WO2006092895A1 - 検索表示装置 - Google Patents
検索表示装置 Download PDFInfo
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- WO2006092895A1 WO2006092895A1 PCT/JP2005/022207 JP2005022207W WO2006092895A1 WO 2006092895 A1 WO2006092895 A1 WO 2006092895A1 JP 2005022207 W JP2005022207 W JP 2005022207W WO 2006092895 A1 WO2006092895 A1 WO 2006092895A1
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- WIPO (PCT)
- Prior art keywords
- display
- unit
- folder name
- mark
- folder
- Prior art date
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0481—Interaction techniques based on graphical user interfaces [GUI] based on specific properties of the displayed interaction object or a metaphor-based environment, e.g. interaction with desktop elements like windows or icons, or assisted by a cursor's changing behaviour or appearance
- G06F3/0482—Interaction with lists of selectable items, e.g. menus
Definitions
- the present invention relates to a search display device suitable for searching a desired folder name in a limited display screen from a large number of folder names, for example, in a small display device.
- this type of search and display device has a hierarchy of folders to which a desired folder name belongs in order to select a desired folder name from among a large number of folder names stored in a folder hierarchical structure.
- Patent Document 1 Japanese Patent Laid-Open No. 2003-084877 ([0112], FIG. 3)
- the present invention has been made to solve the above-described problems.
- the searcher It is an object of the present invention to provide a search and display device that can easily select a desired folder name.
- a search and display device includes a display unit having a display screen capable of displaying at least two lines of folder names, and a display line number storage unit that stores the number of display lines of the display unit.
- the memory and operation direction determination unit that stores the operation signal in comparison with the current operation direction until now, and the operation from the storage and operation direction determination unit Receives a direction signal and a display line number signal stored in the display line number part, and generates a mark that generates a mark indicating an operation position, and an ascending direction reading part and a descending direction reading part for reading the folder name from the folder name storage part And the operation direction is ascending order If there is a mark position change unit that moves the mark to the next candidate folder name position, and if the operation direction is descending order direction, the mark position changing unit moves the mark to the leading row position in descending order direction, and the ascending order reading unit or descending direction reading unit reads Based on the output folder name, the operation direction signal, and the mark
- the next candidate folder name is displayed at the same time as the desired folder name even in the ascending order, descending order, or shifted operation direction.
- the folder name displayed in the opposite direction can be displayed at a time with only one display line.
- the searcher can immediately find a folder name that has been overlooked when searching, by reversing the direction of operation, so the desired folder name can be limited from a large number of folder names. Can be easily found in the displayed screen. Therefore, it is possible to easily and quickly select a desired folder name from a music song folder name with a large number of songs, such as a music playback device mounted on a vehicle, which is very effective and appropriate for the driver. There is. Brief Description of Drawings
- FIG. 1 is a schematic diagram showing Embodiment 1 of the present invention.
- FIG. 2 is a block diagram showing the details.
- FIG. 3 is an overall flowchart showing the operation.
- FIG. 4 is a directory diagram showing folder names to be selected.
- FIG. 5 A hierarchical diagram showing the folder names in a hierarchical manner.
- FIG. 6 is a display screen diagram showing a state in which display contents are changed by an operation in the ascending order in the first embodiment.
- FIG. 7 is a display screen diagram showing a state in which display contents are changed by a descending order operation in the first embodiment.
- FIG. 8 is a display screen diagram showing a state in which display contents are changed by operations in ascending order and descending direction when the display screen is displayed in five lines in the first embodiment.
- FIG. 9 is a block configuration diagram showing the configuration of the second embodiment.
- FIG. 10 is a display screen diagram showing a state in which display contents are changed by an operation in ascending order in the second embodiment.
- FIG. 11 is a display screen diagram showing a state in which display contents are changed by an operation in descending order in the second embodiment.
- FIG. 12 is a display screen diagram showing a state in which display contents are changed by operations in ascending order and descending order when the display screen is displayed in five lines in the second embodiment.
- FIG. 1 is a schematic diagram showing Embodiment 1 of the present invention
- FIG. 2 is a block diagram showing the details thereof
- FIG. 3 is an overall flowchart showing the operation
- FIG. 4 is a directory diagram showing folder names to be selected.
- FIG. 5 is a hierarchical diagram showing the folder names in a hierarchical manner.
