JP4371507B2 - Electronic translation apparatus and method for controlling electronic translation apparatus - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an apparatus capable of displaying a plurality of languages, and more particularly to an apparatus for assigning priorities to a plurality of languages and switching the languages to be displayed based on the priorities.
[0002]
[Prior art]
Conventionally, there is an invention disclosed in Japanese Patent Laid-Open No. 9-127926 as a display device that displays a plurality of types of languages. The present invention includes an input unit for inputting priorities of a plurality of language types, a language switching unit for switching priorities of a plurality of language types in accordance with contents input from the input unit, and a plurality of language types Screen data including character data and a priority order code, a display section for displaying data on the screen, and display the screen data with a priority determined according to the priority code input from the input section And a display control unit that displays the image on the screen with priority. According to the present invention, the user can change the language type preferentially displayed as the first priority by appropriately setting the priority code. According to the present invention, the priority order of languages to be displayed on the display unit is changed in the initial setting performed by the user himself, and the user knows in advance which language is to be preferentially displayed on the display unit.
[0003]
[Problems to be solved by the invention]
However, the invention disclosed in the above-mentioned publication requires the user to know in advance the priority order of languages displayed on the display unit. On the other hand, electronic devices including electronic translation devices are used by users in cities around the world. In such a case, it may be difficult for the user himself to grasp the language priority order based on the language usage state in each city. Particularly in Europe where many languages are used in a small area, it is often difficult for the user to grasp the priority order of languages in each city.
[0004]
The present invention has been made in order to solve the above-described problems, and the object of the present invention is to easily switch languages even if the user has no special knowledge about the languages used in the cities of the world. A language switching apparatus capable of performing the above, an electronic translation apparatus including the apparatus, a language switching method, and a machine-readable recording medium storing a program for realizing the method. Another object of the present invention is that if the user has special knowledge about the language used in each city in the world, the knowledge can be reflected and the language can be easily switched. A switching device and an electronic translation device including the device are provided.
[0005]
[Means for Solving the Problems]
The language switching device according to the present invention includes a clock display means for displaying the local time of each city in the world, and a selection means for selecting a city that is connected to the clock display means and displays the local time. A language switching device in an electronic device capable of displaying the local time of each city in the world, connected to a selection means, and prioritized in a plurality of languages predetermined for each city in the world, and for each language Storage means for storing character data; connected to storage means; display means for displaying character data stored in storage means; connected to storage means and display means; selected by selection means Display control means for controlling the display means to preferentially display the character data in the language determined by the language priority in the city.
[0006]
According to the above invention, the storage means stores the priority order of a plurality of languages predetermined for each city in the world and the character data for each of the plurality of languages. The display control means causes the display means to preferentially display the character data in the language determined by the language priority in the city where the local time is displayed. Thereby, according to the priority order of the language in the city selected by the selection means, the character data of the language is displayed on the display means. As a result, it is possible to provide a language switching device that allows the user to easily switch languages without special knowledge about the languages used in cities in the world.
[0007]
In addition to the configuration of the above invention, the language switching device according to the present invention further includes input means connected to the storage means and for inputting the priority order.
[0008]
According to the above invention, the input means inputs the priorities of a plurality of languages. Thereby, the priority order of a language can be changed. As a result, when the user has special knowledge about the language used in each city in the world, it is possible to provide a language switching device that can reflect the knowledge and can easily switch the language.
[0009]
An electronic translation apparatus according to the present invention is an electronic translation apparatus capable of displaying the local time of each city in the world, and is connected to the clock display means for displaying the local time of each city in the world, and the clock display means. The language switching device includes a selection means for selecting a city for displaying the local time, an input means for inputting character data of a language to be translated, and a language switching device for switching a language related to the display. Connected to the selection means, a storage means for storing the priority order of a plurality of languages predetermined for each city in the world and character data for each of the plurality of languages, and a storage means connected to the storage means Character data corresponding to the character data of the language input by the input means, connected to the display means for displaying the character data stored in the input means, the storage means and the display means, Record Has been character data in, and a display control means for the character data language determined by the language priority in urban selected by the selection means, is preferentially displayed on the display means.
