CN100399251C - Dynamic navigating intelligent interactive method and electronic equipment - Google Patents

Abstract

The invention discloses a dynamic navigation intelligent interactive method and the electronic device. The method includes: the man-machine interactive region is divided into the main information outputting region which displays the information and the dynamic navigation region which outputs the operating cue information and accepts the user input; the operation to the cue information of the dynamic navigation region is transformed to the according application layer things; it does the application layer things and updates the displaying information and the operation cue information. The operation cue information corresponds to the information of the main information output region; the application layer is decided by the information of the main information output region, the operation cue information output by the dynamic navigation region and the user operation.

Description

A kind of intelligent interactive method of dynamic navigation and mobile communication terminal

Technical field

The present invention relates to the human-computer interaction technology of mobile communication terminal, especially relate to a kind of intelligent interactive method and mobile communication terminal of dynamic navigation.

Background technology

On the market of current mobile communication equipment, the man-machine interaction mechanism of mobile communication equipment mainly comprises key mode and touch-sensitive display.

Please refer to Fig. 1, for key mode, the man-machine interaction main operation district 110 of existing most mobile communication handheld terminals mainly is by left and right sides soft key (by Nokia's initiative), directionkeys (or control lever) and special function keys formations such as (for example: delete key, Menu key).And, under the different application environment, carry out correct operation in order to indicate the user, be provided with operation instructions zone 130 again in the bottom of on-screen display (osd) area 120, can carry out operation indicating to left and right sides soft key, direction operating key, special function keys.

Development along with network technology, integrated technology, building block technique, mobile communication terminal will be born increasing function, for example Fm (radio reception), Mp3 (music), Camera (camera), Wi-Fi (WirelessFidelity), Video Phone (visual telephone) or the like.

For the man-machine interaction mechanism of the key mode of prior art, the increase of function can cause the increase of number of keys; On original size, increase number of keys, can increase certain degree of difficulty, otherwise can enlarge product size, and this point can be big obstacle for hand-hold mobile product to structural design.

In addition, the increase that sophisticated functions is used will certainly cause on the screen expansion to the operation instructions zone 130 of button, and the size of on-screen display (osd) area 120 also can be restricted like this.

Therefore, need the man-machine interaction method of a kind of innovation of proposition to solve the problems referred to above.

Summary of the invention

The mobile communication terminal that the technical matters that the present invention solves is to provide a kind of intelligent interactive method of dynamic navigation promptly to adopt this exchange method, can effectively save original main operation district by bond space, reduce the difficulty of structure key arrangement.

For this reason, the technical scheme of technical solution problem of the present invention is: a kind of intelligent interactive method of dynamic navigation is provided, is applied to comprise step on the mobile communication terminal

1) the man-machine interaction zone is divided into is used to carry out the main message area that information shows and is used for the output function information and accepts the dynamic navigation district that the user operates input, described main message area is used to carry out information and shows;

2) at least one operation of carrying out at described operation prompt information is converted to corresponding application-layer events;

3) carry out described application-layer events, at at least one described application-layer events, the display message of the main message area of corresponding renewal and the operation prompt information in dynamic navigation district, the information that the operation prompt information of described dynamic navigation district output shows corresponding to this main message area.

Preferably, described application-layer events depends on information, the operation prompt information of this dynamic navigation district output and user's the operation that this main message area shows.

Preferably, described step 2) also comprise: the information of upgrading the dynamic navigation district according to described user's operation.

Preferably, described step 2) specifically comprise:

21) operation according to described user produces the induced signal that is used to represent zone position information;

22), form corresponding regional unique code identification according to described induced signal;

23), generate corresponding application-layer events according to the unique code identification in described zone.

Preferably, formation described step 22) specifically comprises: according to zone position information seek area allocation list, obtain regional unique code identification; Described step 23) generation specifically comprises: the searched events allocation list, obtain and the corresponding application-layer events of the unique code identification in this zone; The execution of described step 3) specifically is an application program of carrying out the application-layer events representative.

