Abstract:
An apparatus for, a method of, and a computer program product for processing location information associated with an image of picture-taking, in a wide range of usage, inputs the location information associated with the image of picture-taking, and converts the input location information to a plurality of signals in different representation forms.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to an apparatus for and a method of converting location information, which is suitable for use in recording an image picked up by a camera and information indicating a pickup location thereof into a recording medium, and to a computer program product that is used therefor, such as a computer readable storage medium. 
     2. Description of the Related Art 
     It is useful to record information regarding the locations where the images are taken (including location information such as latitude and longitude, a place name, such as an address, a name of a building, a location name, such as a sightseeing place, and the like), together with the images taken by a camera, when appreciating the images in various ways thereafter, and thus there are proposed various ideas for recording information regarding the locations at a time when taking the images. 
     For example, in Japanese Patent Laid-Open No. 6-110117, there is disclosed the invention in which a database for location information and selection means for selecting from the database location information with which an image is recorded, are provided in a camera, and desired location information is selected and operated by a photographer at a time of picture-taking, so as to record the location information on a photo film together with the image. Herein the location information is a so-called place name, and it is recorded on the photo film as character information. 
     Further, in Japanese Patent Laid-Open No. 4-70735, there is disclosed a camera in which two detecting means, such as detecting means in a positioning system by GPS (Global Positioning System), and detecting means of information from a system that provides location information that is characterized in a specific location or a region in an FM wave, are provided with the camera, and either one of the detected results of the two detecting means is recorded in a memory card along with an image taken in accordance with a predetermined order of priority. 
     Moreover, in Japanese Patent Laid-Open No. 8-36217, there is disclosed detecting means of a positioning system by GPS to a camera, and a camera for recording detected location information along with an image on a photo film by encoding the detected location information, and an apparatus for printing converted information on a photographic print, or for displaying it on a TV monitor, as reproducing location information that is encoded from the photo film after having been taken, and then converting it to information which is understandable by human beings, such as a place name, and the like by collating it with a database. 
     Information for a location associated with an image (hereinafter, it is referred to as location information) could be utilized in a variety of ways in accordance with an appreciation aspect of an image. For example, it is considered that a picture-taking location may be clarified by printing it with an image on a photographic print, or by displaying it with an image on a TV or a CRT monitor. In this case, it is preferable that, as the information for the location, the place name, the location name and the like are displayed as character information. 
     In academic usage and the like, it is preferable that the latitude and longitude information based on the detected results of the positioning means using the GPS are recorded as they are, and are displayed along with the image. 
     Further, in a usage that facilitates image retrieval for each of the picture-taking locations by constructing an image database within a computer, it is convenient to provide a code list in which predetermined codes are provided for each of the locations, and to record the location information with these codes. This is because it is possible to make a memory capacity for recording or for storing to be relatively small with the codes, and it is possible to construct a system having a compatibility among the various kinds of application software, by unifying the code lists. 
     Also, obviously, it is preferable that the location information can be obtained and recorded easily, without performing an extra operation at a time when picture-taking. 
     In the above-mentioned Japanese Patent Laid-Open No. 6-110117, it is inconvenient to do the operation of selecting the desired location information from the database for the location information at a time of picture-taking, and also the database for the location information is required to have a very large memory capacity considering one camera is to be used all over the world, and thus it has a disadvantage as to not be practical to install it in a camera. Also, it has a disadvantage as to enable one to manipulate only the character information for the place name or the location name, and thus it is not suitable for a wide range of usage. 
     Further, in the above-mentioned Japanese Patent Laid-Open No. 4-70735, information for a location is recorded automatically at a time of a picture-taking, but the information to be recorded along with the image is only one kind that is determined by a predetermined order of priority, and thus it has a disadvantage as to be not suitable for a wide range of usage. 
