DE4007216A1 - Operating instruction device for input instruction screen positioning - controls display element according to selected reference coordinate data groups - Google Patents

Abstract

The operating instruction device contains a display element, a position coordinate detector corresp. to the display screen and a device for determining to which region of the screen the position coordinates for an instruction signal corresp. The region determining device stores a number of reference coordinate data groups corresp. to a number of screen response region groups. A region image signal generated according to a selected reference region data group is used to control the display element. USE/ADVANTAGE - For generatnig operating instructions corresp. to screen positions of input instructions with improved user operating characteristics. Inbuilt audio equipment in motor vehicle with controls and display elements as compact as possible, yet avoiding misoperation.

Description

The invention relates to a work command device for Issue a work command according to a position on a display screen on which there is an input command.

In such a device, for example in a sound device installed in a motor vehicle, in which training with smaller dimensions is desirable it preferred that the number of control switches and the Display elements on the control and operating panel are not only from the standpoint of compactness in design, but also from the standpoint of better usability, so that Risk of incorrect operation is low, as small as possible is. However, if such a device is multifunctional then the number of switches and display elements increases te, which inevitably the operability of the device impaired. It is therefore already a work order device has been proposed which is a two-dimensional  Display element with a so-called touch sensor, the is arranged on the display surface, so that the Contents of several work commands simultaneously on the display element can be displayed, showing the content of the work commands changed to select a signal source or a function can be and the position touched by the user by the Touch sensor is detected, so that a work command is given, which corresponds to the detected position. At such a work command device is the Response area that corresponds to a work command. Thus, even if the number of jobs to be displayed missing is less than the number of work commands can only be displayed in time, only a narrow to range can be used for a command, which the Be serviceability of the known device impaired.

The invention is therefore intended to provide a work instruction device tion with better usability can be created.

The work command device according to the invention comprises a Display element, a detector device for the coordinates a command entry position configured to corresponds to the screen of the display element and determines for which position on the screen there is an input command to thereby generating position coordinate data that the Specify the command entry position and a destination direction, which determines to which area from several destinations the coordinate coordinate data on the screen hear, thereby generating a command signal that the Content of the command according to the determination result there, and is characterized in that the determination device from a storage device that has multiple sets of reference coordinate data groups stores the multiple Corresponding sets of response area groups from one first selection device for selecting at least one group  the groups of reference coordinate data groups, a signal generating device for generating an area image signal, that corresponds to the reference coordinate data group that is represented by the first dialing device is selected, and from a driver device exists that the display element according to the Image area signal driven.

In the following, a be particularly preferred embodiment of the invention closer described. Show it:

Fig. 1 is a block diagram of the embodiment of the invention,

Fig. 2 shows the display in the embodiment shown in FIG. 1 device

Fig. 3A to 3D, the type of displayed on the display images,

FIGS. 4A to 4D the structure of the command data stored in a ROM,

Fig. 5 provided a flowchart showing the operations of a microprocessor 1 wherein in. Figure device,

Fig. 6 a flowchart showing the operations of a microprocessor in a further embodiment of the invention, and

Fig. 7 shows the structure of the command data, which are stored in a ROM ROM in the embodiment shown in Fig. 6 Darge.

Fig. 1 shows a sound device with an execution example of the work command device according to the invention. This sound device is designed to include a cassette magnetic tape deck, a tuner and an amplifier, and is separately provided with a magazin-type CD player which can control six CDs loaded in the player.

In such a sound device to be installed in a vehicle, a touch panel 1 is provided as a touch sensor, which is connected to a control circuit 11 , as shown in Fig. 1. Be the touch panel 1 consists of a translucent panel or plate which is divided into six areas in the direction of the X axis and two areas in the direction of the Y axis, so that segments are formed, which are arranged in a matrix and output signals for the X- and the Y axis can be generated as position signals. The segment areas are designated 1 to 12 in FIG. 2. The touch panel 1 is arranged on the display screen of a display 19 described later, which actually has the same shape. The control circuit 11 is a microcomputer from a microprocessor 12 , a memory with direct access RAM 13 , a ROM 14 , an input interface 15 , an output interface 16 , an input / output interface 17 and a clock generator, not shown. The microprocessor 12 , the RAM 13 , the ROM 14 and the interfaces 15 to 17 are connected to one another via a data bus. The outputs of the touch panel 1 are connected to the input interface 15 . The interface 16 is connected to a display driver circuit 20 for controlling a display 19 as a display element. The display 19 is a dot matrix display. The input / output interface 17 is connected to a magnetic tape deck 21 , a tuner 22 and an amplifier 23 . Separately from the main body of the sound device, a CD player 24 is also provided, which is connected to the input / output interface 17 via a connecting line or a connector.

