CN104883599A - Control method and device - Google Patents

Abstract

The invention provides a control method and a device which are applied in control equipment. The control method comprises the steps that after first electronic equipment is connected to the control equipment through a first connecting interface and a second connecting interface, a first control signal detected by a first induction device of the control equipment and a second control signal detected by a second induction device of the first electronic equipment are acquired; on the basis of the first control signal and the second control signal, a control signal is generated and used for controlling second electronic equipment communicated with the control equipment to perform response corresponding to the control signal. In this way, the control signal used for controlling the second electronic equipment to automatically respond can be generated on the basis of the first control signal and the second control signal, just like, the control signal used for controlling the second electronic equipment to automatically perform Chinese-English switching is generated, the operation process is simplified, and the operation efficiency is improved.

Description

A kind of control method and device

Technical field

The present invention relates to Based Intelligent Control control technology field, more specifically, particularly a kind of control method and device.

Background technology

Intelligent television is a kind of television set adding the Internet and Web 2.0 function, it can run complete operating system, and a software platform is provided, the application software of person's developing operation on intelligent television that can be used for applied software development, intelligent television is made to enter in traditional tv by the function i ntegration of computer, and replace traditional tv gradually, such as associate the intelligent television of generation.

Along with the development of intelligent television, at present in the operation of intelligent television, its intelligent remote controller has been broken away from traditional infrared manipulation gradually and has added blue tooth interface, also be equipped with three-axis gyroscope (XYZ tri-axle) and 3-axis acceleration inductor simultaneously, for realizing the operation to air mouse, thus realize the operation to the operation interface that intelligent television is shown.

But when wanting controller to operate operation interface by intelligence, first relevant position air mouse being moved to operation interface is needed, could operate operation interface, this process can because air mouse moves operating lag and causes multi-pass operation to complete.

During as word input on handover operation interface, need air mouse to move to the control place that indicative input switches, then by completing Chinese and English switching to the operation of control.When air mouse move there is operating lag when, the control place needing repeatable operation air mouse can move to indicative input to switch, makes operating process complicated.

Summary of the invention

In view of this, technical problem to be solved by this invention is to provide a kind of control method and device, for simplifying the operation course, improves operating efficiency.Technical scheme is as follows:

The invention provides a kind of control method, be applied in control appliance, described control appliance is provided with the first connecting interface, described first connecting interface mates with the second connecting interface be arranged on the first electronic equipment, and for connecting described first electronic equipment by described second connecting interface, described method comprises:

After described first electronic equipment being connected to described control appliance by described first connecting interface and described second connecting interface, obtain the detected by the first induction installation the first manipulation signal coming from described control appliance and the detected by the second induction installation the second manipulation signal coming from described first electronic equipment;

Based on described first manipulation signal and described second manipulation signal, generate a control signal, described control signal performs the response corresponding with described control signal for the second electronic equipment controlled with described control appliance communicates.

Preferably, described first manipulation signal and described second manipulation signal perform the signal that same operation obtains for operating body on described first induction installation and described second induction installation;

Described based on described first manipulation signal and described second manipulation signal, generate a control signal, comprising:

After getting the detected by described first induction installation first manipulation signal, generate the first control signal based on described first manipulation signal;

After getting the detected by described second induction installation second manipulation signal, generate the second control signal based on described second manipulation signal;

Wherein, described first control signal and described second control signal perform different responses for controlling described second electronic equipment.

Preferably, described based on described first manipulation signal and described second manipulation signal, generate a control signal, comprising:

Based on described first manipulation signal and described second manipulation signal, judge whether the first operation of operating body crosses over described first induction installation and described second induction installation;

When judging that described first induction installation and described second induction installation are crossed in described first operation, combine described first manipulation signal and described second manipulation signal generates described control signal, described control signal performs described first for the second electronic equipment controlled with described control appliance communicates and manipulates signal and described second and manipulate the corresponding response of signal.