     Moreover, in the above-mentioned Japanese Patent Laid-Open No. 8-36217, encoded location information that is recorded automatically by a camera is converted by a second apparatus having a database of location information to information which is understandable by a human being, and then is displayed and printed along with an image, but it enables one to manipulate only character information, such as a place name, a location name and the like, and as a result it has a disadvantage as not enabling one to deal with a wide range of usage. Further, the location information recorded on a photo film along with an image is only encoded information, and thus it has a disadvantage of not enabling one to transmit character information, such as the place name, the location name and the like, that are obtained from the database to a third apparatus, and of not enabling one to reuse them. 
     SUMMARY OF THE INVENTION 
     Accordingly, it is an object of the present invention to provide an apparatus for enabling one to deal with location information associated with an image of picture-taking, to a wide range of usage, by inputting the location information associated with the image of picture-taking, and by converting the input location information to a plurality of signals in different representation forms. 
     It is another object of the present invention to provide a method for processing location information associated with an image of picture-taking, in a wide range of usage, by inputting the location information associated with the image of picture-taking, and by converting the input location information to a plurality of signals in different representation forms. 
     It is yet another object of the present invention to provide a computer program product which is able to process location information associated with an image of picture-taking, in a wide range of usage, by inputting the location information associated with the image of picture-taking, and by converting the input location information to a plurality of signals in different representation forms. 
     It is an another object of the present invention to provide an apparatus that processes location information associated with an image of picture-taking, in a wide range of usage, by inputting, as original information, the location information associated with the image of picture-taking from an image recording medium into which the images of picture-taking are recorded, by converting the input original information to location information in a predetermined representation form, and by recording the converted location information in the predetermined representation form into the image recording medium. 
     It is another object of the present invention to provide a method for processing location information associated with an image of picture-taking, in a wide range of usage, by inputting, as original information, the location information associated with the image of picture-taking from an image recording medium into which the images of picture-taking are recorded, by converting the input original information to the location information in a predetermined representation form, and by recording the converted location information in the predetermined representation form into the image recording medium. 
     It is yet another object of the present invention to provide a computer program product which is able to process location information associated with an image of picture-taking, in a wide range of usage, by inputting, as original information, the location information associated with the image of picture-taking from an image recording medium into which the images of picture-taking are recorded, by converting the input original information to location information in a predetermined representation form, and by recording the converted location information in the predetermined representation form into the image recording medium. 
     Further objects and advantages of the invention can be more fully understood from the following detailed description taken in conjunction with the accompanying drawings. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a block diagram showing a configuration of a CRT monitor appreciation apparatus according to a first embodiment of the present invention; 
         FIG. 2  is an external view of the CRT monitor appreciation apparatus according to the first embodiment; 
         FIG. 3  is a configuration diagram showing the contents of a conversion table; 
         FIG. 4  is a flowchart showing an operation of the first embodiment; 
         FIG. 5  is a flowchart showing an operation of the first embodiment; 
         FIG. 6  is a configuration diagram showing a display example of the monitor; 
         FIG. 7  is a configuration diagram for illustrating a recording operation of the first embodiment, 
         FIG. 8  is a block diagram showing a configuration of a camera according to the first embodiment; 
         FIG. 9  is an external view of the camera according to the first embodiment; 
         FIG. 10  is a flowchart showing an operation of the camera according to the first embodiment; 
         FIG. 11  is a configuration diagram for illustrating a recording operation of the camera according to the first embodiment; 
         FIG. 12  is a flowchart showing an operation of a CRT monitor appreciation apparatus according to a second embodiment; 
         FIG. 13  is a block diagram showing a configuration of a CRT monitor appreciation apparatus according to a third embodiment; 
         FIG. 14  is a flowchart showing an operation of the third embodiment; and 
         FIG. 15  is a configuration diagram for illustrating a recording operation of the third embodiment. 
     
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     In the following, the preferred embodiments of the present invention will be described in more detail with reference to the drawings. 
     Initially, a first embodiment of the present invention will be described. 
     Parts for detecting location information and for recording it as original information into a recording medium along with an image, will be described with reference to  FIGS. 8 to 11 .  FIG. 8  is a block diagram showing a configuration of a camera,  FIG. 9  is an external view of the camera,  FIG. 10  is a flowchart showing an operation of the camera, and  FIG. 11  is a diagram for illustrating a recording operation of the camera. 