[0010]
According to the above invention, the clock display means displays the local time of each city in the world. The selection means selects a city for displaying the local time. The storage means stores a plurality of language priorities predetermined for each city in the world and character data for each of the plurality of languages. The display means displays the character data stored in the storage means corresponding to the language input by the input means. The display control means causes the display means to preferentially display the character data in the language determined by the language priority in the city where the local time is displayed. Thereby, the character data of the language is displayed on the display unit according to the priority order of the language in the city where the local time selected by the selection unit is displayed. As a result, it is possible to provide an electronic translation apparatus capable of switching the language only by selecting a city for displaying the local time, even if the user has no special knowledge about the language used in each city in the world.
[0011]
The electronic translation apparatus according to the present invention, in addition to the configuration of the above invention, the language switching apparatus further includes priority order input means connected to the storage means for inputting the priority order.
[0012]
According to the above invention, the priority order input means inputs the priority order of a plurality of languages. Thereby, the priority order of a language can be changed. As a result, when the user has special knowledge about the language used in each city in the world, it is possible to provide an electronic translation apparatus that can reflect the knowledge and can easily switch the language.
[0013]
The language switching method according to the present invention includes clock display means for displaying the local time of each city in the world, and selection means for selecting a city connected to the clock display means for displaying the local time. A language switching method for switching a language related to display in an electronic device capable of displaying the local time of each city in the world, wherein a plurality of languages are prioritized in advance for each city in the world and a plurality of languages. A step of preparing a storage means storing character data for each, a selection step for selecting a city for displaying local time, and character data in a language determined by the language priority in the city selected in the selection step A character display step for preferentially displaying.
[0014]
According to the above invention, the storage means for storing the priority order of a plurality of languages predetermined for each city in the world and the character data for each of the plurality of languages is prepared, and the local time is displayed in the selection step. Select a city. In the character display step, the character data of the language determined by the priority order of the language in the selected city is preferentially displayed. Thereby, according to the priority of the language in the city selected at the selection step, the character data of the language can be displayed. As a result, it is possible to provide a language switching method that allows a user to easily switch languages without special knowledge about the languages used in cities in the world.
[0015]
The recording medium according to the present invention includes a clock display means for displaying the local time of each city in the world, and a selection means for selecting a city connected to the clock display means for displaying the local time. A machine-readable recording medium storing a program for realizing a language switching method for switching a language related to display in an electronic device capable of displaying the local time of each city of the city. It is selected in a step of preparing a storage means that stores predetermined priorities of a plurality of languages and character data for each of a plurality of languages, a selection step for selecting a city for displaying local time, and a selection step. And a character display step for preferentially displaying the character data of the language determined by the priority order of the language in the city.
[0016]
According to the above invention, the storage means for storing the priority order of a plurality of languages predetermined for each city in the world and the character data for each of the plurality of languages is prepared, and the local time is displayed in the selection step. Select a city. In the character display step, the character data of the language determined by the priority order of the language in the selected city is preferentially displayed. Thereby, according to the priority of the language in the city selected at the selection step, the character data of the language can be displayed. As a result, it is possible to provide a recording medium capable of realizing a language switching method in which a language can be easily switched without the user having special knowledge about the language used in each city in the world.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following description, the same parts are denoted by the same reference numerals. Their names and functions are also the same. Therefore, the repeated detailed description thereof will be omitted as appropriate.
[0018]
<Embodiment 1>
Referring to FIG. 1, electronic translation apparatus 20 according to an embodiment of the present invention is connected to each other via an internal bus 32, and calculates the local time of each city in the world and displays various languages. A CPU (Central Processing Unit) 22 for executing a program executed by the CPU 22, a ROM (Read Only Memory) 24 for storing a program executed by the CPU 22, and a RAM (Random for storing intermediate data of the program executed by the CPU 22) Access Memory) 26, LCD (Liquid Crystal Display) 28 for displaying the local time of each city in the world and displaying character data, the city for displaying the local time, and the language for translation Input device 30.
