JP4501308B2 - Portable terminal device, image display method thereof, and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a mobile terminal device and an image display method and program thereof, and more particularly to a mobile terminal device including a display unit for displaying an image, and an image display method and program thereof.
[0002]
[Prior art]
In addition to the telephone (call) function, the mobile terminal device has various functions such as e-mail and Web access. For this reason, display devices of portable terminal devices have also been enlarged and colored. It is known that an LCD (Liquid Crystal Display) is adopted in many of these displays. From now on, the communication speed of the mobile terminal device is increased and moving picture distribution is also possible by a W-CDMA (Wideband Code Division Multiple Access) system, a wireless data communication system called GPRS (General Packet Radio Service), and the like.
[0003]
However, since the portable terminal device is carried by the user, the portable terminal device is often used in an environment where it is exposed to the outside air. In the conventional mobile terminal device, when used in a low temperature environment, the interval for displaying moving picture frames is designed considering the use at room temperature, and the display response speed of the LCD is low. However, there is a problem that the moving image is not displayed neatly on the LCD (for example, the screen is blurred or the moving image appears to flow) because it is extremely slow.
[0004]
Techniques in which various devices have been devised for solving such problems are described in JP-A-5-053152, JP-A-8-304772, and the like. The proportion of terminal equipment in the market is not high. The reason is that the cost increases when these technologies are applied to the LCD.
[0005]
In addition, when downloading various videos to your mobile terminal device through Web access such as WAP (Wireless Application Protocol), you can notify the server of the display capability (monochrome / color, etc.) of your mobile device. Although there is a mechanism that can download an optimal moving image to the portable terminal device, even in this case, the above-mentioned problem cannot be solved. The reason is that the use environment (temperature) is not taken into account in the notification of the mobile terminal information to the server.
[0006]
Further, in order to improve the deterioration of image quality due to the poor response of the LCD at low temperatures, Japanese Patent Application Laid-Open No. 1-223496 (first publication) describes the field of the video signal in the vicinity of the location where the LCD is installed. A technique is described in which it is taken out once every predetermined number of times that changes as a function of and supplied to an LCD whose time response deteriorates at a low temperature.
[0007]
[Problems to be solved by the invention]
However, the first publication assumes data that is sequentially transmitted such as a TV image. On the other hand, in the portable terminal device, basically, image data to be displayed is stored in the own device. Therefore, the technique described in the first publication cannot be applied to the mobile terminal device as it is.
[0008]
Further, in a portable terminal device that is required to be downsized, there is a limit to the size of a memory that stores image data. Therefore, in the mobile terminal device, for example, the first frame is 500 [ms], the second frame is 100 [ms], the third frame is 100 [ms], and the fourth frame is the moving image data constituting the moving image. There may be a case where the memory used is reduced by adding the information of the display interval time and storing it in the memory, such as 1 [s]. That is, in this case, the image data for moving image stored in the memory may be data for 4 frames. However, when such a method is not used, it is assumed that the display is updated at, for example, 100 [ms / 1 frame]. It is necessary to hold a total of 17 frames of data for 5 frames, 1 frame for the 2nd frame, 1 frame for the 3rd frame and 10 frames for the 4th frame.
[0009]
Consider the use of the technique described in the first publication when moving pictures are played back on such portable terminal devices. FIG. 10 is a diagram for explaining the operation when the technique described in the first publication is applied to a mobile terminal device. In FIG. 10, moving image data constituting a moving image includes moving image data D1 (its display interval time is 500 [ms]), moving image data D2 (its display interval time is 100 [ms]), moving image Image data D3 (its display interval time is 100 [ms]), moving image data D4 (its display interval time is 300 [ms]), and moving image data D5 (its display interval time is 1 [s]) To do.
[0010]
First, each moving image image data is expanded on a time axis in a RAM (Random Access Memory). FIG. 10A is a diagram showing the developed state (note that this operation is not described in the first publication). Next, a time interval for thinning out the moving image data is determined from a function of the temperature in the vicinity of the LCD. Here, the determined time interval is assumed to be 300 [ms]. The moving image data arranged on the time axis at the determined time interval is thinned and displayed on the LCD. FIG. 10B shows the display on the LCD. As shown in FIG. 10B, data is set to the LCD seven times. In addition, FIG.10 (c) is a figure which shows the display on LCD when the temperature of LCD vicinity is not considered.