Preferably, described based on described first manipulation signal and described second manipulation signal, judge whether the first operation of operating body crosses over described first induction installation and described second induction installation, comprising:

Obtain the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal, described end induction point and described starting induction point are two induction points formed on described first induction installation and described second induction installation;

Judge that the first distance between described end induction point and described starting induction point is whether within the scope of predeterminable range;

When the first distance between described end induction point and described starting induction point is within the scope of predeterminable range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

When the first distance between described end induction point and described starting induction point is not within the scope of predeterminable range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

Preferably, described based on described first manipulation signal and described second manipulation signal, judge whether the first operation of operating body crosses over described first induction installation and described second induction installation, comprising:

Obtain the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal;

Obtain the acquisition time of described end induction point and the acquisition time of described starting induction point;

When the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is in preset time range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

When the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is not in preset time range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

The present invention also provides a kind of control device, be applied in control appliance, described control appliance is provided with the first connecting interface, described first connecting interface mates with the second connecting interface be arranged on the first electronic equipment, and for connecting described first electronic equipment by described second connecting interface, described device comprises:

Acquiring unit, for after described first electronic equipment being connected to described control appliance by described first connecting interface and described second connecting interface, obtain the detected by the first induction installation the first manipulation signal coming from described control appliance and the detected by the second induction installation the second manipulation signal coming from described first electronic equipment;

Processing unit, for based on described first manipulation signal and described second manipulation signal, generates a control signal, the response that described control signal performs for the second electronic equipment controlled with described control appliance communicates and described control signal is corresponding.

Preferably, described first manipulation signal and described second manipulation signal perform the signal that same operation obtains for operating body on described first induction installation and described second induction installation;

Described processing unit comprises: the first process subelement and the second process subelement;

Described first process subelement, for after getting the detected by described first induction installation first manipulation signal, generates the first control signal based on described first manipulation signal;

Described second process subelement, for after getting the detected by described second induction installation second manipulation signal, generates the second control signal based on described second manipulation signal;

Wherein, described first control signal and described second control signal perform different responses for controlling described second electronic equipment.

Preferably, described processing unit comprises:

Judgment sub-unit, for based on described first manipulation signal and described second manipulation signal, judges whether the first operation of operating body crosses over described first induction installation and described second induction installation;

Process subelement, for when judging that described first induction installation and described second induction installation are crossed in described first operation, combine described first manipulation signal and described second manipulation signal generates described control signal, described control signal performs described first for the second electronic equipment controlled with described control appliance communicates and manipulates signal and described second and manipulate the corresponding response of signal.

Preferably, described judgment sub-unit comprises:

First obtains subelement, for obtaining the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal, described end induction point and described starting induction point are two induction points formed on described first induction installation and described second induction installation;

Distance Judgment subelement, for judging that the first distance between described end induction point and described starting induction point is whether within the scope of predeterminable range;

First determines subelement, and during for the first distance between described end induction point and described starting induction point within the scope of predeterminable range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

Second determines subelement, and during for the first distance between described end induction point and described starting induction point not within the scope of predeterminable range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

Preferably, described judgment sub-unit comprises:

Second obtains subelement, for obtaining the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal, and for acquisition time of acquisition time of obtaining described end induction point and described starting induction point;

3rd determines subelement, and for when the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is in preset time range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

4th determines subelement, for when the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is not in preset time range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

Compared with prior art, technique scheme tool provided by the invention has the following advantages:

In technique scheme provided by the invention, after the first electronic equipment being connected to control appliance by the first connecting interface and the second connecting interface, the detected by the first induction installation the first manipulation signal coming from control appliance and the detected by the second induction installation the second manipulation signal coming from the first electronic equipment can be obtained; Then based on the first manipulation signal and the second manipulation signal, generate a control signal, wherein control signal performs the response corresponding with control signal for the second electronic equipment controlling to communicate with control appliance, can generate for controlling the control signal of the second electronic equipment from dynamic response based on the first manipulation signal and the second manipulation signal like this, as generated the control signal of automatically carrying out Chinese and English switching for controlling the second electronic equipment, simplify the operation course, and improve operating efficiency.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The flow chart of the control method that Fig. 1 provides for the embodiment of the present invention;

Fig. 2 is the schematic diagram that in the embodiment of the present invention, control appliance is connected with the first electronic equipment;

The schematic diagram at the control second electronic equipment display input in Chinese interface that Fig. 3 provides for the embodiment of the present invention;

Fig. 4 shows the schematic diagram of English inputting interface for control second electronic equipment that the embodiment of the present invention provides;

The schematic diagram sliding into the second induction installation from the first induction installation that Fig. 5 provides for the embodiment of the present invention;

The structural representation of the control device that Fig. 6 provides for the embodiment of the present invention;

A kind of structural representation of processing unit in the control device that Fig. 7 provides for the embodiment of the present invention;

The another kind of structural representation of processing unit in the control device that Fig. 8 provides for the embodiment of the present invention.