- the search display device of the present invention includes a small display unit 1 (hereinafter referred to as a display unit), a main control unit 2, a panel operation unit 3 (hereinafter referred to as an operation unit), a CDZDVD. It has mechanism part 4 (hereinafter referred to as folder name storage part).
- the folder name storage unit 4 is a large-capacity storage medium such as an HDD, DVD, or CD-ROM, and stores a large number of folder names. Then, in order to efficiently select a desired folder name from these enormous folder names, it is divided into a tree as shown in FIG. 4 and stored in a hierarchy as shown in FIG.
- the main control unit 2 has a storage / operation direction discriminating unit 21, an ascending order reading unit 22 that reads out folder names from the folder name storage unit 4 in an ascending order, and a descending order from the folder name storage unit 4.
- Descending direction reading unit 23 for reading the folder name in the direction, memory / operation direction discriminating unit 21
- the mark position changing unit 25 for changing the display position of the mark output from the mark generating unit 26
- a display line number storage unit 27 that stores the number of display lines of the display unit 1 and a display folder name creation processing unit 28 are provided.
- the storage / operation direction discriminating unit 21 selects the desired folder name to be displayed and displayed. For example, the number of pulses output from the operation unit 3 is stored, and the operation direction is determined by increasing or decreasing the number of stored pulses by the pulse output from the operation unit in the next operation.
- the ascending direction reading unit 22 reads the folder names stored in a hierarchy from the folder name storage unit 4 by shifting one line in the ascending direction from the currently displayed folder name, and the descending direction reading unit 23 stores the folder name.
- the folder names that are stored hierarchically from Part 4 are now displayed! /,
- the trailing row folder name that is, the number of rows displayed in descending order, starting from the leading row filter name in descending order Read at once.
- the mark position changing unit 25 displays a change signal for moving the mark position in the ascending order by one display line. If the mark position is in descending order, a signal for changing the mark position to the currently displayed trailing edge folder name position is sent to the display folder name creation processing unit 28.
- the number of display lines stored in the display line number storage unit 27 is arbitrary. For example, a user who knows the number of display lines on the display screen inputs and stores the number of display lines in advance using an input unit (not shown).
- the display folder name creation processing unit 28 receives the folder name of the number of display lines from the ascending order reading unit 22 or the descending direction reading unit 23, and also receives the mark position change signal from the mark position changing unit 25, that is, the operation direction. If it is an ascending order, it receives a change signal for moving one line in the ascending direction, and if it is a descending direction with the operation direction reversed, it receives a change signal for moving to the leading row position in the descending direction, and based on the mark change signal Mark the position and display the folder name on the display screen of display unit 1.
- FIG. 6 is a diagram showing a display screen of the display unit 1 whose display contents change based on the search operation.
- the display screen of the display unit 1 is a two-line display.
- (6-1) is an example
- the current selection desired folder name F and ascending order candidate folder name G are displayed on the display screen of display unit 1.
- Step ST1 it is determined whether there is an operation signal in the ascending or descending direction (step ST2), and this determination state is repeated while there is no operation signal.
- an operation signal is received, it is determined whether the direction is ascending or descending (step ST3).
- step ST3 In order to set the folder name G, which is the next candidate folder, as the desired folder, V When the operation part 3 is operated in the ascending order for one folder name, the judgment in step ST3 remains unchanged. First, the memory / operation direction determination part 21 receives a pulse corresponding to one folder name from the operation part 3. Based on the increase in the number of stored pulses, it is determined that the operation direction is ascending order.
- the mark position changing unit 25 receives the ascending order discrimination signal from the storage / operation direction discriminating unit 21 and sends a signal for moving the mark M in the ascending order of one folder name to the display folder name creation processing unit 28.
- the ascending direction reading unit 22 receives the ascending order discrimination signal from the storage / operation direction discriminating unit 21 and the number of display lines from the display row number storage unit 27 of the display unit 1, and receives the next candidate folder in the ascending direction from the folder name storage unit 4.
- Read name H step ST4 and send to display folder name creation processing unit 28
- the desired folder name is selected to the leading row position.
- a folder name G is moved, and a display folder name is created so that a new next candidate folder name H is displayed on the following line, and this is sent to the display unit 1 and displayed (steps ST5 and ST6). This state is (6-2).
- the storage and operation direction determination unit 21 receives a pulse corresponding to one folder name from the operation unit 3, and determines that the operation direction is ascending order based on the increase in the number of pulses stored.
