CN104866475A - Data processing method and electronic equipment - Google Patents
Data processing method and electronic equipment Download PDFInfo
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- CN104866475A CN104866475A CN201410058527.XA CN201410058527A CN104866475A CN 104866475 A CN104866475 A CN 104866475A CN 201410058527 A CN201410058527 A CN 201410058527A CN 104866475 A CN104866475 A CN 104866475A
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Abstract
The invention discloses a data processing method and electronic equipment. The data processing method is applied to first electronic equipment. The first electronic equipment comprises a sensing unit, and is capable of interacting with second electronic equipment by utilizing a first communication network. The data processing method comprises the following steps of detecting a first state parameter of the first electronic equipment by utilizing the sensing unit; judging whether the first state parameter changes or not to obtain a first judging result; when the first judging result shows that the first state parameter changes, obtaining a rate of change of the first state parameter; and sending first multimedia data to the second electronic equipment based on the rate of change of the first state parameter.
Description
Technical field
The present invention relates to data processing technique, particularly relate to a kind of data processing method and electronic equipment.
Background technology
At present, electronic equipment, as after mobile phone, panel computer etc. and other interconnect electronic devices, can shared file mutually.When the file of this locality is sent to other electronic equipments by electronic equipment by user, generally at the enterprising line operate of the display interface of electronic equipment, so that file destination is sent to other electronic equipments.Along with the intelligent development of electronic equipment, the more and more rich and varied change of the service that electronic equipment provides, how current file-sharing mode complex operation and mode of operation is dull, make between electronic equipment shared file to be need the problem of solution badly by operation easily.
Summary of the invention
For solving the problems of the technologies described above, embodiments provide a kind of data processing method and electronic equipment.
The data processing method that the embodiment of the present invention provides is applied in the first electronic equipment, and described first electronic equipment comprises sensing unit, and described first electronic equipment can utilize the first communication network and the second electronic equipment to carry out alternately; Described method comprises:
Described sensing unit is utilized to detect the first state parameter of described first electronic equipment;
Judge whether described first state parameter changes, and obtains the first judged result;
When described first judged result shows that described first state parameter changes, obtain the rate of change of described first state parameter;
Based on the rate of change of described first state parameter, the first multi-medium data is sent to described second electronic equipment.
The electronic equipment that the embodiment of the present invention provides can utilize the first communication network and the second electronic equipment to carry out alternately; Described electronic equipment comprises: sensing unit, judging unit, acquiring unit, transmitting element; Wherein,
Described sensing unit, for detecting the first state parameter of described electronic equipment;
Described judging unit, for judging whether described first state parameter changes, and obtains the first judged result;
Described acquiring unit, for when described first judged result shows that described first state parameter changes, obtains the rate of change of described first state parameter;
Described transmitting element, for the rate of change based on described first state parameter, is sent to described second electronic equipment by the first multi-medium data.
In the technical scheme of the embodiment of the present invention, electronic equipment is built-in with sensing unit, when user rocks electronic equipment, the sensing unit of electronic equipment detects that the first state parameter of electronic equipment changes, based on the rate of change of the first state parameter, first multi-medium data of this locality is sent to described second electronic equipment.So, user carrys out the first multi-medium data of shared electron equipment by rocking operation easily, improve the experience of user.
Accompanying drawing explanation
Fig. 1 is the schematic flow sheet of the data processing method of the embodiment of the present invention one;
Fig. 2 is the schematic flow sheet of the data processing method of the embodiment of the present invention two;
Fig. 3 is the schematic flow sheet of the data processing method of the embodiment of the present invention three;
Fig. 4 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one;
Fig. 5 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two;
Fig. 6 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention three.
Embodiment
In order to feature and the technology contents of the embodiment of the present invention more at large can be understood, be described in detail below in conjunction with the realization of accompanying drawing to the embodiment of the present invention, the use of appended accompanying drawing explanation only for reference, be not used for limiting the embodiment of the present invention.
Fig. 1 is the schematic flow sheet of the data processing method of the embodiment of the present invention one, data processing method in this example is applied in the first electronic equipment, described first electronic equipment comprises sensing unit, and described first electronic equipment can utilize the first communication network and the second electronic equipment to carry out alternately; As shown in Figure 1, described data processing method comprises the following steps:
Step 101: utilize described sensing unit to detect the first state parameter of described first electronic equipment.
