CN101453607A - Reproducer, digital camera, slide show reproduction method and program - Google Patents

Abstract

The invention provides a reproducer, digital camera, slide show reproduction method, program. The reproducer is provided with members shown below. Namely, the reproducer is provided with a storage part for storing images, a vibration detection part for detecting a vibration operation by a user, a switching instruction part for instructing switching of reproduction content in slide show reproduction based on a detection result from the vibration detection part, a synthesis processing part for performing creation processing of slide show images, which are images for the slide show reproduction, based on instructions of the switching instruction part, and a slide show control part for performing the slide show reproduction of the images stored in the storage part and the slide show images.

Description

Transcriber, digital camera, diaprojection reproducting method and program

Technical field

The present invention relates to carry out transcriber, digital camera, diaprojection reproducting method, imaging reconstruction method and the program that diaprojection is reproduced.

Background technology

The application is based on the Japanese patent application of submitting on December 6th, 2007 2007-316070 number and require its priority, incorporates its full content at this in the mode of quoting as proof.

In recent years, along with popularizing of digital camera, the high capacity that is used to write down the recording medium of numerical data has also been obtained progress, compares with the epoch of main use film camera, can easily take great amount of images.

In light of this situation,, mainly carried out following method: this image is printed output as photo, and it is made photograph album appreciate, in addition, also proposed various enjoying methods as the method for appreciate taking obtained image in the past.

For example, following digital camera being disclosed: can make up the diaprojection that a plurality of images that write down and sound carries out picture strip sound easily and reproduce in TOHKEMY 2004-297424 communique.In the disclosed digital camera of this TOHKEMY 2004-297424 communique, utilize the still image reproduction units to reproduce the still image that is recorded in the static image file in the storage card, utilize the LCD panel to show the still image that is reproduced, utilize the still image selected cell from shown a plurality of still images, to select the still image that will in diaprojection, use.On the other hand, utilize the audio reproduction unit to come the sound of the audio files of reproducing recorded, utilize and insert the unit selected still image of insertion on sound a plurality of positions in proper order of audio files respectively, utilize still image sound display unit on the LCD panel, to be presented at the diaprojection data of having inserted still image in the sound order.

In addition, above-mentioned diaprojection is reproduced and is meant, switches a plurality of images and the imaging reconstruction method of successively reproducing with the stipulated time.

And the photo that discloses following structure in TOHKEMY 2005-5988 communique is appreciated system: vibrating sensor is set in digital camera, by shaking this digital camera, changes the demonstration form of the photo on the display.In the disclosed photo appreciation of this TOHKEMY 2005-5988 communique system,, be presented at the demonstration metamorphosis of the image on this display unit when user shake during with digital camera that display unit is connected.

The camera head of the action that can put rules into practice is simply also disclosed in TOHKEMY 2006-87049 communique in addition.In the disclosed camera head of this TOHKEMY 2006-87049 communique, under the attitude of the camera head situation different with attitude X, check whether return original attitude X within a certain period of time, when be judged to be when returning original attitude X within a certain period of time, when having shaken this camera head, the reproduced image that change shows on the display unit that this camera head had.Thus, even the inoperation button only by this camera head of shake, also can carry out the demonstration of reproduced image.

But diaprojection is reproduced and is had following problem: do not reach certain more than the degree if the quantity of related image is reproduced in this diaprojection, then can become very dull diaprojection and reproduce for the appreciator.In addition, the disclosed technology of above-mentioned TOHKEMY 2004-297424 communique can't solve such problem.

In addition, if by for example applying shirtsleeve operations such as vibration change the demonstration form of the image that shows on display device, even amount of images then seldom also can be rich in the demonstration that changes, but it has and must be continuously applied the such problem of predetermined operation to this device all the time.In addition, above-mentioned TOHKEMY 2005-5988 communique and the disclosed technology of above-mentioned TOHKEMY 2006-87049 communique do not solve such problem.

Summary of the invention

The present invention In view of the foregoing finishes, even its objective is provides under the few situation of the object images quantity of carrying out the diaprojection reproduction, also can carry out transcriber, digital camera, diaprojection reproducting method, program and imaging reconstruction method that the rich diaprojection that changes is reproduced in simple operation.

In order to reach above-mentioned purpose, the transcriber of the present invention's the 1st mode carries out the diaprojection of a plurality of images of successively reproducing and reproduces, and it is characterized in that this transcriber has: storage part, and it stores above-mentioned image; Vibration detecting part, it detects the vibration operation of user to this transcriber; Switch instruction unit, it indicates the reproduction content that above-mentioned diaprojection is reproduced to switch according to by the detected vibration operation of above-mentioned vibration detecting part; Synthetic handling part, it is according to the indication of above-mentioned switching instruction unit, and the generation that to carry out the used again image of above-mentioned diaprojection be the diaprojection image is handled; And the diaprojection control part, it carries out above-mentioned diaprojection reproduction to image and the above-mentioned diaprojection image that is stored in the above-mentioned storage part.

In order to reach above-mentioned purpose, the feature of the digital camera of the present invention's the 2nd mode is that this digital camera has the described transcriber of above-mentioned the 1st mode.

In order to reach above-mentioned purpose, the diaprojection reproducting method of the present invention's the 3rd mode is used to carry out the transcriber that the diaprojection of a plurality of images of successively reproducing is reproduced, it is characterized in that this diaprojection reproducting method has following steps: the vibration detection step, detect the vibration operation of user to this transcriber; Switch the indication step, according to detected testing result in above-mentioned vibration detection step, the reproduction content that indication is reproduced above-mentioned diaprojection is switched; Synthetic treatment step is according to indicating the switching indication of carrying out in the step in above-mentioned switching, carry out the used again image of above-mentioned diaprojection the generation that is the diaprojection image to handle; And diaprojection reproduction step, use comprises above-mentioned diaprojection image and carries out above-mentioned diaprojection reproduction at interior image.

In order to reach above-mentioned purpose, the diaprojection that the program of the present invention's the 4th mode makes the computer of transcriber carry out a plurality of images of successively reproducing is reproduced, and it is characterized in that this program makes computer carry out following function: memory function, store above-mentioned image; The vibration detection function detects the vibration operation of user to this transcriber; Switch deixis,, indicate the reproduction content that above-mentioned diaprojection is reproduced to switch according to by the detected testing result of above-mentioned vibration detection function; Synthetic processing capacity, according to the switching indication of above-mentioned switching deixis, the generation that to carry out the used again image of above-mentioned diaprojection be the diaprojection image is handled; And the diaprojection controlled function, image and the above-mentioned diaprojection image of being stored by above-mentioned memory function carried out above-mentioned diaprojection reproduction.