- the mark position changing unit 25 receives the ascending order discrimination signal from the storage and operation direction discriminating unit 21, and when the judgment in step ST3 is changed, a signal for moving the mark M in the ascending order of one folder name is generated.
- Display folder name creation processing section 28 On the other hand, the ascending direction reading unit 22 receives the ascending order discrimination signal from the storage / operation direction discriminating unit 21 and the number of display lines from the display row number storage unit 27 of the display unit 1 and the next name in the ascending direction from the folder name storage unit 4.
- Candidate folder name I is read and sent to display folder name creation processing unit 28.
- this display folder name creation processing unit 28 based on the read folder name I sent from the ascending direction readout unit 22 and the mark change signal from the mark position change unit 25, the leading row line
- the folder name H which is the desired folder name, is moved to the position, and a display folder name is created so that a new next candidate folder name I is displayed on the following line, and this is sent to the display unit 1 for display.
- This state is (6-3).
- the storage / operation direction determination unit 21 receives a pulse corresponding to one folder name from the operation unit 3, and determines that the operation direction is ascending order based on the increase in the number of pulses stored.
- the mark position changing unit 25 receives the ascending order discrimination signal from the storage and operation direction discriminating unit 21 and sends a signal for moving the mark M in the ascending order of one folder name to the display folder name creation processing unit 28.
- the ascending direction reading unit 22 receives the ascending order determination signal from the storage / operation direction determining unit 21 and the number of display lines from the display line number storage unit 27 of the display unit 1, and the ascending direction reading unit 22 is the folder name storage unit.
- the next candidate folder name J is read from 4 in ascending order and sent to the display folder name creation processing unit 28.
- this display folder name creation processing unit 28 based on the read folder name J sent from the ascending direction readout unit 22 and the mark change signal from the mark position change unit 25, the desired folder name is selected to the leading row position.
- the folder name I is moved, and a display folder name is created so that a new next candidate folder name J is displayed in the following line, and this is sent to the display unit 1 and displayed.
- This state is (6-4).
- the memory / operation direction determination unit 21 receives pulses from the operation unit 3 to store the stored number of pulses. It is determined that the operation direction is in descending order based on the decrease.
- the mark position changing unit 25 receives the descending order discrimination signal from the storage / operation direction discriminating unit 21, and sets the mark M to the leading row position in the descending direction (since there are two display rows in the present explanation).
- a signal for moving to only one line is sent to the display folder name creation processing unit 28.
- the descending order reading unit 23 receives the descending order discrimination signal from the storage / operation direction discrimination unit 21 and the display row number storage unit 27 of the display unit 1 and receives the next candidate folder in the descending direction from the folder name storage unit 4.
- the name H is read (step ST7) and sent to the display folder name creation processing unit 28.
- the desired folder name is selected to the leading row position.
- a folder name I is moved, and a display folder name is created so that a new next candidate folder name H is displayed on the subsequent line, and this is sent to the display unit 1 and displayed (steps ST8 and ST9).
- This state is (6-5).
- Fig. 7 shows an example of changing the display state by changing the display state in the descending order direction, and finally changing the display state by changing the operation direction to the reverse ascending direction.
- 1) to (7-5) are the same as (6-1) to (6-5) in FIG.
- FIG. 8 shows an example in which the display screen of the display unit 1 is a 5-line display.
- the folder name currently selected is the folder name F in the ascending order operation, and the subsequent folder names G, H, I, and J are displayed (8-1).
- the memory / operation direction determination unit 21 receives a pulse from the operation unit 3, thereby reducing the number of stored pulses. Based on this, it is determined that the operation direction is in descending order.
- the mark position changing unit 25 receives the descending order discrimination signal from the storage / operation direction discriminating unit 21 and sends a signal for moving the mark M to the leading row position in the descending direction to the display folder name creation processing unit 28.
- the descending direction reading unit 23 receives the descending order discrimination signal from the storage / operation direction discriminating unit 21 and the number of display lines from the display row number storage unit 27, and displays the name of the currently displayed trailing edge folder, that is, the descending direction.
- the folder names F, E, D, C, and B in the descending order are read out at the same time from the top row folder name F, and sent to the display folder name creation processing unit 28.
- the storage / operation direction determination unit 21 first receives a pulse from the operation unit 3 to store the stored pulse. Based on the increase in the number of services, it is determined that the operation direction is in ascending order.
- the mark position changing unit 25 receives the ascending order determination signal from the storage and operation direction determining unit 21, and sends a signal for moving the mark M to the leading row position in the ascending direction to the display folder name creation processing unit 28.