Preferably, described step 22) realize by Drive Layer; Described step 23) realizes by administration and supervision authorities; Described step 3) is realized by application layer; Comprise that also administration and supervision authorities and Drive Layer, application layer undertaken alternately by message interface; The generation of induced signal described step 21) is realized by capacitive sensing unit matching inductive signal processing unit; Perhaps cooperate inductive signal processing unit to realize by touch-screen.

The present invention also provides a kind of mobile communication terminal with dynamic navigation function, comprising:

The man-machine interaction zone is divided into main message area and dynamic navigation district at least; Described main message area is used to carry out information and shows, the operation that described dynamic navigation district is used to realize the output of operation prompt information and accept the user is imported;

Primary processor is electrically connected described man-machine interaction zone, be used for at least one at this operation prompt information operation input convert corresponding application-layer events to; Carry out this application-layer events, at at least one described application-layer events, the display message of the main message area of corresponding renewal and the operation prompt information in dynamic navigation district, the information that the operation prompt information of described dynamic navigation district output shows corresponding to this main message area.

Preferably, described dynamic navigation district comprises touch-screen or capacitive sensing unit; This mobile communication terminal also comprises inductive signal processing unit.

Preferably, the operation prompt information of described dynamic navigation district's output is corresponding to the information of this main message area demonstration; This application-layer events depends on information, the operation prompt information of this dynamic navigation district output and user's the operation that this main message area shows.

Preferably, described primary processor has:

Drive Layer is used to read user's input information, converts thereof into regional unique code identification and transmission according to the area configurations table;

Administration and supervision authorities are used to receive the unique code identification in described zone, convert thereof into application-layer events and transmission according to the event configuration table;

Application layer is used to resolve this application-layer events, carries out the application program of application-layer events representative.

Preferably, described man-machine interaction zone comprises a LCDs or two LCDs in corresponding main message area and dynamic navigation district respectively.

With respect to prior art, the invention has the beneficial effects as follows:, make the user more directly perceived the operation meeting of equipment because the present invention shows different operation prompt information by the dynamic navigation district; And can carry out the input of operation information by the dynamic navigation district, therefore can save traditional main operation district by bond space, can leave greater room for the press-key structure design that greater functionality is used.

Among the present invention, eventful is used output is that the displaying contents (scene) that only is subjected to main message area determines, but its position is unfixed, not restricted by hard operation push-button, also not being subjected to the restriction of the output position of display unit of main message area, is flexibly.

In addition, the invention enables input, reduce user's learning and memory and bear, bring the touch-control sensation of user's novelty, alleviate user's operation fatigue, and the future technology sense is arranged just as with finger direct control information; Can also enlarge the screen size of mobile communication terminal, bring the visual effect of giant-screen.

Preferably, when the present invention is applied to mobile communication terminal, can replace use in the prior art five to key and left and right soft key.

Description of drawings

Fig. 1 is the synoptic diagram of man-machine interaction mechanism of the mobile communication equipment of prior art;

Fig. 2 is the area dividing synoptic diagram of display unit of the present invention;

Fig. 3 is a side sectional view of using the equipment of intelligent interactive method of the present invention;

Fig. 4 is a front section view of using the equipment of intelligent interactive method of the present invention;

Fig. 5 is the level synoptic diagram of the relevant software systems of the inventive method;

Fig. 6 is the process flow diagram of the embodiment of intelligent interactive method of the present invention;

Fig. 7 is the side sectional view of second embodiment of using the equipment of intelligent interactive method of the present invention;

Fig. 8 is the front section view of second embodiment of using the equipment of intelligent interactive method of the present invention;

Fig. 9 is the synoptic diagram at Idle interface;

Figure 10 is the synoptic diagram at Contacts interface;

Figure 11 is the synoptic diagram at SMS interface;

Figure 12 is the synoptic diagram at Music interface;

Figure 13 is the synoptic diagram at Calculation interface;

Figure 14 is the synoptic diagram of brand-new interactive mode of the present invention.