[0011]
As described above, in FIG. 10B, the moving image image data D2 immediately after the moving image data D1 (500 [ms]) having a long display interval time is not displayed, and is described in the first publication. In the technology, since thinning is simply performed at a time interval determined by a function of temperature, the presence or absence of display of moving image data next to moving image data having a long display time changes depending on the determined time interval. End up. If the frame immediately after the frame having a long display time is not displayed as shown in FIG. 10B, there is a problem that the frame skip appears remarkably.
[0012]
An object of the present invention is to provide a mobile terminal device, an image display method thereof, and a program capable of suppressing deterioration in image quality when used at a low temperature.
[0013]
[Means for Solving the Problems]
The mobile terminal device according to the present invention is a mobile terminal device including a display unit for displaying an image, and the display response time of the display unit at a temperature in the vicinity of the display unit. And the display interval time of each video image that composes the video Based on Said Including control means for controlling the display of each moving image on the display unit. The control means includes comparison means for comparing the display response time with the display interval time of the moving image displayed on the display unit among the moving image, and according to the comparison output. After the elapse of the display interval time of the displayed moving image when the comparison output indicates that the display is controlled and the display interval time of the displayed moving image is equal to or longer than the display response time. The video image to be displayed next among the video images is displayed. It is characterized by that.
[0015]
In the portable terminal device, the control unit includes a holding unit that holds the temperature and the display response time in association with each other.
[0017]
Ma Further, in the portable terminal device, the control means may display the moving image to be displayed next when the comparison output indicates that the display response time is longer than a display interval time of the displayed moving image. It is characterized in that the image for use is thinned out. Further, in the mobile terminal device, the control unit adds the thinned display interval time of the moving image to be displayed next to the display interval time of the displayed moving image, and the comparing unit includes: The added display interval time is compared with the display response time.
[0018]
Still further, in the mobile terminal device, the control means sequentially thins out and thins out the moving image images until the comparison output indicates that the added display interval time is equal to or longer than the display response time. The display interval time of the moving image is added to the addition display interval time, and is used as the addition display interval time. Further, in the mobile terminal device, the control means may display the displayed moving image as the added display interval time when the comparison output indicates that the added display interval time is equal to or longer than the display response time. It is characterized by displaying until it has passed. Further, in the mobile terminal device, the control means, when the comparison output indicates that the addition display interval time is equal to or longer than the display response time, after the addition display interval time elapses, Of these, a moving image to be displayed next is displayed in addition to the thinned moving image.
[0019]
An image display method according to the present invention is an image display method in a portable terminal device including a display unit that displays an image, and the display response time of the display unit at a temperature in the vicinity of the display unit And the display interval time of each video image that composes the video Based on Said Including a control step for controlling the display of each moving image on the display unit. The control step includes a comparison step of comparing the display response time with the display interval time of the moving image displayed on the display unit among the moving image, and according to the comparison result. After the elapse of the display interval time of the displayed moving image when the comparison result indicates that the display is controlled and the display result indicates that the display interval time of the displayed moving image is equal to or longer than the display response time The video image to be displayed next among the video images is displayed. It is characterized by that.
[0022]
Ma In the image display method, when the comparison result indicates that the display response time is longer than a display interval time of the displayed moving image, the control step displays the moving image to be displayed next. It is characterized in that the image for use is thinned out. In the image display method, the control step adds the thinned display interval time of the moving image to be displayed next to the display interval time of the displayed moving image, and the comparing step includes: The added display interval time is compared with the display response time.
[0023]
Furthermore, in the image display method, the control step sequentially thins out the moving image images and thins out the moving images until the comparison result indicates that the added display interval time is equal to or longer than the display response time. The display interval time of the image for use is added to the added display interval time, which is used as the added display interval time. In the image display method, when the comparison result indicates that the addition display interval time is equal to or longer than the display response time, the control step displays the displayed moving image as the addition display interval time. It is characterized by displaying until it has passed. Further, in the image display method, when the comparison result indicates that the addition display interval time is equal to or longer than the display response time, the control step includes: Of these, a moving image to be displayed next is displayed in addition to the thinned moving image.