Embodiment

The embodiment of the present invention is understood better for making those skilled in the art, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Refer to Fig. 1, it illustrates a kind of flow chart of the control method that the embodiment of the present invention provides, be applied in a control appliance, wherein control appliance is provided with the first connecting interface, first connecting interface mates with the second connecting interface be arranged on the first electronic equipment, and for connecting the first electronic equipment by the second connecting interface, described control method can comprise the following steps:

101: after the first electronic equipment being connected to control appliance by the first connecting interface and the second connecting interface, obtain the detected by the first induction installation the first manipulation signal coming from control appliance and the detected by the second induction installation the second manipulation signal coming from the first electronic equipment.

Be understandable that: the first connecting interface and the second connecting interface are two connecting interfaces matched, can the first electronic equipment be connected on control appliance by these two connecting interfaces, such as the first connecting interface and the second connecting interface are two USB matched (Universal SerialBus, USB) interface, the USB interface of the first electronic equipment can be connected on the USB of control appliance, such first electronic equipment just can be connected on control appliance, as shown in Figure 2, wherein 1 is control appliance, and 2 is the first electronic equipment.

Be connected to after on control appliance at the first electronic equipment, information interaction can be carried out by USB interface between first electronic equipment and control appliance, certainly after the first electronic equipment is connected by USB interface with control appliance, it can also adopt other modes to carry out information interaction, as adopted the mode of Bluetooth Synchronous, after the first electronic equipment is connected to control appliance by USB interface, can carry out Bluetooth pairing between first electronic equipment and control appliance, after correct pairing, namely the first electronic equipment and control appliance can adopt Bluetooth-mode communication.

Here it should be noted is that: if the size of control appliance and the first electronic equipment is less, if existing remote controller is as control appliance, when the bracelet controller of intelligent watch is as the first electronic equipment, because the size of these two equipment is less, so MINI USB (mini USB) interface can be adopted to connect.

In embodiments of the present invention, control appliance can comprise the first induction installation, the operation of operating body on the first induction installation can be responded to by it, thus obtain the first manipulation signal, such as, touch-screen in control appliance can as the first induction installation, and when operating body carries out touch operation or other slides on the touchscreen, touch-screen can detect the touch information that these operations are corresponding, and based on the corresponding relation of touch information with the manipulation signal preset, obtain the first manipulation signal.

For the first electronic equipment, the first electronic equipment comprises the second induction installation equally, the operation of such operating body on the second induction installation also can be responded to by the second induction installation, thus obtains the second manipulation signal.Second induction installation can be the touch-screen on the first electronic equipment in embodiments of the present invention, when operating body carries out touch operation on the touch-screen of the first electronic equipment, it can detect the touch information that touch operation is corresponding equally, then based on the corresponding relation of the touch information self arranged with manipulation signal, the second manipulation signal is obtained.

102: based on the first manipulation signal and the second manipulation signal, generate a control signal, control signal performs the response corresponding with control signal for the second electronic equipment controlling to communicate with control appliance.Wherein the second electronic equipment can adopt wire communication mode or communication to communicate with control appliance, is not limited the concrete communication mode embodiment of the present invention that it adopts.

In embodiments of the present invention, first manipulation signal is detected by the first induction installation of control appliance, second manipulation signal is detected by the second induction installation of the first electronic equipment, and the embodiment of the present invention can also generate based on these two manipulation signals the control signal performing corresponding response for controlling the second electronic equipment, therefore the control method that the embodiment of the present invention provides is a kind of method being controlled the second electronic equipment by control appliance and the first electronic equipment, namely operating body at the first induction installation of control appliance and can perform a kind of touch operation to control the corresponding response of the second electronic equipment execution on the second induction installation of the first electronic equipment, thus simplify the operating process that the second electronic equipment is controlled, improve operating efficiency.