Embodiment

See also Fig. 2, main thought of the present invention is: the man-machine interaction zone 210 of mobile communication terminal comprises main message area 211 and dynamic navigation district 212, and the dynamic navigation district 212 of corresponding LCD display unit 210 covers sensor circuit or touches material (figure does not show).Described dynamic navigation district 212 unites two into one traditional part and button main operation district of passing through LCD (LCD) display unit output function information, realizes the output of operation prompt information and user's input simultaneously.

Adopt the present invention, the user can feel to alleviate user's the memory burden and the degree of fatigue of operation just as with finger direct control information.Simultaneously, operation prompt information can change according to the difference of application program, and this has greater flexibility with respect to the button that solidifies.

Seeing also Fig. 3, is the side sectional view of one embodiment of the present of invention.

Mobile communication terminal comprises LCD man-machine interaction zone 210, shell 220, circuit board 230, primary processor 240, inductive signal processing unit 250, capacitive sensing unit 260, induced signal connector 270, shows signal connector 280 and photic zone 290 and power supply 299.

Wherein, described power supply 299 is used to whole mobile communication terminal that working power is provided, and can be self-powered or external power source, for self-powered situation, can make rechargeable battery, and this does not give unnecessary details.

Described circuit board 230 is used to install and fix primary processor 240 and inductive signal processing unit 250, and is electrically connected this LCD man-machine interaction zone 210 and capacitive sensing unit 260.

Described shell 220 forms accommodation spaces, is used to accommodate receive LCD man-machine interaction zone 210, circuit board 230, primary processor 240, inductive signal processing unit 250, capacitive sensing unit 260, induced signal connector 270, shows signal connector 280 and power supply 299 admittedly.

Described photic zone 290 is assemblied in a side in these shell 220 relative LCD man-machine interaction zones 210, is mainly used in protection LCD man-machine interaction zone 210, can select devices such as eyeglass for use, and this does not give unnecessary details.

Consult Fig. 4 in the lump, described LCD man-machine interaction zone 210 comprises main message area 211 and dynamic navigation district (Navi-screen) 212.Described main message area 211 is mainly used in the information that is shown in the no direct relation of operation control; Described dynamic navigation district 212 is used to realize the output of operation prompt information and user's input.

Capacitive sensing unit 260 corresponding to zone (the dynamic navigation district 212) setting of appointment, is used to respond the user photic zone 290 is touched between this LCD man-machine interaction zone 210 and photic zone 290, produces induced signal.

Induced signal connector 270 is used to realize the connection of capacitive sensing unit 260 and inductive signal processing unit 250.The induced signal that capacitive sensing unit 260 produces is transferred to inductive signal processing unit 250 by induced signal connector 270.

Inductive signal processing unit 250 is used for converting aforementioned induced signal to event signal that primary processor 240 can be handled.

Primary processor 240 control and coordinate the work of other unit is mainly used in aforementioned event signal is resolved, and in view of the above user's input information is responded.The signal that primary processor 240 receives from inductive signal processing unit 250; And the information that will need to show by shows signal connector 280 is sent to LCD man-machine interaction zone 210: the output (such as the content of short message) of controlling no direct relation with the user will output on the common display device (main message area 211), control relevant output with the user and then output on the Navi-screen (dynamic navigation district 212).

Those skilled in the art will recognize that in order to realize function of the present invention, also need the cooperation of the software systems of described mobile communication terminal inside.

See also Fig. 5, software systems 300 can be divided into application layer 310, administration and supervision authorities 320 and Drive Layer 330, and each layer is responsible for realization function, task separately respectively.Below function and key data structure that each layer need realized be described.

The hardware that Drive Layer 330 is responsible for driving, control is concrete reads the input that the user produces by physical equipment and gives administration and supervision authorities 320.Its realization is different to Drive Layer 330 for different hardware, but the interface shape that upwards provides is consistent, all will give administration and supervision authorities 320 according to regional unique code identification (UCID) that area configurations table (RCT) translation obtains by first message interface (MI).