In the embodiment of the present invention, the first electronic equipment can be the portable electric appts such as mobile phone, panel computer, and user can be hand-held and rock the first electronic equipment.First electronic equipment is built-in with sensing unit, described sensing unit can be gravity sensor (G-sensor, Gravity-sensor), displacement transducer, speed pickup etc., first electronic equipment can utilize described sensing unit to detect the first state parameter of described first electronic equipment, here, first state parameter is for characterizing the motion state of described electronic equipment, such as, first state parameter can be the deflection angle angle value of described electronic equipment relative to gravity direction, and the first state parameter also can be the movement rate value of described electronic equipment.In the present embodiment, the first electronic equipment utilizes sensing unit to detect the first state parameter of described first electronic equipment in real time, to judge whether the first electronic equipment attitudes vibration occurs according to the cycle of presetting.
In the embodiment of the present invention, the second electronic equipment can be the electronic equipments such as mobile phone, panel computer, notebook.The second electronic equipment that it should be noted that in this example can be the portable electric appts as the first electronic equipment, also can be fixed electronic equipment.First electronic equipment can be undertaken alternately by the first communication network and the second electronic equipment, and first multi-medium data of this locality is sent to the second electronic equipment by the first communication network by such as the first electronic equipment.Here, the first communication network can be blueteeth network or Wireless Fidelity (Wi-Fi, Wireless-Fidelity) network or mobile communications network; By described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described first electronic equipment with described second electronic equipment is connected; Particularly, the network function in user's Bluetooth function that jointly can be had by the first electronic equipment and the second electronic equipment or Wi-Fi function or address card sets up the first communication network.
Step 102: judge whether described first state parameter changes, and obtains the first judged result.
Particularly, when user rocks the first electronic equipment, sensing unit in first electronic equipment can detect that the first state parameter of the first electronic equipment changes, and the first state parameter attitude also namely characterizing the first electronic equipment that changes there occurs change.Based on this, for the first state parameter that step 101 obtains, need judge whether described first state parameter changes, thus obtain the first judged result; Here, the first judged result is: the first state parameter changes or the first state parameter does not change.
Step 103: when described first judged result shows that described first state parameter changes, obtain the rate of change of described first state parameter.
Particularly, when the first state parameter is the deflection angle angle value of described electronic equipment relative to gravity direction, the rate of change of deflection angle angle value is obtained; The rate of change of deflection angle angle value is larger, then the attitudes vibration of the first electronic equipment is more frequent, otherwise the rate of change of deflection angle angle value is little, then the attitudes vibration of the first electronic equipment is slower.During practical application, user can by rocking the first electronic equipment post, and to make the rate of change of the first state parameter become large, user also by rocking the first electronic equipment with slowing down, can diminish to make the rate of change of the first state parameter.
Step 104: based on the rate of change of described first state parameter, is sent to described second electronic equipment by the first multi-medium data.
Here, the first multi-medium data can be the picture file, audio file, video file, video and audio file, document files etc. that first electronic equipment this locality stores.
In this example, user can select the first multi-medium data to be sent in advance in the first electronic equipment, then, when detecting that the first state parameter changes by sensing unit, the first multi-medium data is sent to the second electronic equipment by the rate of change based on the first state parameter.
In this example, based on the rate of change of the first state parameter, the first multi-medium data is sent to described second electronic equipment and specifically comprises: according to the rate of change of the first state parameter, determine the transfer rate of the first multi-medium data; First multi-medium data is sent to the second electronic equipment by the transfer rate according to the first multi-medium data.
In practical application, when user rocks the first electronic equipment fast, the rate of change of the first state parameter is comparatively large, then the transfer rate of the first corresponding multi-medium data is comparatively large, and the speed that the second electronic equipment receives the first multi-medium data is larger; Otherwise when user slowly rocks the first electronic equipment, the rate of change of the first state parameter is less, then the transfer rate of the first corresponding multi-medium data is less, and the speed of the first multi-medium data that the second electronic equipment receives is less; When the rate of change of the first state parameter is zero, the first electronic equipment stops transmission first multi-medium data to the second electronic equipment.So, user can by changing the speed rocking the first electronic equipment, and control the first multi-medium data is sent to the second electronic equipment speed from the first electronic equipment, mode of operation is convenient, and adds the experience of user.