- the ascending direction reading unit 22 receives the ascending order discrimination signal from the storage / operation direction discrimination unit 21 and the display row number from the display row number storage unit 27 of the display unit 1, and displays the name of the currently displayed trailing row folder, That is, the folder names F, G, H, I, and J in the ascending order are read at a time from the leading row folder name F in the ascending order and sent to the display folder name creation processing unit 28.
- the next candidate folder is displayed at the same time as the name of the selection desired folder, regardless of the operation direction of ascending order or descending order.
- the folder name in the opposite direction which has not been displayed so far, can be displayed at the same time by the number of display lines—one at a time, starting from the trailing folder name.
- the searcher can immediately find a search for a folder name that has been overlooked when searching, by reversing the operation direction.
- the display screen of the display unit can display a large number of lines, when the operation direction is reversed, the direction of the opposite direction will be the boundary of the last line of the previous display line.
- the folder name is displayed once for the number of display lines, it can be easily found in the desired folder name. Therefore, for example, a music playback device mounted on a vehicle, it is possible to easily and quickly select a desired folder name from a music song folder name with an enormous number of songs, which is extremely effective and appropriate for the driver. !!
- FIG. 9 is a block diagram showing the configuration of the main control unit 2 of the second embodiment.
- the main control unit 2 of the first embodiment shown in FIG. 2 receives the operation direction signal from the storage / operation direction determination unit 21.
- the timer 24 that is started by the timer 24 and the timer start signal from the timer 24 AND gates Gl and G2 are provided.
- FIG. 10 is a diagram showing a display screen of display unit 1 whose display contents change based on the operation of the second embodiment.
- the display screen of the display unit 1 is a two-line display, and the illustrated example shows the current selection desired folder name F and the ascending order candidate folder name G by the operation in the ascending order (10— 1).
- the storage / operation direction determination unit 21 first operates. By receiving a pulse corresponding to one folder name from part 3, it is determined that the direction of ascending operation is based on an increase in the number of stored pulses.
- the timer 24 is activated by the ascending order discrimination signal from the storage / operation direction discrimination unit 21, and the mark position changing unit 25 is activated to generate a signal for moving the mark M in the ascending order of one folder name.
- the display state of the above figure (1 0-1) is sent to the display folder name creation processing unit 28, except that the display position of the mark M is moved in the ascending order by one folder name during the start time of the timer 24, for example 250 ms ec. Continue (10-2).
- the AND gates Gl and G2 are opened in response to the time-up signal, and the ascending direction reading unit 22 is the storage and operation direction discriminating unit 21.
- the next candidate folder name H is read from the folder name storage unit 4 in the ascending order and sent to the display folder name creation processing unit 28.
- the display folder name creation processing unit 28 the reading folder name H sent from the reading unit 22 in the ascending order, and the desired folder name to the leading row position based on the mark position change signal from the mark position changing unit 25.
- Move the folder name G create a display folder name so that the new next candidate folder name H is displayed in the following line, and send it to the display unit 1 for display. This state is (10-3).
- Unit 21 receives a pulse corresponding to one folder name from operation unit 3, and therefore determines that the operation direction is ascending based on the increase in the number of stored pulses. Separate.
- the timer 24 is started by the ascending order determination signal from the storage / operation direction determining unit 21, and the mark position changing unit 25 is started, and a signal for moving the mark M in the ascending order of one folder name is generated.
- the display status of the above figure (10-3) is sent to the display folder name creation processing unit 28, except that the display position of mark M is moved in the ascending order by one folder name during the start time of timer 24, for example 250 ms ec. Continue (10-4).
- the AND gates Gl and G2 are opened in response to the time-up signal, and the ascending direction reading unit 22 is the storage and operation direction discriminating unit 21.
- the next candidate folder name I is read from the folder name storage section 4 in the ascending order and sent to the display folder name creation processing section 28.
- the desired folder name is selected to the leading row position.
- the folder name H is moved, a display folder name is created so that a new next candidate folder name I is displayed on the following line, and this is sent to the display unit 1 for display.
- This state is (10-5).
- the storage / operation direction determination unit 21 receives a pulse corresponding to one folder name from the operation unit 3 and determines that the operation direction is ascending order based on the increase in the number of stored pulses.
