 2.4G frequency band, and the channel following is not performed at the moment;

when the television end is connected with the AP of any channel of the 5G frequency band and is used as a receiving end (GC) in the negotiation process of the AP and the AP, the Miracast working channels of the AP and the GC are determined by a device which is interactive with the Miracast screen projection of the television, and the channel following is not carried out at the moment.

4. Dual-band-dual-band: if the television side and the screen projection interactive device simultaneously support 2.4G and 5G frequency bands:

Claims

1. A method for channel following under Miracast background resident is characterized by comprising the following steps:

miracast listening stage: the method for monitoring the working channel of the STA mode of the channel following the Wi-Fi module of the television comprises the following steps: when the STA mode of the Wi-Fi module of the television end works in a conventional channel of a 2.4G frequency band, the television end monitors the conventional channel of the channel connected with the AP along with the conventional channel; when the STA mode of the Wi-Fi module at the television end works in an unconventional channel of a 2.4G frequency band or a 5G frequency band channel, channel following is not performed;

and (3) screen projection working stage: the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television, and specifically includes: when the television end supports a 2.4G frequency band and is a transmission end, the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television end; when the television end supports double frequency, the STA channel is a 5G frequency band, the television end is a transmitting end, and the equipment interacting with the television end supports the 5G frequency band, the Miracast working channel follows the working channel of the STA mode of the Wi-Fi module of the television end.

2. The method as claimed in claim 1, wherein when the STA mode of the Wi-Fi module of the tv end operates on an irregular channel of 2.4G band or a 5G band channel, the tv end monitors that the channel is fixed to the scanning start channel.