In order to reach above-mentioned purpose, the feature of the transcriber of the present invention's the 5th mode is that this transcriber has: storage part, its memory image; Vibration detecting part, it detects the vibration operation of user to this transcriber; And image processing part, it implements the image processing of regulation according to the vibration detection result of above-mentioned vibration detecting part to above-mentioned image.

In order to reach above-mentioned purpose, the transcriber successively reproducing of the present invention's the 6th mode shows a plurality of photographic image datas, it is characterized in that this transcriber has: the incident detection unit, and it judges the incident of above-mentioned photographic image data; Event classification portion, it is classified to above-mentioned photographic image data according to the result of determination of above-mentioned incident detection unit; And display control unit, it is chosen in a plurality of photographic image datas of obtaining under the same incident according to the classification results of above-mentioned event classification portion, and it is implemented to reproduce demonstration after synthetic the processing.

In order to reach above-mentioned purpose, the imaging reconstruction method successively reproducing of the present invention's the 7th mode shows a plurality of photographic image datas, it is characterized in that, this imaging reconstruction method has following steps: the incident determination step, judge the incident of above-mentioned photographic image data; The event classification step according to the result of determination of above-mentioned incident determination step, is classified to above-mentioned photographic image data; And the demonstration controlled step, according to the classification results of above-mentioned event classification step, be chosen in a plurality of photographic image datas of obtaining under the same incident, it is implemented to reproduce demonstration after synthetic the processing.

According to the present invention, even can provide under the few situation of the object images quantity of carrying out the diaprojection reproduction, also can carry out transcriber, digital camera, diaprojection reproducting method, program and the imaging reconstruction method that the rich diaprojection that changes is reproduced with shirtsleeve operation.

Other advantages of the present invention will be set forth in explanation subsequently, and wherein a part will become apparent according to this explanation, perhaps can know by practice of the present invention.Advantage of the present invention can realize and obtains by means of hereinafter specifically noting and combination.

Description of drawings

Be contained in the specification and constitute specification a part the accompanying drawing illustration embodiments of the present invention, and be used from the detailed description one of above general remark that provides and the following execution mode that provides principle of the present invention set forth.

Fig. 1 is the block diagram of structure that the digital camera of an embodiment of the present invention is shown.

Fig. 2 is that transverse axis is shown is that shooting date time, the longitudinal axis are the figure of an example of the chart of the view data quantity that obtains of shooting.

Fig. 3 is illustrated in to determine the figure of the handling process of the above-mentioned camera control part of the music data of reproduction simultaneously when the diaprojection of carrying out view data is reproduced automatically.

Fig. 4 is the figure of handling process of the camera control part relevant with reproducing control with taking control that the digital camera of an embodiment of the present invention is shown.

Fig. 5 is the figure that the flow process that shows that the form decision is handled is shown.

Fig. 6 A is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 6 B is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 6 C is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 6 D is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 6 E is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 6 F is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 7 is the figure that the handling process of first image processing pattern is shown out.

Fig. 8 is the figure that the handling process of two image processing patterns of beginning is shown.

Fig. 9 A is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 9 B is the figure that an example of the demonstration that diaprojection reproduces is shown.

Fig. 9 C is the figure that an example of the demonstration that diaprojection reproduces is shown.

Figure 10 A is the figure that an example of the demonstration that diaprojection reproduces is shown.

Figure 10 B is the figure that an example of the demonstration that diaprojection reproduces is shown.

Figure 10 C is the figure that an example of the demonstration that diaprojection reproduces is shown.

Figure 10 D is the figure that an example of the demonstration that diaprojection reproduces is shown.

Embodiment

Below, with reference to accompanying drawing an embodiment of the present invention is described.

Fig. 1 is the block diagram of structure that the digital camera of an embodiment of the present invention is shown.As shown in Figure 1, digital camera 1 has: camera control part 10, console switch portion 11, timing portion 12, ROM13, image pickup part 14, optical system control part 15, image processing part 16, record-playback portion 17, storage part 18, display control unit 19, display part 20, Department of Communication Force 21, facial test section 22, intercepting portion 23, synthetic handling part 24, vibration detecting part 33 and reproducing music portion 34.

Above-mentioned camera control part 10 is unified control according to the program that is stored among the above-mentioned ROM 13 to whole camera.But, here for convenience of explanation, in the following description, establishing above-mentioned camera control part 10 has: the division 10a of the processing (being described in detail in the back) of classifying, carry out the diaprojection control part 10b of the control and treatment (being described in detail in the back) that diaprojection reproduces and switch the switching instruction unit 10c that (being described in detail in the back) handled in indication.

At length say, above-mentioned division 10a judges the incident of the shooting of having carried out this view data etc., according to this result of determination according to shooting date time of view data etc., to above-mentioned storage part 18 recording image datas the time, carry out the classification of the related view data of this shooting and handle.

When having the indication that diaprojection reproduces, above-mentioned diaprojection control part 10b controls above-mentioned storage part 18, above-mentioned image processing part 16 and above-mentioned display control unit 19 etc., carries out the diaprojection reproducing control of the switching etc. of view data and music data.

Above-mentioned switching instruction unit 10c is according to the testing result by vibration detecting part 33 notices described later, calculate the number of times k and the time of vibration tk that this digital camera are vibrated operation (shake), judge user's handover operation content thus, and according to this judged result, to the switching of above-mentioned diaprojection control part 10b indicating image data.

Aforesaid operations switch portion 11 is connected with above-mentioned camera control part 10, detect the indication of user to aforesaid operations switch portion 11 after, carry out indication to above-mentioned camera control part 10.

Above-mentioned timing portion 12 is connected with above-mentioned camera control part 10, and the time on date is counted and the date time data obtained to above-mentioned camera control part 10 outputs.

Above-mentioned ROM 13 is connected with above-mentioned camera control part 10, and stores the program that 10 pairs of these cameras of above-mentioned camera control part totally unify to control usefulness.

