GB2239968A - Operation key registering system - Google Patents

Abstract

In a key registering mode, a freely set key table 56 is produced which correlates operation key information representing a function of a specified key and area information representing an arbitrarily selected area of a coordinate input surface of a coordinate input device. A key name of the registered operation key may further be registered in the freely set key table. <IMAGE>

Description

:>:2 3 'D C3 C=, E3 OPERATION KEY REGISTERING SYSTEM

BACKGROUND OF THE INVENTION

The present invention relates to a system of registering operation keys, and more particularly to as system of registering operation keys in arbitrarily selected areas of a coordinate input device.

With the incorporation of multiple functions into copying machines, facsimile machines, and so forth, proposals have hitherto been made for techniques for integrating the data input from a coordinate input device connected to a copying machine, a facsimile machine, or the like with the information read from an original document by such a machine.

Among the prior art cases which have disclose a copying machine connected with a coordinate input device are Japanese Patent Application Unexamined Publication Nos. Sho. 63-190472 and Sho. 63-23470.

The former discloses a technique for achieving a smaller size digitizer (coordinate input device) by displaying a mode selecting section in the coordinate position detecting area of the digitizer and by permitting the selection of a mode by the operation of a mode changing-over switch. Moreover, the latter discloses a technique for specifying the coordinates by pushing desired points on a tablet of a coordinate input device and for specifying a character by pushing a desired block on the tablet after pushing a character key.

Moreover, a prior art case disclosing a facsimile machine connected with a coordinate input device is found, for example, in Japanese Patent Application Unexamined Publication No. Sho. 63-151258. In this Official Publication is disclosed a technique for transmitting graphic information input from a coordinate input device in synthesis with the information read from an original document for transmission.

Furthermore, Japanese Patent Application Unexamined_ Publication No. Sho. 61-40665 discloses a technique for offering a simple way to register nonbuilt-in, special characters f rom a coordinate input device connected to a character processing system operated on a computer, such as a personal computer and a Japanese-language word-processor.

The present applicant is now in the course of developing such an apparatus as will satisfy the users, tastes as well as improve the operational efficiency by enabling them freely to set function keys of a copying machine, a facsimile machine, or the like on a coordinate input surf ace of a coordinate input device connected to such a machine. One of the inventions made in one theme of this project is a "Single Block Registration system of Operating Steps", Japanese Patent Application No. Hei. 1-261767 filed in the name of the present applicant.

In this Single Block Registration System, arbitrarily selected areas on the coordinate input surface of a coordinate input device are allocated to function keys. Thus, a method of allocating such selected areas to the function keys becomes necessary, but the prior art mentioned above does not present any technique that fulfills this requirement.

1 SUMMARY OF THE INVENTION

The present invention has been made in view of the above-mentioned circumstances, and an object of this invention is to offer an operation key registering system which can enable users to register function keys in an easy way in arbitrarily selected areas on the coordinate input surface of a coordinate input device.

For the purpose of accomplishing the object mentioned above, a first feature of the present invention consists in providing a means for selecting a registering mode and a means for generating a freely set key table, which correlates the operation key information input at the time when the registering mode is selected and the arbitrarily selected area information input from a coordinate input device.

A second feature consists in providing a means for giving key names to the areas for freely set keys allocated on the coordinate input surface of a coordinate input device.

A third feature is f ound in providing a means for recognizing a plural number of menu mats in the case where a means for inputting operation keys is a menu mat.

According to the present invention, the operation key information and the area information are correlated with each other and registered on the freely set key table when they are input at the time when the registering mode is selected. As the result of this procedure, the system makes it possible to register the function information in arbitrarily selected areas on the coordinate input area.