     As shown in  FIGS. 8 and 9 , the camera  101  includes a microprocessor  102  for controlling an operation of the camera, and in which a ROM and a RAM are installed, a photo-metering circuit  103  (hereinafter, it is referred to as a metering circuit), a distance-measuring circuit  104 , a shutter controlling unit  105 , an auto-focus controlling unit  106 , a display circuit  107  for driving a display device  108 , a clock circuit  109  for counting a date and time automatically, a data storing circuit  110  for temporarily storing data to be recorded, a feeding motor driving circuit  111  for driving a photo film F that is accommodated in a cartridge, through a feeding mechanism  112 , and a film feeding quantity detecting circuit  113  for detecting a perforation P (see  FIG. 11 ) in the film F by driving a photo-reflector  114 , and for detecting a feeding quantity of the film. 
     The camera  101  also includes a magnetic recording/reproducing circuit  115  for recording magnetic information onto the film F through a magnetic head  116  or for reproducing the magnetic information recorded in the film F, a positioning receiver  117  for receiving a radio wave of a GPS system, and a receiving circuit  118  for driving the positioning receiver and for calculating a current position (the latitude and the longitude) from the radio wave being received. 
     The camera  101  further includes a main switch  119  of the camera, a shutter button  120 , a switch  121  (“switch  1 ”) that closes at a first stroke of the shutter button  120 , a switch  122  (“switch  2 ”) that closes at a second stroke of the shutter button  120 , a positioning switch  123  for establishing whether a positioning by the positioning receiver  117  and the receiving circuit  118  should be implemented or not, a title switch  124  for selecting a title of an image, which is to be recorded with the image, a DATE switch  125  for establishing whether a date and time should be recorded or not with the image, an aspect ratio switch  126  for selecting an aspect ratio of the image of the picture-taking, and a picture-taking lens L. 
     Herein, the photo film F preferably is one in which a magnetic recording layer that is optically transparent is provided on a base surface side thereof (a side opposite the emulsion painted surface), and enables magnetic recording and reproducing by the magnetic head from the base surface side of the film. 
     In the following, operation of the camera will be described, based on the flowchart of  FIG. 10 . When the main switch  119  of the camera is turned ON, then at step S 101  (hereinafter, the word “step” is omitted) it is determined whether a first stroke of the shutter button  120  is performed, i.e., whether the switch  121  (“switch  1 ”) is closed (ON) or not, and processing is held in a loop if it is not ON, but processing proceeds to S 102  if it is ON. At S 102 , it is determined whether the positioning switch  123  is set to ON, then proceeding to S 105  (bypassing S 103  and S 104 ) if it is OFF, but proceeding to  8103  if it is ON. 
     At S 103  the positioning receiver  117  is driven through the receiving circuit  118 . At S 104  a receiving radio wave of the positioning receiver  117  is calculated in the receiving circuit  118 , and latitude and longitude information that is a result of the calculation thereof is captured, and after having been temporarily stored in the data storing circuit  110 . At  8105  it is determined whether “record date and time” is indicated by the DATE switch  125 , proceeding to S 107  (bypassing S 106 ) if it is not so indicated, but proceeding to S 106  capturing the current date and time into the clock circuit  109  and temporarily storing it in the data storing circuit  110  if it is so indicated. 
     At S 107  it is determined whether “title record” is indicated by the title switch  124 , proceeding to S 109  (bypassing S 108 ) if it is not so indicated, but temporarily storing at S 108  the content of the title being selected into the data storing circuit  110  and proceeding to S 109  if it is so indicated. At S 109  the aspect ratio of the image of picture-taking that is selected by the aspect ratio switch  126  is stored into the data storing circuit  110 . At S 110  metering of an object of picture-taking is performed by the metering circuit  103 . At S 111  distance-measurement of the object of picture-taking is performed. At S 112  it is determined whether the shutter button  120  is pressed down to the second stroke thereof, i.e., whether the switch  122  (“switch  2 ”) is turned ON with processing returning to S 101  and then holding if it is turned OFF, but proceeding to S 113  if it is turned ON. 