Fig. 2 is the schematic flow sheet of the data processing method of the embodiment of the present invention two, data processing method in this example is applied in the first electronic equipment, described first electronic equipment comprises sensing unit, and described first electronic equipment can utilize the first communication network and the second electronic equipment to carry out alternately; As shown in Figure 2, described data processing method comprises the following steps:
Step 201: utilize described sensing unit to detect the first state parameter of described first electronic equipment.
In the embodiment of the present invention, the first electronic equipment can be the portable electric appts such as mobile phone, panel computer, and user can be hand-held and rock the first electronic equipment.First electronic equipment is built-in with sensing unit, described sensing unit can be G-sensor, displacement transducer, speed pickup etc., first electronic equipment can utilize described sensing unit to detect the first state parameter of described first electronic equipment, here, first state parameter is for characterizing the motion state of described electronic equipment, such as, first state parameter can be the deflection angle angle value of described electronic equipment relative to gravity direction, and the first state parameter also can be the movement rate value of described electronic equipment.In the present embodiment, the first electronic equipment utilizes sensing unit to detect the first state parameter of described first electronic equipment in real time, to judge whether the first electronic equipment attitudes vibration occurs according to the cycle of presetting.
In the embodiment of the present invention, the second electronic equipment can be the electronic equipments such as mobile phone, panel computer, notebook.The second electronic equipment that it should be noted that in this example can be the portable electric appts as the first electronic equipment, also can be fixed electronic equipment.First electronic equipment can be undertaken alternately by the first communication network and the second electronic equipment, and first multi-medium data of this locality is sent to the second electronic equipment by the first communication network by such as the first electronic equipment.Here, the first communication network can be blueteeth network or Wi-Fi network or mobile communications network; By described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described first electronic equipment with described second electronic equipment is connected; Particularly, the network function in user's Bluetooth function that jointly can be had by the first electronic equipment and the second electronic equipment or Wi-Fi function or address card sets up the first communication network.
Step 202: judge whether described first state parameter changes, and obtains the first judged result.
Particularly, when user rocks the first electronic equipment, sensing unit in first electronic equipment can detect that the first state parameter of the first electronic equipment changes, and the first state parameter attitude also namely characterizing the first electronic equipment that changes there occurs change.Based on this, for the first state parameter that step 201 obtains, need judge whether described first state parameter changes, thus obtain the first judged result; Here, the first judged result is: the first state parameter changes or the first state parameter does not change.
Step 203: when described first judged result shows that described first state parameter changes, obtain the rate of change of described first state parameter.
Particularly, when the first state parameter is the deflection angle angle value of described electronic equipment relative to gravity direction, the rate of change of deflection angle angle value is obtained; The rate of change of deflection angle angle value is larger, then the attitudes vibration of the first electronic equipment is more frequent, otherwise the rate of change of deflection angle angle value is little, then the attitudes vibration of the first electronic equipment is slower.During practical application, user can by rocking the first electronic equipment post, and to make the rate of change of the first state parameter become large, user also by rocking the first electronic equipment with slowing down, can diminish to make the rate of change of the first state parameter.
Step 204: according to the rate of change of described first state parameter, determine the transfer rate of the first multi-medium data.
Here, the first multi-medium data can be the picture file, audio file, video file, video and audio file, document files etc. that first electronic equipment this locality stores.
In this example, user can select the first multi-medium data to be sent in advance in the first electronic equipment, then, when detecting that the first state parameter changes by sensing unit, the first multi-medium data is sent to the second electronic equipment by the rate of change based on the first state parameter; Particularly, according to the rate of change of the first state parameter, determine the transfer rate of described first multi-medium data, then perform following steps 205.
Here, the rate of change of the first state parameter and the transfer rate of the first multi-medium data have the relation as formula (1a):
V
1=f(V
2) (1a)
Wherein, V
1represent the transfer rate of the first multi-medium data, V
2represent the rate of change of the first state parameter, f () representative function; According to formula (1a), according to the rate of change of the first state parameter, the transfer rate of the first multi-medium data can be calculated.