Also, the system of f ers much convenience in an executing mode since names are given to the individual set areas. Moreover, the system is capable of registering many types of functions in the selected area in the case of using a plural number of menu mats for the registering operation.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a functional block diagram illustrating the outline of the present invention; Fig. 2 is a block diagram illustrating the hardware construction of an apparatus to which the present invention is applied; Fig. 3 is a block diagram illustrating the construction of the present invention; Figs. 4(a) and 4(b) are drawings for illustration of a first embodiment of the present invention; Figs. 5(a) and 5(b) are charts illustrating examples of a fixed key table and a freely set key table, respectively; Fig. 6 is a f low chart for illustration of the operation of the first embodiment; Figs. 7 and 8 are charts illustrating a modification of the first embodiment; 1 Fig. 9 is a drawing for a description of a second embodiment of the present invention;

Fig. 10 is a block diagram illustrating a third embodiment of the present invention; Fig. 11 is a drawing illustrating the operation of the third embodimett; Figs. 12 and 13 are charts f or illustration of a fourth embodiment of the present invention; Fig. 14 is a f low chart illustrating the operation of the fourth embodiment; Fig. 15 is chart illustrating one example of a result obtained from the operation of the fourth embodiment; Fig. 16 is a chart illustrating a f if th embodiment of the present invention; Fig. 17 is a f low chart for illustration of the operation of the fifth embodiment; Fig. 18 is a flow chart for illustration of a sixth embodiments of the present invention; Fig. 19 is chart illustrating the sixth embodiment; Fig. 20 is a drawing for illustration of a seventh embodiment of the present invention; Figs. 21(a) and 21(b) are charts for illustration of an eighth embodiment of the present invention; Fig. 22 is a f low chart for illustration of the eighth embodiment; and Figs. 23(a) and 23(b) are charts 111ustratIng a modification of the eighth embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

In the subsequent part, a detailed description is made of the present invention with reference to the accompanying drawings.

First, an outline of the present invention will be described with reference to a functional block diagram given in Fig. 1 - In Fig. 1, reference number 51 indicates a mode selecting means which selects an operating mode of the apparatus, such as a registering mode and an executing mode. Reference number 52 denotes a fixed (operation) key information input means which is used for the input of function information and corresponds to various operation keys incorporated in a control panel of the apparatus and, as become apparent from the following description, to fixed keys formed on a menu mat to be mounted on a coordinate input surface of a coordinate input device. Reference number 53 stands for a freely set key area specifying means for setting up areas on the coordinate input surface by indicating one or two points thereon.

Reference number 54 indicates a table compiling means which is put into an effective state in the registering mode. Number 55 is a retrieving means which is put into an effective state in the executing mode. Reference number 56 indicates a freely set key table which is generated by the table compiling means 54, and contents of which establish the correlation between the function information input from the fixed (operation) key information input means 52 and the area inf ormation input from the freely set key area specifying means 53. Also, reference number 57 is a means which executes operations in accordance with the information fed from the fixed (operation) key information input means 52 or from the freely set key area specifying means 53.

With the construction described above, when the registering mode is selected by the mode selecting means 51 and the function information is input from the fixed (operation) key information input means 52, the function information thus input is registered in the prescribed column on the freely set key table 56 by the table compiling means 54. Then, when the information indicating an area is input from the freely set key area specifying means 53, the area information is registered in the prescribed column on the freely set key table 56, being set in correlation with the function information. In this manner, it is possible to allocate a given function to an arbitrarily selected area on the coordinate input surface.

On the other hand, when a function thus assigned to an area is to be read out, the mode selecting means 51 establishes the executing mode, in which the freely set key area specifying means 53 indicates a desired area. Then, the retrieving means 55 performs a retrieving operation on the freely set key table 56 using the indicated particular area as the retrieval information, and reads the corresponding function information from the table 56. The function information thus obtained is transmitted to and executed by the executing means 57.

The above description f orms the outline covering the construction and functions of the invention, including the peripheral elements of the invention. It will be evident in light of a further description to be made later that the principal features of the present invention consist in, among those mentioned above, that functions are registered in arbitrarily selected areas on the coordinate input surface by the use of the fixed (operation) key information input means 52, the freely set key area specifying means 53, the table compiling means 54, and the freely set key table 56.

In the following part, the present invention is described in specific terms.

Fig. 2 is a block diagram illustrating the hardware construction of one example of anapparatus (facsimile machine) to which the present invention is applied. In this block diagram, reference number 1 indicates a document reading unit in the facsimile machine; 2, a printer unit; 3, a control panel; and 4, a coordinate input device. Moreovert reference number 5 indicates A central processing unit (CPU); 6, a read only memory (ROM); 7, a first random access memory (RAM); 8, a second random access memory (RAM) backed-up by a battery or the v like; 9, an encoding and decoding unit; and 10, a network control unit.