[0024]
A program according to the present invention is a program for causing a computer to execute an image display method in a portable terminal device including a display unit that displays an image, and the display response time of the display unit at a temperature in the vicinity of the display unit And the display interval time of each video image that composes the video Based on Said Including a control step for controlling the display of each moving image on the display unit. The control step includes a comparison step of comparing the display response time with the display interval time of the moving image displayed on the display unit among the moving image, and according to the comparison result. After the elapse of the display interval time of the displayed moving image when the comparison result indicates that the display is controlled and the display result indicates that the display interval time of the displayed moving image is equal to or longer than the display response time The video image to be displayed next among the video images is displayed. It is characterized by that.
[0027]
The operation of the present invention is as follows. Based on the display response time of the display unit at the ambient temperature around the display unit that displays the image and the display interval time of each moving image constituting the moving image, the control means displays the moving image on the display unit. Control. More specifically, the comparison unit compares the display response time at the temperature around the display unit with the display interval time of the currently displayed moving image, and the comparison output is “display interval time ≧ display. When “response time” is indicated, the control means displays a moving image to be displayed next after the display interval time elapses. Further, when the comparison output of the comparison means indicates “display interval time <display response time”, the control means thins out the moving image to be displayed next and displays the thinned moving image display interval. It is added to the display interval time of the moving image. The comparison means compares the added display interval time with the display response time.
[0028]
Further, the control means sequentially adds the display interval times of the respective moving image images and thins out the moving image images until the comparison output of the comparing means indicates “additional display interval time ≧ display response time”. When the comparison output of the comparison means indicates “addition display interval time ≧ display response time”, the displayed moving image is added to the display interval time. Display until elapsed. Then, after the addition display interval time elapses, the control means displays a moving image to be displayed next to the displayed moving image other than the thinned moving image.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a wireless portable terminal device according to an embodiment of the present invention. In FIG. 1, a wireless portable terminal device according to an embodiment of the present invention includes an antenna 1, a wireless unit 2, a data conversion unit 3, an audio processing unit 4, a receiver 5, a microphone 6, a control unit 7, A display unit 8 that is an LCD (Liquid Crystal Display), a memory 9, a thermistor, and the like. The temperature detection unit 10 that is installed in the vicinity of the display unit 8 to detect temperature (air temperature), a key operation unit 11, And a timer unit 12.
[0030]
FIG. 2 is a diagram illustrating an example of a moving image displayed by the wireless portable terminal device of FIG. 1, (a) is a diagram for describing a moving image constituting the moving image, and (b) is an example of the moving image. FIG. In FIG. 2A, the image main body data 20 is stored in the memory 9, and includes an image number 21 indicating a display order, a display interval time (DIT) 22 indicating a time interval for displaying images, And moving image data (bitmap or the like) 23. The moving image data 23 is displayed as an image on the display unit 8 during the DIT 22.
[0031]
FIG. 2B shows an example of a moving image composed of 6 images. The display interval time 22-1 (DIT) of moving image data 23-1 (image # 1) constituting the image main body data 20-1 is shown. (1)) is 200 [ms], and the display interval time 22-2 (DIT (2)) of the moving image data 23-2 (image # 2) constituting the image main body data 20-2 is 100 [ms]. The display interval time 22-3 (DIT (3)) of the moving image data 23-3 (image # 3) constituting the image body data 20-3 is 100 [ms], and the image body data 20 The display interval time 22-4 (DIT (4)) of the moving image image data 23-4 (image # 4) that constitutes -4 is 100 [ms], and the moving image image that constitutes the image main body data 20-5 Data 23- The display interval time 22-5 (DIT (5)) of (image # 5) is 100 [ms], and the display interval of the moving image data 23-6 (image # 6) constituting the image main body data 20-6. Time 22-6 (DIT (6)) is 400 [ms], and is a moving image for a total of 1 second. FIG. 5A shows the moving image data 23-1 to 23-6 on the time axis. 5 is a diagram showing the display of an image on the display unit of FIG. 1, and (a) is a diagram showing the display when temperature is not taken into consideration.
[0032]
FIG. 3 is a diagram showing a relationship table between temperature and display response time. In FIG. 3, the relationship table (relation data) 30 is data in which the temperature (air temperature) is associated with the display response time (display response speed) of the display unit 8 of the wireless portable terminal device in FIG. 1 at that temperature. , Stored in the memory 9 in advance. That is, when the temperature T is “−20 ° C. <T ≦ −10 ° C.”, the display response time of the display unit 8 is 300 [ms], and when the temperature T is “−10 ° C. <T ≦ 0 ° C.” The display response time is 150 [ms], and when the temperature T is “0 ° C. <T ≦ 10 ° C.”, the display response time is 100 [ms] and the temperature T is “10 ° C. <T ≦ 40 ° C.” When the temperature T is “40 ° C. <T ≦ 85 ° C.”, the display response time is 50 [ms]. These specific correspondences are merely examples, and are determined by the type / size / driving voltage of the display unit 8 and are different for each model of the mobile terminal device.
