CN105636154A - Air Internet communication method - Google Patents

Abstract

The invention discloses an air Internet communication method. According to the method, through an air network server and interconnection, a passenger can realizes video transmission, high speed exchange of large capacity image data and other network services; the security is relatively high; and the power consumption is relatively low.

Description

A kind of aerial internet communication method

Art

The present invention relates to internet arena, be specifically related to a kind of aerial internet communication method.

Background technology

Transatmospheric vehicle (such as aircraft) is usually mounted with data communications equipment so that passenger can watch video film on the road, listen music or online. Traditional Customer information (or amusement) system typically comprises cabin, the crown (overheadcabin) video system or the video system based on seat with individually control so that can be selected viewing content by passenger. Viewing content can include the audio content and the video content that are derived from plurality of kinds of contents source. The viewing content (such as film and music) that internal content (such as audio player and video player) on a vehicle can provide pre-recorded is installed. Traditional passenger information system can include antenna system similarly, and this antenna system is for receiving the viewing content (such as live TV programme and/or internet content) that the one or more content suppliers (or source) from vehicle exterior and/or away from the vehicles send.

Passenger is for watching the demand sustainable development of content. Passenger is intended not only to access nearest viewing content (such as live TV programme and up-to-date game), and they also need to use the selection widely to information products and service (such as internet access and during the journey shopping). Passenger it is desirable also to watch the viewing content (such as photograph album and/or music selection) of themselves individual's offer during advancing. But, traditional passenger information system is limited to its mounting hardware technology, and can not easily be adapted as and be adapted to change passenger and watch content and out of Memory preference.

The open nature of the Internet makes passenger can obtain a network data directly or by technological means, freely downloads, stores, and is propagated further. WLAN (WirelessLocalAreaNetworks, WLAN) equipment has 2 kinds of mode of operations: AP (AccessPoint, WAP) and STA (station, terminal) pattern, the wlan device of major part client is operated in STA mode, access AP, realize function of surfing the Net by AP. STA needs scanning to obtain AP information before accessing, have actively and passively 2 kinds of modes, and the scanning for beacon message (i.e. Beacon frame) that passive mode is STA reception AP broadcast obtains AP information. Active mode STA active broadcast sends probe requests thereby (ProbeRequest), receives AP and responds probe response (ProbeResponse), obtains AP information by ProbeResponse. On the whole, wlan device is highly suitable for setting up aerial open system interconnection net system.

Summary of the invention

The present invention provides a kind of aerial internet communication method, the method makes the passenger can through air network server and interconnection, it is achieved transmission of video, and large capacity image data is exchange at a high speed, and other network services, and there is higher safety and relatively low power consumption.

A kind of aerial internet communication method, the method specifically includes following steps:

(1) terminal searches wireless access device;

(2) after wireless access device receives the incoming instruction of terminal, it is judged that whether the actual access customer number of current default service set SSID reaches permission corresponding to described default ssid is accessed maximum number of user; When access customer number at described current default SSID reaches to allow to access maximum number of user, increase described permission corresponding for current default SSID and access maximum number of user and described terminal to be accessed is accessed described current default SSID;

(3) self information is sent to wireless access device by terminal, and terminal receives the corresponding information of wireless access device, sets up and connects;

(4) after terminal and wireless access device are set up and are connected, the data traffic of monitor terminal, and determine the radio-frequency power that described data stream is corresponding;

(5) radio-frequency power is adjusted, to control the power consumption of terminal.

Preferably, in described step (2), before whether the described actual access customer number judging current default service set SSID reaches the permission access maximum number of user that described default ssid is corresponding, described method also includes: judge whether described incoming instruction meets pre-conditioned; When described incoming instruction meets pre-conditioned, it is judged that whether the actual access customer number of current default service set SSID reaches permission corresponding to described default ssid is accessed maximum number of user.

Preferably, select a SSID to be current default SSID according to preset rules, described select a SSID to be that current default SSID includes according to preset rules: the summation of the flow accessing user adding up each SSID obtains total flow corresponding to each SSID; Described default ssid is selected according to total flow corresponding for each SSID.

Preferably, the described total flow corresponding according to each SSID selects described default ssid to include: the SSID selecting described total flow minimum is chosen as current default SSID.

Preferably, before permission corresponding for the current SSID of described increase accesses maximum number of user, described method also includes: the permission reducing other SSID beyond current default SSID accesses maximum number of user, wherein, the described actual access customer number of other SSID accesses maximum number of user not up to corresponding permission.