     At S 113  a picture-taking operation is performed. That is, auto-focus control is performed by driving the picture-taking lens L through the auto-focus controlling unit  106  based on the result of S 11 , and then the film F is exposed by driving the shutter controlling unit  105  based on the result of S 110 . 
     Then, S 114  starts the film F feeding to the next picture taking frame by driving the feeding motor driving circuit  111 . 
     At S 15  the magnetic head  116  is driven through the magnetic recording/reproducing circuit  115 , magnetically recording various kinds of segments of information that have been temporarily stored in the data storing circuit  110  on the magnetic recording layer of the film F. 
     At S 116  it is determined whether film feeding for one frame is completed by the photo-reflector  114  and the film feeding quantity detecting circuit  113 , waiting until complete if it is not completed, but proceeding to S 117  and stopping the feeding motor via the feeding motor driving circuit  117  if it has been completed. As a result, a camera film feed operation for one frame is finished. 
     In the following a state of the magnetic record that is recorded on the film F at S 115  will be described with reference to  FIG. 11 . 
     F 1 , F 2 , F 3 , . . . denote the respective picture-taking frames, where F 1  denotes the first frame. In this figure the first frame and the second frame have been exposed, and various kinds of segments of information corresponding to the respective frames have been recorded. 
     The information corresponding to the respective frames is recorded as being separated in the first magnetic track T 1  and the second magnetic track T 2 . For the first frame F 1 , it becomes the first magnetic track T 11 , the second magnetic track T 21 , and for the second frame F 2 , it becomes the first magnetic track T 12 , the second magnetic track T 22 . Two magnetic tracks are respectively recorded by the first channel  116   a  and the second channel  116   b  of the magnetic head  116 . 
     As exemplified in enlarged from for the first frame  1 , the order of recordings of the first magnetic track T 1  is arranged by an SS (Start Sentinel) information indicating a beginning of the information, ID 1  information indicating an ID of the date and time information, an actual date and time data following thereafter, ID 2  information indicating an ID of aspect ratio information, the actual aspect ratio data following thereafter, ID 3  information indicating an ID of title information, an actual title data following thereafter, and ES (End Sentinel) information indicating an end of the information. 
     The order of recordings of the second magnetic track T 2  is arranged by an SS indicating a beginning of the information, ID 4  information indicating location information detected by the positioning means, and latitude and longitude information (original information) that is recorded in a latitude and longitude form, with actual latitude and longitude data (original information data) following thereafter, and ES information indicating an end of the information. 
     Herein, the original information is location information and the like that are recorded at a time of picture-taking, and represents the location information that is already recorded in a recording medium along with an image, when a recording medium such as a photo film and the like is loaded in a recording apparatus to be described below. 
     In the following, a recording apparatus according to the preferred embodiment of the present invention will be described with reference to  FIGS. 1 to 7 . 
       FIG. 1  is a block diagram showing a configuration of the CRT monitor appreciation apparatus that is the recording apparatus,  FIG. 2  is an external view,  FIG. 3  is a diagram for illustrating the contents of the conversion table in  FIG. 1 ,  FIGS. 4 and 5  are flowcharts for illustrating the operation of the CRT monitor appreciation apparatus,  FIG. 6  is a diagram for illustrating a display example on the CRT monitor, and  FIG. 7  is a diagram for illustrating a recording operation of the appreciation apparatus. 
     As shown in  FIGS. 1 and 2 , a CRT monitor appreciation apparatus  1  includes a main body  2 , a CRT monitor  3 , a mouse  4  for implementing various kinds of inputs, a keyboard  5 , and a film cartridge C in which photo film F having a magnetic recording layer is installed. The photo film F is already exposed and developed, thereby containing an image that is clearly imaged. Further, the information that is magnetically recorded on the film at a time of the exposure/picture-taking remains in the state as it is. 