From technique scheme, the control method that the embodiment of the present invention provides, after the first electronic equipment being connected to control appliance by the first connecting interface and the second connecting interface, can obtain the detected by the first induction installation the first manipulation signal coming from control appliance and the detected by the second induction installation the second manipulation signal coming from the first electronic equipment; Then based on the first manipulation signal and the second manipulation signal, generate a control signal, wherein control signal performs the response corresponding with control signal for the second electronic equipment controlling to communicate with control appliance, can generate for controlling the control signal of the second electronic equipment from dynamic response based on the first manipulation signal and the second manipulation signal like this, as generated the control signal of automatically carrying out Chinese and English switching for controlling the second electronic equipment, simplify the operation course, and improve operating efficiency.

In embodiments of the present invention, based on the first manipulation signal and the second manipulation signal, the mode generating a control signal includes but not limited to following two kinds of modes, wherein first kind of way is: after getting the detected by the first induction installation first manipulation signal, generates the first control signal based on the first manipulation signal; After getting the detected by the second induction installation second manipulation signal, generate the second control signal based on the second manipulation signal.

Wherein, the first manipulation signal and the second manipulation signal perform the signal that same operation obtains for operating body on the first induction installation and the second induction installation, and the first control signal and the second control signal perform different responses for controlling the second electronic equipment.That is by the first induction installation in control appliance detect first manipulation signal and the first electronic equipment in the second induction installation detect second manipulation signal, the second electronic equipment can be controlled and perform different responses.

Example is switched to Chinese and English, getting the detected by the first induction installation first manipulation signal, after clicking manipulation signal, generate the first control signal that control second electronic equipment carries out input in Chinese, first control signal sends to the second electronic equipment by the transmission channel between control appliance and the second electronic equipment, the now display screen display input in Chinese interface of the second electronic equipment, as shown in Figure 3;

Get detected by the second induction installation clicking manipulation signal after, generate the second control signal that control second electronic equipment carries out English input.After the second electronic equipment receives the second control signal by the transmission channel between itself and control appliance, the input in Chinese interface of display screen display is automatically switched to English inputting interface, as shown in Figure 4, thus realize the automatic switchover of word input, relative to the mode needing user to manipulate air mouse to carry out Chinese and English switching in prior art, this automatic switching mode can simplify the operation course and improve operating efficiency.

Again such as: the display screen of the second electronic equipment is divided into two sub regions, and every sub regions shows different contents, like this can upgrade the content of wherein any one subregion display respectively, therefore when the control method using the embodiment of the present invention to provide controls the second electronic equipment, the first control signal of the content of control one sub regions display can be generated based on the first manipulation signal, the second control signal of the content controlling the display of another subregion can be generated equally based on the second manipulation signal, like this when the content shown any one subregion upgrades, then can perform corresponding operating on the second induction installation of the first induction installation of corresponding control appliance or the first electronic equipment, the operation of content update is simplified more and improves to upgrade efficiency.

The second way is: based on the first manipulation signal and the second manipulation signal, judges whether the first operation of operating body crosses over the first induction installation and the second induction installation.When judging that the first induction installation and the second induction installation are crossed in the first operation, associating first manipulation signal and the second manipulation signal generate control signal, and control signal performs first for the second electronic equipment controlling to communicate with control appliance and manipulates signal and second and manipulate the corresponding response of signal.

Wherein, first operation leap first induction installation of operating body and the second induction installation refer to that operation questions slides into a position of the second induction installation from the position of the first induction installation, or the first operation leap first induction installation of operating body and the second induction installation refer to that operation questions slides into a position of the first induction installation from the position of the second induction installation, as shown in Figure 5.When the first operation leap first induction installation and second induction installation of operating body, first manipulation signal and the second manipulation signal integration can be a control signal by the control method that the embodiment of the present invention provides, and namely associating first manipulation signal and the second manipulation signal generate control signal.

In embodiments of the present invention, a kind of feasible pattern of the second manipulation signal generation control signal of associating first manipulation signal is: obtain the starting induction point in the first manipulation signal and terminate induction point, and acquisition second manipulates the starting induction point in signal and terminates induction point, distance two induction points are farthest obtained from these four induction points, such as distance two induction points are farthest the starting induction point in the first manipulation signal and the end induction point in the second manipulation signal, then these two induction points can as the induction point of control signal, distance between these two induction points is indicated the sliding distance of the display interface of the second electronic equipment as control signal.