[0033]
Next, an example of the operation of the wireless portable terminal device shown in FIG. 1 will be described with reference to the drawings. FIG. 4 is a flowchart for explaining an example of the operation of the wireless portable terminal device of FIG.
[0034]
1 to 4, when displaying a moving image stored in advance, the control unit 7 first stores the moving image image data 23-1 having the image number 21-1 “N = 1” and the DIT (1) in the memory 9. The image data 23-1 is output to the display unit 8 to display the image # 1 on the display unit 8, and DIT (1) is set in the timer unit 12. The timer unit 12 counts DIT (1) (step S1, step S2).
[0035]
Next, the control unit 7 reads temperature information in the vicinity of the display unit 8 detected by the temperature detection unit 10 and calculates a display response time (DRT) corresponding to the value from the relation table 30 stored in the memory 9. (Step S3).
[0036]
(1) First, the case where the temperature is normal temperature (20 ° C.) will be described. The control unit 7 calculates DRT (1) as 75 [ms] from the relationship table 30, and sets this value in the timer unit 12 (step S3). Then, the presence or absence of an image to be displayed next is confirmed (step S4). If there is no next image, this flow is terminated (step S15). In this case, however, there is a next image (the next image here is image # 2), so DIT (1) and DRT ( The value of 1) is compared (step S5).
[0037]
The DIT (1) of the image # 1 is 200 [ms], the DRT (1) is 75 [ms], and DIT (1) ≧ DRT (1). Therefore, the process proceeds to step S6, and the timer unit 12 sets the DIT (1 ) Wait to count up. When counting up, the control unit 7 reads out the image data 23-2 and DIT (2) as the next image, displays the image # 2 on the display unit 8, and sets DIT (2) = 100 [ms] to the timer unit 12. Set to. The timer unit 12 counts DIT (2) (step S7, step S2). Thereafter, the above operation is repeated, and all the images (image # 1 to image # 6) are displayed on the display unit 8 as shown in FIG. In addition, FIG.5 (b) is a figure which shows a display in case temperature is 20 degreeC.
[0038]
(2) Next, the case where the temperature is low (−5 ° C.) will be described. The control unit 7 calculates DRT (1) as 150 [ms] from the relationship table 30, and sets this value in the timer unit 12 (step S3). Since there is a next image (the next image here is image # 2), DIT (1) = 200 [ms] is compared with DRT (1) = 150 [ms] (steps S4 and S5).
[0039]
Since DIT (1) ≧ DRT (1), the process proceeds to step S6 and waits for the timer unit 12 to count up DIT (1). When counting up, the control unit 7 reads out the image data 23-2 and DIT (2) as the next image, displays the image # 2 on the display unit 8, and sets DIT (2) = 100 [ms] to the timer unit 12. Set to. The timer unit 12 counts DIT (2) (step S7, step S2).
[0040]
And the control part 7 reads the temperature information which the temperature detection part 10 detected again, calculates DRT (2) corresponding to the temperature (it shall be -5 degreeC) from the relationship table 30, as 150 [ms], This value is set in the timer unit 12 (step S3). Since there is a next image (the next image here is image # 3), DIT (2) = 100 [ms] is compared with DRT (2) = 150 [ms] (steps S4 and S5).
[0041]
Since DIT (2) <DRT (2), the process proceeds to step S8, and the control unit 7 adds DIT (3) = 100 [ms] of the image data 23-3 as the next image to DIT (2). Thus, a new DIT (addition DIT) is calculated (step S9). That is, in step S9, a new DIT is obtained as DIT (3) + DIT (2) = 100 + 100 = 200 [ms], and this new DIT is set to DIT (3).
[0042]
Next, the control unit 7 compares the new DIT DIT (3) and DRT (2) (step S10). Since DIT (3) ≧ DRT (2), the control unit 7 replaces the timer value of the timer unit 12 from DIT (2) to DIT (3), and the timer unit 12 counts DIT (3) (step) S11).