Preferably, in step (3), following steps are specifically included:

After terminal is set up and connected, monitor the data traffic of described terminal; According to default power consumption control strategy, it is determined that the radio-frequency power that described data traffic is corresponding; By the current radio frequency power of described terminal, it is adjusted to the radio-frequency power that described data traffic is corresponding, to control the power consumption of described terminal; The data traffic of described terminal includes: upstream data flow and downlink data flow; The radio-frequency power of described terminal includes: transmitting power and reception power. The kind of data traffic includes but not limited to: video data flow and voice data flow, and data traffic includes at least one in the size of data traffic and speed. Preferably, the data traffic of terminal is video data flow to the present embodiment.

Preferably, described default described power consumption control strategy, including: described terminal includes multiple transmitting power and multiple reception power; Each transmitting power for described terminal arranges corresponding upstream data range of flow and downlink data range of flow; The upstream data range of flow corresponding for each reception power setting of described terminal and downlink data range of flow. Concrete, it is possible to the difference according to data service, it is determined that the upstream data range of flow of data service and downlink data range of flow; Can also according to the difference of data service, it is determined that when terminal carries out this data service, most suitable transmitting power and/or reception power, this most suitable transmitting power and/or reception power can reduce power consumption or make power consumption significantly not increase; By the transmitting power of this data service corresponding with downlink data range of flow for the upstream data range of flow of a certain data service, and/or corresponding with downlink data range of flow for the upstream data range of flow of a certain data service connecing of this data service is penetrated power. If data service is to transmitting power or receives power not requirement, then can be not provided with this transmitting power not required or receive upstream data range of flow corresponding to power and downlink data range of flow.

Preferably, determine the radio-frequency power that described data traffic is corresponding, including: according to default power consumption control strategy, it is determined that transmitting power that described upstream data flow is corresponding with downlink data flow and the described upstream data flow reception power corresponding with downlink data flow; Described by the current radio frequency power of described terminal, it is adjusted to the radio-frequency power that described data traffic is corresponding, including: by transmitting power current for described terminal and reception power, it is adjusted to the described upstream data flow transmitting power corresponding with downlink data flow respectively and receives power.

Preferably, in step (5), by the current transmitting power of terminal with receive power, it is adjusted to the upstream data flow of the terminal transmitting power corresponding with downlink data flow and receives power. By adjusting the transmitting power of terminal and receiving power, it is possible to reduce power consumption, or make the inconspicuous increase of power consumption, save the electricity of terminal, extend the cruising time of terminal.

The present invention has the following advantages and beneficial effect: (1) can realize aerial data quick, magnanimity and transmit, and meets the aerial communication of passenger and personalized entertainment demand; (2) wireless access device can be directly obtained the working frequency range ability information of terminal when terminal request accesses, therefore can decide whether to access this terminal based on the working frequency range ability information of the current loading condition of self the first working frequency range and terminal, thus realizing the reasonable management to wireless access device load; (3) data traffic of monitor terminal; According to the power consumption control strategy pre-set, select radio-frequency power the most suitable for terminal, controlled the radio communication power consumption of terminal by which, be issued to the effect into saving power for terminal in the situation not affecting Consumer's Experience.

Accompanying drawing explanation

Fig. 1 illustrates the block diagram of a kind of aerial open system interconnection net system of the present invention.

Fig. 2 illustrates a kind of aerial internet communication method of the present invention.

Detailed description of the invention

Fig. 1 illustrates a kind of aerial open the Internet system of the present invention, and this system includes:

Wireless access device 1 and terminal 2;

Described wireless access device 1 includes:

Information extraction modules 12, for when terminal 2 accesses to the request of described wireless access device 1, obtaining the working frequency range ability information that described terminal 2 is supported;

Access processing module 11, for sending response message according to current load situation and described working frequency range ability information to described terminal 1, control the access of described terminal 1;

Monitor module 13, after setting up connect in terminal 2, monitor the data traffic of described terminal 2;

Determine module 15, for according to the power consumption control strategy pre-set, it is determined that the radio-frequency power that described data traffic is corresponding;

Adjusting module 14, for by the current radio frequency power of described terminal 2, being adjusted to the radio-frequency power that described data traffic is corresponding, to control the power consumption of described terminal 2;

Described terminal 2 includes:

Discovery module 21, is used for finding described wireless access device 1;

Access request module 22, for accessing to the request of described wireless access device 1, and the working frequency range ability information self supported is sent to described wireless access device 1;

Receiver module 23, for receiving the response message that described wireless access device 1 sends to described terminal 2 according to current load situation and described working frequency range ability information;

Terminal processing module 24, for carrying out the subsequent treatment of access process according to described response message.