Step 205: according to the transfer rate of described first multi-medium data, is sent to described second electronic equipment by described first multi-medium data.
In this example, the first multi-medium data is sent to the second electronic equipment by the transfer rate according to the first multi-medium data.
In practical application, when user rocks the first electronic equipment fast, the rate of change of the first state parameter is comparatively large, then the transfer rate of the first corresponding multi-medium data is comparatively large, and the speed that the second electronic equipment receives the first multi-medium data is larger; Otherwise when user slowly rocks the first electronic equipment, the rate of change of the first state parameter is less, then the transfer rate of the first corresponding multi-medium data is less, and the speed of the first multi-medium data that the second electronic equipment receives is less; When the rate of change of the first state parameter is zero, the first electronic equipment stops transmission first multi-medium data to the second electronic equipment.So, user can by changing the speed rocking the first electronic equipment, and control the first multi-medium data is sent to the second electronic equipment speed from the first electronic equipment, mode of operation is convenient, and adds the experience of user.
Fig. 3 is the schematic flow sheet of the data processing method of the embodiment of the present invention three, data processing method in this example is applied in the first electronic equipment, described first electronic equipment comprises sensing unit, and described first electronic equipment can utilize the first communication network and the second electronic equipment to carry out alternately; As shown in Figure 3, described data processing method comprises the following steps:
Step 301: utilize described sensing unit to detect the first state parameter of described first electronic equipment.
In the embodiment of the present invention, the first electronic equipment can be the portable electric appts such as mobile phone, panel computer, and user can be hand-held and rock the first electronic equipment.First electronic equipment is built-in with sensing unit, described sensing unit can be G-sensor, displacement transducer, speed pickup etc., first electronic equipment can utilize described sensing unit to detect the first state parameter of described first electronic equipment, here, first state parameter is for characterizing the motion state of described electronic equipment, such as, first state parameter can be the deflection angle angle value of described electronic equipment relative to gravity direction, and the first state parameter also can be the movement rate value of described electronic equipment.In the present embodiment, the first electronic equipment utilizes sensing unit to detect the first state parameter of described first electronic equipment in real time, to judge whether the first electronic equipment attitudes vibration occurs according to the cycle of presetting.
In the embodiment of the present invention, the second electronic equipment can be the electronic equipments such as mobile phone, panel computer, notebook.The second electronic equipment that it should be noted that in this example can be the portable electric appts as the first electronic equipment, also can be fixed electronic equipment.First electronic equipment can be undertaken alternately by the first communication network and the second electronic equipment, and first multi-medium data of this locality is sent to the second electronic equipment by the first communication network by such as the first electronic equipment.Here, the first communication network can be blueteeth network or Wi-Fi network or mobile communications network; By described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described first electronic equipment with described second electronic equipment is connected; Particularly, the network function in user's Bluetooth function that jointly can be had by the first electronic equipment and the second electronic equipment or Wi-Fi function or address card sets up the first communication network.
Step 302: judge whether described first state parameter changes, and obtains the first judged result.
Particularly, when user rocks the first electronic equipment, sensing unit in first electronic equipment can detect that the first state parameter of the first electronic equipment changes, and the first state parameter attitude also namely characterizing the first electronic equipment that changes there occurs change.Based on this, for the first state parameter that step 301 obtains, need judge whether described first state parameter changes, thus obtain the first judged result; Here, the first judged result is: the first state parameter changes or the first state parameter does not change.
Step 303: when described first judged result shows that described first state parameter changes, obtain the rate of change of described first state parameter.
Particularly, when the first state parameter is the deflection angle angle value of described electronic equipment relative to gravity direction, the rate of change of deflection angle angle value is obtained; The rate of change of deflection angle angle value is larger, then the attitudes vibration of the first electronic equipment is more frequent, otherwise the rate of change of deflection angle angle value is little, then the attitudes vibration of the first electronic equipment is slower.During practical application, user can by rocking the first electronic equipment post, and to make the rate of change of the first state parameter become large, user also by rocking the first electronic equipment with slowing down, can diminish to make the rate of change of the first state parameter.