Above-mentioned image pickup part 14 has at least: comprise the phtographic lens that makes the shot object image imaging optic, optical image is carried out the imaging apparatus of opto-electronic conversion and to handling the shooting handling part that the back generates view data and output from the signal of telecommunication of this imaging apparatus output.

Above-mentioned optical system control part 15 drives the camera lens and the shutter of the above-mentioned optic inside in the above-mentioned image pickup part 14 according to the indication from above-mentioned camera control part 10.

16 pairs of view data of above-mentioned image processing part are implemented various image processing such as color treatments or gamma processing.And above-mentioned image processing part 16 also has compressed and decompressed portion, when taking, by this compressed and decompressed portion, compress processing to having implemented the view data after the image processing, when reproducing, carry out image processing such as decompression having implemented the view data after the compression.

Above-mentioned record-playback portion 17 will be by the Imagery Data Recording of above-mentioned image processing part 16 compressions in above-mentioned storage part 18 when photographic images, when reproduced image, reads view data by the regulation of above-mentioned image processing part 16 compressions from above-mentioned storage part 18.

Above-mentioned storage part 18 is except the zone of storing common view data and music data etc., also have: show and use temporary storage area 18a that it stores view data that shooting obtains and by synthesizing that handling part 24 and image processing part 16 carry out image processing and the used again view data of diaprojection that generates temporarily; And music temporary storage area 18b, its be stored in diaprojection reproduce in the music data etc. of employed BGM.

Above-mentioned display control unit 19 shows on above-mentioned display part 20 by above-mentioned image processing part 16 and carries out image processing and the image of the demonstration usefulness that generates is a monitoring picture when taking.And above-mentioned display control unit 19 shows on above-mentioned display part 20 from above-mentioned storage part 18 and reads and carried out the image after the decompression by above-mentioned image processing part 16 when reproduced image.

Above-mentioned Department of Communication Force 21 is to be used for for example exterior PC or can to carry out for example interface of the data transmit-receive of view data or music data etc. via the external equipments such as server that network etc. communicates.

Above-mentioned facial test section 22 has: position detection part 22b, and its test example is as being presented at the photographic images on the above-mentioned display part 20 and the position of the face by taking personage in the obtained view data etc. when taking; And the 22a of size detection portion, it detects the size of being carried out the above-mentioned face that position probing obtains by above-mentioned position detection part 22b.Above-mentioned facial test section 22 so detects the information relevant with the face of subject.

Here, by information relevant such as the having or not of the face in the detected photographic images of above-mentioned facial test section 22 etc., size and positions, when this view data of storage, be made to file and store in the above-mentioned storage part 18 with clocking information with face.Information that should be relevant with face is being carried out the use of branch time-like to view data.

When taking, can also be applied in exposure and the focusing etc. in addition by the above-mentioned facial test section 22 detected information relevant with position above-mentioned face.

Above-mentioned intercepting portion 23 carries out the processing of intercepting facial parts from view data according to by the detected information relevant with face of above-mentioned facial test section 22.

Above-mentioned synthetic handling part 24 carries out the amplification of the face that intercepted by above-mentioned intercepting portion 23 or dwindles handling and 4 pictures are synthetic handles etc., generates the face-image different with original face-image.Below, this image is called the diaprojection secondary image.

In addition, above-mentioned intercepting portion 23 and above-mentioned synthetic handling part 24 carry out above-mentioned processing according to the indication from above-mentioned diaprojection control part 10b.

Above-mentioned vibration detecting part 33 has vibrating sensor (not shown), and it detects the state of user to the vibration operation of this digital camera by this vibrating sensor, and notifies this testing result to above-mentioned switching instruction unit 10c.

34 indications according to above-mentioned diaprojection control part 10b of above-mentioned reproducing music portion, the reproduction that makes view data are reproduced the music that is stored among the above-mentioned music usefulness temporary storage area 18b with regularly consistent.

Below, describe reproducing as the diaprojection of a principal character part of the digital camera of present embodiment.

Fig. 2 is that transverse axis illustrates the chart that shooting date time, the longitudinal axis illustrate the view data quantity that shooting obtains.That is chart, shown in Figure 2 is the example that the chart of filming frequency deviation is shown.

In Fig. 2, be divided in one day 6 time periods (be called successively the 1st time period, the 2nd time period ..., the 6th time period), to represent that with a square mode of an image is illustrated in the quantity of the captured view data that obtains in each time period.

And then, in Fig. 2, distinguish view data (hereinafter referred to as the character image data) that the main subject of expression is the personage and with the part beyond the personage as the main view data (hereinafter referred to as the general pattern data) of subject.That is, added the square of diagonal line hatches and represented above-mentioned character image data, hollow square is represented above-mentioned general pattern data.

In example shown in Figure 2, have September 21 as incident and to carry out athletic meeting, carried out wedding ceremony September 25, the view data quantity that obtains in shooting on September 20 is 0, the view data quantity that obtains in shooting on September 21 is 18.

More particularly, the details of the view data that shooting on this September 21 obtains is: the character image data are 1 in the 1st time period, the character image data are that 5 and general pattern data are 2 in the 2nd time period, the character image data are that 5 and general pattern data are 2 in the 3rd time period, the character image data are 2 in the 4th time period, and the general pattern data are 1 in the 5th time period.

Like this, if the general user then has very big-difference on the image data amount that each shooting day shooting obtains.In addition, the deviation of this shooting number has certain pattern usually, so can judge the view data that shooting obtains is taken under which kind of incident with the precision of certain degree.

And, by judging the incident of captured image data, can when reproducing, the diaprojection of carrying out view data determine the suitable music data that reproduces simultaneously automatically.Fig. 3 is illustrated in to determine the figure of the handling process of the above-mentioned camera control part 10 (mainly being above-mentioned division 10a) of the music data of reproduction simultaneously when the diaprojection of carrying out view data is reproduced automatically.

In addition, here for convenience of explanation, be that unit illustrates this incident determination processing with one day, but not necessarily must with one day be unit, obviously can also come the judgement incident with shorter unit or longer unit.

At first, above-mentioned division 10a according to the shooting that is stored in the view data in the above-mentioned storage part 18 constantly, with these view data be categorized as above-mentioned the 1st the time period～the 6th time period (step S1).

Then, above-mentioned division 10a judge date in regulation, in above-mentioned steps S1, carry out sorted view data whether concentrate on above-mentioned the 1st the time period～some time periods (step S2) in the 6th time period.This judgement has utilized the following fact: the number of times of carrying out shooting in travelling etc. has the tendency that is scattered in each time period in one day.