Fig. 3 is a more specific representation of the construction of a first embodiment of the invention by picking up the essential parts from Fig. 2. Reference number 11 indicates a coordinate input surface of the coordinate input device 4; 13, a stylus pen; 14, a menu mat placed on the coordinate input area 11; and 15, an analog-digital (A/D) converter. All the other reference numbers or marks in Fig. 3 represent identical or equivalent items as those given in Fig. 2. The types and arrangement of the keys indicated on the control panel 3 merely give illustrative examples and are not limited to these.

The construction and operating principle of the coordinate input device 4 are described in detail in Japanese Patent Application No. Hei. 1-261767 under the title "Single Block Registration system of Operating Steps", and are therefore omitted from description here.

The menu mat 14 is f ormed of a f ixed key area 14a and a freely set key area 14b, as illustrated in Fig. 4 (a). In the fixed key area 14a, such fixed keys as START, STOP, 1, 2, 3, 9 are respectively assigned to the areas determined in advance. For instance, the START key is assigned to the area defined by the two points, Al and All, and the STOP key is assigned to the area defined by the two points, A2 and A21. In the meanwhile, the ROM 6 or the RAM 8 backed-up with a battery stores a collating table which correlates the areas each defined by a set of two points and the fixed key information (hereinafter called "fixed key table"), for example, in the manner as shown in Fig. 5(a). Therefore, when a user pushes with the stylus pen 13 one point in the area defined by, for example, the two points A2 and A21 on the menu mat 14 placed on the coordinate input surface 11, the CPU 5 makes reference to the fixed key table mentioned above and can thereby detect that the stop function has been selected.

Next, with reference to Figs. 4 through 6, a description is made of the operating steps by which a user freely sets the same functions as those of the fixed keys on the freely set key area 14b in the menu mat 14. Fig. 6 is a flow chart illustrating the operation of the CPU 5.

When a user has selected the registering mode for the freely set keys, the CPU 5 determines whether or not any fixed key has been specified (step S1). For example, step S1 will be in its affirmative state when the fixed key, "START", is specified, as shown in Fig. 4(b).

Then. the CPU 5 determines whether or not the first point has been specified on the freely set key area 14b (step S2), and, when the state thus determined is affirmative, the CPU 5 registers this specified point as the first coordinates on the freely set key table (see Fig. 5(b)), which is provided in the RAM 8 backed-up by a battery (step S3). Next, the CPU 5 determines whether or not a second point has been specified - 1 j 1 on the freely set key area 14b (step S4), and, if the state so determined is affirmative, then the CPU 5 registers this specif ied point as the second coordinates on the freely set key table (step SS). Subsequently, the CPU 5 determines whether or not the user has indicated the finish of the setting operation (step S6), and, in case the state so determined is negative, the CPU 5 returns to step S1 and repeat the setting operations described above. In case the state just mentioned is affirmative, then the CPU 5 finishes the registering operation.

For example, when the two points Bl and Bl 1 are specified after the fixed key "START" is instructed by a push (see Fig. 4 (b)), then the area def ined by the two points Bl and Bl' is registered as a key having the function of "START" on the freely set key table. In the same manner, the area def ined by the two points B3 and B31 is registered as a key having the function of 1111' in case the two points B3 and B31 are specified after the fixed key 111'I is instructed.

It is considered to be evident that the area on the freely set key area 14b can be set at an arbitrarily determined position and with an arbitrarily determined size, depending on the user's preference.

Next, modification of the above embodiment is described with reference to Figs. 7 and 8. In the above embodiment. two points are specified in setting an area for a freely set key on the freely set key area 14b, but this modification designed so as to be capable of performing this setting by specifying just one point. Fig. 7 is a chart for illustration of this modificationj and Fig. 8 is a flow chart showing the operation of the CPU 5.

As illustrated in Fig. 7, when a first-point 17A is specified with the stylus pen 13 on the freely set key area 14b, coordinates (x, y) at a second point 17B are automatically calculated by the addition of, for example, 5 mm to the coordinates (xO, yO) of the first point 17A, and the area is defined by a set of the coordinates of the first point 17A and the second point 17B.