Step 304: according to the rate of change of described first state parameter, determine the transfer rate of the first multi-medium data.
Here, the first multi-medium data can be the picture file, audio file, video file, video and audio file, document files etc. that first electronic equipment this locality stores.
Here, described first multi-medium data comprises N number of first multimedia subdata, and N is positive integer.Such as, the first multi-medium data comprises the file of N pictures form.
In this example, user can select the first multi-medium data to be sent in advance in the first electronic equipment, then, when detecting that the first state parameter changes by sensing unit, the first multi-medium data is sent to the second electronic equipment by the rate of change based on the first state parameter; Particularly, according to the rate of change of the first state parameter, determine the transfer rate of described first multi-medium data, then perform following steps 305.
Here, the rate of change of the first state parameter and the transfer rate of the first multi-medium data have the relation as formula (1b):
V
1=f(V
2) (1b)
Wherein, V
1represent the transfer rate of the first multi-medium data, V
2represent the rate of change of the first state parameter, f () representative function; According to formula (1b), according to the rate of change of the first state parameter, the transfer rate of the first multi-medium data can be calculated.
Step 305: based on the transmission policy pre-set, determines the transmission sequence of the N number of first multimedia subdata in described first multi-medium data.
Here, N number of first multimedia subdata in first multi-medium data is all distinguished corresponding one and is created the moment, described transmission policy can be: successively the first multimedia subdata is transferred to the second electronic equipment according to the establishment moment order of N number of first multimedia subdata, preferably, first can transmit and create moment the first multimedia subdata the earliest, then the first multimedia subdata that the transmission establishment moment is more late.
Certainly, transmission policy also can be other forms, such as, N number of first multimedia subdata in first media data all distinguishes a corresponding file size, described transmission policy can also be: successively the first multimedia subdata is transferred to the second electronic equipment according to the file size order of N number of first multimedia subdata, preferably, can minimum the first multimedia subdata of first transfer files, then the first multimedia subdata that transfer files is larger.
In practical application, user can arrange transmission policy in advance in the first electronic equipment.
Step 306: according to the transmission sequence of described N number of first multimedia subdata, and described N number of first multimedia subdata is sent to described second electronic equipment by the transfer rate of described first multi-medium data successively.
In this example, after second electronic equipment receives N number of first multimedia subdata of the first electronic equipment transmission, heap is divided by icon corresponding for N number of first multimedia subdata to be presented on local display screen, particularly, according to the transfer rate of the first multimedia subdata, the first multimedia subdata be in same section of speed range is presented in a certain regional extent of the second electronic equipment display screen.
In practical application, when user rocks the first electronic equipment fast, the rate of change of the first state parameter is comparatively large, then the transfer rate of the first corresponding multi-medium data is comparatively large, and the speed that the second electronic equipment receives the first multi-medium data is larger; Otherwise when user slowly rocks the first electronic equipment, the rate of change of the first state parameter is less, then the transfer rate of the first corresponding multi-medium data is less, and the speed of the first multi-medium data that the second electronic equipment receives is less; When the rate of change of the first state parameter is zero, the first electronic equipment stops transmission first multi-medium data to the second electronic equipment.So, user can by changing the speed rocking the first electronic equipment, and control the first multi-medium data is sent to the second electronic equipment speed from the first electronic equipment, mode of operation is convenient, and adds the experience of user.
Fig. 4 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention one, and the electronic equipment in this example can utilize the first communication network and the second electronic equipment to carry out alternately; As shown in Figure 4, described electronic equipment comprises: sensing unit 41, judging unit 42, acquiring unit 43, transmitting element 44; Wherein,
Described sensing unit 41, for detecting the first state parameter of described electronic equipment;
Described judging unit 42, for judging whether described first state parameter changes, and obtains the first judged result;
Described acquiring unit 43, for when described first judged result shows that described first state parameter changes, obtains the rate of change of described first state parameter;
Described transmitting element 44, for the rate of change based on described first state parameter, is sent to described second electronic equipment by the first multi-medium data.