Be branched off under the situation of "Yes" at this step S2, above-mentioned division 10a judges that whether the shared ratio of the view data of the facial feature of shooting is less than regulation ratio (step S3).S3 is branched off under the situation of "Yes" in this step, and being judged to be the incident of having taken this view data for example is " school activity " (step S4) such as athletic meeting.On the other hand, be branched off at above-mentioned steps S3 under the situation of "No", it is " party " (step S5) that above-mentioned division 10a is judged to be the incident of having taken this view data.

But, being branched off at above-mentioned steps S2 under the situation of "No", above-mentioned division 10a judges that whether the shared ratio of the view data of having taken landscape is greater than regulation ratio (step S6).Be branched off under the situation of "Yes" at this step S6, it is " travelling " (step S7) that above-mentioned division 10a is judged to be the incident of having taken this view data.On the other hand, be branched off at above-mentioned steps S6 under the situation of "No", above-mentioned division 10a is judged to be the view data that this view data is " other " (step S8).

When finishing the processing of above-mentioned steps S4, step S5, step S7 or step S8, above-mentioned division 10a selects decision and the corresponding music data of this incident (step S9) according to the incident of judging as mentioned above the music data in being stored in above-mentioned storage part 18.

In addition, can carry out automatically the opportune moment after shooting, obviously also can carry out by user's indication with reference to the incident determination processing of Fig. 3 explanation.

By the processing of above explanation, can judge the incident of having taken this view data according to the view data that shooting obtains, and select decision and the corresponding music data of this incident.

Fig. 4 is the figure of handling process of the camera control part 10 relevant with reproducing control with taking control that the digital camera 1 of present embodiment is shown.

At first, above-mentioned camera control part 10 judges whether these digital cameras have set screening-mode (step S11).Be branched off under the situation of "Yes" at this step S11, above-mentioned camera control part 10 judges whether carried out releasing operation (step S12) by the user.S12 is branched off under the situation of "No" in this step, returns above-mentioned steps S11.That is, above-mentioned steps S12 waits for that the user carries out the step of releasing operation.

On the other hand, be branched off under the situation of "Yes" the Imagery Data Recording that above-mentioned camera control part 10 will shooting obtains by user's releasing operation (step S13) in the above-mentioned storage part 18 at above-mentioned steps S12.Then, above-mentioned record-playback portion 17 is recorded in the shooting of this view data in the above-mentioned storage part 18 (step S14) with this view data constantly explicitly.And then above-mentioned record-playback portion 17 will be recorded in the above-mentioned storage part 18 (step S15) explicitly by above-mentioned facial test section 22 detected facial positions and this view data.

In addition, above-mentioned camera control part 10 also judges whether to exist (for example in 10 minutes) shot image data (hereinafter referred to as previous view data) (step S16) before this view data.Be branched off under the situation of "Yes" at this step S16, it is the view data of the image sets identical with previous view data that above-mentioned camera control part 10 is inferred as, and this view data is write down " relevant with previous view data " such supplementary (step S17) by way of parenthesis.View data being carried out the branch time-like, utilize this supplementary in order to carry out diaprojection to reproduce.On the other hand, be branched off at above-mentioned steps S16 under the situation of "No", return above-mentioned steps S12.

Like this, if there is the supplementary of the association between the presentation video data, then carrying out being easy to carry out the grouping of view data when diaprojection described later is reproduced.And, when diaprojection is reproduced, to compare as the situation of reproducing object with all images data in will being stored in above-mentioned storage part 18, the view data that will belong to a classified group is as reproducing object, do to be grouped into a theme like this, so can make the user that enjoyment is more arranged.

And, by belonging to a certain group view data as reproducing object, can prevent following fortuitous event: for example when diaprojection is reproduced, reproducing between the colleague under the situation of captured a plurality of view data, sneak into the view data of the private area of reproducing the user suddenly, and the atmosphere that destorys the scene.

In addition, if in view data, record supplementary related between aforesaid presentation video data by way of parenthesis, even then be not categorized as the processing of group, also can after shooting, reproduce at once and appreciate view data or synthesize processing etc. with camera as means of communication.

After the processing that finishes above-mentioned steps S17, above-mentioned camera control part 10 is further carried out the incident determination processing with reference to flowchart text shown in Figure 3, the music data that decision is reproduced when the diaprojection of this view data is reproduced is recorded in the filename of this music data etc. in the above-mentioned storage part 18 (step S18).But the processing of this step S18 is not only to carry out automatically, for example can manually be carried out by the user before carrying out the diaprojection reproduction yet.

When finishing the processing of above-mentioned steps S18, judge the operation (step S29) of the power supply that whether has carried out disconnecting this digital camera 1.S29 is branched off under the situation of "No" in this step, returns above-mentioned steps S11.On the other hand, S29 is branched off under the situation of "Yes" in this step, disconnects the power supply of this digital camera 1, finishes this processing.

But, being branched off at above-mentioned steps S11 under the situation of "No", above-mentioned camera control part 10 judges whether by user's operation this digital camera 1 to be set at " music/image reproduction mode " (step S19).Be branched off under the situation of "No" at this step S19, above-mentioned camera control part 10 is set at " image reproduction mode " with this digital camera 1, according to user's operation, carry out the reproduction that image is only arranged or the diaprojection reproduction (step S30) of reproducing without music data.

Then, judge whether to have been undertaken the reproduction operation (step S31) of the music data of regulation by the user.Be branched off under the situation of "No" at this step S31, continue to carry out the processing of " image reproduction mode ".

On the other hand, be branched off at above-mentioned steps S31 under the situation of "Yes", above-mentioned camera control part 10 is carried out by the music data of user's selection and the reproduction processes (step S32) of view data.

Be branched off at above-mentioned steps S19 under the situation of "Yes", above-mentioned camera control part 10 is read user-selected view data from above-mentioned storage part 18, as the regeneration candidate image that diaprojection is reproduced, this view data is to belong to the view data by the incident judged with reference to the incident determination processing of flowchart text shown in Figure 3 or carried out view data (step S20) after the incident determination processing by user's operation.Then, above-mentioned switching instruction unit 10C judges whether by the user camera has been carried out vibration operation (step S21).