     The CRT monitor appreciation apparatus includes a microprocessor MP for controlling operation of the appreciation apparatus, the microprocessor being provided within the main body  2 , and having a ROM and a RAM installed therein. The CRT apparatus also includes an illumination driving circuit  6  for illuminating an image on the film F by driving an illumination light source  7 , an illumination box  8  for obtaining a uniform illumination, an optical system  9  for image-forming an image from the film F onto a CCD  10 , a CCD driving circuit  16 , and an image processing circuit  11  for implementing a white balance adjustment, an exposure compensation based on the exposure data input from the key board  5  and the mouse  4 , a color compensation, a superimposition of various kinds of segments of information and the like, and for causing the CRT monitor  3  to display the last image. 
     The CRT monitor apprecation apparatus  1  also includes a photo-reflector  12 , which detects barcode information that is clearly imaged on the film F, a film information detecting circuit  13 , which reads a maker name, a classification and the like of the film according to the barcode information detected by the photo-reflector  12 , and inputs them to the microprocessor MP, another photo-reflector  14 , which detects the perforation P on the film F, and a film feeding quantity detecting circuit  15 , which detects a feeding quantity of the film according to the perforation signal detected by the photo-reflector  14 , and inputs it to the microprocessor MP. 
     The CRT monitor appreciation apparatus  1  further includes a feeding motor driving circuit  17 , which performs a feeding of the film F through a feeding motor (not shown), and a feeding mechanism  18 , a reproducing head  19 , a magnetic reproducing circuit  20 , which performs a reproduction of the information that is magnetically recorded on the film F, a recording head  21 , and a magnetic recording circuit  22 , which performs an additional recording of new information to the film F and a re-recording of the information in which a content thereof is modified. 
     The CRT monitor appreciation apparatus  1  still further includes a cartridge detecting switch  23 , which detects whether a film cartridge C is loaded in the main body  2  or not, and inputs it to the microprocessor MP, a main switch  24 , a feeding switch  25  that indicates one frame feeding of a film, a rewind switch  26  that indicates a rewind of a film, an ejector switch  27 , which is mechanically switched at a time when the film is ejected, and a conversion table  28 , which is a storage device in which a corresponding table of the information in the various kinds of forms for the locations is recorded. 
     Herein, a content of the conversion table  28  will be described, based on the example in  FIG. 3 . 
     The conversion table  28  relates the latitude and longitude information recorded in the latitude and longitude recording form applicable to the original information, the place name, location name as the character information recorded in the corresponding character recording form, and the barcode number as the code information recorded in the code recording form, one-by-one. 
     It is preferable that the above-mentioned three kinds of recording forms of the information are determined with the most suitable forms to the respective information. In  FIG. 3 , it is set that the original information (the latitude and longitude information) is in a form of the latitude and the longitude being recorded identifiably, the character information is in a form of being recorded with the character string using the character set defined by the ISO646 and the like, and the code information is in a form being recorded with the numerical string. 
     Returning to  FIG. 1 , a numeral  29  denotes a selection switch, that is a switch for selecting either a first recording form (the place name, location name that are the character information) that is obtained through the conversion table  28  from the original information for the location (the latitude and longitude information) or a second recording form (the code numbers that are the code information). 
     In the following, an operation of the CRT monitor appreciation apparatus will be described, based on the flowcharts in  FIGS. 4 and 5 . 
     When the main switch  24  is turned ON, at step S 10  it is determined whether the cartridge C is loaded or not according to a state of the cartridge detecting switch  23 , holding if it is not loaded, but proceeding to S 11  if it is loaded. At S 11  the CCD  10  is driven by the CCD driving circuit  16 . At S 12 , the light source  7  is driven by the illumination driving circuit  6 . At S 13 , the feeding motor is rotated by the feeding motor driving circuit  17 , starting a feeding of the film F. 