[0043]
Waiting for the timer unit 12 to count up DIT (3) (step S6), and when the count up, the control unit 7 does not read out the image data 23-3 that should have been the next image, that is, the image By thinning out # 3, the image data 23-4 and DIT (4) as the next image are read out and image # 4 is displayed on the display unit 8, and DIT (4) = 100 [ms] is set in the timer unit 12. . The timer unit 12 counts DIT (4) (step S7, step S2).
[0044]
Thus, the image # 2 is not displayed during the DIT (2) but is displayed during the addition DIT DIT (3). After that, the image # 3 is skipped and the image # 4 is displayed. Will be displayed. Thereafter, by repeating the above operation, as shown in FIG. 5C, only the image # 1, the image # 2, the image # 4, and the image # 6 are displayed on the display unit 8, and the image # 3 and the image # 5 are displayed. It will be thinned out. In addition, FIG.5 (c) is a figure which shows a display in case temperature is -5 degreeC.
[0045]
(3) Next, the case where the temperature is extremely low (−15 ° C.) will be described. The control unit 7 calculates DRT (1) as 300 [ms] from the relationship table 30, and sets this value in the timer unit 12 (step S3). Since there is a next image (the next image here is image # 2), DIT (1) = 200 [ms] is compared with DRT (1) = 300 [ms] (steps S4 and S5).
[0046]
Since DIT (1) <DRT (1), the process proceeds to step S8, and the control unit 7 adds DIT (2) = 100 [ms] of the image data 23-2 as the next image to DIT (1). Thus, a new DIT is calculated (step S9). That is, in step S9, a new DIT is obtained as DIT (2) + DIT (1) = 100 + 200 = 300 [ms], and this new DIT is set to DIT (2).
[0047]
Next, the control unit 7 compares the new DIT DIT (2) and DRT (1) (step S10). Since DIT (2) = DRT (1), the control unit 7 replaces the timer value of the timer unit 12 from DIT (1) to DIT (2), and the timer unit 12 counts DIT (2) (step) S11).
[0048]
Waiting for the timer unit 12 to count up DIT (2) (step S6), and when the count up, the control unit 7 does not read out the image data 23-2 that should have been the next image, that is, the image The image data 23-3 and DIT (3) as the next image are read out by thinning out # 2, and the image # 3 is displayed on the display unit 8, and DIT (3) = 100 [ms] is set in the timer unit 12. . The timer unit 12 counts DIT (3) (step S7, step S2).
[0049]
And the control part 7 reads the temperature information which the temperature detection part 10 detected again, calculates DRT (3) corresponding to the temperature (it shall be -15 degreeC) from the relationship table 30, and is 300 [ms], This value is set in the timer unit 12 (step S3). Since there is a next image (the next image here is image # 4), DIT (3) = 100 [ms] is compared with DRT (3) = 300 [ms] (steps S4 and S5).
[0050]
Since DIT (3) <DRT (3), the process proceeds to step S8, and the control unit 7 adds DIT (4) = 100 [ms] of the image data 23-4 as the next image to DIT (3). Thus, a new DIT is calculated (step S9). That is, in step S9, a new DIT is obtained as DIT (4) + DIT (3) = 100 + 100 = 200 [ms], and this new DIT is set to DIT (4).
[0051]
Next, the control unit 7 compares DIT (4), which is a new DIT, with DRT (3) (step S10). Since DIT (4) <DRT (3) is still satisfied, the process proceeds to step S12 to check whether there is a next image. Since there is a next image (the next image here is image # 5), the process proceeds to step S13, and the control unit 7 adds DIT (5) = 100 [D] of image data 23-5 to be the next image to DIT (4). ms] is further added to calculate a new DIT (step S9). That is, in step S9, a new DIT is obtained as DIT (5) + DIT (4) = 100 + 200 = 300 [ms], and this new DIT is set to DIT (5).
[0052]
Then, the control unit 7 compares the new DIT DIT (5) and DRT (3) (step S10). Since DIT (5) = DRT (3), the control unit 7 replaces the timer value of the timer unit 12 from DIT (3) to DIT (5), and the timer unit 12 counts DIT (5) (step) S11).
[0053]
Waiting for the timer unit 12 to count up DIT (5) (step S6), and when counting up, the control unit 7 does not read out the image data 23-4 and 23-5 that should have been the next image. That is, the images # 4 and # 5 are thinned out, the next image data 23-6 and DIT (6) are read out, and the image # 6 is displayed on the display unit 8, and DIT (6) = 400 [ms]. Is set in the timer unit 12. The timer unit 12 counts DIT (6) (step S7, step S2). After step S3, the process proceeds to step S4 to check whether there is a next image. Since there is no next image, the process exits from this flow and ends (step S15).