Described first communication network is blueteeth network or Wi-Fi network or mobile communications network;
Correspondingly, described electronic equipment also comprises sets up unit 45, and for by described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described electronic equipment with described second electronic equipment is connected.
It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Fig. 4 can refer to the associated description of aforementioned data disposal route and understands.
Fig. 5 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention two, and the electronic equipment in this example can utilize the first communication network and the second electronic equipment to carry out alternately; As shown in Figure 5, described electronic equipment comprises: sensing unit 51, judging unit 52, acquiring unit 53, transmitting element 54; Wherein,
Described sensing unit 51, for detecting the first state parameter of described electronic equipment;
Described judging unit 52, for judging whether described first state parameter changes, and obtains the first judged result;
Described acquiring unit 53, for when described first judged result shows that described first state parameter changes, obtains the rate of change of described first state parameter;
Described transmitting element 54, for the rate of change based on described first state parameter, is sent to described second electronic equipment by the first multi-medium data.
Preferably, described transmitting element 54 comprises: determine subelement 541, send subelement 542; Wherein,
Describedly determine subelement 541, for the rate of change according to described first state parameter, determine the transfer rate of described first multi-medium data;
Described transmission subelement 542, for the transfer rate according to described first multi-medium data, is sent to described second electronic equipment by described first multi-medium data.
Preferably, described first communication network is blueteeth network or Wi-Fi network or mobile communications network;
Correspondingly, described electronic equipment also comprises sets up unit 55, and for by described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described electronic equipment with described second electronic equipment is connected.
It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Fig. 5 can refer to the associated description of aforementioned data disposal route and understands.
Fig. 6 is the structure composition schematic diagram of the electronic equipment of the embodiment of the present invention three, and the electronic equipment in this example can utilize the first communication network and the second electronic equipment to carry out alternately; As shown in Figure 6, described electronic equipment comprises: sensing unit 61, judging unit 62, acquiring unit 63, transmitting element 64; Wherein,
Described sensing unit 61, for detecting the first state parameter of described electronic equipment;
Described judging unit 62, for judging whether described first state parameter changes, and obtains the first judged result;
Described acquiring unit 63, for when described first judged result shows that described first state parameter changes, obtains the rate of change of described first state parameter;
Described transmitting element 64, for the rate of change based on described first state parameter, is sent to described second electronic equipment by the first multi-medium data.
Preferably, described transmitting element 64 comprises: determine subelement 641, send subelement 642; Wherein,
Describedly determine subelement 641, for the rate of change according to described first state parameter, determine the transfer rate of described first multi-medium data;
Described transmission subelement 642, for the transfer rate according to described first multi-medium data, is sent to described second electronic equipment by described first multi-medium data.
Preferably, described first multi-medium data comprises N number of first multimedia subdata, and N is positive integer;
Correspondingly, described transmission subelement 642 comprises: determination module 6421, sending module 6422; Wherein,
Described determination module 6421, for based on the transmission policy pre-set, determines the transmission sequence of described N number of first multimedia subdata;
Described sending module 6422, for the transmission sequence according to described N number of first multimedia subdata, and described N number of first multimedia subdata is sent to described second electronic equipment by the transfer rate of described first multi-medium data successively.
Preferably, described first communication network is blueteeth network or Wi-Fi network or mobile communications network;
Correspondingly, described electronic equipment also comprises sets up unit 65, and for by described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described electronic equipment with described second electronic equipment is connected.
It will be appreciated by those skilled in the art that the practical function of each unit in the electronic equipment shown in Fig. 6 can refer to the associated description of aforementioned data disposal route and understands.
In several embodiments that the application provides, should be understood that disclosed equipment and method can realize by another way.Apparatus embodiments described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, and as: multiple unit or assembly can be in conjunction with, maybe can be integrated into another system, or some features can be ignored, or do not perform.In addition, the coupling each other of shown or discussed each ingredient or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of equipment or unit or communication connection can be electrical, machinery or other form.
The above-mentioned unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, also can be distributed in multiple network element; Part or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.
In addition, each functional unit in various embodiments of the present invention can all be integrated in a processing unit, also can be each unit individually as a unit, also can two or more unit in a unit integrated; Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.
One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can have been come by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program, when performing, performs the step comprising said method embodiment; And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read Only Memory), magnetic disc or CD etc. various can be program code stored medium.