     At S 14 , the information of the film maker name, the film classification, the number of picture-taking frames and the like are read from the barcode information on the film F by the photo-reflector  19  and the film information detecting circuit  13 . At S 15 , reproduction, decoding and storing operations of the information that is magnetically recorded on the film F are performed by the reproducing head  19  and the magnetic reproducing circuit  20 . At S 16 , it is determined whether the beginning of the first picture-taking frame of the film F is completed or not, by the photo-reflector  14  and the film feeding quantity detecting circuit  15 , waiting for the completion if it is not completed, but proceeding to S 17  if it is already completed. 
     At S 17 , driving of the feeding motor is stopped. At S 18 , it is determined whether the rewind switch  26  is turned ON or not, and if it is turned ON, then the feeding motor is reversed at S 19 ; after having waited for completion of a rewind of the film at S 20 , the feeding motor is stopped at S 21 , the cartridge C is ejected at S 22 , and the process ends then. On the other hand, if the rewind switch  26  is not turned ON at S 18 , the process proceeds to S 23 , and picture-taking of an image is performed by the CCD  10  and the CCD driving circuit  16 . At S 24 , white balance adjustment of the image by the image processing circuit  11 , exposure compensation based on exposure compensation data input from the keyboard  4  and the mouse  3 , and color compensation and the like are performed, and then at S 25  a display of the image is performed by the CRT 2 . 
     Then, proceeding to S 26 , it is determined whether the original information (the latitude and longitude information) that is the local information is to be included or not among the magnetic information read by the magnetic reproducing circuit  20 , and proceeding to S 29  (bypassing S 27  and S 28 ) if it is not included, but proceeding to S 27  if it is included. At S 27  the character information (place name, location name) and the code information (code number) corresponding to the original information that is recorded, is determined by retrieving the conversion table  28 . At S 28 , the determined character information and the code information are superimposed with the original information on the CRT  2  through the image processing circuit  11 . Then, at S 29 , information other than the location information is superimposed thereon. 
       FIG. 6  shows a display example of the CRT monitor  2  at that time, where the date and time information  2   a , the aspect ratio information  2   b , the title information  2   c , the latitude and longitude information  2   d  that is the original information of the location information, and the character information  2   e  that is selected as the retrieval result and the code information  2   f  and displayed. Next, at S 30  it is determined whether the character information or the code information is selected by the selection switch  29 , and at S 31  and S 32  the selected information is stored. In the CRT monitor, it makes possible to confirm which information is selected with the selection marks  2   g ,  2   h  in  FIG. 6 . 
     At S 33 , it is determined whether the feeding switch  26  is turned ON or not, returning to S 30  if it is not turned ON, but proceeding to S 34  if it is turned ON. At S 34 , film feeding is started by rotation-driving the feeding motor. At S 35 , the location information that is stored at S 31  or at S 32  is magnetically recorded on a film by the recording head  21  and magnetic recording circuit  22 . At S 36 , similar to S 15 , reproducing, decoding, and storing operations for the magnetic information that is recorded on the next picture-taking frame are performed. At S 37 , it is determined whether film feeding for one frame is completed or not, waiting for completion if it is not completed, but proceeding to S 38  if it is completed. 
     At S 38 , it is determined whether a last frame of a film is completed or not, returning to S 17  if it is not completed, and performing operations that are similar to the ones described as above. If it is determined that the operation of the last frame is completed at S 38 , a rewind operation of the film is performed at S 19 . 
     Now, this will describe a state of a magnetic recording that is recorded on the film F at S 35 , with reference to  FIG. 7 , which it shows a case in which the character information that is recorded in the character form is selected as the location information at S 30 . Further, for the same elements in  FIG. 11 , the same symbols are attached thereto and the descriptions thereof are omitted. 
     Since the recorded content of the first magnetic track T 1  is not changed, it becomes the same as the one at a time of picture-taking ( FIG. 11 ). The recorded content of the second magnetic track is such that the location information is changed and re-recorded from the original information to the character information, and the order of this recording becomes a SS (Start Sentinel), ID 5  information indicating the character information that is recorded in character form, followed by the character information data, and an ES (End Sentinel) indicating an end of the information. 