- the timer 24 is activated by the ascending order discrimination signal from the storage / operation direction discriminating unit 21, and the mark position changing unit 25 is activated to generate a signal for moving the mark M in the ascending order of one folder name.
- the display state of the above figure (1-5) is sent to the display folder name creation processing unit 28, except that the display position of mark M is moved in the ascending order by one folder name during the start time of timer 24, for example 250 ms ec. Continue (10-6).
- the AND gates Gl and G2 are opened in response to the time-up signal, and the ascending direction reading unit 22 stores the memory / operation direction determination unit 21 Ascending order discrimination signal, display line number display part of display part 1 display line from 27
- the next candidate folder name J is read out in the ascending order from the folder name storage unit 4 and sent to the display folder name creation processing unit 28.
- the desired folder name is selected to the leading row position.
- the folder name I is moved, and a display folder name is created so that a new next candidate folder name J is displayed on the subsequent line, and this is sent to the display unit 1 for display.
- This state is (10-7).
- the storage and operation direction determination unit 21 first selects a pulse corresponding to one folder name from the operation unit 3. Based on the decrease in the number of stored pulses, it is determined that the operation direction is descending.
- the timer 24 is activated by the descending order discrimination signal from the memory / operation direction discriminating unit 21 and the mark position changing unit 25 is activated to move the mark M to the leading row position in the descending direction (in the current explanation, Since the number of display lines is two, only one line has not been moved, but a signal to move to the display folder name creation processing unit 28 is sent to the display screen, which will be described in detail below using an example of a multi-line display screen.
- the display state of the above figure (10-7) is continued except that the display position of mark M is moved in the descending direction (10-8).
- the AND gates Gl and G2 are opened in response to the time-up signal, and the descending direction reading unit 23 stores the memory / operation direction determination unit 21.
- the next candidate folder name H in the descending order is read from the folder name storage unit 4 and sent to the display folder name creation processing unit 28.
- the display folder name creation processing unit 28 based on the readout folder name H sent from the descending direction readout unit 23 and the mark change signal from the mark position change unit 25, the folder name that is the desired folder name is selected to the leading row position. Move I, create a display folder name so that the next candidate folder name H is displayed on the line following it, and send it to display 1 to display it. This state is (10-9).
- Fig. 11 shows an example in which the display state is changed by the descending order operation, and finally the display state is changed by changing the operation direction to the reverse ascending direction.
- the specific operation (1 1 1) to (11 9) are the same as (10-1) to (10-9) in FIG. Abbreviated.
- FIG. 12 shows a case where the display screen of the display unit 1 is a five-line display.
- the currently desired folder name is the folder name F in the ascending order operation, and the subsequent folder names G, H, I, and J are displayed (12-1).
- the memory / operation direction determination unit 21 receives a pulse from the operation unit 3, thereby reducing the number of stored pulses. Based on this, it is determined that the operation direction is in descending order.
- the timer 24 is activated by the descending order discrimination signal from the memory / operation direction discrimination unit 21 and the mark position changing unit 25 is activated, so that the mark M is displayed at the trailing edge position currently displayed, that is, The change signal to move to the leading row position in the descending order is sent to the display folder name creation processing unit 28, and the display position of the mark M is moved to the leading row position in the descending direction for the start time of the timer 24, for example, 250 msec. Others continue the display state of the above figure (12-1) (12-2).
- the AND gates Gl and G2 are opened in response to the time-up signal, and the descending direction reading unit 23 stores the memory / operation direction discriminating unit 21.
- the folder name storage unit 4 sequentially reads the folder names F, E, D, C, and B in the descending order and displays them. Send to 28.
- the display folder name creation processing unit 28 based on the read folder name F, E, D, C, B sent from the descending direction reading unit 23 and the mark change signal from the mark position change unit 25, Display folder names F, E, D, C, and B so that the folder name F, which is the desired folder name, is displayed at the top row position, and the next candidate folder name E is displayed in the subsequent row. This is sent to the display unit 1 and displayed (12-3).
- the storage / operation direction determination unit 21 first receives and stores a pulse from the operation unit 3. It is determined that the operation direction is ascending based on the increase in the number of pulses.
- the timer 24 is activated by the ascending order discrimination signal from the memory / operation direction discrimination unit 21 and the mark position changing unit 25 is activated, so that the mark M is displayed at the trailing edge position currently displayed, that is, , Display the change signal to move to the top row position in the ascending order display folder name creation processing
- the display state of the above figure (12-3) is continued except that the display position of mark M is moved to the leading row position in the ascending direction (12-4).