When the distance between these two induction points is indicated the sliding distance of the display interface of the second electronic equipment as control signal, the sliding distance of display interface is obviously greater than the distance indicated between two induction points on single equipment, therefore using control signal as changing interface instruction time, the changing interface number of times of the control signal of associating generation can be greater than the first manipulation signal or second and manipulate changing interface number of times corresponding to signal, the display interface that the control signal of combining generation in the control method that is embodiment of the present invention provides can control the second electronic equipment switches repeatedly the sliding process of operating body from the first induction installation to the second induction installation.

The control signal that certain embodiment of the present invention associating first manipulation signal and the second manipulation signal generate can also be the control signal of other types, and such as amplifying signal is used to indicate the second electronic equipment execution and amplifies response.Can be specifically: when operating body slides on the first induction installation, amplifying signal is used to indicate the second electronic equipment with the central point of self touch-screen for benchmark, with the multiplication factor that the distance between the starting induction point of the first manipulation signal and end induction point is corresponding, the object that the second electronic equipment shows is amplified; When operating body slides into after on the second induction installation from the first induction installation, then can still continue amplify the object that the second electronic equipment shows for benchmark with the central point of the touch-screen of the second electronic equipment, realize the lasting amplification to the object that the second electronic equipment shows the sliding process of operating body from the first induction installation to the second induction installation.

Wherein, the multiplication factor proceeding to amplify can be the preset multiple of the multiplication factor that the first manipulation signal obtains, multiplication factor that also can be corresponding with the distance between the starting induction point of the second manipulation signal and end induction point.

In embodiments of the present invention, based on the first manipulation signal and the second manipulation signal, judge that the mode whether the first operation of operating body crosses over the first induction installation and the second induction installation includes but not limited to following two kinds of modes, and following two kinds of modes slide into the second induction installation with operating body from the first induction installation:

First kind of way is: first obtain the end induction point in the first manipulation signal and the starting induction point in the second manipulation signal, wherein terminate induction point and starting induction point is two induction points formed on the first induction installation and the second induction installation; Secondly judge to terminate first between induction point and starting induction point apart from whether within the scope of predeterminable range.

When the first distance between end induction point and starting induction point is within the scope of predeterminable range, the first operation leap first induction installation and the second induction installation of determination operation body; When the first distance between end induction point and starting induction point is not within the scope of predeterminable range, the first induction installation and the second induction installation are not crossed in the first operation of determination operation body.

The second way is: obtain the end induction point in the first manipulation signal and the starting induction point in the second manipulation signal, and obtain the end acquisition time of induction point and the acquisition time of starting induction point.

When the time difference terminating the acquisition time of induction point and the acquisition time of starting induction point is in preset time range, the first operation leap first induction installation and the second induction installation of determination operation body; When the time difference terminating the acquisition time of induction point and the acquisition time of starting induction point is not in preset time range, the first induction installation and the second induction installation are not crossed in the first operation of determination operation body.

Corresponding with said method embodiment, the embodiment of the present invention also provides a kind of control device be applied in control appliance, and its structural representation as shown in Figure 6, can comprise: acquiring unit 11 and processing unit 12.

Acquiring unit 11, for after the first electronic equipment being connected to control appliance by the first connecting interface and the second connecting interface, obtain the detected by the first induction installation the first manipulation signal coming from control appliance and the detected by the second induction installation the second manipulation signal coming from the first electronic equipment.

Wherein the first connecting interface is arrange an interface on the control device, and it mates with the second connecting interface be arranged on the first electronic equipment, and for connecting the first electronic equipment by the second connecting interface.That is, first connecting interface and the second connecting interface are two connecting interfaces matched, can the first electronic equipment be connected on control appliance by these two connecting interfaces, such as the first connecting interface and the second connecting interface are two USB interface matched, the USB interface of the first electronic equipment can be connected on the USB of control appliance, such first electronic equipment just can be connected on control appliance, as shown in Figure 2.