[0054]
By the above operation, as shown in FIG. 5D, only the image # 1, the image # 3, and the image # 6 are displayed on the display unit 8, and the image # 2, the image # 4, and the image # 5 are thinned out. It will be. In addition, FIG.5 (d) is a figure which shows a display in case temperature is -15 degreeC.
[0055]
When the moving image image data D1 to D5 used in the description of FIG. 10 are displayed on the display unit 8 according to the flow process shown in FIG. 4, they are displayed as shown in FIG. Is 300 [ms]). FIG. 6 is a diagram showing the display of the moving image image data of FIG. 10 in the operation example of FIG. In FIG. 6, unlike in FIG. 10B, moving image data D2 immediately after moving image data D1 (500 [ms]) having a long display interval time is displayed. That is, in the wireless portable terminal device according to the present embodiment, the moving image data immediately after the moving image data having a long display interval time such that the display interval time ≧ the display response time is displayed on the display unit 8 without fail. It will be.
[0056]
Further, when FIG. 6 is compared with FIG. 10B, what is close to FIG. 10C showing the original display is FIG. 6, that is, the display on the wireless portable terminal device according to the present embodiment. I understand. Further, in FIG. 6, the number of times of data setting to the display unit 8 is three, but in FIG. 10B, data is set seven times on the LCD. Thus, in the wireless portable terminal device according to the present embodiment, the number of times of data setting in the LCD can be reduced compared to the technique described in the first publication, so that power consumption can be reduced, and the battery It can be said that it is suitable for a portable terminal device that cares about its life.
[0057]
Next, another example of the operation of the wireless portable terminal device shown in FIG. 1 will be described with reference to the drawings. FIG. 7 is a flowchart for explaining another example of the operation of the wireless portable terminal device of FIG. 1, and the same parts as those of FIG. 4 are denoted by the same reference numerals. 7 is different from the operation example shown in FIG. 4 in that the control unit 7 reads the temperature information of the temperature detection unit 10 and calculates the DRT only once at the beginning of moving image reproduction. It is.
[0058]
That is, when playing back a moving image, the control unit 7 first reads temperature information in the vicinity of the display unit 8 detected by the temperature detection unit 10 and stores a DRT corresponding to the value in the memory 9. 30 (step A10). Since the process proceeds to step 1 and subsequent steps, if the DRT is calculated first, the DRT calculation operation is not performed until this flow ends. Thereby, compared with the operation example shown in FIG. 4, although it is inferior to real-time property, control can be made simpler.
[0059]
Next, still another example of the operation of the wireless portable terminal device shown in FIG. 1 will be described with reference to the drawings. FIG. 8 is a flowchart for explaining still another example of the operation of the wireless portable terminal device of FIG. 1, and the same parts as those of FIG. 8 is different from the operation example shown in FIG. 4 in that a moving image is displayed after comparison between DIT and DRT.
[0060]
That is, the control unit 7 confirms the next image (step A20), and if there is a next image, after step S3, DIT (N) and DRT (N) of the image #N to be displayed in step A30. Are compared (step S5). If DIT (N) ≧ DRT (N), the control unit 7 reads out the image data 23-N, displays the image #N on the display unit 8, sets DIT (N) in the timer unit 12, and sets the timer. The unit 12 counts up DIT (N) (step A30).
[0061]
If DIT (N) <DRT (N) in step S5, the process proceeds to step S8, and the control unit 7 adds DIT (M) of the image #M to be displayed in step S11 to DIT (M-1). Then, the new DIT (M) and DRT (N) are compared (step S9, step S10). When DIT (M) ≧ DRT (N), the control unit 7 reads out the image data 23-M, displays the image #M on the display unit 8, sets DIT (M) in the timer unit 12, and sets the timer unit. 12 counts up DIT (M) (step S11).
[0062]
As described above, in the description of each operation example of the wireless portable terminal device according to the embodiment of the present invention, the DIT 22 is included in the image main body data 20 in FIG. 2A, but this information is not included. The above operation examples can also be applied. That is, by treating the display interval time as a predetermined constant value, or by treating the time interval required for downloading each moving image image downloaded via a wireless line as the display interval time, It can be applied.
