JP4854757B2 - Portable information terminal - Google Patents

Description

  The present invention relates to a portable information terminal.

  In recent years, the performance of portable information terminals has improved dramatically, and photography and moving images can be taken. The photographed and moving images are stored in an internal storage unit or an external storage unit such as a memory card, but the storage destination is usually only set in advance. On the other hand, as a conventional technique for automatically changing the storage destination, a technique described in Patent Document 1 below is known. This document includes at least a flash ROM in which a program code supplied by a manufacturer or a seller is stored, an HDD in which important user data is stored, a control unit having an acceleration sensor, and a user operation input. There has been disclosed a portable information terminal including an operation detection unit for detecting the above.

  In the portable information terminal described above, when it is detected by the output of the acceleration sensor that the terminal has been dropped, for example, when the operation input of the user is not detected for a certain period of time, the program in the flash ROM The code is deleted, and important data of the HDD is backed up in the open area secured by the deletion.

Japanese Patent Laid-Open No. 2007-53529

  Here, the technique described in Patent Document 1 deletes data stored in one nonvolatile storage unit in a special case such as loss, and stores the data in another nonvolatile storage unit. This is a control for backing up important data to a free area created by the deletion. Therefore, in daily use, especially when taking photos and videos, the save destination is not automatically changed, and when the memory is full, the user manually sets the save destination for the shot photos and videos. I had to change and respond.

  The present invention has been proposed in view of such circumstances, and automatically determines the storage destination of the photographed and moving images to be taken according to the usage status of the user without depending on the user's manual operation. An object of the present invention is to provide a portable information terminal capable of storing data in a storage destination.

In order to solve the above-described problem, in the portable information terminal of the present invention, in the portable information terminal capable of storing electronic data in the internal first storage unit or the removable external second storage unit, A photographing unit that shoots a moving image and generates electronic data having a data body obtained by converting the photographed photograph or the moving image into an electric signal, and meta information including a photographing time of the photograph or the moving image and a data size of the data body, A determination unit that determines which of the first storage unit and the second storage unit the electronic data storage destination is based on the meta information, and a control that stores the electronic data in the storage destination determined by the determination unit And a control unit for performing.

  In the portable information terminal according to the present invention, the storage unit for the electronic data of the photographed photograph and the moving image is determined by the determination unit based on the meta information automatically generated by the photographing unit after photographing. It is determined which of the two storage units is used, and electronic data is stored in the determined storage location under the control of the control unit. As described above, according to the portable information terminal, it is possible to automatically determine the storage destination of the photo and the moving image without manual operation by the user, and to store the electronic data in the determined storage destination. The meta information including the shooting time and the data size reflects the usage status of the user. For this reason, it is possible to determine an appropriate storage destination according to the usage status of the user.

  Further, the apparatus further includes a meta information database that stores a history of meta information of a plurality of pictures or videos taken continuously, and the determination unit receives the plurality of meta information stored in the meta information database and temporally receives the meta information database. It is preferable to calculate a difference between meta information items that are in the context of each other and determine a storage destination based on the calculated difference between the meta information items. In this way, in the determination of the storage destination by the determination unit, the difference between the meta information that is temporally related and calculated from a plurality of recent meta information is used. The storage destination can be determined more effectively.

  Further, a positioning unit that acquires position information of the current location of the terminal itself is further provided, and the determination unit determines whether the current location acquired by the positioning unit falls within a specific range, and determines a storage destination based on the determination result It is preferable to do. Thereby, in the determination of the storage destination, it is possible to further consider whether the user is in a place where the user often takes a photograph such as a travel destination, etc., and it is possible to more effectively determine an appropriate storage destination according to the use situation of the user. it can.

  According to the portable information terminal of the present invention, the storage location of the photographed and moving images to be taken is automatically determined according to the user's usage status without depending on the user's manual operation, and the data is stored in the determined storage location. can do.

It is a block diagram which shows the structure of the portable information terminal which concerns on this embodiment. It is a hardware block diagram of the portable information terminal which concerns on this embodiment. An example of the electronic data produced | generated by the imaging | photography part is shown. It is a figure which shows an example of the meta information stored in the meta information database. It is a figure which shows an example of the pixel number information stored as a data size of a data main body in a meta information database. It is a sequence diagram for demonstrating the storage destination determination process performed with the portable information terminal which concerns on this embodiment. It is a flowchart for demonstrating specifically the judgment process of a camera utilization frequency and a data size fluctuation | variation. It is a flowchart for demonstrating concretely the determination process of the storage destination by the determination part.