Be branched off at above-mentioned steps S21 under the situation of "Yes", above-mentioned camera control part 10 is judged the vibration number K and the time of vibration tk (step S22) of this vibration operation according to the output from above-mentioned vibration detecting part 33.Then, above-mentioned camera control part 10, decides and reproduce the demonstration form (step S23) that shows on display part 20 by the processing shown in the flow chart of subprogram among Fig. 5 according to this result of determination.

Below, illustrate that with reference to flow chart shown in Figure 5 the decision of this demonstration form is handled.In addition, for convenience of explanation, establishing reproduction candidate image quantity (quantity of related view data is reproduced in the diaprojection) m that diaprojection reproduces is 4, abbreviates this view data as a, b, c, d according to the order of shooting date time.Here, establishing a, c is the facial image of main subject (hereinafter referred to as face-image) that is.And, the group of a, b, c, this view data of d is called image column.

In addition, under the situation of camera not being vibrated operation (situation of vibration number K=0), as shown in Figure 6A, above-mentioned camera control part 10 is according to a → b → c → d → a ... order, the diaprojection of carries out image data is reproduced repeatedly, reproduces as common diaprojection.

At first, establishing the reproduction candidate image quantity that diaprojection reproduces is m (step S41).Then, judge whether vibration number K is 1 (step S42).Be branched off under the situation of "Yes" at this step S42, shown in Fig. 6 B, change the reproduction order (step S45) of view data at random.

Fig. 6 B illustrates this example of changing at random.In the example shown in Fig. 6 B, for example change the change of the reproduction order of c and a, reproduction order becomes c → b → a → d → c ...In addition, in this step S45, change reproduction order at random and get final product, handle by this, the demonstration form that diaprojection is reproduced has variation.

Be branched off at above-mentioned steps S41 under the situation of "No", judge whether time of vibration tk is tk 5 (second) (step S43).Be branched off under the situation of "No" at this step S43, judge to reproduce in the candidate image data reproduction order for initial and next view data whether be do not implement the image processing of step S46 described later or step S47 and with facial as the main view data (step S44) of subject.Be branched off under the situation of "No" at this step S44, carry out the processing (step S46) of " opening first image processing pattern " described later (only the beginning image being applied the synthetic pattern of handling).

In addition, in the example shown in Fig. 6 A, a is the view data of face-image, and b is not the view data of face-image, so above-mentioned steps S44 is branched off into "No".

Below, reference flow chart shown in Figure 7 illustrates the subprogram of above-mentioned steps S46 " opening first image processing pattern ".That is, above-mentioned camera control part 10 judges at first whether vibration number K is 2 (step S61) in " opening first image processing pattern ".Be branched off under the situation of "Yes" at this step S61, carry out the beginning image and be the processing and amplifying of a or dwindle processing, and generate enlarged image or downscaled images (step S62).In addition, by the control of above-mentioned camera control part 10, carry out the image processing of this step S62 by above-mentioned switching instruction unit 10c, above-mentioned facial test section 22, above-mentioned intercepting portion 23 and above-mentioned synthetic handling part 24.

Here, Fig. 6 C is the figure that is illustrated in the demonstration example that the diaprojection of the image that generates among the above-mentioned steps S62 reproduces.Here, (image of the image processing of step S46 or step S47 has been implemented in a～graphical representation d) to surround mark with rectangle in showing example.Therefore, (image of a～d) is the image of the image processing of implementation step S46 or step S47 not, and (a～d) represents each image to above-mentioned mark not surround mark with rectangle in showing example.In addition, synthetic image (a/2, a/3) is the diaprojection secondary image in order to carry out diaprojection.

In addition, these represent that the mark of each image and the figure of these marks of encirclement are to mark for convenience of explanation, do not show when the diaprojection of reality is reproduced.

In the example shown in Fig. 6 C, generate 1/2 downscaled images that the beginning image is a and (be called a/2) and (be called a/3), after a, show these downscaled images successively with 1/3 downscaled images.That is, according to a → a/2 → a/3 → b → c → d → a → a/2 ... order, carry out diaprojection repeatedly and reproduce.

In addition, illustrate here and generate the example that downscaled images shows, similarly show but obviously also can generate enlarged image.And reduction magnification and enlargement ratio can be set arbitrarily.

But, be branched off at above-mentioned steps S61 under the situation of "No", judge whether vibration number K is 3 (step S63).Be branched off under the situation of "Yes" at this step S63, it is the composograph (being called (a+a)) (step S64) of the face among a that generation has two beginning images side by side.

Fig. 6 D is the figure that is illustrated in the demonstration example of the composograph that generates among this step S64.Shown in the example shown in this figure, reproduction order is that the 2nd image is the composograph (a+a) that generates in above-mentioned steps S64.Then, when diaprojection is reproduced, for example shown in Fig. 6 D, according to a → (a+a) → b → c → d → a → (a+a) ... order, carry out diaprojection repeatedly and reproduce.

In addition, in above-mentioned steps S64, for example shown in Fig. 6 F like that, can generate also side by side that 4 beginning images are the composograph (being called (a * 4)) of the face among a, the number of face side by side without limits.

On the other hand, be branched off at above-mentioned steps S63 under the situation of "No", generating the beginning image is that the image (being called a ') that a has implemented after the color treatments (for example black white reverse or sepia are handled) is used as composograph (step S65).

Fig. 6 E is the figure that is illustrated in the demonstration example of the composograph that generates among this step S65.Shown in the example shown in this figure, reproduction order is that the 2nd image is the composograph a ' that generates in above-mentioned steps S65.Then, when diaprojection is reproduced, for example shown in Fig. 6 E, according to a → a ' → b → c → d → a → a ' ... order, carry out diaprojection repeatedly and reproduce.

When finishing the processing of above-mentioned steps S62, above-mentioned steps S64 or above-mentioned steps S65, return the processing of flow chart shown in Figure 5.

But, be branched off at the above-mentioned steps S44 of flow chart shown in Figure 5 under the situation of "Yes", carry out the processing (step S47) of " starting two image processing patterns " (only image and its next image to beginning applies the synthetic pattern of handling).