[0019]
The CPU 22 includes an internal clock 23 that measures the current date and time and the current time. The CPU 22 calculates the local time of the selected city from the time difference data in the city data stored in the RAM 26, which will be described later, and the current date and time of the internal clock, and displays them on the LCD 28. Further, the CPU 22 displays character data representing the language input from the input device 30 on the LCD 28 based on translation data stored in the ROM 24 described later and the priority order of the language in the city selected by the input device 30. To display.
[0020]
ROM 24 includes a program storage area for storing a program executed by CPU 22 and a data storage area for storing translation data and a city data table. The translation data stores words and sentence examples of each language corresponding to Japanese words and sentence examples of daily conversation.
[0021]
Referring to FIG. 2, the city data table stored in ROM 24 includes a part for storing a city name shown in FIG. 2A and a time difference from Greenwich Mean Time in the city, and a part shown in FIG. And a part for storing language priorities in the city. Note that the language priorities shown in FIG. 2B are stored as codes representing the languages shown in FIG. For example, in the city number 083 in New York, the first language priority is English, the second is Spanish, the third is Portuguese, the fourth is Korean, and the fifth is Chinese. It is not necessary to set the priority order up to the fifth for all cities.
[0022]
The RAM 26 stores the city name, time difference data, and language priority data of the city selected by the input device 30 in the city data table stored in the ROM 24 at a predetermined address.
[0023]
The LCD 28 is not limited to an LCD as long as it can display graphic data and character data.
[0024]
The input device 30 inputs a selection of a city for displaying the local time, inputs Japanese to be translated into a language based on a priority order in the selected city, and sets a language priority order in each city in the world. Or enter changes. The input device 30 may be any device that can input characters such as a keyboard, and is not limited to a specific device.
[0025]
Referring to FIG. 3, the program executed in electronic translation apparatus 20 according to the present embodiment has the following control structure for city selection / language switching processing.
[0026]
When a city selection / language switching process is requested in step 100 (hereinafter, step is abbreviated as S), the CPU 22 causes the LCD 28 to display a city selection screen.
[0027]
In S <b> 102, the CPU 22 waits for a key input from the input device 30.
In S <b> 104, CPU 22 determines whether or not an upward cursor key has been input from input device 30. If the upward cursor key is input (YES in S104), the process proceeds to S106. In S106, the CPU 22 moves the cursor displayed on the LCD 28 to the upper line. On the other hand, if the upward cursor key is not input (NO in S104), the process proceeds to S108.
[0028]
In S108, CPU 22 determines whether or not a downward cursor key has been input from input device 30. If the down cursor key is input (YES in S108), the process proceeds to S110. In S110, the CPU 22 moves the cursor displayed on the LCD 28 to the lower line. On the other hand, if the downward cursor key is not input (NO in S108), the process proceeds to S112.
[0029]
In S112, CPU 22 determines whether or not an input confirmation key has been input from input device 30. If the input confirmation key is input (YES in S112), the process proceeds to S114. On the other hand, if the input confirmation key is not input (NO in S112), the process proceeds to S124.
[0030]
At S114, CPU 22 causes RAM 26 to store the city number of the line where the cursor is on LCD 28. In S 116, the CPU 22 extracts the city name and time difference data from the city data table stored in the ROM 24 based on the city number stored in the RAM 26 in S 114, and stores it in the RAM 26. At S 118, CPU 22 calculates the stored local time of the city using internal clock 23 of CPU 22 based on the time difference stored in RAM 26. At S120, CPU 22 causes LCD 28 to display the local time calculated at S118 along with the city name. At S 122, CPU 22 extracts the priority order of the language corresponding to the city number from the city data table stored in ROM 24 based on the city number stored in RAM 26 and stores it in RAM 26.
[0031]
On the other hand, when the input confirmation key is not input in S112 (NO in S112), in S124, the CPU 22 determines whether or not the process end key is input from the input device 30. When the process end key is input from input device 30 (YES in S124), the process ends. On the other hand, when the process end key has not been input from input device 30 (NO in S124), the process returns to S102.
[0032]
The operation of the city selection / language switching process of the electronic translation apparatus based on the above-described structure and flowchart will be described. A case where the city indicating the local time is changed from New York to Berlin will be described.