[0063]
FIG. 9 is a diagram for explaining a case where the downloaded image data is reproduced in an environment at a temperature of −15 ° C., (a) is a diagram showing each download data, and (b) is a DIT of each download data. (C) is a figure which shows the display to those display parts 8. FIG.
[0064]
In FIG. 9A, each image data of images B to J shown on the time axis is sent to the wireless portable terminal device according to the embodiment of the present invention via a wireless line. The control unit 7 measures the download start time and download end time of each image data, and sets the time interval as the display interval time. FIG. 9B shows the DIT value of each image data. In this example, it is assumed that each DIT is 100 [ms].
[0065]
By the flow process shown in FIG. 4, as shown in FIG. 9C, only the images B, E, and H are sequentially displayed on the display unit 8 among the images B to J, and the remaining images are skipped. Will be.
[0066]
As described above, in the wireless portable terminal device according to the embodiment of the present invention, when the display response time is longer (slower) than the display interval time, frames are skipped. Even when a movie is played, it is possible to play a beautiful movie.
[0067]
Further, in the wireless portable terminal device according to the embodiment of the present invention, the display unit of the portable terminal is not devised to realize the reproduction of a beautiful moving image. It is possible to use a type (STN or the like), and thus it is possible to reproduce a beautiful moving image at a low temperature without increasing the cost.
[0068]
Further, in the wireless portable terminal device according to the embodiment of the present invention, since the number of moving picture frames is controlled on the apparatus side, when downloading / playing moving pictures by Web access or the like, the load on the server is not increased. It is possible to play a moving image suitable for the usage environment.
[0069]
The processing operations according to the flowcharts shown in FIGS. 4, 7, and 8 are executed while a program stored in advance in a storage medium such as a ROM is read by a computer serving as a CPU (control unit). Of course, this can be realized.
[0070]
【The invention's effect】
A first effect of the present invention is that a beautiful moving image can be reproduced even when a moving image is reproduced using the mobile terminal device at a low temperature. The reason is to skip frames when the display response time of the display unit at the display unit ambient temperature when using the mobile terminal device is longer (slower) than the display interval time that is the frame interval of the moving image. This is because.
[0071]
The second effect of the present invention is that a beautiful moving image can be reproduced at a low temperature without increasing the cost. The reason is that a general-purpose type display unit can be used for the display unit to be used because the display unit of the portable terminal is not devised to realize the reproduction of a beautiful moving image.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of a wireless portable terminal device according to an embodiment of the present invention.
2A and 2B are diagrams illustrating an example of a moving image displayed by the wireless portable terminal device of FIG. 1, in which FIG. 2A is a diagram for explaining moving image images constituting the moving image, and FIG. 2B is an example of a moving image; FIG.
FIG. 3 is a diagram showing a relationship table between temperature and display response time.
4 is a flowchart for explaining an example of the operation of the wireless portable terminal device of FIG. 1;
5A and 5B are diagrams showing display of an image on the display unit of FIG. 1, FIG. 5A is a diagram showing a display when temperature is not considered, and FIG. 5B is a display when the temperature is 20 ° C. It is a figure, (c) is a figure which shows a display when temperature is -5 degreeC, (d) is a figure which shows a display when temperature is -15 degreeC.
6 is a diagram showing a display in the operation example of FIG. 4 of each moving image image data of FIG. 10;
7 is a flowchart for explaining another example of the operation of the wireless portable terminal device of FIG. 1;
8 is a flowchart for explaining yet another example of the operation of the wireless portable terminal device of FIG.
FIGS. 9A and 9B are diagrams for explaining a case in which downloaded image data is reproduced in an environment at a temperature of −15 ° C., FIG. 9A is a diagram illustrating each download data, and FIG. 9B is a DIT of each download data; (C) is a figure which shows the display to those display parts 8. FIG.
10A and 10B are diagrams for explaining the operation when a conventional technique is applied to a mobile terminal device. FIG. 10A is a diagram illustrating a state in which image data for moving images is developed in a RAM. ) Is a diagram showing display of each moving image data on the LCD according to the prior art, and (c) is a diagram showing display on the LCD when the temperature in the vicinity of the LCD is not taken into consideration.