A feature of this modification consists in that the coordinates (xt y) of the second point are colculated automatically at step S4 of Fig. 8 by the addition of 5 mm to the coordinates (xO, yO) of the first point which is specified at step S2, and that a set of the coordinates so determined are registered on the freely set key table.

According to this modification, the registration of a freely set key can be accomplished by the definition of one point, improving the operational easiness.

Next, a second embodiment of the present invention is described with reference to Fig. 9, in which reference number 11 indicates a coordinate input surface; 20, a freely set key setting sheet made of paper or the like and placed on the coordinate input surface 11; and 21, a menu mat made of a sheet of transparent material and placed on the freely set key setting sheet 20. In a part of this menu mat 21, fixed keys 22 are written as illustrated in Fig. 9,, and when this menu mat 21 is placed on the coordinate input surface 11, the coordinates for the two points indicating the area corresponding to each f ixed key have already been registered in correlation with the function in the ROM 6 or the RAM 8 with the battery backup.

Also on the freely set key setting sheet 20, the areas defined by two points Bl and B11, two points B2 and B21, and so forth are written in advance, and these areas are registered in advance in the RAM 8.

A user places the f reely set key setting sheet 20 and the menu mat 21 in the stated order on the coordinate input surface 11, selects the registering mode for the freely set keys by a manipulation means (not shown), and specifies with the stylus pen 13 one of the fixed keys 22 on the menu mat 21 and one area in the freely set key setting sheet 20. Following these steps, the user can register the function of the particular fixed key in the area thus specified. In other words, the user can copy the particular fixed key to the specified area.

The second embodiment has an advantageous effect that' user can use a freely set key setting sheet 20, provided by manufacturing company, with a plural number of areas printed in a clear and favorable layout. Moreover, as it is possible to specify each of a plural number of areas by specifying one point, an improvement in the operational efficiency of registering the operation keys can be expected.

Next, a modification of the second embodiment is described in the following. First, a manufacturing company or the like stores in advance the data on a plural number of areas in the freely set key area in the ROM 6 or the RAM. Then, in copying the fixed keys to the freely set key area, a user can obtain a freely set key setting sheet for use thereafter by printing out the data of the areas in the freely set key area through the printer unit 2.

With this modification, a user can obtain a freely set key setting sheet 20 with the freely set key area printed in a clear layout f rom the printer unit 2, so that the user need not purchase the f reely set key setting sheet f rom an outside source.

Moreover, data for a plural types of the freely set key area can be stored in the ROM 6 or the RAM 8 so that a user can freely choose any of the types. It is desirable to design the apparatus such that the freely set key setting sheet printed out last will be effective. In this case, a user can select any preferable one out of a plural types of layouts of the freely set key area.

Next,, a description of a third embodiment of the present invention is made with reference to Fig. 10. In this figure, reference number 11 indicates a transparent coordinate input surface; 24, a display unit comprised of a liquid crystal panel and so forth; and 25 a driving circuit for this display i 1 unit. The other reference numbers and marks in Fig. 10 denote the same or equivalent items as those given in Fig. 3.

In this embodiment, the data (in the form of a table) on the f ixed keys and the corresponding areas are stored in advance in the ROM 6 or RAM B. Therefore, when a user selects the registering mode of the freely set keys by a manipulating means not illustrated in the figure, the fixed keys 27 (refer to Fig. 11) are displayed in a part of the display unit 24. As the coordinate input surface 11 is transparent, the user can see the fixed keys 27 thus displayed through the input surface 11.

Therefore, the user can specify one of the fixed keys with a stylus pen 13 as illustrated in Fig. 11 and also can specify an area 26a by the input of either a single point or two points. Then, the area 26a is displayed on the display unit 24 and is given the same function as that of the specified fixed key.

The function of the fixed key can be registered in the area 26a in this manner. Also, it will be evidently observed that the function of another fixed key can be registered in an area.26b in the same manner.

This embodiment has an advantage that the freely set keys thus registered are indicated on the display unit 24, so that the freely set key setting sheet is not necessary.

Although in the above embodiments the functions of the fixed keys are input from the coordinate input surface, the present invention is not limited to this input process, but they may be input from the control panel 3.