[0033]
FIG. 4A shows a screen example of the LCD 28 of the electronic translation apparatus 20 in which the local time in New York is displayed.
[0034]
A city selection is input from the input device 30, and a city selection screen is displayed on the LCD 28 (S100).
[0035]
Referring to FIG. 4B, selectable city names stored in ROM 24 are displayed on the city selection screen. The cursor displayed on the LCD 28 moves up and down in response to an input of the upward cursor key from the input device 30 (YES in S104) and an input of the downward cursor key (YES in S108) (S106, S110). ).
[0036]
Referring to FIG. 4C, when the city (in this case Berlin) for which the local time is to be displayed is highlighted, the input confirmation key is pressed (YES in S112). As a result, the city number (101 in this case) of the line with the cursor is stored in the RAM 26 (S114). Based on the city number (101 in this case), the city name Berlin and the time difference “+1 hour” are extracted from the city data table stored in the ROM 24 and stored in the RAM 26 (S116). The local time in Berlin is calculated from the time difference stored in the RAM 26 (S118).
[0037]
Referring to FIG. 4D, the calculated local time and city name are displayed on LCD 28 (S120). Based on the city number (101 in this case), language priorities are extracted from the city data table stored in the ROM 24 and stored in the RAM 26 (S122).
[0038]
Referring to FIG. 5A, in the city data table of RAM 26 before the city selection / language switching process is performed, time difference data relating to New York of city number 083 and language priority data are stored. As described above, when the city selection / language switching process is performed, referring to FIG. 5B, the city data table of RAM 26 stores time difference data relating to Berlin of city number 101 and language priority data. Is done.
[0039]
With reference to FIG. 6, the case where the clock display screen is switched to the translation display screen by the input device 30 will be described. With reference to FIG. 6 (A), the switching from the displayed New York local time display screen in the translation display screen on the LCD28, and input from the input device 30 and the "Hello Kazamaki-san", and "Hello! Mr. Kazamaki" Is displayed. Next, as described above, the state after Berlin is selected in the city selection process will be described. With reference to FIG. 6 (B), and just as you enter "Hello Kazamaki-san" from the input device 30, it is displayed as "Gutentag! Herr Kazamaki".
[0040]
When the next candidate key on the input device 30 is pressed, English which is the second priority in Berlin of the city number 101 is displayed, and when the next language key is further pressed, the third priority Russian is displayed. The Further, when the same processing is performed, the display content of the LCD 28 is changed in the order of French and Dutch.
[0041]
As described above, the electronic translation apparatus according to the present embodiment can display character data according to the priority order of the language of the selected city on the LCD 28 by selecting the city for displaying the local time. it can. Thus, even if the user of the electronic translation apparatus according to the present embodiment does not have special knowledge about the language in each city in the world, it is possible to switch the language to be displayed only by selecting a city for displaying the local time. It is possible to provide an electronic translation apparatus that can
[0042]
<Embodiment 2>
The electronic translation apparatus according to the present embodiment further includes a function capable of setting language priorities for each city in the electronic translation apparatus having the control block diagram shown in FIG. The hardware configuration of the electronic translation apparatus according to the present embodiment is shown in FIG. 1 of the first embodiment, the city data table in the ROM 24 is shown in FIG. 3 of Embodiment 1 are the same as each other, and detailed description thereof will not be repeated here.
[0043]
Referring to FIG. 7, the program executed in electronic translation apparatus 20 according to the present embodiment has the following control structure for language priority setting processing.
[0044]
When a language priority setting request is made in S130, the CPU 22 causes the LCD 28 to display a priority screen.
[0045]
In S <b> 132, the CPU 22 waits for a key input from the input device 30.
In S <b> 134, CPU 22 determines whether an upward cursor key is input from input device 30 or not. If the upward cursor key is input (YES in S134), the process proceeds to S136. In S136, the CPU 22 moves the cursor displayed on the LCD 28 to the upper line. On the other hand, if the upward cursor key is not input (NO in S134), the process proceeds to S138.