[Explanation of symbols]
1 Antenna
2 radio section
3 Data converter
4 Voice processing part
5 Receiver
6 Microphone
7 Control unit
8 Display section
9 memory
10 Temperature detector
11 Key operation section
12 Timer section
20, 20-1 to 20-6 Image data
21, 211-1 to 21-6 Image number
22, 22-1 to 22-6 DIT
23, 23-1 to 23-6 Image data
30 relationship table

Claims (15)

A mobile terminal device including a display unit for displaying an image,
Based on the display interval time for each video image for forming the display response time and video of the display unit at a temperature in the vicinity of the display unit, control means for controlling said display to the display unit for each video image only it contains,
The control means includes comparison means for comparing the display response time with a display interval time of a moving image displayed on the display unit among the moving image, and the display according to the comparison output. And when the comparison output indicates that the display interval time of the displayed moving image is equal to or longer than the display response time, the elapse of the display interval time of the displayed moving image, A mobile terminal device characterized in that a moving image to be displayed next is displayed among each moving image . The portable terminal device according to claim 1, wherein the control unit includes a holding unit that holds the temperature and the display response time in association with each other . When the comparison output indicates that the display response time is longer than the display interval time of the displayed moving image , the control means thins out the moving image to be displayed next. The portable terminal device according to claim 1, wherein: The control means adds the thinned display interval time of the moving image to be displayed next to the display interval time of the displayed moving image, and the comparing means adds the added display interval time and the display. 4. The portable terminal device according to claim 3, wherein the response time is compared . The control means sequentially thins out the moving image images and thins out the display interval times of the moving image images until the comparison output indicates that the added display interval time is equal to or longer than the display response time. 5. The portable terminal device according to claim 4 , wherein the added display interval time is added to the added display interval time to be used as the added display interval time . When the comparison output indicates that the addition display interval time is equal to or longer than the display response time , the control means displays the displayed moving image image until the addition display interval time elapses . The mobile terminal device according to claim 5 . When the comparison output indicates that the addition display interval time is equal to or longer than the display response time , the control means, after the addition display interval time has elapsed, for each moving image image thinned out of the moving image images The mobile terminal device according to claim 6, wherein a moving image to be displayed next is displayed . Wherein each video image is an image acquired through a communication line, the display interval time for each video image is claim 1, characterized in that its is a time taken to acquire the video image The portable terminal device in any one of -7 . An image display method in a mobile terminal device including a display unit for displaying an image,
A control step for controlling the display of each moving image on the display unit based on the display response time of the display unit at a temperature near the display unit and the display interval time of each moving image constituting the moving image. Including
The control step includes a comparison step of comparing the display response time with a display interval time of the moving image displayed on the display unit among the moving image, and the display according to the comparison result. And when the comparison result indicates that the display interval time of the displayed moving image is equal to or longer than the display response time, the elapse of the display interval time of the displayed moving image, An image display method characterized by displaying a moving image to be displayed next out of each moving image. In the control step, when the comparison result indicates that the display response time is longer than a display interval time of the displayed moving image, the moving image to be displayed next is thinned out. The image display method according to claim 9. The control step adds the thinned-out display interval time of the moving image to be displayed to the display interval time of the displayed moving image, and the comparing step includes the added display interval time and the display. The image display method according to claim 10, wherein the response time is compared. In the control step, the display interval time of each moving image is sequentially thinned and thinned until the comparison result indicates that the added display interval time is equal to or longer than the display response time. 12. The image display method according to claim 11, wherein the added display interval time is used as the added display interval time. In the control step, when the comparison result indicates that the addition display interval time is equal to or longer than the display response time, the displayed moving image is displayed until the addition display interval time elapses. The image display method according to claim 12 . In the control step, when the comparison result indicates that the added display interval time is equal to or longer than the display response time, the moving image images thinned out of the moving image images after the addition display interval time elapses. 14. The image display method according to claim 13, wherein a moving image to be displayed next is displayed other than the above . A program for causing a computer to execute an image display method in a mobile terminal device including a display unit for displaying an image,
A control step for controlling the display of each moving image on the display unit based on the display response time of the display unit at a temperature near the display unit and the display interval time of each moving image constituting the moving image. Including
The control step includes a comparison step of comparing the display response time with a display interval time of the moving image displayed on the display unit among the moving image, and the display according to the comparison result. And when the comparison result indicates that the display interval time of the displayed moving image is equal to or longer than the display response time, the elapse of the display interval time of the displayed moving image, A program characterized by displaying a moving image to be displayed next out of each moving image.

Images