Wherein, so-called regional unique code identification is that each user who gives in the dynamic navigation district 212 can control regional coding, for the dynamic navigation district 212 of two dimensional form, the user can control regional normally rectangle and not overlapping mutually, also can be designed to the form of non-rectangle; For the dynamic navigation district 212 of one dimension form, the shape that the user can control the zone is determined by hardware; Each user can control the zone all own unique ID.

The user of so-called area configurations table definition Navi-screen (dynamic navigation district 212) can control the mapping relations between zone and the regional unique code identification.Drive Layer is translated into UCID according to the content of RCT with hardware positioning information.

Administration and supervision authorities 320 receive unique coding ID (UCID) in each zone of correspondence that Drive Layer 330 send here and give application layer 310 according to event configuration table (ECT) with its translation, after converting application-layer events (AE) to.Administration and supervision authorities 320 are mutual by event configuration table and second message interface and application layer 310, and are mutual by area configurations table and first message interface and Drive Layer 330.

Wherein, so-called application-layer events is encoded with positive integer, is that the overall situation is unique.Each concrete application-layer events is used to instruct the application corresponding module to take suitable response at user's different operating.

Mapping relations between so-called event configuration table definition UCID and the AE.Administration and supervision authorities are translated into corresponding AE according to the content of ECT with UCID.

RCT cooperates the mapping relations of finishing last each specific location area of Navi-screen and AE with ECT.

So-called message interface is used to carry the Content of Communication between different layers, is the data stream that structure is arranged, and its concrete structure of different message is different.The establishment that message interface gives information, destruction, transmission, receiving function.

Application layer 310 is finished the output of the information that needs with user interactions, receives the information of user's input and makes response; The user's input information of application layer 310 correspondences is not concrete physical signalling, but through the logical message that translation, conversion back form, is referred to as application-layer events (AE), and the different different users of application-layer events carrying control intention.

The output (such as the content of short message) of controlling no direct relation with the user will output on the common display device (main message area 211), control relevant output with the user and then output on the Navi-screen (dynamic navigation district 212).

Application layer 310 is mutual by event configuration table and second message interface and administration and supervision authorities 320.

In the embodiments of the present invention, the form of the composition of event configuration table ECT can be (id, event), when administration and supervision authorities are received the UCID that is indicated by id, will be according to the defined rule of list item of id coupling this UCID being translated into the corresponding application-layer events of event among the ECT.

The user that area configurations table RCT is used to define Navi-screen (dynamic navigation district 212) can control the mapping relations between zone and the regional unique code identification.

For the Navi-screen of two dimensional form, each user can control the corresponding UCID in zone can be by following formal description: (r, id), r wherein is used for describing the coordinate information that the user can control the zone, and difform user can control the zone can different specific descriptions forms, and can control the zone with the rectangle user is example, r can use (x, y, w, h) describe, wherein (x, y, w, h) upper left corner coordinate of defined range and width, highly, id defines the UCID of this zone correspondence.When the user press by (x, y, w, h) Drive Layer will produce UCID by the id correspondence during definition regional, and the supplementary of operation is pressed, decontroled in description.Can control the zone for the user of other shapes can describe by corresponding geometric characteristic parameter.

For the Navi-screen of one dimension form, the corresponding UCID in each zone can describe by following two tuples: (key, id), (key) definition hardware device wherein is for the coding (HRID) of zones of different, and id defines the UCID of this zone correspondence.Drive Layer will produce the UCID by id definition when the user presses by (key) definition regional, and the supplementary of operation is pressed, decontroled in description.

HRID can be referred to as hardware area sign again, be the hardware device regulation for ID number of zones of different.

No matter be the one dimension form or the Navi-screen of two dimensional form, UCID all describes by ECT with the generation rule of corresponding AE.

Provide the example of several allocation lists below:

1) Navi-screen of one dimension form

S1) the functional planning Navi-screen that realizes as required of deviser goes up the user and can control dividing region and layout, generates RCT.Usually, what users the Navi-screen of one dimension form has stipulated to be divided into by hardware and can control zone and each user and can control regional corresponding hardware coding, therefore can use a global table.The form of the RCT that generates is as follows:

(key1，id1)，(key2，id2，)，...(keyN，idN)

S2) functional planning that realizes as required of deviser, generate ECT, form is as follows:

(id1，event1)，(id2，event2)，...(id3，event3)

S3) function that realizes as required of deviser is write corresponding program.