Be connected to after on control appliance at the first electronic equipment, information interaction can be carried out by USB interface between first electronic equipment and control appliance, certainly after the first electronic equipment is connected by USB interface with control appliance, it can also adopt other modes to carry out information interaction, as adopted the mode of Bluetooth Synchronous, after the first electronic equipment is connected to control appliance by USB interface, can carry out Bluetooth pairing between first electronic equipment and control appliance, after correct pairing, namely the first electronic equipment and control appliance can adopt Bluetooth-mode communication.And be connected to after on control appliance at the first electronic equipment, acquiring unit 11 just can obtain the detected by the first induction installation the first manipulation signal coming from control appliance and the detected by the second induction installation the second manipulation signal coming from the first electronic equipment.

Here it should be noted is that: if the size of control appliance and the first electronic equipment is less, if existing remote controller is as control appliance, when the bracelet controller of intelligent watch is as the first electronic equipment, because the size of these two equipment is less, so MINI USB (mini USB) interface can be adopted to connect.

Processing unit 12, for based on the first manipulation signal and the second manipulation signal, generates a control signal, the response that control signal performs for the second electronic equipment controlling to communicate with control appliance and control signal is corresponding.Wherein the second electronic equipment can adopt wire communication mode or communication to communicate with control appliance, is not limited the concrete communication mode embodiment of the present invention that it adopts.

In embodiments of the present invention, first manipulation signal is detected by the first induction installation of control appliance, second manipulation signal is detected by the second induction installation of the first electronic equipment, and the embodiment of the present invention can also generate based on these two manipulation signals the control signal performing corresponding response for controlling the second electronic equipment, therefore the control method that the embodiment of the present invention provides is a kind of method being controlled the second electronic equipment by control appliance and the first electronic equipment, namely operating body at the first induction installation of control appliance and can perform a kind of touch operation to control the corresponding response of the second electronic equipment execution on the second induction installation of the first electronic equipment, thus simplify the operating process that the second electronic equipment is controlled, improve operating efficiency.

From technique scheme, the control device that the embodiment of the present invention provides, after the first electronic equipment being connected to control appliance by the first connecting interface and the second connecting interface, can obtain the detected by the first induction installation the first manipulation signal coming from control appliance and the detected by the second induction installation the second manipulation signal coming from the first electronic equipment; Then based on the first manipulation signal and the second manipulation signal, generate a control signal, wherein control signal performs the response corresponding with control signal for the second electronic equipment controlling to communicate with control appliance, can generate for controlling the control signal of the second electronic equipment from dynamic response based on the first manipulation signal and the second manipulation signal like this, as generated the control signal of automatically carrying out Chinese and English switching for controlling the second electronic equipment, simplify the operation course, and improve operating efficiency.

In embodiments of the present invention, processing unit 12 includes but not limited to following two kinds of structures, with based on the first manipulation signal and the second manipulation signal, generates a control signal.Wherein a kind of structure as shown in Figure 7, comprising: the first process subelement 121 and the second process subelement 122.

First process subelement 121, for after getting the detected by the first induction installation first manipulation signal, generates the first control signal based on the first manipulation signal.

Second process subelement 122, for after getting the detected by the second induction installation second manipulation signal, generates the second control signal based on the second manipulation signal.

Wherein, the first manipulation signal and the second manipulation signal perform the signal that same operation obtains for operating body on the first induction installation and the second induction installation, and the first control signal and the second control signal perform different responses for controlling the second electronic equipment.That is by the first induction installation in control appliance detect first manipulation signal and the first electronic equipment in the second induction installation detect second manipulation signal, the second electronic equipment can be controlled and perform different responses.

Example is switched to Chinese and English, first process subelement 121 is getting the detected by the first induction installation first manipulation signal, after clicking manipulation signal, generate the first control signal that control second electronic equipment carries out input in Chinese, first control signal sends to the second electronic equipment by the transmission channel between control appliance and the second electronic equipment, the now display screen display input in Chinese interface of the second electronic equipment, as shown in Figure 3;

Second process subelement 122 get detected by the second induction installation clicking manipulation signal after, generate the second control signal that control second electronic equipment carries out English input.After the second electronic equipment receives the second control signal by the transmission channel between itself and control appliance, the input in Chinese interface of display screen display is automatically switched to English inputting interface, as shown in Figure 4, thus realize the automatic switchover of word input, relative to the mode needing user to manipulate air mouse to carry out Chinese and English switching in prior art, this automatic switching mode can simplify the operation course and improve operating efficiency.