Below, reference flow chart shown in Figure 8 illustrates the subprogram of above-mentioned steps S47 " starting two image processing patterns ".Promptly, be branched off at above-mentioned steps S44 under the situation of "Yes", judge at first whether vibration number K is K 3 (step S71).Be branched off under the situation of "No" at this step S71, generate that to have synthesized the beginning image be face among a and the 2nd image composograph that is the face among the b (be called (a * b)) (step S72).Then, when diaprojection is reproduced, according to a → (a * b) → b → c → d → a → ... order, carry out diaprojection repeatedly and reproduce.

In addition, for example utilize the testing result of face to make facial size unanimity and utilize gradual change (morphing) technology etc., carry out the synthetic processing of this step S72.The gradual change technology is meant visually the technology that the switching from an image transition to another image naturally changes.All be also to synthesize under the situation of the face-image of handling at two images of beginning for example, it is effectively synthetic that the synthetic processing of this step S72 can be described as.

On the other hand, be branched off at above-mentioned steps S71 under the situation of "Yes", be created on top dispose two beginning images be among a face, dispose synthetic 4 split images (step S73) that two next images are the face among the b in the bottom.Then, when diaprojection is reproduced, for example between a and b, insert and to reproduce demonstration by synthetic 4 split images.

When finishing the processing of above-mentioned steps S72 or above-mentioned steps S73, return the processing of flow chart shown in Figure 5.

But, be branched off at the above-mentioned steps S43 of flow chart shown in Figure 5 under the situation of "Yes", be under the situation of time of vibration tk certain time above (being more than 5 seconds here), remove " additional effect is removed and handled " (the step S48) of all image processing of in above-mentioned steps S45～above-mentioned steps S47, implementing.

That is, in this step S48, from original image row, remove the with good grounds user's of institute above-mentioned vibration operation and generate and be appended to the composograph of original image in being listed as.By this step S48, removed all and before this moment, the vibration of this digital camera has been operated the composograph that generates and insert in the diaprojection reproduction according to the user.Again make under the situation of new image column at hope elimination complex image row or hope, this is effective processing.

When the arbitrary processing among end above-mentioned steps S45～above-mentioned steps S48, the image switching time tc (step S49) when above-mentioned camera control part 10 calculates the diaprojections reproduction.

In this step S49, if ts is " recovery time of selected music ", m is " reproducing candidate image quantity ", utilizes tc=ts/m to come demonstration tc switching time of computed image, so that just in time reproduce all images of this image column in the time that a piece of music reproduces.

Then, judge whether tc is 3 (seconds) above (step S50).Be branched off under the situation of "No" at this step S50, without exception tc be set at once more tc=3 (sec) (step S51).

The processing of this step S51 is to make the tc that calculates in above-mentioned steps S50 become the processing of the value below the setting.This processing is considered following situation and carried out: the recovery time of a view data is when long, as the image switching speed variation of diaprojection.

Be branched off under the situation of "Yes" at above-mentioned steps S50 and after the processing of the above-mentioned steps S51 that is through with, enter the step S24 of flow chart shown in Figure 4.

That is, the composograph that generates of the processing of the subprogram that above-mentioned diaprojection control part 10b will be by reference Fig. 5 explanation is stored in above-mentioned demonstrations in the above-mentioned storage part 18 with (step S24) among the 18a of temporary storage area temporarily.

Then, above-mentioned diaprojection control part 10b is according to above-mentioned reproduction order, controls above-mentioned reproducing music portion 34 etc., the reproduction (step S25) of beginning view data and music data.And then above-mentioned diaprojection control part 10b judges demonstration tc switching time (step S26) that whether has passed through image.Be branched off under the situation of "Yes" at this step S26, the view data of reproducing is switched to next view data (step S27).

Be branched off under the situation of "No" at above-mentioned steps S26 and after the processing of the above-mentioned steps S27 that is through with, above-mentioned diaprojection control part 10b judges whether to have carried out finishing the operation (step S28) that this diaprojection is reproduced by the user.S28 is branched off under the situation of "No" in this step, returns above-mentioned steps S21.On the other hand, be branched off at above-mentioned steps S28 under the situation of "Yes", finish this diaprojection and reproduce.

In addition, be not limited to single treatment, can vibrate operation to this digital camera, make up above-mentioned synthetic processing by being divided into repeatedly based on synthetic processing of the image of vibration operation.Thus, can further increase the amount of images of demonstration.

Below, an example of the processing when the vibration operation of also having carried out other kinds after the vibration operation of having been carried out regulation by the user being described with reference to Fig. 9 A～Fig. 9 C.

(situation of vibration number K=2 → vibration number K=3)

Fig. 9 A is the figure of the demonstration example of the diaprojection reproduction when being illustrated in the vibration operation of also having carried out vibration number K=3 after the vibration of having carried out vibration number K=2 is operated.

As shown in the drawing, become and the routine identical demonstration of the demonstration that illustrates with reference to Fig. 8 (2) under the state of vibration operation that initial vibration operation is vibration number K=2 having carried out.Here, also carry out the vibration operation of vibration number K=3, shown in Fig. 9 A, append 3 opening and closing and become image ((a+a), (a+a)/2, (a+a)/3) thus.(a+a)/the 2nd, above-mentioned (a+a) is reduced into image after 1/2, (a+a)/the 3rd, above-mentioned (a+a) is reduced into image after 1/3.

That is, when diaprojection is reproduced shown in Fig. 9 A, according to a → a/2 → a/3 → (a+a) → (a+a)/2 → (a+a)/3 → b → c → d → a → a/2 ... order, carry out diaprojection repeatedly and reproduce.

(situation of vibration number K=2 → vibration number K=3 → vibration number K=4)

Fig. 9 B is illustrated in the figure that has carried out the demonstration example that the vibration operation of vibration number K=3, the diaprojection when also having carried out the vibration operation of vibration number K=4 then reproduce after the vibration operation of having carried out vibration number K=2.

Promptly, by this a succession of vibration operation, in the display image in vibration when operation of only having carried out vibration number K=2, further append 9 opening and closing and become image ((a+a), (a+a)/2, (a+a)/3, a ', a '/2, a '/3, (a '+a '), (a '+a ')/2, (a '+a ')/3).

That is, when diaprojection is reproduced shown in Fig. 9 B, according to a → a/2 → a/3 → a+a → (a+a)/2 → (a+a)/3 → a ' → a '/2 → a '/3 → a '+a ' → (a '+a ')/2 ... order, carry out diaprojection repeatedly and reproduce.