2) Navi-screen of two dimensional form

S1) the functional planning Navi-screen that realizes as required of deviser goes up the user and can control dividing region and layout, generates RCT.Usually, the Navi-screen of two dimensional form can follow any user of setting of area dividing rule in whole Navi-screen scope can control the zone, but, can control the zone according to the user that fixed qty and position delimited in designing requirement for the unification at interface.Can control the zone with the rectangle user is example, and the form of the RCT of generation is as follows:

(x1，y1，w1，h1，id1)，(x2，y2，w2，h2，id2)，...(xN，yN，wN，hN，idN)

S2) functional planning that realizes as required of deviser generates ECT, form and 1) can in S2) description identical.

S3) function that realizes as required of deviser is write corresponding program.

3) explanation

No matter be the Navi-screen of one dimension form, or the Navi-screen of two dimensional form, except the RCT difference, ECT is identical with application program.When the form of Navi-screen changes, under the constant situation of function, can only revise RCT, and needn't change ECT and application program, thereby realize hardware independence.

Certainly, for different functions, its corresponding ECT is different.The AE of corresponding identical UCID can be different among the different ECT, distinguishes user's control intention like this by different ECT.

Seeing also Fig. 6, is that example illustrates workflow of the present invention below with the music player.

Step S610, application program launching is finished the initialization of self, loads corresponding ECT and RCT, and the music that desire is play is ready to complete, and display the play interface and navigation interface are waited for user's operation;

Step S620, user press " broadcast " zone (with icon or textual representation) among the Navi-screen;

Step S630, Drive Layer obtains the zone position information (description of coordinate form or HRID) that hardware provides, and searches RCT, finds corresponding UCID;

Step S640, Drive Layer is given administration and supervision authorities by MI with UCID;

Step S650, administration and supervision authorities are received UCID, search ECT, find corresponding AE;

Step S660, administration and supervision authorities are given application layer AE by MI;

Step S670, application layer is received AE, according to programmed logic, this AE representative " broadcast ", application layer starts playing process, and the prompting form in " broadcast " zone original among the Navi-screen is changed into " time-out ".

Above-described is the structure embodiment that adopts the inductance capacitance technology: by the Navi-screen zone (dynamic navigation district 212) of appointment under various minute surfaces such as glass, increase one deck inductance capacitance circuit board (capacitive sensing unit 260), be connected with the inductance capacitance chip (inductive signal processing unit 250) on the pcb board, respond to the sense of touch input that the user is undertaken by finger, output area (main message area 211) in the LCD appointment shows output, simultaneously, the corresponding LCD in Navi-screen zone also makes the new operation prompt information of output at drilling.

Need to prove, use the LCD of a monoblock in this embodiment.Those skilled in the art will recognize that and also can use two LCD to show output.

In addition, except utilizing the capacitive sensing technology to realize the present invention; Can also utilize touch-screen to realize interactive mode of the present invention.

Introduce the structure embodiment that adopts touch screen technology below.

See also Fig. 7 and Fig. 8, the present embodiment and first embodiment are roughly the same, and difference is: photic zone 290 is divided into first light transmission part 291 and second light transmission part 292.First light transmission part 291 can be selected eyeglass for use corresponding to main message area 211; Second light transmission part 292 can be selected the inductive material of specular surface band touch screen technology for use corresponding to dynamic navigation district 212, is connected with circuit board 230, is used for accepting user's information input.

That is to say that present embodiment is the input area in the LCD appointment, cover the inductive material that last layer has touch screen technology, respond to user's sense of touch input, show output at the output area of LCD appointment.

Can use the LCD of a monoblock in this embodiment, also can use two LCD to show output.

Intelligent interactive method of the present invention and device go for following or more field: moving communicating field (comprising mobile phone, smart mobile phone etc.), mobile handheld terminal (PMP, DMP, PDA etc.), telepilot, auto navigation or the like, optimum is applied to the mobile communication product terminal.

