Method and device for wireless communication, electronic device and storage medium

What is claimed is: 1 . A method for wireless communication, comprising: determining, by an access point device, a first beacon frame and a first modulation mode; and transmitting, by the access point device, the first beacon frame to a station device according to the first modulation mode; wherein the first beacon frame is a target beacon frame, and the first modulation mode is an original modulation mode; or, the first beacon frame is an original beacon frame, and the first modulation mode is a target modulation mode; or, the first beacon frame is the target beacon frame, and the first modulation mode is the target modulation mode; a length of the target beacon frame is shorter than a length of the original beacon frame, and a transmission rate corresponding to the target modulation mode is greater than a transmission rate corresponding to the original modulation mode; wherein the target beacon frame is determined through the following steps: selecting one or more unessential field data from a plurality of unessential field data of the original beacon frame; and removing one or more unessential field data from the original beacon frame to obtain the target beacon frame. 2 . The method of claim 1 , wherein the selecting one or more unessential field data from a plurality of unessential field data of the original beacon frame comprises: selecting one or more unessential field data having a length greater than a preset length from the plurality of unessential field data of the original beacon frame. 3 . The method of claim 2 , wherein the plurality of unessential field data of the original beacon frame comprise: an access point channel report, high-throughput capabilities, high-throughput information, a very high-throughput capabilities element, a very high-throughput operation element, extended capabilities, a vendor specific 1 , a vendor specific 2 , and a vendor specific 3 . 4 . The method of claim 2 , wherein the target modulation mode is associated with one or more of the following factors: demodulation capabilities of the station device in various modulation modes, sensitivities of the station device in various modulation modes, an anti-interference capability of the station device and a beacon transmission rate. 5 . The method of claim 1 , wherein the selecting one or more unessential field data from a plurality of unessential field data of the original beacon frame comprises: randomly selecting one or more unessential field data from the plurality of unessential field data of the original beacon frame. 6 . The method of claim 5 , wherein the plurality of unessential field data of the original beacon frame comprise: an access point channel report, high-throughput capabilities, high-throughput information, a very high-throughput capabilities element, a very high-throughput operation element, extended capabilities, a vendor specific 1 , a vendor specific 2 , and a vendor specific 3 . 7 . The method of claim 5 , wherein the target modulation mode is associated with one or more of the following factors: demodulation capabilities of the station device in various modulation modes, sensitivities of the station device in various modulation modes, an anti-interference capability of the station device and a beacon transmission rate. 8 . The method of claim 1 , wherein the plurality of unessential field data of the original beacon frame comprise: an access point channel report, high-throughput capabilities, high-throughput information, a very high-throughput capabilities element, a very high-throughput operation element, extended capabilities, a vendor specific 1 , a vendor specific 2 , and a vendor specific 3 . 9 . The method of claim 8 , wherein the target modulation mode is associated with one or more of the following factors: demodulation capabilities of the station device in various modulation modes, sensitivities of the station device in various modulation modes, an anti-interference capability of the station device and a beacon transmission rate. 10 . The method of claim 1 , wherein the target modulation mode is associated with one or more of the following factors: demodulation capabilities of the station device in various modulation modes, sensitivities of the station device in various modulation modes, an anti-interference capability of the station device and a beacon transmission rate. 11 . The method of claim 10 , wherein the target modulation mode is an 802.11g mcs0 modulation mode. 12 . The method of claim 1 , wherein the target modulation mode is associated with one or more of the following factors: demodulation capabilities of the station device in various modulation modes, sensitivities of the station device in various modulation modes, an anti-interference capability of the station device and a beacon transmission rate. 13 . An electronic device, comprising a processor and a memory for storing a computer program executable by the processor, wherein the computer program, when executed by the processor, causes the processor to perform the following steps: determining, by an access point device, a first beacon frame and a first modulation mode; and transmitting, by the access point device, the first beacon frame to a station device according to the first modulation mode; wherein the first beacon frame is a target beacon frame, and the first modulation mode is an original modulation mode; or, the first beacon frame is an original beacon frame, and the first modulation mode is a target modulation mode; or, the first beacon frame is the target beacon frame, and the first modulation mode is the target modulation mode; a length of the target beacon frame is shorter than a length of the original beacon frame, and a transmission rate corresponding to the target modulation mode is greater than a transmission rate corresponding to the original modulation mode: wherein the target beacon frame is determined through the following steps: selecting one or more unessential field data from a plurality of unessential field data of the original beacon frame; and removing one or more unessential field data from the original beacon frame to obtain the target beacon frame. 14 . The electronic device of claim 13 , wherein the selecting one or more unessential field data from a plurality of unessential field data of the original beacon frame comprises: selecting one or more unessential field data having a length greater than a preset length from the plurality of unessential field data of the original beacon frame. 15 . The electronic device of claim 4 , wherein the plurality of unessential field data of the original beacon frame comprise: an access point channel report, high-throughput capabilities, high-throughput information, a very high-throughput capabilities element, a very high-throughput operation element, extended capabilities, a vendor specific 1 , a vendor specific 2 , and a vendor specific 3 . 16 . The electronic device of claim 13 , wherein the selecting one or more unessential field data from a plurality of unessential field data of the original beacon frame comprises: randomly selecting one or more unessential field data from the plurality of unessential field data of the original beacon frame. 17 . The electronic device of claim 13 , wherein the plurality of unessential field data of the original beacon frame comprise: an access point channel report, high-throughput capabilities, high-throughput information, a very high-throughput capabilities element, a very high-throughput operation element, extended capabilities, a