[0046]
In S138, CPU 22 determines whether or not a downward cursor key has been input from input device 30. If the down cursor key is input (YES in S138), the process proceeds to S140. In S140, the CPU 22 moves the cursor of the LCD 28 to the lower line. On the other hand, if the downward cursor key is not input (NO in S138), the process proceeds to S142.
[0047]
In S <b> 142, CPU 22 determines whether a selection key has been input from input device 30 or not. If the selection key is input (YES in S142), the process proceeds to S144. On the other hand, if the selection key is not input (NO in S142), the process proceeds to S164.
[0048]
In S144, CPU 22 sets the priority order for changing the priority order of the position of the cursor on LCD 28. In S146, CPU 22 causes LCD 28 to display a language selection screen. In S <b> 148, the CPU 22 waits for an input from the input device 30.
[0049]
In S150, CPU 22 determines whether an upward cursor key is input from input device 30 or not. If the upward cursor key is input (YES in S150), the process proceeds to S152. In S152, the CPU 22 moves the cursor displayed on the LCD 28 to the upper line. On the other hand, if the upward cursor key is not input (NO in S150), the process proceeds to S154.
[0050]
In S154, CPU 22 determines whether a downward cursor key is input from input device 30 or not. If the down cursor key is input (YES in S154), the process proceeds to S156. In S156, the CPU 22 moves the cursor displayed on the LCD 28 to the lower line. On the other hand, if the down cursor key is not input (NO in S154), the process proceeds to S158.
[0051]
In S158, CPU 22 determines whether or not an input confirmation key has been input from input device 30. If the input confirmation key is input (YES in S158), the process proceeds to S160. In S160, the CPU 22 sets the language of the line where the cursor is in the priority order selected in S144 in the priority order table in the city data stored in the RAM 26. On the other hand, if the input confirmation key is not input (NO in S158), the process proceeds to S162.
[0052]
In S162, CPU 22 determines whether or not a process end key has been input from input device 30. When the process end key is input from input device 30 (YES in S162), the process returns to S130. On the other hand, if the process end key is not input (NO in S162), the process returns to S148.
[0053]
If the selection key is not input in S142, the CPU 22 determines whether or not a processing end key is input from the input device 30 in S164. When the process end key is input (YES in S164), the process ends. On the other hand, if the process end key is not input (NO in S164), the process returns to S132.
[0054]
The priority setting operation of the electronic translation apparatus according to the present embodiment based on the control structure and flowchart as described above will be described. A case will be described in which the setting of French language priority 3 in Singapore with city number 56 is changed to Spanish.
[0055]
Referring to FIG. 8A, the language priority screen in Singapore for city number 56 is displayed (S130).
[0056]
Referring to FIG. 8B, the cursor displayed on LCD 28 moves up and down in response to an input of an upward cursor key (YES in S134) and an input of a downward cursor key (YES in S138). (S136, S140).
[0057]
Move the cursor to French of priority 3 and press the select key (YES in S142). As a result, the priority order 3 with the cursor becomes the priority order to be changed (S144).
[0058]
Referring to FIG. 8C, a language selection screen is displayed on LCD 28 (S146). The cursor displayed on the LCD 28 moves up and down in response to the input of the up cursor key (YES in S150) and the input of the down cursor key (YES in S154) (S152, S156).
[0059]
Referring to FIG. 8D, when Spanish is highlighted, the input confirmation key is pressed (YES in S158). As a result, in the city data table stored in the RAM 26, the language priority 3 is changed to Spanish (S160).
[0060]
Referring to FIG. 8 (E), the process proceeds to S130 after the process of S160, and the language priority display screen in Singapore of city number 56 is displayed. Thus, the priority 3 language is changed from French to Spanish.
[0061]
Referring to FIG. 9, the priority 3 of the language of the city data table in Singapore for city number 56 stored in RAM 26 is changed from French (FIG. 9A) to Spanish (FIG. 9B). The
[0062]
As described above, according to the electronic translation apparatus according to the present embodiment, it is possible to input priorities of a plurality of languages for each city. Thereby, when the user of an electronic translation apparatus has special knowledge about the language used in each city in the world, the knowledge can be reflected.