See also Fig. 9 to Figure 13, its concrete performance is described below by the mobile communication product of optimum.

Navi-screen is not only input equipment, has also born the output function of operation prompt information, is used for carrying out operation indicating (for example, can substitute 5 to key and left soft key, right soft key).

Fig. 9 is the signal at Idle interface.At the Idle interface, Navi-screen is mainly used to show the information of prompt operation, simultaneously, touches by finger, can finish the input function of prompt operation.

Figure 10 is the signal at Contacts interface.At contact person interface, by Navi-screen, can touch information, as long as 1 step just can realize the more function task,, improved operating efficiency such as edit contact, to contact person's write information.

Figure 11 is the signal at SMS interface.At the note interface, by Navi-screen, can touch information, 1 step can be realized return information, more multioperations such as deletion information.

Figure 12 is the signal at Music interface.At the music interface, by Navi-screen, on the one hand be can realize intuitively to volume control, to the control of song, to the control of broadcast format; On the other hand, saved on the original screen, can have bigger space to make the audio performance page the space of operation instructions.

Figure 13 is the signal at Calculation interface.At the counter page, by Navi-screen, can allow the clearer more intuitive operation of user, just as using a real counter.Be used on screen originally illustrating that each button carries out the operation indicating zone of which kind of calculating and occupied very big screen space, all directly realize now,, can show more computation process and result like this than the giant-screen space by Navi-screen.

More application interfaces can be with reference to above-mentioned design.

See also Figure 14, in sum, the present invention is by a kind of interactive mode (right side) of innovation, and the content of I/O area is relevant with the input of the content of output area and input field simultaneously, and the input of input field is relevant with the content of output area; And in traditional interactive mode (left side), I/O area is only relevant with the input field, and the content and the input field of output area are relevant.

Need to prove that the present invention is not limited to the foregoing description.For example, the dynamic navigation district can comprise the display part that is used for the output function information and be used to accept the button part that the user operates input.Described user's operation is also not merely depended on zone position information, can also be relevant with the time of number of times of touching and/or touching.

The present invention can realize following purpose:

1) sense of touch operation, the directly perceived click

By the present invention, cancel that original main operation district is used for navigating the hardware button, all carry out all operations by the display screen (Navi-screen) that can respond to touch-control.Like this, originally the operation indicating zone on the screen of needs and main operation district hardware button correspondence can be saved, so operation indicating can directly be presented on the Navi-screen, and the user only need get final product with direct the touching on the operation indicating of seeing (literal or symbol or icon) of finger, just as using finger contact information intuitive operation.

2) dynamic navigation

Under different application models, Navi-screen can show different operation indicatings, can save think time and the memory burden of user to operation like this, has realized intelligent dynamic navigation.

3) bond space is pressed in saving

By the present invention, the hardware master is grasped the operation indicating zone of realizing by software on district and the screen unite two into one.Bond space is pressed in the original main operation of so effective saving district, reduces the difficulty of structure key arrangement.

4) bigger screen display effect

The integrated design meeting of Navi-screen and terminal screen makes the mobile communication terminal screen look bigger display effect.

Be appreciated that, the present invention compares with the Soft Key (soft key) of prior art has advantage, although the output displaying contents of SoftKey also is determined by the displaying contents of main message area, but the position of Soft Key is fixed, be what to be subjected to firmly by the restriction of part position, the position of Soft Key must and firmly button be in the adjacent position; And the output content of the output in dynamic navigation of the present invention district and main message area is relevant, but the position in dynamic navigation district is flexibly, promptly is not subjected to restrict by the part position firmly, not restricted by the position of the output display unit of main message area.

Be appreciated that the present invention compares with the full frame touch product of prior art, also have many advantages, for example:

Screen has only the subregion can use touch screen technology or inductance capacitance technology, and cost is lower;

Can realize the finger manipulation of non-touch-screen mobile product fully, promptly can finish all operations, not need writing pencil with finger;

Kept the traditional interactive mode of non-touch-screen product, but utilized touching technique, new innovation has been arranged on exchange method.