     When the code information is selected as the location information at step S 30 , instead of the ID 5  information, ID 6  information indicating the code information which is recorded in code form that is to be the location information, and instead of the character information data, the code number data are respectively recorded. 
     In the present embodiment, it is possible to obtain the character information or the code information, to which the original information as the location information is converted, and to re-record this on the film in place of the original information. Further, desirable information can be recorded selectively from the character information and the code information. 
     In the following, the second embodiment will be described. 
     A configuration of the CRT monitor appreciation apparatus in the present embodiment is the same as in  FIG. 1 , and it is assumed to adopt this, but it differs from the first embodiment in such a point that for the location information, the original information can be selected in addition to the character information and the code information by the selection switch  26 . 
       FIG. 12  is a flowchart for illustrating an operation of the present embodiment, and is comparable to  FIG. 5  of the first embodiment. In embodiment  FIG. 12 , the same step numbers are attached to steps that are the same as in  FIG. 5 . 
     S 30  in  FIG. 5  is equivalent to S 50  in  FIG. 12 . At S 50 , it is determined whether the original information (the latitude and longitude information being recorded in the latitude and longitude form), the character information, or the code information is selected by the selection switch  26 , proceeding to S 51  and storing the original information if the original information is selected, but proceeding to S 31  and storing the character information if the character information is selected, or proceeding to S 32  and storing the code information if the code information is selected. Thereafter, similar operations as the ones in the first embodiment are performed. 
     In the present embodiment, it is possible to retain the original information on the film as it is, other than only the converted information such as the character information and the code information. 
     In the following, the CRT monitor appreciation apparatus according to the third embodiment will be described with reference to  FIGS. 13 to 15 . 
       FIG. 13  is a configuration diagram, and the same numbers are attached to the elements that are the same as the ones in  FIG. 1 . It differs from  FIG. 1  in the point such that the selection switch  29  is not provided, but instead there are provided three switches: an original information switch  51  for indicating a record of the original information (the latitude and longitude information in the present embodiment), a character information switch  52  for indicating a record of the character information, and a code information switch  53  for indicating a record of the code information. It is arranged such that the three switches can be set ON/OFF individually, that is, it is possible to select indication/no-indication of a record for each information. 
       FIG. 14  is a flowchart for illustrating the operations, and the same step numbers are attached to the operations that are the same as the ones in  FIG. 5 . 
     Proceeding from S 29  in  FIG. 4  according to the first embodiment, at S 60 , it is determined whether the original information switch  51  is turned ON or not, proceeding to S 61  (bypassing S 62 ) if it is not turned ON, but proceeding to S 61  if it is turned ON. At S 61 , the corresponding original information (the latitude and longitude information) is stored, proceeding to S 62 . At S 62 , it is determined whether the character information switch  52  is turned ON or not, proceeding to S 64  if it is not turned ON, but proceeding to S 63  if it is turned ON. 
     At S 63 , the corresponding character information (the place name, the location name) is stored. At S 64 , it is determined whether the code information switch is turned ON or not, proceeding to S 66  if it is not turned ON, but proceeding to S 65  if it is turned ON. At S 65 , the corresponding code information (the code number) is stored. At S 66 , it is determined whether the feeding switch  25  is turned ON or not, returning to S 60  if it is not turned ON, but proceeding to S 34  if it is turned ON. It will be the same operations as in  FIG. 5  after S 34 , and at S 35 , the location information being stored at S 60  to S 65  are magnetically recorded on the film. 
       FIG. 15  is a diagram illustrating a state of the magnetic record that is recorded on the film F in the present embodiment, and the same numbers are attached to the elements that are the same as the ones in  FIG. 7 . 
     Herein, at steps S 60  to S 65 , all three kinds of data of location information are indicated, and at the step S 35 , the state of being magnetically recorded is indicated. Since the recorded content of the first magnetic track T 1  is not changed, it is the same as the one at a time of picture-taking ( FIG. 11 ). 