[0063]
<Embodiment 3>
The electronic translation apparatus according to the present embodiment further includes a function of adding a city for displaying the local time in the electronic translation apparatus having the control block diagram shown in FIG. The hardware configuration of the electronic translation apparatus according to the present embodiment is shown in FIG. 1 of the first embodiment, and the city data table stored in the ROM is shown in FIG. 2 of the first embodiment. Since the flow is the same as the processing flow shown in FIG. 3 of the first embodiment, detailed description thereof will not be repeated here.
[0064]
The city addition process according to the present embodiment includes a city name input process, a time difference input process, and a priority setting process. Since the priority setting process flow is the same as the process flow shown in FIG. 7 of the second embodiment, detailed description thereof will not be repeated here.
[0065]
Referring to FIG. 10, the program executed in electronic translation apparatus 20 according to the present embodiment has the following control structure for city name input processing.
[0066]
When there is a city name input request in S170, the CPU 22 causes the LCD 28 to display a city name input screen. In S <b> 172, the CPU 22 waits for an input from the input device 30.
[0067]
In S174, CPU 22 determines whether a valid character key is input from input device 30 or not. If a valid character key is input from input device 30 (YES in S174), the process proceeds to S176. On the other hand, if a valid input key is not input (NO in S174), the process proceeds to S178.
[0068]
In S176, CPU 22 causes LCD 28 to display the character input from input device 30 and shifts the cursor to the right by one. Thereafter, the process returns to S172.
[0069]
In S178, CPU 22 determines whether an input confirmation key has been input from input device 30 or not. If the input confirmation key is input (YES in S178), the process proceeds to S180. On the other hand, if the input confirmation key is not input (NO in S178), the process proceeds to S186.
[0070]
In S180, CPU 22 determines whether or not the character of the city name to be added has been input. If it is determined that a character has been input (YES in S180), the process proceeds to S182. On the other hand, if it is determined that no character has been input (NO in S180), the process returns to S172.
[0071]
In S182, the CPU 22 stores the character string input from the input device 30 in the RAM 26 as a city name. Thereafter, the process proceeds to a time difference input process (S184).
[0072]
If it is determined in S178 that the input confirmation key has not been input, in S186, the CPU 22 determines whether or not a processing end key has been input. When the process end key is input (YES in S186), the process ends. On the other hand, if the process end key is not input (NO in S186), the process returns to S172.
[0073]
Referring to FIG. 11, the program executed in electronic translation apparatus 20 according to the present embodiment has the following control structure for time difference input processing.
[0074]
If there is a time difference input request in S190, the CPU 22 causes the LCD 28 to display a time difference input screen. In S <b> 192, the CPU 22 waits for a key input from the input device 30.
[0075]
In S194, CPU 22 determines whether or not an upward cursor key has been input from input device 30. If an upward cursor key is input (YES in S194), the process proceeds to S196. In S196, the CPU 22 increases the time difference corresponding to the city name stored in S182 of FIG. 10 by one minute. Thereafter, the process returns to S192. On the other hand, if the upward cursor key is not input (NO in S194), the process proceeds to S198.
[0076]
In S198, CPU 22 determines whether or not a downward cursor key has been input from input device 30. If the down cursor key is input (YES in S198), the process proceeds to S200. In S200, the CPU 22 decreases the time difference corresponding to the city stored in S182 of FIG. 10 by one minute. Thereafter, the process returns to S192. On the other hand, if the downward cursor key is not input (NO in S198), the process proceeds to S202.
[0077]
In S202, CPU 22 determines whether an input confirmation key has been input from input device 30 or not. If the input confirmation key is input (YES in S202), the process proceeds to S204. On the other hand, if the input confirmation key is not input (NO in S202), the process proceeds to S212.
[0078]
In S <b> 204, the CPU 22 stores the time difference displayed on the LCD 28 in the RAM 26. In S206, the CPU 22 stores the city name stored in S182 of FIG. 10 and the time difference data stored in S204 in the city data table of the RAM 26.
[0079]
In S208, the priority order (initial setting) of the language corresponding to the city name stored in S182 of FIG. 10 is stored in the priority order table of the RAM 26. Thereafter, the process proceeds to a priority order setting process S210. Language priorities (initial settings) are defined in the order of codes 01 to 05 shown in FIG.