In the arrangement described above, the ROM 14 holds the programs to be executed by the microprocessor 12 , which have been previously registered, and sample image data groups A ₁. . ., A _s , B ₁. . ., B _t , C ₁. . ., C _u and D ₁. . ., D _v , each group forming the content of commands to be displayed on the screen of the display 19 , and these groups have also been previously written in, as shown in FIG. 4. One of these sample image data groups A ₁. . ., A _s , B ₁. . ., B _t , C ₁. . ., C _u and D ₁. . ., D _v is selected alternately in accordance with the selected signal source of the sound device or the selected mode of operation. The letters s, t, u and v each denote integers greater than 1 and represent the number of records in each category, which numbers may be different. The image data groups A ₁. . ., A _s are, for example, those which reproduce the contents of the various types of commands for each area 1 to 12 for the image shown in FIG. 3A, the image data groups B ₁. . ., B _t , are, for example, those that control the content of commands with a command on a section of two horizontal area units, for example areas 1 and 3 , areas 2 and 4,. . ., The areas 10 and 12 in the form of the image shown in Fig. 3B reproduce the image data groups C ₁. . ., C _u are, for example, those that control the content of the commands with a command on a section of two vertical area units, ie units 1 and 2 , units 3 and 4,. . ., The units 11 and 12 in the form of the image shown in Fig. 3C, and the image data groups D ₁. . ., D _v are, for example, those that control the content of the commands with a command on a section of four area units, ie areas 1 , 2, 3 and 4 , areas 5, 6, 7 and 8 and areas 9, 10, 11 and 12 in the form of the image shown in FIG. 3D.

The command data (A 1, 1), (A 1, 2), shown in FIG. 4A are previously in the ROM 14 . . ., (A 1, 12) for the image data group A 1, the command data (A 2, 1), (A 2, 2),. . ., (A 2, 12) for the image data group A 2,,. . . . . ., the command data (As , 1), (As , 2),. . ., (As , 12) for the image data group As , inscribed. Similarly, as shown in Figs. 4B to 4D, command data is previously (B 1, 1). . ., (B 1, 6), (B 2, 1),. . ., (B 2, 6),. . . . . ., (Bt , 1) ,. . ., (Bt , 6) for the image data group B 1 to Bt , (C 1, 1) ,. . ., (C 1, 6), (C 2, 1),. . ., (C 2, 6),. . . . . ., (Cu , 1) ,. . ., (Cu , 6) for the image data groups C 1 to Cu and command data (D 1, 1),. . ., (D 1, 3 , (D 2, 1), ... , (D 2, 3), ...... , (Dv , 1), ... , (Dv , 3) for the Image data groups D 1 to Dv are stored, and each set of this command data is read out as a command signal by the microprocessor 12 .

The driver circuit 20 has a memory, not shown, with, for example, memory locations which correspond to all points on the display 19 , and controls the display 19 in accordance with the data written into the memory. When a new sample image data group is supplied by the microprocessor 12 to the driver circuit 20 via the interface 16 , the content of the memory is updated in its storage locations in accordance with the sample image data group.

When the power supply is turned on by the user by operating the power switch and a command to display a sample image data group Z is issued to prompt the user to choose an operation or the like, then reads in the manner shown in Fig. 5 the microprocessor 12 supplies the sample image data group Z from the memory ROM 14 (step 51 ) and the microprocessor 12 supplies the read sample image data group Z to the interface 16 (step 52 ). Thereupon, a pattern showing the image data group Z , that is, characters or symbols indicating the content of the commands are displayed on the display 19 . If the read image data group one of the groups A 1,. . . As is, then different contents from regions 1 to 12 are displayed when the read image data group is one of groups B 1,. . ., Bt , then commands which differ from one another are displayed on the sections which are formed from two horizontal areas, ie areas 1 and 3 , 2 and 4 , etc., if the image data group read out is one of groups C 1,. . ., Cu , then different contents from the sections are displayed, which are formed from two vertical areas, ie areas 1 and 2 , 3 and 4 , etc., and if the read image data group is one of groups D 1, . . ., Dv , then different contents from sections are displayed, which are formed from four areas, ie areas 1 , 2 , 3 and 4 , etc.