(situation of vibration number K=1 → vibration number K=3)

Fig. 9 C is the figure of the demonstration example of the diaprojection reproduction when being illustrated in the vibration operation of also having carried out vibration number K=3 after the vibration of having carried out vibration number K=1 is operated.

As shown in the drawing, under the state of the vibration operation of having carried out initial vibration number K=1, become with reference to the routine identical demonstration of the illustrated demonstration of Fig. 6 B.Here, also carry out the vibration operation of vibration number K=3, thus shown in Fig. 9 C, appended side by side the composograph (c+c) of the facial parts among two c.That is, when diaprojection is reproduced, shown in Fig. 9 C, according to c → (c+c) → b → a → d → c ... order, carry out diaprojection repeatedly and reproduce.

And then, the control of the above-mentioned camera control part 10 when illustrating that with reference to Figure 10 A～Figure 10 D having carried out compound vibration operates.In addition, establish the image column such as Figure 10 A that carry out this vibration operation preceding (vibration number K=0) and be depicted as a → b → c → d ...

At first, being judged to be vibration number K in above-mentioned " starting two image processing patterns " is not K〉under 3 the situation (above-mentioned steps S71 is branched off into the situation of "No"), generate that to have synthesized the beginning image be face among a and the 2nd image composograph that is the face among the b ((a * b)) (step S72).Then, when diaprojection is reproduced, shown in Figure 10 B, according to a → (a * b) → b → c → d → a ... order, carry out diaprojection repeatedly and reproduce.

Then, when having carried out the vibration operation (being made as the vibration operation of vibration number K=2 here) of regulation by the user once more, about this image column, the a of beginning becomes the image that does not carry out image processing, and the 2nd image (a * b) become the image that has carried out image processing is so be branched off into "No" in above-mentioned steps S44.That is, use " opening first image processing pattern ".

In this case, above-mentioned steps S61 is branched off into "Yes", generates amplification/downscaled images (above-mentioned steps S62) of beginning image a.Here, generate the a/2, (downscaled images of a * b)/2, b/2.

By the processing of above explanation, when diaprojection is reproduced, shown in Figure 10 C, according to a → a/2 → (a * b) → (a * b)/2 → b → b/2 → c → d ... order, carry out diaprojection repeatedly and reproduce.

In addition, for example under the situation of having carried out the vibration operation according to the order of vibration number K=3, vibration number K=2 and vibration number K=1, change the reproduction order of reproducing with reference to the diaprojection of Figure 10 C explanation (with reference to Figure 10 D) at random.And, under the situation of this reproduction order, preceding two images (c and a) become the face-image of not implementing image processing.Therefore, after vibration when operation of carrying out, above-mentioned steps S44 is branched off into "Yes", enters the processing of above-mentioned " starting two image processing patterns ".

As described above, according to present embodiment, even can provide under the few situation of the object images quantity of carrying out the diaprojection reproduction, also can carry out transcriber, digital camera, diaprojection reproducting method and program that the rich diaprojection that changes is reproduced in simple operation.

Particularly, the user vibrates operation to the digital camera of present embodiment, thus, automatically generate to diaprojection reproduce that related image has been implemented processing and amplifying, dwindled processing, the image of various image processing such as dividing processing and color change processing.

Therefore, in diaprojection is reproduced, only have under the situation of minority even reproduce related theme view data,, for example also can enjoy and generate the image demonstration that variation has various variations like this by a theme according to the digital camera of present embodiment in this diaprojection.

More particularly, in the digital camera of present embodiment,, related image is reproduced in diaprojection implement various image processing, can increase view data quantity thus according to user's vibration operation (vibration number K and time of vibration tk).Thereby shown amount of images increases in the recovery time of music data tm, so the user shakes this digital camera more, becomes the diaprojection that high speed image switches more and reproduce.

According to prior art, under the few situation of the quantity of the related view data of diaprojection reproduction, when correspondingly reproducing these view data of demonstration, show identical view data every several seconds repetitions with the music data reproduction.That is, be that diaprojection very dull and that be sick of is easily reproduced, for the appreciator.

But, in the digital camera of present embodiment, even reproduce under the few situation of related view data in diaprojection, also can operate the vibration of this digital camera and suitably append the image (diaprojection secondary image) of having implemented various image processing, thereby the diaprojection that can pay close attention to content is reproduced according to the user.Therefore, when diaprojection is reproduced, because the view data quantity of reproducing change is many, so need in reproducing the candidate, not comprise and the related related few figure processing like this of image subject of this diaprojection reproduction unreasonablely.

In addition, in the digital camera of present embodiment, the user only shakes this simple action of this digital camera, just can carry out above-mentioned various reproduced image and switch.This vibration operation be for example with stirred vessel in object or apply to impact and destroy the intuitive operation that the such action of object communicates, be very easy and natural operation concerning the user.

Like this, according to the digital camera of present embodiment, can be rich in the diaprojection reproduction that variation and timing are switched interested image well, and reproduce the how much irrelevant of related image with diaprojection.

Embodiments of the present invention more than have been described, still, have the invention is not restricted to this, in the scope that does not break away from its purport, certainly carried out various improvement and change.

For example, in an above-mentioned execution mode, if above-mentioned vibration detecting part 23 is parts of merely judging the vibration operation that imposes on this digital camera, but in addition, as above-mentioned vibration detecting part 23, obviously can also use six axle sensors to wait and judge than vibrating the more complicated stirring operation of operation or throwing operation etc.Under the situation of such structure, can further increase the synthetic kind of handling of image.

In addition, about each processing of above-mentioned camera control part 10, obviously can utilize hardware to constitute its section processes or all processing.And, also can utilize software to constitute the processing of above-mentioned facial test section 22 grades.Obviously, concrete structure is the design item.

The following realization of various control and treatment of above-mentioned camera control part 10.That is, provide the software program that is stored among the above-mentioned ROM13 to above-mentioned camera control part 10, above-mentioned camera control part 10 makes each one carry out above-mentioned action according to this program that provides.

That is, the program of above-mentioned software itself realizes the function of above-mentioned camera control part 10.Therefore, this program itself is a form of the present invention.Certainly, the recording medium of storing this program also is a form of the present invention.In addition, as this recording medium, can use semiconductor memories such as magnetic recording medias such as optical record mediums such as flash memory, CD-ROM, DVD-ROM, MD, magnetic tape recording medium and IC-card etc.