Preferably, information extraction modules 12 includes information reception submodule and information retrieval submodule;

Described information receives submodule for receiving the access request that described terminal sends, and comprises the working frequency range ability information that described terminal is supported in described access request;

Described information retrieval submodule for extracting described working frequency range ability information from described access request.

Preferably, described access processing module 11 includes the first process submodule, ability judges submodule, the second process submodule;

Described first processes submodule is used for judging whether the first working frequency range present load allows to access new terminal, in this way, sends to described terminal and allows to access response message, otherwise notify that described ability judges submodule;

Described ability judges according to described working frequency range ability information, submodule for processing the notice of submodule according to described first, judges whether described terminal supports the second working frequency range, as supported, notifies the second process submodule;

Described second processes submodule for judging the notice of submodule according to described ability, it is judged that whether described second working frequency range present load allows to access new terminal, as allowed, sends for indicating the instruction response message accessing the second working frequency range to described terminal.

Preferably, described terminal processes mould 24 pieces includes:

First terminal process submodule, for when described response message be described wireless access device feedback for indicate access the second working frequency range instruction response message time, to described wireless access device request access the second working frequency range;

Second terminal processes submodule, for when the permission that described response message is described wireless access device feedback accesses response message, accessing described first working frequency range;

Third terminal processes submodule, for when the refusal that described response message is described wireless access device feedback accesses response message, terminating the access process to described wireless access device.

Preferably, the data traffic of described terminal 2 includes: upstream data flow and downlink data flow; The radio-frequency power of described terminal includes: transmitting power and reception power.

Preferably, described determine module 15, specifically for according to the power consumption control strategy preset, it is determined that transmitting power that described upstream data flow is corresponding with downlink data flow and the described upstream data flow reception power corresponding with downlink data flow; Described adjusting module 15, specifically for by the current transmitting power of described terminal and reception power, being adjusted to the described upstream data flow transmitting power corresponding with downlink data flow respectively and receive power.

Fig. 2 illustrates a kind of aerial internet communication method of the present invention. The method specifically includes following steps:

S1. terminal searches wireless access device;

S2. after wireless access device receives the incoming instruction of terminal, it is judged that whether the actual access customer number of current default service set SSID reaches permission corresponding to described default ssid is accessed maximum number of user; When access customer number at described current default SSID reaches to allow to access maximum number of user, increase described permission corresponding for current default SSID and access maximum number of user and described terminal to be accessed is accessed described current default SSID;

S3. self information is sent to wireless access device by terminal, and terminal receives the corresponding information of wireless access device, sets up and connects;

S4. after terminal and wireless access device are set up and are connected, the data traffic of monitor terminal, and determine the radio-frequency power that described data stream is corresponding;

S5. radio-frequency power is adjusted, to control the power consumption of terminal.

Preferably, in described step S2, before whether the described actual access customer number judging current default service set SSID reaches the permission access maximum number of user that described default ssid is corresponding, described method also includes: judge whether described incoming instruction meets pre-conditioned; When described incoming instruction meets pre-conditioned, it is judged that whether the actual access customer number of current default service set SSID reaches permission corresponding to described default ssid is accessed maximum number of user.

Preferably, select a SSID to be current default SSID according to preset rules, described select a SSID to be that current default SSID includes according to preset rules: the summation of the flow accessing user adding up each SSID obtains total flow corresponding to each SSID; Described default ssid is selected according to total flow corresponding for each SSID.

Preferably, the described total flow corresponding according to each SSID selects described default ssid to include: the SSID selecting described total flow minimum is chosen as current default SSID.

Preferably, before permission corresponding for the current SSID of described increase accesses maximum number of user, described method also includes: the permission reducing other SSID beyond current default SSID accesses maximum number of user, wherein, the described actual access customer number of other SSID accesses maximum number of user not up to corresponding permission.

Preferably, following steps are specifically included in step s3:

After terminal is set up and connected, monitor the data traffic of described terminal; According to default power consumption control strategy, it is determined that the radio-frequency power that described data traffic is corresponding; By the current radio frequency power of described terminal, it is adjusted to the radio-frequency power that described data traffic is corresponding, to control the power consumption of described terminal; The data traffic of described terminal includes: upstream data flow and downlink data flow; The radio-frequency power of described terminal includes: transmitting power and reception power. The kind of data traffic includes but not limited to: video data flow and voice data flow, and data traffic includes at least one in the size of data traffic and speed. Preferably, the data traffic of terminal is video data flow to the present embodiment.