After delivery of the sample image data group Z, the microprocessor 12 checks whether an output signal comes from the touch panel 1 or not (step 53 ). In particular, the microprocessor checks whether or not the user has touched the touch panel 1 in order to select a command from the commands shown on the display 19 . When a set of coordinate data (X, Y) located at the output of interface 15, then it is assumed that the user has touched the touch panel 1 and the Koordinantendaten (X, Y) are read (step 54), checked whereupon whether the image data group Z is one of the image data groups A 1,. . ., As is (step 55 ) or not. If the image data group Z one of the image data groups A 1,. . ., As is, it is checked whether the variable Y of the coordinate data is 1 or not (step 56 ).

If Y = 1, then the variable X is multiplied by 2 and subtracted from the product 1 , taking the value calculated in this way as the value of a parameter N (step 57 ). If Y ≠ 1, then it is assumed that Y is 2 and the variable X is multiplied by 2, taking the calculated value as the value of the parameter N (step 58 ). If the image data group Z thus one of the image data groups A 1,. . ., As is, then the parameter N represents the number of the area touched by the user. If the image data group Z is not one of the image data groups A 1,. . ., As is, then it is checked whether it is one of the image data groups B 1,. . ., Bt is or not (step 59 ). If the image data group Z one of the image data B 1,. . ., Bt , it is checked whether the variable Y of the coordinate data is 1 or not (step 60 ). If Y = 1, then it is checked whether the variable X is 1 or 2 or 3 or 4 or not (steps 61 and 62 ). If the variable X is 1 or 2, then the parameter N is set to 1 (step 63 ), if the variable X is 3 or 4, then the parameter N is set to 3 (step 64 ), and if the variable X is not 1 to 4, then it is assumed to be 5 or 6 and the parameter N is set to 5 (step 65 ). If Y ≠ 1, then the variable Y is assumed to be equal 2 is and it is checked whether the variable X is 1 or 2 or 3 or 4 or not (steps 66 and 67 ). If the variable X is 1 or 2, the parameter N is set to 2 (step 68 ), if the variable X is 3 or 4, the parameter is set to 4 (step 69 ), and if it is not the same Is 1 to 4, then it is assumed to be 5 or 6, and the parameter N is set to 6 (step 70 ).

If the image data group Z is not one of the image data groups B 1,. . ., Bt , then it is checked whether it is one of the image data groups C 1,. . ., Cu is or not (step 71 ). If the image data group Z one of the image data groups C 1,. . ., Cu , then the parameter N is set to a value equal to the variable X (step 72 ). If they do not have any of the image data groups C 1,. . ., Cu , then it is assumed that the image data group Z one of the image data groups D 1,. . ., Dv is and it is checked whether the variable X is 1 or 2 or 3 or 4 or not (steps 73 and 74 ). If the variable X is 1 or 2, then the parameter N is set to 1 (step 75 ), if the variable X is 3 or 4, then the parameter N is set to 2 (step 76 ), and if it is not is 1 to 4, then it is assumed to be 5 or 6 and the parameter N is set to 3 (step 77 ).

Using the parameter N specified in this manner and the image data group Z , a group of command data ( Z , N ) can be identified which is read out from the ROM 14 (step 78 ) and operations are carried out in accordance with the read out command data ( Z , N ) executed (step 79 ). For example, if the content of workbees as shown in Fig. 3B is displayed (the image data group is assumed to be B 2 ), and when the display area is touched by "PLAY", the microprocessor 12 reads the command data ( B 2 , 2 ) from the ROM 14, and the microprocessor 12 issues a tape playback command, which is designated by the command data ( B 2 , 2 ), to the magnetic tape deck 21 . In this way, the magnetic tape deck 21 starts playing the tape.

Fig. 6 shows a further embodiment of the invention. In this embodiment, the ROM 14 contains instruction data units for each image data group A 1,. . ., As , B 1 ,. . ., Bt , C 1 ,. . ., Cu and D 1 ,. . ., Dv previously registered as shown in Fig. 7.