In addition, be that example is illustrated in the present embodiment with the digital camera, still, be not limited to digital camera, for example in the camera section that mobile phone had, also can use present embodiment.

In addition, the invention is not restricted to above-mentioned execution mode, the implementation phase, in the scope that does not break away from its purport, can be out of shape and specialize structural element.And,, also can form various inventions by the appropriate combination of the disclosed a plurality of structural elements of above-mentioned execution mode.For example, can also from the entire infrastructure key element shown in the execution mode, delete several structural elements.And then, the structural element in can the appropriate combination different execution modes.

Those skilled in the art can expect other advantage and distortion at an easy rate.Therefore, the present invention is not limited to shown and illustrated detail and representative embodiments here in its broad scope.Therefore, can under the situation of aim that does not break away from claims and the defined total inventive concept of equivalent thereof or scope, carry out various distortion.

Claims (13)

1. transcriber, its diaprojection of carrying out a plurality of images of successively reproducing is reproduced, and it is characterized in that this transcriber has:

Storage part, it stores above-mentioned image;

Vibration detecting part, it detects the vibration operation of user to this transcriber;

Switch instruction unit, it indicates the reproduction content that above-mentioned diaprojection is reproduced to switch according to the testing result of above-mentioned vibration detecting part;

Synthetic handling part, it is according to the indication of above-mentioned switching instruction unit, and the generation that to carry out the used again image of above-mentioned diaprojection be the diaprojection image is handled; And

The diaprojection control part, it carries out above-mentioned diaprojection reproduction to image and the above-mentioned diaprojection image that is stored in the above-mentioned storage part.

2. transcriber according to claim 1 is characterized in that,

When carrying out above-mentioned diaprojection and reproduce, above-mentioned diaprojection control part undertaken switching under the situation of indication by above-mentioned switching instruction unit, above-mentioned synthetic handling part switches regulation is implemented in indication to above-mentioned diaprojection image image processing according to this, generate the diaprojection secondary image

Above-mentioned diaprojection control part carries out the diaprojection reproduction to being stored in the image in the above-mentioned storage part, above-mentioned diaprojection image and above-mentioned diaprojection secondary image.

3. transcriber according to claim 1 is characterized in that,

The synthetic processing that comprises two images is handled in the generation of the above-mentioned diaprojection image that above-mentioned synthetic handling part carries out,

At above-mentioned two images all is during with the facial image as main subject of personage, and the image of synthetic processing has been implemented in above-mentioned synthetic handling part generation to the personage's face in these two images.

4. transcriber according to claim 1 is characterized in that,

When above-mentioned vibration detecting part detected the vibration operation of regulation, the generation that above-mentioned switching instruction unit indicates above-mentioned synthetic handling part not carry out above-mentioned diaprojection image was handled.

5. transcriber according to claim 1 is characterized in that,

When above-mentioned vibration detecting part detected the vibration operation of regulation, above-mentioned switching instruction unit indicated above-mentioned diaprojection control part to change the reproduction order that related image is reproduced in above-mentioned diaprojection.

6. transcriber according to claim 1 is characterized in that,

Correspondingly reproducing music is reproduced in above-mentioned diaprojection control part and above-mentioned diaprojection, and according to the increase that related amount of images is reproduced in above-mentioned diaprojection, the reproduction of shortening every image shows the time.

7. transcriber according to claim 1 is characterized in that,

By the detected above-mentioned vibration operation of above-mentioned test section is vibration number and the time of vibration of user to this transcriber.

8. a digital camera is characterized in that, this digital camera has each described transcriber in aforesaid right requirement 1～aforesaid right requirement 7.

9. diaprojection reproducting method is used to carry out it is characterized in that this diaprojection reproducting method has following steps in the transcriber that the diaprojection of a plurality of images of successively reproducing reproduces:

The vibration detection step detects the vibration operation of user to this transcriber;

Switch the indication step,, indicate the reproduction content that above-mentioned diaprojection is reproduced to switch according to detected testing result in above-mentioned vibration detection step;

Synthetic treatment step is according to indicating the switching indication of carrying out in the step in above-mentioned switching, carry out the used again image of above-mentioned diaprojection the generation that is the diaprojection image to handle; And

Step is reproduced in diaprojection, and use comprises above-mentioned diaprojection image and carries out above-mentioned diaprojection reproduction at interior image.

10. the diaprojection that program, this program make the computer of transcriber carry out a plurality of images of successively reproducing is reproduced, and it is characterized in that this program makes computer carry out following function:

Memory function is stored above-mentioned image;

The vibration detection function detects the vibration operation of user to this transcriber;

Switch deixis,, indicate the reproduction content that above-mentioned diaprojection is reproduced to switch according to by the detected testing result of above-mentioned vibration detection function;

Synthetic processing capacity, according to the switching indication of above-mentioned switching deixis, the generation that to carry out the used again image of above-mentioned diaprojection be the diaprojection image is handled; And

The diaprojection controlled function is carried out above-mentioned diaprojection reproduction to image and the above-mentioned diaprojection image of being stored by above-mentioned memory function.

11. a transcriber is characterized in that, this transcriber has:

Storage part, its memory image;

Vibration detecting part, it detects the vibration operation of user to this transcriber; And

Image processing part, it implements the image processing of regulation according to the vibration detection result of above-mentioned vibration detecting part to above-mentioned image.

12. a transcriber, its successively reproducing shows a plurality of photographic image datas, it is characterized in that, this transcriber has:

The incident detection unit, it judges the incident that above-mentioned photographic image data is related;

Event classification portion, it is classified to above-mentioned photographic image data according to the result of determination of above-mentioned incident detection unit; And

Display control unit, it is chosen in a plurality of photographic image datas of obtaining under the same incident according to the classification results of above-mentioned event classification portion, and it is implemented to reproduce demonstration after synthetic the processing.

13. an imaging reconstruction method, successively reproducing shows a plurality of photographic image datas, it is characterized in that, this imaging reconstruction method has following steps:

The incident determination step is judged the incident that above-mentioned photographic image data is related;

The event classification step according to the result of determination of above-mentioned incident determination step, is classified to above-mentioned photographic image data; And

Show controlled step,, be chosen in a plurality of photographic image datas of obtaining under the same incident, it is implemented to reproduce demonstration after synthetic the processing according to the classification results of above-mentioned event classification step.

Images