Preferably, described default described power consumption control strategy, including: described terminal includes multiple transmitting power and multiple reception power; Each transmitting power for described terminal arranges corresponding upstream data range of flow and downlink data range of flow; The upstream data range of flow corresponding for each reception power setting of described terminal and downlink data range of flow. Concrete, it is possible to the difference according to data service, it is determined that the upstream data range of flow of data service and downlink data range of flow; Can also according to the difference of data service, it is determined that when terminal carries out this data service, most suitable transmitting power and/or reception power, this most suitable transmitting power and/or reception power can reduce power consumption or make power consumption significantly not increase; By the transmitting power of this data service corresponding with downlink data range of flow for the upstream data range of flow of a certain data service, and/or corresponding with downlink data range of flow for the upstream data range of flow of a certain data service connecing of this data service is penetrated power. If data service is to transmitting power or receives power not requirement, then can be not provided with this transmitting power not required or receive upstream data range of flow corresponding to power and downlink data range of flow.

Such as: during terminal idle, when arranging power consumption control strategy, terminal uplink data traffic scope 0��5kbps, downlink data range of flow 0��5kbps, corresponding transmitting power is 15dB, reception power is 17dB. And for example: terminal downloads video data, foradownloaded video data are characterized by that downlink data flow is much larger than upstream data flow, as: downlink data flow is 200k/s, upstream data flow is 5kbps, so for controlling the power consumption of terminal, it is made to increase considerably, it is possible to what keep terminal receives the transmitting power that power is constant, reduce terminal. User equipment downlink data traffic scope 150��300kbps, upstream data range of flow 0��5kbps, corresponding transmitting power is 7dB, reception power is 17dB.

Preferably, determine the radio-frequency power that described data traffic is corresponding, including: according to default power consumption control strategy, it is determined that transmitting power that described upstream data flow is corresponding with downlink data flow and the described upstream data flow reception power corresponding with downlink data flow; Described by the current radio frequency power of described terminal, it is adjusted to the radio-frequency power that described data traffic is corresponding, including: by transmitting power current for described terminal and reception power, it is adjusted to the described upstream data flow transmitting power corresponding with downlink data flow respectively and receives power.

Preferably, in step s 5, by the current transmitting power of terminal with receive power, it is adjusted to the upstream data flow of the terminal transmitting power corresponding with downlink data flow and receives power. By adjusting the transmitting power of terminal and receiving power, it is possible to reduce power consumption, or make the inconspicuous increase of power consumption, save the electricity of terminal, extend the cruising time of terminal.

By monitoring, obtain user equipment downlink data traffic scope 200kbps, upstream data range of flow 3kbps, according to power consumption control strategy, determine that downlink data range of flow 200kbps, transmitting power corresponding for upstream data range of flow 3kbps be 7dB, reception power are 17dB, and then radio-frequency power current for terminal can be adjusted to transmitting power be 7dB, reception power is 17dB. And then, by reducing the mode of transmitting power, reduce the power consumption of terminal.

Certainly, if the current transmitting power of terminal, receive power, with the transmitting power determined according to power consumption control strategy, receive power identical, then without adjust. If in power consumption control strategy, only match the transmitting power that upstream data flow is corresponding with downlink data flow, then the current power that receives of terminal is without adjusting. If in power consumption control strategy, only match the reception power that upstream data flow is corresponding with downlink data flow, then the current transmitting power of terminal is without adjusting.

As mentioned above, although the embodiment and the accompanying drawing that limit according to embodiment are illustrated, but the art is had the technical staff of general knowledge and can carry out various amendment and deformation from above-mentioned record. Such as, carry out according to the order that the method illustrated from the technology illustrated is mutually different, and/or carry out combining or combining according to the form mutually different from the method illustrated by the system illustrated, structure, device, the element such as circuit, or it is replaced according to other elements or equipollent or replaces and also can reach suitable effect. For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, make some equivalent replacements or obvious modification, and performance or purposes are identical, all should be considered as belonging to protection scope of the present invention.