In addition, the realization of touch-screen is relevant with the position of viewing area, must be same position, but among the present invention Navi-screen only the output content with main message area is relevant, particular location of its output display unit of getting along well is relevant.

The above only is a preferred implementation of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (11)

1. the intelligent interactive method of a dynamic navigation is applied to it is characterized in that on the mobile communication terminal, comprises step:

1) the man-machine interaction zone is divided into is used to carry out the main message area that information shows and is used for the output function information and accepts the dynamic navigation district that the user operates input;

2) at least one operation of carrying out at described operation prompt information is converted to corresponding application-layer events;

3) carry out described application-layer events, at at least one described application-layer events, upgrade the display message of main message area and the operation prompt information in dynamic navigation district simultaneously, the information that the operation prompt information of described dynamic navigation district output shows corresponding to this main message area.

2. the intelligent interactive method of dynamic navigation according to claim 1 is characterized in that, described application-layer events depends on information, the operation prompt information of this dynamic navigation district output and user's the operation that this main message area shows.

3. the intelligent interactive method of dynamic navigation according to claim 2 is characterized in that, described step 2) also comprise: the information of upgrading the dynamic navigation district according to described user's operation.

4. according to the intelligent interactive method of each described dynamic navigation of claim 1 to 3, it is characterized in that described step 2) specifically comprise:

21) operation according to described user produces the induced signal that is used to represent zone position information;

22), form corresponding regional unique code identification according to described induced signal;

23), generate corresponding application-layer events according to the unique code identification in described zone.

5. the intelligent interactive method of dynamic navigation according to claim 4 is characterized in that, described step 22) formation specifically comprise: according to zone position information seek area allocation list, obtain regional unique code identification; Described step 23) generation specifically comprises: the searched events allocation list, obtain and the corresponding application-layer events of the unique code identification in this zone; The execution of described step 3) specifically is an application program of carrying out the application-layer events representative.

6. the intelligent interactive method of dynamic navigation according to claim 5 is characterized in that, described step 22) realize by Drive Layer; Described step 23) realizes by administration and supervision authorities; Described step 3) is realized by application layer; Comprise that also administration and supervision authorities and Drive Layer, application layer undertaken alternately by message interface; The generation of induced signal described step 21) is realized by capacitive sensing unit matching inductive signal processing unit or cooperates inductive signal processing unit to realize by touch-screen.

7. the mobile communication terminal with dynamic navigation function is characterized in that, comprising:

The man-machine interaction zone is divided into main message area and dynamic navigation district at least; Described main message area is used to carry out information and shows, the operation that described dynamic navigation district is used to realize the output of operation prompt information and accept the user is imported;

Primary processor is electrically connected described man-machine interaction zone, is used for converting at least one operation input at this operation prompt information to corresponding application-layer events; Carry out this application-layer events, at at least one described application-layer events, upgrade the display message of main message area and the operation prompt information in dynamic navigation district simultaneously, the information that the operation prompt information of described dynamic navigation district output shows corresponding to this main message area.

8. mobile communication terminal according to claim 7 is characterized in that, described dynamic navigation district comprises touch-screen or capacitive sensing unit; This mobile communication terminal also comprises inductive signal processing unit.

9. according to each described mobile communication terminal of claim 7 to 8, it is characterized in that this application-layer events depends on information, the operation prompt information of this dynamic navigation district output and user's the operation that this main message area shows.

10. mobile communication terminal according to claim 9 is characterized in that, described primary processor has:

Drive Layer is used to read user's input information, converts thereof into regional unique code identification and transmission according to the area configurations table;

Administration and supervision authorities are used to receive the unique code identification in described zone, convert thereof into application-layer events and transmission according to the event configuration table;

Application layer is used to resolve this application-layer events, carries out the application program of application-layer events representative.

11. mobile communication terminal according to claim 9 is characterized in that, described man-machine interaction zone comprises two LCDs in a LCDs or corresponding main message area of difference and dynamic navigation district.

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