[0080]
The operation of the city addition process of the electronic translation apparatus according to the present embodiment having the above-described structure and flowchart will be described. A case where Milwaukee is added to the city number 151 will be described.
[0081]
Referring to FIG. 12A, when the addition of city name is selected from the city name editing menu, the city name input screen shown in FIG. 12B is displayed (S170). On the city name input screen, a valid character is input from input device 30 and the input confirmation key is pressed (YES in S178). Thereby, the input character string is stored in the RAM 26 as the city name (S182).
[0082]
Referring to FIG. 12C, a time difference input screen is displayed on LCD 28 (S190). Corresponding to the input of the upward cursor key from the input device 30 (YES in S194) and the input of the downward cursor key (YES in S198), the time difference is increased or decreased by 1 minute (S196, S200).
[0083]
On the screen shown in FIG. 12C, the input confirmation key is pressed (YES in S202). Thereby, the city name and the time difference data are stored in the city data table of the RAM 26 (S206).
[0084]
Referring to FIG. 12D, the initial setting of the language priority order is displayed on LCD 28. When the priority order of languages displayed in FIG. 12D is changed, the priority order of languages is set based on the priority order setting flow shown in FIG. 7 of the second embodiment.
[0085]
Referring to FIG. 13, the city data of the added city is stored in RAM 26 by being divided into city numbers, city names, time differences, and language priorities 1 to 5.
[0086]
As described above, in the electronic translation apparatus according to the present embodiment, the local time can be displayed for a city other than the city stored in the ROM, and the language in the city added with the priority order of the language added. Can be provided.
[0087]
<Embodiment 4>
The present embodiment relates to a language switching device that displays local times of cities in the world by software executed on a computer and displays them according to a predetermined language priority.
[0088]
In the language switching device according to the present embodiment, clock display in cities in the world and language switching in selected cities are realized by software executed on a computer such as a personal computer. FIG. 14 shows the appearance of a computer that is an example of a language switching device having a clock display function. Referring to FIG. 14, this computer 40 includes a computer main body 42 having an FD (Floppy Disk) driving device 60 and a CD-ROM (Compact Disc Read Only Memory) driving device 62, a monitor 44, a keyboard 46, and a mouse. 48.
[0089]
FIG. 15 shows the configuration of the computer 40 in the form of a block diagram. As shown in FIG. 15, the computer main body 42 includes a memory 56 and a fixed disk 58 in addition to the FD driving device 60 and the CD-ROM driving device 62 described above. The FD 50 is attached to the FD driving device 60. A CD-ROM 52 is mounted on the CD-ROM drive 62.
[0090]
As described above, the apparatus according to the present embodiment is realized by computer hardware and software executed by the CPU 54. Generally, such software is stored and distributed in a recording medium such as the FD 50 and the CD-ROM 52, read from the recording medium by the FD driving device 60 or the CD-ROM driving device 62, and temporarily stored in the fixed disk 58. . Further, it is read from the fixed disk 58 to the memory 56 and executed by the CPU 54. The computer hardware itself shown in FIGS. 14 and 15 is general. Therefore, the most essential part in the present embodiment is software recorded on a recording medium such as the FD 50, the CD-ROM 52, and the fixed disk 58.
[0091]
Since the operation of the computer itself shown in FIGS. 14 and 15 is well known, detailed description thereof will not be repeated here.
[0092]
15 is the input device 30 of FIG. 1, the monitor 44 of FIG. 15 is the LCD 28 of FIG. 1, the CPU 54 of FIG. 15 is the CPU 20 of FIG. 1, and the memory 56 of FIG. 15 is the ROM 24 and RAM 26 of FIG. Each is applicable.
[0093]
The city selection / language switching process flow of the program executed by the CPU 54 is the process flow shown in FIG. 3 of the first embodiment, and the priority setting process flow is the process flow shown in FIG. 7 of the second embodiment. The flow of the city name input process is the same as the process flow shown in FIG. 10 of the third embodiment, and the flow of the time difference input process is the same as the process flow shown in FIG. 11 of the third embodiment. The explanation will not be repeated.