  Hereinafter, embodiments of a portable information terminal according to the present invention will be described with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 is a block diagram showing a configuration of a portable information terminal 10 according to the present embodiment. As shown in FIG. 1, a portable information terminal 10 includes a camera unit 18 having a photographing unit 12, a determination unit 14, and a control unit 16, a meta information database 20, a setting unit 21, a tourist spot information database 22, a positioning unit 24, an internal The storage unit 26 and the connection unit 28 are included. A removable card 32 having an external storage unit 30 is connected to the portable information terminal 10 via a connection unit 28.

  Each of these functions is realized by the hardware configuration shown in FIG. FIG. 2 is a hardware configuration diagram of the portable information terminal 10. As shown in FIG. 2, the portable information terminal 10 physically includes a CPU 101, a RAM 102 and a ROM 103 which are main storage devices, a communication module 104 which is a data transmission / reception device such as a network card, an auxiliary storage device 105 such as a hard disk, An input device 106 such as operation buttons and an output device 107 such as a display are provided. Each function described in FIG. 1 has a communication module 104, an input device 106, and an output device under the control of the CPU 101 by reading predetermined computer software on the hardware such as the CPU 101 and the RAM 102 shown in FIG. This is realized by operating 107 and reading and writing data in the RAM 102 and the auxiliary storage device 105. Hereinafter, each functional block will be described based on the functional blocks shown in FIG.

  The photographing unit 12 includes a lens, a semiconductor element, and the like, and generates electronic data (image or moving image data) based on a photograph or a moving image obtained by photographing a photograph or a moving image. FIG. 3 shows an example of electronic data generated by the imaging unit 12. As shown in FIG. 3, the generated electronic data includes a data body (for example, a random character example) obtained by converting a captured image into an electric signal, and a shooting time (for example, “yyyy / mm / dd hh: mm ”) and meta information including the data size of the data body (for example,“ xxx (Byte) ”). The imaging unit 12 outputs electronic data including the data main body to a temporary memory area (not shown) such as a cache, and temporarily stores it until a storage destination is determined. Only the meta information is stored in the meta information database 20. Output.

  The meta information database 20 receives meta information from the imaging unit 12 and stores a history of the meta information. FIG. 4 is a diagram illustrating an example of meta information stored in the meta information database 20. As shown in FIG. 4, the meta information database 20 stores the shooting time of a photo or moving image and the data size of the data body in association with the shooting number indicating the order in which the photo or moving image was shot. More specifically, the shooting time “2007/02/04 18:29” and the data size “5770887 (Byte)” are stored in association with the shooting number “M + 1”.

  In the meta information database 20, the data size of the data body may be stored in units of the number of pixels of width and height, not in bytes. FIG. 5 is a diagram illustrating an example of pixel number information stored in the meta information database 20 as the data size of the data body. Specifically, information on the number of pixels of width “1280” and the number of pixels of height “980” is stored in association with the photographing number “1” together with the photographing time.

  The data size stored in the meta information database 20 can be set in advance by a user operation before taking a picture or a moving image. In such a case, the setting unit 21 sets the data size of the meta information database 20 in accordance with a user input operation.

  The tourist spot information database 22 is registered in advance with the location information of tourist spots and their surrounding areas. For example, the tourist spot information database 22 stores the name of the tourist spot, the location information of the tourist spot, and the location information of the surrounding area in association with each other. Specifically, for example, the name of the tourist spot “Ueno Park”, the location information “latitude xxx, longitude xxx” of the tourist spot “Ueno Park” and the location information of the surrounding area (for example, “latitude with a radius of 500 m” Xxx, longitude xxx ") are stored in association with each other.

  The positioning unit 24 performs GPS positioning, acquires position information of the current location of the portable information terminal 10, and notifies the camera unit 18 of the acquired position information in response to a request from the camera unit 18. In GPS positioning, latitude and longitude are calculated based on data from at least three or more GPS satellites, and position information of the portable information terminal 10 is obtained.

  Based on the information stored in the meta information database 20 and the sightseeing spot information database 22 and the information notified by the positioning unit 24, the determination unit 14 stores the electronic data generated by the photographing unit 12 with a small storage capacity. The storage unit 26 and the external storage unit 30 having a large storage capacity are to be stored. The determination result is notified to the control unit 16 by the determination unit 14.

  When the determination of the storage destination is notified from the determination unit 14, the control unit 16 performs control to store the electronic data in the storage destination determined by the determination unit. The control unit 16 also performs control over the entire functions of the portable information terminal 10. The function of the control unit 16 is realized by the CPU 101 and the like included in the portable information terminal 10.

  The connection unit 28 can connect the detachable card 32 and transmits / receives data to / from the detachable card 32. The removable card 32 includes an external storage unit 30 and an IC chip 34. Similar to the internal storage unit 26, the external storage unit 30 can store electronic data generated by the imaging unit 12 of the camera unit 18. In the IC chip 34, the determination unit 14 determines the storage location of the electronic data as the external storage unit 30 so that the external storage unit 30 has the same function as the internal storage unit 26 provided in the portable information terminal 10. When this happens, data transmission / reception and control with the portable information terminal 10 are performed.