The another kind of structure of processing unit 12 as shown in Figure 8, comprising: judgment sub-unit 123 and process subelement 124.

Judgment sub-unit 123, for based on the first manipulation signal and the second manipulation signal, judges whether the first operation of operating body crosses over the first induction installation and the second induction installation.

Process subelement 124, for when judging that the first induction installation and the second induction installation are crossed in the first operation, associating first manipulation signal and the second manipulation signal generate control signal, and control signal performs first for the second electronic equipment controlling to communicate with control appliance and manipulates signal and second and manipulate the corresponding response of signal.

Wherein, first operation leap first induction installation of operating body and the second induction installation refer to that operation questions slides into a position of the second induction installation from the position of the first induction installation, or the first operation leap first induction installation of operating body and the second induction installation refer to that operation questions slides into a position of the first induction installation from the position of the second induction installation, as shown in Figure 5.When the first operation leap first induction installation and second induction installation of operating body, first manipulation signal and the second manipulation signal integration can be a control signal by process subelement 124, and namely associating first manipulation signal and the second manipulation signal generate control signal.

Wherein, judgment sub-unit 123 comprises: the first acquisition subelement, Distance Judgment subelement, first determine that subelement determined by subelement and second.

First obtains subelement, and for obtaining the end induction point in the first manipulation signal and the starting induction point in the second manipulation signal, end induction point and starting induction point are two induction points formed on the first induction installation and the second induction installation.

Distance Judgment subelement, for judging to terminate the first distance between induction point and starting induction point whether within the scope of predeterminable range.

First determines subelement, during for the first distance between end induction point and starting induction point within the scope of predeterminable range, and the first operation leap first induction installation and the second induction installation of determination operation body.

Second determines subelement, and during for the first distance between end induction point and starting induction point not within the scope of predeterminable range, the first induction installation and the second induction installation are not crossed in the first operation of determination operation body.

Or

Judgment sub-unit comprises: second obtains subelement, the 3rd determines that subelement determined by subelement and the 4th.

Second obtains subelement, for obtaining the end induction point in the first manipulation signal and the starting induction point in the second manipulation signal, and terminates the acquisition time of induction point and the acquisition time of starting induction point for obtaining.

3rd determines subelement, for when the time difference of the end acquisition time of induction point and the acquisition time of starting induction point is in preset time range, and the first operation leap first induction installation and the second induction installation of determination operation body.

4th determines subelement, and for when the time difference of the end acquisition time of induction point and the acquisition time of starting induction point is not in preset time range, the first induction installation and the second induction installation are not crossed in the first operation of determination operation body.

It should be noted that, each embodiment in this specification all adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar part mutually see.For device class embodiment, due to itself and embodiment of the method basic simlarity, so description is fairly simple, relevant part illustrates see the part of embodiment of the method.

Finally, also it should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operating space, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

Above a kind of control method provided by the present invention and device are described in detail, apply specific case herein to set forth principle of the present invention and execution mode, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (10)

1. a control method, be applied in control appliance, it is characterized in that, described control appliance is provided with the first connecting interface, described first connecting interface mates with the second connecting interface be arranged on the first electronic equipment, and for connecting described first electronic equipment by described second connecting interface, described method comprises:

After described first electronic equipment being connected to described control appliance by described first connecting interface and described second connecting interface, obtain the detected by the first induction installation the first manipulation signal coming from described control appliance and the detected by the second induction installation the second manipulation signal coming from described first electronic equipment;

Based on described first manipulation signal and described second manipulation signal, generate a control signal, described control signal performs the response corresponding with described control signal for the second electronic equipment controlled with described control appliance communicates.

2. method according to claim 1, is characterized in that, described first manipulation signal and described second manipulation signal perform the signal that same operation obtains for operating body on described first induction installation and described second induction installation;

Described based on described first manipulation signal and described second manipulation signal, generate a control signal, comprising:

After getting the detected by described first induction installation first manipulation signal, generate the first control signal based on described first manipulation signal;

After getting the detected by described second induction installation second manipulation signal, generate the second control signal based on described second manipulation signal;

Wherein, described first control signal and described second control signal perform different responses for controlling described second electronic equipment.