- the AND gates G1 and G2 are opened in response to the time-up signal, and the ascending direction reading unit 22 stores the memory / operation direction determination unit 21.
- the folder names F, G, H, I, and J are sequentially read from the folder name storage unit 4 to create the display folder name. Send to part 28.
- the display folder name creation processing unit 28 is based on the readout folder name F, G, H, I, J sent from the ascending direction readout unit 22 and the mark position change signal from the mark position change unit 25!
- the memory / operation direction discriminating unit 2 receives a pulse signal having a polarity different depending on the operation direction from the operation unit 3, stores the pulse signal to be input, and compares the pulse signal with the input pulse signal.
- the operation direction is determined by increasing / decreasing the pulse signal
- the signal output from the operation unit 3 is not limited to the pulse signal, and a signal (for example, resistance value, voltage value, etc.) having a different value depending on the operation direction is used.
- the operation direction may be determined by comparing this signal with a stored signal.
- the name of the next candidate folder is displayed simultaneously with the name of the desired folder to be selected regardless of the operation direction of ascending order or descending order.
- the folder name in the opposite direction that has not been displayed so far is displayed only for the number of displayed lines, starting from the trailing row folder name. Similar effects can be obtained.
- the second embodiment is configured to move only the display position of the mark M indicating the operation direction without changing the display content for a predetermined time each time the operation for changing the display content is performed. Therefore, by knowing the change in the display position of mark M, it is possible to quickly and accurately recognize whether the operation has been performed in ascending or descending direction, and the medium power of a large number of folder names is also desired. If the folder name can be easily found, there is an effect.
- the search and display device allows a searcher to easily select a desired folder name within a limited display screen, and is suitable for use in a music playback device mounted on a vehicle. ing.
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US11/792,547 US8601400B2 (en) | 2005-03-02 | 2005-12-02 | Retrieval and display device |
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JP2005057762A JP4536555B2 (ja) | 2005-03-02 | 2005-03-02 | 検索表示装置 |
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JP5950698B2 (ja) * | 2012-05-31 | 2016-07-13 | キヤノン株式会社 | 情報処理装置 |
JP6132617B2 (ja) * | 2013-03-26 | 2017-05-24 | キヤノン株式会社 | 受信した画像データをフォルダに格納する画像処理システム、画像処理方法、及びプログラム |
KR102115397B1 (ko) * | 2013-04-01 | 2020-05-26 | 삼성전자주식회사 | 휴대 장치 및 휴대 장치의 재생목록 표시 방법 |
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DE19901525C2 (de) * | 1999-01-16 | 2001-02-08 | Vits Maschinenbau Gmbh | Anlage zum Imprägnieren und Beschichten von Papier |
PT1068394E (pt) * | 1999-01-26 | 2004-03-31 | Kronospan Tech Co Ltd | Processo para a impregnacao de papeis decorativos |
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JP4518231B2 (ja) * | 2000-04-28 | 2010-08-04 | ソニー株式会社 | 携帯情報端末装置 |
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JP4689111B2 (ja) | 2001-09-13 | 2011-05-25 | クラリオン株式会社 | 音楽再生装置 |
-
2005
- 2005-03-02 JP JP2005057762A patent/JP4536555B2/ja not_active Expired - Fee Related
- 2005-12-02 WO PCT/JP2005/022207 patent/WO2006092895A1/ja not_active Application Discontinuation
- 2005-12-02 CN CNB2005800457092A patent/CN100524247C/zh not_active Expired - Fee Related
- 2005-12-02 US US11/792,547 patent/US8601400B2/en not_active Expired - Fee Related
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JPH0511966A (ja) * | 1991-07-02 | 1993-01-22 | Nec Eng Ltd | 表示画面制御装置 |
JPH09233161A (ja) * | 1996-02-26 | 1997-09-05 | Sony Corp | 通信端末装置 |
JPH11136336A (ja) * | 1997-10-27 | 1999-05-21 | Sony Corp | 電子機器 |
Also Published As
Publication number | Publication date |
---|---|
US8601400B2 (en) | 2013-12-03 |
CN100524247C (zh) | 2009-08-05 |
US20080141163A1 (en) | 2008-06-12 |
JP2006244059A (ja) | 2006-09-14 |
JP4536555B2 (ja) | 2010-09-01 |
CN101095120A (zh) | 2007-12-26 |
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