  Subsequently, a storage destination determination process executed by the portable information terminal 10 according to the present embodiment will be described with reference to the sequence diagram of FIG. First, when the photographing unit 12 of the camera unit 18 is activated by a user operation (S01), a photograph or a moving image is photographed by the photographing unit 12 (S02). Subsequently, the photographing unit 12 generates electronic data including a data body based on the photographed or moving image and meta information including a photographing time of the photograph or the moving image and a data size of the data body. The meta information is meta information. The data is output and stored in the database 20 (S03). On the other hand, electronic data including the data body is output to a temporary memory area and temporarily stored.

  Subsequently, a position information acquisition request is made from the determination unit 14 to the positioning unit 24 (S04), and in response to the request, the positioning unit 24 executes GPS positioning to acquire position information of the current location, and the acquired The position information is notified to the determination unit 14 (S05). Thereafter, the determination unit 14 refers to the position information notified from the positioning unit 24 with reference to information registered in advance in the tourist spot information database 22, and determines whether the user is at or near the tourist spot (S06). Specifically, if the information registered in the tourist spot information database 22 includes information that matches the position information of the current location from the positioning unit 24, it is determined that the user is at or near the tourist spot. On the other hand, if there is no matching information, it is determined that the user is not at or around the tourist spot.

  Next, a meta information history acquisition request is made from the determination unit 14 to the meta information database 20 (S07). In response to this request, meta information of a plurality of recent electronic data is transmitted from the meta information database 20 to the determination unit 14 (S08). Subsequently, the determination unit 14 determines the camera usage frequency and the data size variation based on the received meta information (S09).

  FIG. 7 is a flowchart for specifically explaining the determination process. First, when the latest five pieces of meta information, for example, are acquired from the meta information database 20 by the determination unit 14 (S201), in the determination unit 14, the difference between the meta information items that are temporally related, that is, the shooting time and A difference in file size is calculated (S202). Next, the determination unit 14 determines whether or not the calculated difference between the shooting time and the file size satisfies a predetermined difference criterion (S203).

  The difference criteria are, for example, that the difference between the current shooting time and the previous shooting time is 1 minute or less, that the number of shootings per minute is 1 or more, for example, and that the data size (Bytes) by shooting is the previous time The data size (bytes) is at least twice as large as the data size (bytes) of shooting, and the data size (number of pixels in width / height) is at least twice as large as the data size (number of pixels in width / height) of the previous shooting. That is, for example, three or more photographs or moving images have been photographed in a state where the data size has changed to, for example, twice or more the data size obtained by the previous photographing.

  If at least one of the shooting time and the file size satisfies the difference criterion, it is determined that the usage frequency is high or the data size fluctuation is large, and the camera usage frequency and data size fluctuation determination processing ends (S204). ). More specifically, for example, when the number of shootings per minute is two or more (in the case of A in FIG. 4), the data size (Byte) by shooting is, for example, the data size (Byte) by previous shooting, for example. When it is 8 times (B in FIG. 4), when the setting is changed from the previous QVGA to 3M and the number of pixels is set to about 6 times the previous time (in the case of C in FIG. 5) ) And the like, it is determined that the use frequency of the camera is high or the data size varies greatly, and the process ends. On the other hand, if neither the shooting time nor the file size satisfies the standard, the determination unit 14 determines that the camera usage frequency is low and the data size variation is small, and the process ends. (S205).

  When the above-described camera usage frequency determination process ends, the determination unit 14 determines the storage destination (S10 in FIG. 6). FIG. 8 is a flowchart for specifically explaining the storage destination determination processing by the determination unit 14. First, the determination unit 14 acquires the determination result of step S06 regarding whether or not the above-described user is at or near a tourist spot (S301), and determines whether the user is in a place where a photograph is taken well, such as a travel destination (S302). ). If it is determined in step S06 that the user is not at or near the tourist spot, it is determined that the user is not in a place where pictures are taken well, such as a travel destination, and the storage destination is determined as the internal storage unit 26. Subsequently, the determination result is notified to the control unit 16 and the process ends. (S303). On the other hand, if it is determined in step S06 that the user is at or around the tourist spot, the user is considered to be in a place where pictures are often taken, and the process proceeds to the next step S304.

  In step S304, the camera usage frequency and data size fluctuation determination results in step S09 are acquired (S304), and it is determined whether or not to be stored in the external storage unit 30 (S305). If it is determined in step S06 that the camera usage frequency is low and the data size fluctuation is small, the internal storage unit 26 having a small storage capacity is determined as the storage destination because the user is not particular about image quality. . Subsequently, the determination result is notified to the control unit 16 and the process ends. (S306). On the other hand, if it is determined in step S09 that the frequency of video shooting is high or the data size fluctuation is large, the external storage unit 30 having a large storage capacity is saved because there is a user's attention to image quality and the like. Determined as the destination. Subsequently, the determination result is notified to the control unit 16 and the process ends (S307).