[0094]
As described above, also in the language switching device according to the present embodiment, the local time in the city selected by the keyboard is displayed on the monitor and selected by the software and computer hardware read from the recording medium. According to the priority order of the language in the city, the character data of the language can be displayed on the monitor.
[0095]
The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0096]
【The invention's effect】
As described above in detail, according to the present invention, the language switching device that allows the user to easily switch the language without special knowledge about the language used in each city in the world, and the device are included. An electronic translation apparatus, a language switching method, and a machine-readable recording medium storing a program for realizing the method can be provided. In addition, when the user has special knowledge about the language used in each city in the world, the language switching device that can reflect the knowledge and can easily switch the language, and an electronic device including the device A translation device can be provided.
[Brief description of the drawings]
FIG. 1 is a control block diagram of an electronic translation apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a diagram showing the configuration of a city data table stored in the ROM of FIG.
FIG. 3 is a flowchart of city selection / language switching processing of the electronic translation device according to the first embodiment of the present invention;
FIG. 4 is a diagram showing an example of a city selection screen of the electronic translation device according to the first embodiment of the present invention.
FIG. 5 is a diagram illustrating a city data table stored in the RAM of the electronic translation device according to the first embodiment of the present invention.
FIG. 6 is a diagram showing an example of a language display screen of the electronic translation device according to the first embodiment of the present invention.
FIG. 7 is a flowchart of language priority setting processing of the electronic translation apparatus according to the second embodiment of the present invention.
FIG. 8 is a diagram showing an example of a language priority setting screen of the electronic translation device according to the second embodiment of the present invention.
FIG. 9 is a diagram illustrating a city data table stored in the RAM of the electronic translation device according to the second embodiment of the present invention.
FIG. 10 is a flowchart (part 1) of city data addition processing of the electronic translation device according to the third embodiment of the present invention.
FIG. 11 is a flowchart (part 2) of city data addition processing of the electronic translation device according to the third embodiment of the present invention.
FIG. 12 is a diagram showing an example of a city data addition screen of the electronic translation device according to the third embodiment of the present invention.
FIG. 13 is a diagram for explaining a city data table stored in the RAM of the electronic translation device according to the third embodiment of the present invention.
14 is an external view of the computer shown in FIG.
FIG. 15 is a block diagram of a computer that realizes an electronic device according to a fourth embodiment of the present invention.
[Explanation of symbols]
20 electronic translation device, 22 CPU, 24 ROM, 26 RAM, 28 LCD, 30 input device, 32 internal bus, 40 computer, 42 computer main body, 44 monitor, 46 keyboard, 48 mouse, 50 FD, 52 CD-ROM, 54 CPU, 56 memory, 58 fixed disk, 60 FD drive, 62 CD-ROM drive.

Claims (5)

Storage means for each region of the country , with a predetermined priority assigned to one or more languages used in the region for the name of each region of the world;
Area selecting means for selecting any one of a plurality of areas stored in the storage means;
An input means for inputting character data;
Translation means for translating the character data input by the input means into a language corresponding to the area selected by the area selection means and based on the priority;
An electronic translation apparatus comprising: display control means for displaying the translated characters on display means. The storage means further stores time information of each area,
2. The electronic translation apparatus according to claim 1, wherein, when a region is selected by the selection unit, the display control unit causes the display unit to display a region name of the selected region and time information of the region. .   The display control means switches from a screen that displays a region name of the selected region and time information of the region to a screen that accepts input of the character data in response to an input by the input unit. The electronic translation apparatus described in 1.   4. The electronic translation apparatus according to claim 1, further comprising priority order input means for inputting the priority order. A method for controlling an electronic translation apparatus, comprising:
The electronic translation apparatus stores each region name of each country in the world and one or more languages used in the region indicated by the region name in association with a predetermined priority for each region of the country ,
The control method is:
Selecting any one of the stored plurality of regions;
Entering character data;
Translating the input character data into a language corresponding to the selected region and determined by the priority;
And displaying the translated character on a display device of the electronic translation device.

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