Or, if the above-mentioned integrated unit of the present invention using the form of software function module realize and as independently production marketing or use time, also can be stored in a computer read/write memory medium.Based on such understanding, the technical scheme of the embodiment of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in a storage medium, comprises some instructions and performs all or part of of method described in each embodiment of the present invention in order to make a computer equipment (can be personal computer, server or the network equipment etc.).And aforesaid storage medium comprises: movable storage device, ROM (read-only memory) (ROM, Read Only Memory), magnetic disc or CD etc. various can be program code stored medium.
The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.
The above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.
Claims (8)
1. a data processing method, the method is applied in the first electronic equipment, and described first electronic equipment comprises sensing unit, and described first electronic equipment can utilize the first communication network and the second electronic equipment to carry out alternately; It is characterized in that, described method comprises:
Described sensing unit is utilized to detect the first state parameter of described first electronic equipment;
Judge whether described first state parameter changes, and obtains the first judged result;
When described first judged result shows that described first state parameter changes, obtain the rate of change of described first state parameter;
Based on the rate of change of described first state parameter, the first multi-medium data is sent to described second electronic equipment.
2. data processing method according to claim 1, is characterized in that, the described rate of change based on described first state parameter, is sent to described second electronic equipment by the first multi-medium data, comprises:
According to the rate of change of described first state parameter, determine the transfer rate of described first multi-medium data;
According to the transfer rate of described first multi-medium data, described first multi-medium data is sent to described second electronic equipment.
3. data processing method according to claim 2, is characterized in that, described first multi-medium data comprises N number of first multimedia subdata, and N is positive integer;
Correspondingly, the described transfer rate according to described first multi-medium data, is sent to described second electronic equipment by described first multi-medium data, comprises:
Based on the transmission policy pre-set, determine the transmission sequence of described N number of first multimedia subdata;
According to the transmission sequence of described N number of first multimedia subdata, and described N number of first multimedia subdata is sent to described second electronic equipment by the transfer rate of described first multi-medium data successively.
4. the data processing method according to any one of claims 1 to 3, is characterized in that, described first communication network is blueteeth network or Wireless Fidelity Wi-Fi network or mobile communications network;
Correspondingly, described data processing method also comprises:
By described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described first electronic equipment with described second electronic equipment is connected.
5. an electronic equipment, described electronic equipment can utilize the first communication network and the second electronic equipment to carry out alternately; It is characterized in that, described electronic equipment comprises: sensing unit, judging unit, acquiring unit, transmitting element; Wherein,
Described sensing unit, for detecting the first state parameter of described electronic equipment;
Described judging unit, for judging whether described first state parameter changes, and obtains the first judged result;
Described acquiring unit, for when described first judged result shows that described first state parameter changes, obtains the rate of change of described first state parameter;
Described transmitting element, for the rate of change based on described first state parameter, is sent to described second electronic equipment by the first multi-medium data.
6. electronic equipment according to claim 5, is characterized in that, described transmitting element comprises: determine subelement, send subelement; Wherein,
Describedly determine subelement, for the rate of change according to described first state parameter, determine the transfer rate of described first multi-medium data;
Described transmission subelement, for the transfer rate according to described first multi-medium data, is sent to described second electronic equipment by described first multi-medium data.
7. electronic equipment according to claim 6, is characterized in that, described first multi-medium data comprises N number of first multimedia subdata, and N is positive integer;
Correspondingly, described transmission subelement comprises: determination module, sending module; Wherein,
Described determination module, for based on the transmission policy pre-set, determines the transmission sequence of described N number of first multimedia subdata;
Described sending module, for the transmission sequence according to described N number of first multimedia subdata, and described N number of first multimedia subdata is sent to described second electronic equipment by the transfer rate of described first multi-medium data successively.
8. the electronic equipment according to any one of claim 5 to 7, is characterized in that, described first communication network is blueteeth network or Wi-Fi network or mobile communications network;
Correspondingly, described electronic equipment also comprises sets up unit, and for by described blueteeth network or Wi-Fi network or mobile communications network, the network set up between described electronic equipment with described second electronic equipment is connected.
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