3. method according to claim 1, is characterized in that, described based on described first manipulation signal and described second manipulation signal, generates a control signal, comprising:

Based on described first manipulation signal and described second manipulation signal, judge whether the first operation of operating body crosses over described first induction installation and described second induction installation;

When judging that described first induction installation and described second induction installation are crossed in described first operation, combine described first manipulation signal and described second manipulation signal generates described control signal, described control signal performs described first for the second electronic equipment controlled with described control appliance communicates and manipulates signal and described second and manipulate the corresponding response of signal.

4. method according to claim 3, is characterized in that, described based on described first manipulation signal and described second manipulation signal, judges whether the first operation of operating body crosses over described first induction installation and described second induction installation, comprising:

Obtain the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal, described end induction point and described starting induction point are two induction points formed on described first induction installation and described second induction installation;

Judge that the first distance between described end induction point and described starting induction point is whether within the scope of predeterminable range;

When the first distance between described end induction point and described starting induction point is within the scope of predeterminable range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

When the first distance between described end induction point and described starting induction point is not within the scope of predeterminable range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

5. method according to claim 3, is characterized in that, described based on described first manipulation signal and described second manipulation signal, judges whether the first operation of operating body crosses over described first induction installation and described second induction installation, comprising:

Obtain the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal;

Obtain the acquisition time of described end induction point and the acquisition time of described starting induction point;

When the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is in preset time range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

When the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is not in preset time range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

6. a control device, be applied in control appliance, it is characterized in that, described control appliance is provided with the first connecting interface, described first connecting interface mates with the second connecting interface be arranged on the first electronic equipment, and for connecting described first electronic equipment by described second connecting interface, described device comprises:

Acquiring unit, for after described first electronic equipment being connected to described control appliance by described first connecting interface and described second connecting interface, obtain the detected by the first induction installation the first manipulation signal coming from described control appliance and the detected by the second induction installation the second manipulation signal coming from described first electronic equipment;

Processing unit, for based on described first manipulation signal and described second manipulation signal, generates a control signal, the response that described control signal performs for the second electronic equipment controlled with described control appliance communicates and described control signal is corresponding.

7. device according to claim 6, is characterized in that, described first manipulation signal and described second manipulation signal perform the signal that same operation obtains for operating body on described first induction installation and described second induction installation;

Described processing unit comprises: the first process subelement and the second process subelement;

Described first process subelement, for after getting the detected by described first induction installation first manipulation signal, generates the first control signal based on described first manipulation signal;

Described second process subelement, for after getting the detected by described second induction installation second manipulation signal, generates the second control signal based on described second manipulation signal;

Wherein, described first control signal and described second control signal perform different responses for controlling described second electronic equipment.

8. device according to claim 6, is characterized in that, described processing unit comprises:

Judgment sub-unit, for based on described first manipulation signal and described second manipulation signal, judges whether the first operation of operating body crosses over described first induction installation and described second induction installation;

Process subelement, for when judging that described first induction installation and described second induction installation are crossed in described first operation, combine described first manipulation signal and described second manipulation signal generates described control signal, described control signal performs described first for the second electronic equipment controlled with described control appliance communicates and manipulates signal and described second and manipulate the corresponding response of signal.

9. device according to claim 8, is characterized in that, described judgment sub-unit comprises:

First obtains subelement, for obtaining the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal, described end induction point and described starting induction point are two induction points formed on described first induction installation and described second induction installation;

Distance Judgment subelement, for judging that the first distance between described end induction point and described starting induction point is whether within the scope of predeterminable range;

First determines subelement, and during for the first distance between described end induction point and described starting induction point within the scope of predeterminable range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

Second determines subelement, and during for the first distance between described end induction point and described starting induction point not within the scope of predeterminable range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.

10. device according to claim 8, is characterized in that, described judgment sub-unit comprises:

Second obtains subelement, for obtaining the end induction point in described first manipulation signal and the starting induction point in described second manipulation signal, and for acquisition time of acquisition time of obtaining described end induction point and described starting induction point;

3rd determines subelement, and for when the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is in preset time range, described first induction installation and described second induction installation are crossed in the first operation of determination operation body;

4th determines subelement, for when the time difference of the acquisition time of described end induction point and the acquisition time of described starting induction point is not in preset time range, described first induction installation and described second induction installation are not crossed in the first operation of determination operation body.