  When the storage destination determination process ends in step S303 or S306, the electronic data stored in the temporary memory area is transmitted and stored in the internal storage unit 26 under the control of the control unit 16. When the storage destination determination process ends in step S307, the electronic data stored in the temporary memory area is transmitted and stored in the external storage unit 30 under the control of the control unit 16 (S11 in FIG. 6). ).

  In the portable information terminal 10 according to the present embodiment, the determination unit 14 has a small storage capacity for storing the electronic data of the photographed and moving images based on the meta information automatically generated by the photographing unit after photographing. Which of the internal storage unit 26 and the external storage unit 30 with a large storage capacity is determined is determined, and electronic data is stored in the determined storage location under the control of the control unit 16. As described above, according to the portable information terminal 10, it is possible to automatically determine the storage destination of the photograph and the moving image regardless of the manual operation by the user, and to store the data in the determined storage destination. The meta information including the shooting time and the data size taken into account in determining the storage destination reflects the usage status of the user. Therefore, it is possible to determine a storage destination having a storage capacity suitable for the use situation of the user.

  In the embodiment described above, in the determination of the storage destination by the determination unit 14, the difference between the meta information that is temporally related and calculated from a plurality of recent meta information is used, and the camera usage frequency and the data size are used. Variations are taken into account. As a result, it is possible to more effectively determine an appropriate storage destination in accordance with the usage status of the user.

  That is, if the save destination is determined based on the difference in shooting time, the data is saved in the external storage unit 30 having a large storage capacity when the use frequency is high, and is saved in the internal storage unit 26 having a small storage capacity when the use frequency is low. It is possible to rationally avoid the situation where the capacity of one storage unit becomes full without the user having to perform another manual operation for changing the storage destination, and the storage unit can be efficiently and rationally Can be used. If the storage destination is determined based on the difference in data size, the data is stored in the external storage unit 30 having a large storage capacity when the data size varies greatly, and the internal storage having a small storage capacity when the data size variation is small. It can be stored in the unit 26. Therefore, the storage destination can be determined by reflecting the presence or absence of the user's image quality such as whether or not the user wants to take a beautiful photograph or video.

  Further, in determining the storage destination by the determination unit 14, the current location of the current location acquired by the positioning unit 24 is referred to the information registered in the tourist spot information database 22 in advance, and the current location of the user is the tourist spot or its surroundings. Is further considered. In other words, since the determination of the storage destination further considers whether the user is in a place where pictures are taken well, such as a travel destination, it is possible to more effectively determine an appropriate storage destination according to the usage status of the user. When the current location of the user falls in the vicinity of the tourist spot, the storage destination is determined in consideration of the user's future use schedule.

  It should be noted that the present invention is not limited to such an embodiment, and modifications can be appropriately made without departing from the spirit of the present invention. For example, the location information of the current location of the portable information terminal 10 obtained by the positioning unit 24 is measured by the GPS method, but is not limited to this. For example, the portable information terminal 10 uses communication. Therefore, it can be base station position information indicating the position of the base station held for this purpose.

  Further, after it is determined whether the user is at or around the tourist spot (S06), the camera usage frequency and the data size fluctuation are determined (S09), but the order of these processes is reversed. Good.

  DESCRIPTION OF SYMBOLS 10 ... Portable information terminal, 12 ... Imaging | photography part, 14 ... Determination part, 16 ... Control part.

Claims (3)

In a portable information terminal capable of storing electronic data in an internal first storage unit or a removable external second storage unit,
Electronic data having a data body obtained by taking a picture or a moving picture and converting the taken picture or the moving picture into an electrical signal, and meta information including a shooting time of the picture or the moving picture and a data size of the data body A shooting unit for generating
A determination unit that determines which of the first storage unit and the second storage unit to store the electronic data based on the meta information; and
A control unit that performs control to store the electronic data in the storage destination determined by the determination unit;
A portable information terminal comprising: A meta information database that stores a history of the meta information of the plurality of pictures or videos taken continuously;
The determination unit receives the plurality of meta information stored in the meta information database, calculates a difference between the meta information that is temporally related, and calculates the difference between the calculated meta information The portable information terminal according to claim 1, wherein the storage destination is determined based on the information. It further includes a positioning unit that acquires location information of the current location of the terminal,
The portable information terminal according to claim 1 or 2, wherein the determination unit determines whether the current location acquired by the positioning unit falls within a specific range, and determines the storage destination based on the determination result.

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