     All three kinds of data of location information are recorded on the second magnetic track T 2 , and it is arranged as a SS (Start Sentinel) indicating a beginning of the information, ID 4  information indicating the original information, i.e., the latitude and longitude information that is recorded in the latitude and longitude form, followed by the original information data, ID 5  information indicating the character information that is recorded in the character form, followed by the character information data, ID 6  information indicating the code information that is recorded in the code form, the code information data, and an ES (End Sentinel) indicating an end of the information. 
     In the present embodiment, besides the above-mentioned recording of all three kinds of segments of information including the original information, an individual recording of the respective information and/or a recording combining any two kinds of the segments of information are available. 
     The individual components shown in schematic or block form in the drawings are all well-known in the camera arts and their specific construction and operation are not critical to the operation or best mode for carrying out the invention. 
     While the present invention has been described with respect to what is presently considered to be the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. To the contrary, the invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions. 
     For example, in the embodiments described above, the images associated with the location information are the picture-taking images, but the present invention is applicable to images other than picture-taking images. 
     Further, in the third embodiment, when the latitude and longitude information that is the original information is selected, it is arranged to re-record this information, but it may be arranged to use the recorded original information as it is, so as to not re-record. 
     Moreover, in the first to third embodiments, a photo film having a magnetic recording layer as the recording medium for recording the image and the location information is illustrated, but it is not limited thereto. A memory card, a floppy disk and the like are suitable other recording media. In these cases, it is easy to modify the CRT appreciation apparatus and the camera to the structures suitable for these recording media. 
     Further, the CRT monitor appreciation apparatus is exemplified as a recording apparatus, but it is not limited thereto, and as suitable examples for the recording apparatus, there are an apparatus for producing a print from a photo film (in this case, the location information is recorded on a paper and the like on which a print is produced, and a recording form thereof may be selectable), an image reproducing apparatus for a computer processing, and the like. 
     Moreover, as the original information of the location information, the latitude and longitude information based on the GPS system, which is detected by the camera, is exemplified, but it is not limited thereto; the information may be information showing location information that is recorded on the recording medium in advance at a time when the recording medium is loaded on the recording apparatus, and for example, it may be positional information obtained from a radio wave of a communication base station, location information of which the content thereof is transferred from other recording medium and then is recorded, and the like. 
     In the following, a recording medium according to the present invention will be described. 
     The systems according to the respective embodiments shown in  FIGS. 1 ,  2 ,  8 ,  9  and  13  and the like may be constructed in hardware, or they may be constructed in computer systems constituting CPUs, a memory and the like. When constructed in a computer system, the above-mentioned memory constitutes the recording medium according to the present invention. In this recording medium, there is stored a program for performing the processes included in the flowcharts and the like of  FIGS. 4 ,  5 ,  10 ,  12 ,  14  described above, and it constitutes a computer program product for providing the program. 
     Moreover, as this recording medium, a semiconductor memory such as a ROM, a RAM and the like, an optical disk, a magneto-optical disk, and a magnetic recording medium and the like may be used, and they may be constituted as a CD-ROM, an FD, a magnetic card, a magnetic tape, a non-volatile memory card and the like. 
     Accordingly, by using this recording medium in another system or apparatus other than the systems according to the above-mentioned respective embodiments, and as the system or the computer reads and performs the program codes stored in the recording medium, it implements the functions and effects that are equivalent to the ones in the respective embodiments described as above, thereby achieving the objects of the present invention. 
     Further, when the OS and the like running on the computer perform a portion of or all of the processes, or after the program codes read from the recording medium are written into a memory that is provided in an extension board inserted into the computer or in an extension unit connected to the computer, and when the CPU and the like provided in the above-mentioned extension board or extension unit perform a portion of or all of the processes based on the instructions of the program codes, it implements the functions and effects that are equivalent to the ones in the respective embodiments described as above, thereby achieving the objects of the present invention. 
     Moreover, the present invention is such that the technical elements of the embodiments as described above may be combined as required. 
     Further, the present invention is such that a portion of or all of the constituents of the claims or of the embodiments may form one apparatus, or may be combined with another apparatus, or may be an element constituting an apparatus.