Claims (9)

1. an aerial internet communication method, the method specifically includes following steps:

(1) terminal searches wireless access device;

(2) after wireless access device receives the incoming instruction of terminal, it is judged that whether the actual access customer number of current default service set SSID reaches permission corresponding to described default ssid is accessed maximum number of user; When access customer number at described current default SSID reaches to allow to access maximum number of user, increase described permission corresponding for current default SSID and access maximum number of user and described terminal to be accessed is accessed described current default SSID;

(3) self information is sent to wireless access device by terminal, and terminal receives the corresponding information of wireless access device, sets up and connects;

(4) after terminal and wireless access device are set up and are connected, the data traffic of monitor terminal, and determine the radio-frequency power that described data stream is corresponding;

(5) radio-frequency power is adjusted, to control the power consumption of terminal.

2. the method for claim 1, it is characterized in that, in described step (2), before whether the described actual access customer number judging current default service set SSID reaches the permission access maximum number of user that described default ssid is corresponding, described method also includes: judge whether described incoming instruction meets pre-conditioned; When described incoming instruction meets pre-conditioned, it is judged that whether the actual access customer number of current default service set SSID reaches permission corresponding to described default ssid is accessed maximum number of user.

3. method as claimed in claim 2, it is characterized in that, select a SSID to be current default SSID according to preset rules, described select a SSID to be that current default SSID includes according to preset rules: the summation of the flow accessing user adding up each SSID obtains total flow corresponding to each SSID; Described default ssid is selected according to total flow corresponding for each SSID.

4. method as claimed in claim 3, it is characterised in that the described total flow corresponding according to each SSID selects described default ssid to include: the SSID selecting described total flow minimum is chosen as current default SSID.

5. method as claimed in claim 4, it is characterized in that, before permission corresponding for the current SSID of described increase accesses maximum number of user, described method also includes: the permission reducing other SSID beyond current default SSID accesses maximum number of user, wherein, the described actual access customer number of other SSID accesses maximum number of user not up to corresponding permission.

6. the method for claim 1, it is characterised in that specifically include following steps in step (3):

After terminal is set up and connected, monitor the data traffic of described terminal; According to default power consumption control strategy, it is determined that the radio-frequency power that described data traffic is corresponding; By the current radio frequency power of described terminal, it is adjusted to the radio-frequency power that described data traffic is corresponding, to control the power consumption of described terminal; The data traffic of described terminal includes: upstream data flow and downlink data flow; The radio-frequency power of described terminal includes: transmitting power and reception power. The kind of data traffic includes but not limited to: video data flow and voice data flow, and data traffic includes at least one in the size of data traffic and speed. Preferably, the data traffic of terminal is video data flow to the present embodiment.

7. method as claimed in claim 6, it is characterised in that described default described power consumption control strategy, including: described terminal includes multiple transmitting power and multiple reception power; Each transmitting power for described terminal arranges corresponding upstream data range of flow and downlink data range of flow; The upstream data range of flow corresponding for each reception power setting of described terminal and downlink data range of flow. Concrete, it is possible to the difference according to data service, it is determined that the upstream data range of flow of data service and downlink data range of flow; Can also according to the difference of data service, it is determined that when terminal carries out this data service, most suitable transmitting power and/or reception power, this most suitable transmitting power and/or reception power can reduce power consumption or make power consumption significantly not increase; By the transmitting power of this data service corresponding with downlink data range of flow for the upstream data range of flow of a certain data service, and/or corresponding with downlink data range of flow for the upstream data range of flow of a certain data service connecing of this data service is penetrated power. If data service is to transmitting power or receives power not requirement, then can be not provided with this transmitting power not required or receive upstream data range of flow corresponding to power and downlink data range of flow.

8. method as claimed in claim 7, it is characterized in that, determine the radio-frequency power that described data traffic is corresponding, including: according to default power consumption control strategy, it is determined that transmitting power that described upstream data flow is corresponding with downlink data flow and the described upstream data flow reception power corresponding with downlink data flow; Described by the current radio frequency power of described terminal, it is adjusted to the radio-frequency power that described data traffic is corresponding, including: by transmitting power current for described terminal and reception power, it is adjusted to the described upstream data flow transmitting power corresponding with downlink data flow respectively and receives power.

9. method as claimed in claim 8, it is characterised in that in step (5), by the current transmitting power of terminal with receive power, is adjusted to the upstream data flow of the terminal transmitting power corresponding with downlink data flow and receives power. By adjusting the transmitting power of terminal and receiving power, it is possible to reduce power consumption, or make the inconspicuous increase of power consumption, save the electricity of terminal, extend the cruising time of terminal.