While the command data (A 1, 1),. . ., (As , 12) are equal to the command data shown in Fig. 4A are in the command data (B 1, 1),. . ., (Bt , 12) the contents of the command data (B 1, 1) and the command data (B 1, 3) are the same and the contents of the command data (B 1, 2) and the command data (B 1, 4) are, for example, the same . In the command data (C 1, 1),. . ., (Cu , 12), for example, the contents of the command data (C 1, 1) and the command data (C 1, 2) are the same and the contents of the command data (C 1, 3) and the command data (C 1, 4) equal. In the command data (D 1, 1),. . ., (Dv , 12), for example, the contents of the command data (D 1, 1), (D 1, 2), (D 1, 3) and (D 1, 4) are the same and the contents of the command data (D 1 , 5), (D 1, 6), (D 1, 7 and (D 1, 8). That means that command data for all areas 1 to 12 for each image data group A 1, ... , As , B 1 , ... , Bt , D 1, ... , Cu and D 1, ... , Dv are provided, the command data for the areas forming a section where a single command is displayed having the same contents to have.

Therefore, in the present embodiment, if the microprocessor 12 reads the coordinate data ( X , Y ) in step 54 , then it checks whether the variable Y = 1 or not (step 81 ). If Y = 1, the variable X is multiplied by 2 and subtracted from the product 1 , the calculated result being taken as the value of the parameter N (step 82 ). If Y = 1, it is assumed that the variable Y is 2 and the variable X is multiplied by 2, the calculation result being taken as the value of the parameter N (step 83 ). Thereafter, command data (Z, N) from the ROM 14 is read out (step 84), and are operations executed (step 85) corresponding to the command read from Datan (Z, N).

Although in the above embodiment, the shape of each areas were the same for all work orders  the shape of the response areas for these work commands too to be different.

Furthermore, a dot matrix display made of light-emitting diodes or liquid crystal components was used in the above exemplary embodiment, but a cathode ray tube display can also be used. If a cathode ray tube display is used, then image signals for areas in television format can be formed to correspond to the reference coordinate data groups by using an image generator or the like, so that the images shown in Figs. 3A to 3D are switched selected can be displayed.

With the work command according to the invention described above device is determined to which area the response area on the screen include the position coordinate data that be received in response to the input command, and will a command signal indicating the content of the command of the determination result indicates, generated and is based on a variety of reference coordinate groups that a lot corresponds to the number of response area groups and previously in a group of the plurality is stored in a memory selected from reference coordinate data groups and becomes an image of the areas that correspond to the selected group of reference coordinates correspond to the data displayed on the display element. The shape of the Response area that ent a single work command speaks, can therefore, depending on the number of Arbeitsbe missing that are displayed at the same time can. The smaller the number of work commands to be displayed len, the larger the response range, the corresponds to a single command. In this way, the Operability of the device can be improved.  

Work command device with a detector device, which is arranged so that it is the screen of a display elementes to capture for which position There is an input command on the screen and thus to be agree to which area of the response areas by the detection device heard position, and the a work order in accordance with the result of the determination generated. Because the shape of the response area that one Work command corresponds to, according to the number of Work commands are changed simultaneously on the display element can be displayed is the operability of the Device improves when the number of work commands is small, which are displayed on the display element should.

Claims (6)

1. Work command device with a display element, a position coordinate detector device that corresponds to the screen of the display element and determines the position on the screen for which an input command is present, to thereby generate a set of position coordinates data indicating the input command position, and a determination device that determines to which area of the response areas on the screen the position coordinate data belongs, thereby generating an instruction signal indicating the content of the command in accordance with the determination result, characterized in that the determination means groups storage means for storing a plurality of reference coordinate data which correspond to a plurality of response area groups, a first selector for selecting a group of the reference coordinate data, a signal generating device for generating an area image signal corresponding to the reference coordinate data group , which is selected by the first selection device and has a driver device which drives the display element in accordance with the area image signal. 2. Work command device according to claim 1, characterized, that the corresponding position of the reference coordinate agenda each area of the response area group corresponds.   3. Work command device according to claim 1, characterized, that the signal generating device from a memory device for storing a large number of image data groups with coordinates that correspond to the positions on the screen as parameters, and a second choice direction exists, which is a group of image data groups according to the reference coordinate data group that selects is selected by the first selection device. 4. Work command device according to claim 1, characterized, that the area image corresponding to the area image signal speaks so that it extends the entire area of the screen covered. 5. Work command device according to claim 1, characterized, that the command signal indicates the mode of operation Signal for a unit with several working methods and each reference coordinate data group of a group of Working methods of the device corresponds. 6. Work command device according to claim 5, marked by a variety of units, with each reference coordinate data group of a group of working methods each Unit corresponds.