Next, with reference to Figs. 12 through 14, a description is made of a fourth embodiment of the present invention, in which key names are registered for the freely set keys as set in the first through third embodiments. Fig. 14 is a flow chart illustrating the operation of the CPU S.

As a prerequisite to this embodiment, it is assumed here that a collating table (hereaf.ter called "coordinate-JIS code table") for the coordinates and the JIS code table is stored in advance in the ROM 6 or the RAM 8.

When key names are to be registered for the freely set keys, the key name registering mode is set on by a manipulation means not illustrated in the figure, and a key name registering mat 30 as shown in Fig. 12 is placed on the coordinate input surface 11 (refer to Fig. 3). Moreover, it is assumed here that the JIS code table 31 and the fixed keys 32 are written on the key name registering mat 30. It is required that the positions of these fixed keys 32 are identical to those shown in Fig. 4(a).

Now, when a user specifies one of the fixed keys 32 with the stylus pen 13, step Sl in Fig. 14 affirmative and the operation proceeds to step S2. At step S2, it is determined whether or not any area on the JIS code table 31 has been specified. If affirmative, retrieval is performed in the coordinate-JIS code table on the basis of the area thus 1 1 specified (step S3). Upon the completion of the retrieval, the retrieved character is registered in the key name column of the freely set key table.

For example, when the fixed key of "START" is pushed at step Sl, with the " M 11 key in the JIS code table 31 being pushed thereafter at. step S2 and the key next, the name, is registered for "START" in the key name column of the freely set key table, as shown in Fig.' 13.

When it is judged at step S5 that the "END" key has been pushed, the operation of the key name registration is f ini shed.

Fig. 13 shows one example of the f reely set key table formed by this embodiment.

According to this embodiment, a menu mat 14 shown in Fig. 15 can be obtained with the names of the keys printed in the specified areas of the freely set key area by printing out the menu mat 14 after the registration of the key names. Fig. 15 illustrates the menu mat in correspondence with Fig. 4(b). If the keys are operated with this menu mat 14 placed on the coordinate input surface 11, the distinct indication of the key names evidently enables a user to perform the operation with ease and efficieny.

Next, in respect of the registration of key names as performed in a f ifth embodiment of the present invention, a description will now be made with reference to Figs. 16 and 17.

17 - Fig. 16 shows a pattern registering mat 33 for the input of a logogram in a pattern formed of dots. The pattern registering mat 33 has a pattern registering matrix 34 and fixed keys 32 written thereon. This pattern registering matrix 34 is formed of a matrix composed of 16 x 16 elements in the case of this embodiment.

A work area is set up in the RAM 7 (refer to Fig. 3), and an area for the 16 x 16 matrix is set in the work area.

Next, the operation of this embodiment described with reference to Fig. 17, which is a flow chart illustrating the operation of the CPU S.

First, the CPU 5 determines whether or not one of the fixed keys 32 has been pushed (step Sl). If affirmative, a 16 x 16 matrix area mentioned above is initialized. That is, all elements in the 16 x 16 matrix are initialized to 11011 (step S2).

Next, the CPU 5 determines whether or not any input has been made into the pattern registering matrix 34 in the pattern registering mat 33 placed on the coordinate input surface 11.(step S3). If affirmative, the CPU 5 proceeds to the next step S4 and performs the arithmetic operations given in the following:

X = xi (x matrix unit) Y = yi (y matrix unit).

In this calculation, the decimal portions in the results of x and y are discarded and only the integral portions are taken - 18 out. Here, xi and yl express the coordinate values input on the pattern registering matrix 34, and the term "x, y matrix unit" represents the magnitude of the matrix unit in the x and y direction as expressed in the coordinate value. Therefore, the results from the arithmetic operations at step S4 express the numbers of the matrix element in the x and y directions as specified with the stylus pen 13.

Next, the operation for expressing in dot pattern the numbers of the matrix element thus obtained f or the x and y directions are performed. First, the relationship, a parameter dot = 1 (in 16 bits), is established at step SS, and an operation is performed for shifting the dot (i.e., the position of 11111) leftward in the 16-bit row so that the X-th bit from the left is set to "V'. Then, the logical sum is taken bit by bit between the above 16-bit row and the 16-bit row a[Y] in the Y-th position from the top of the 16 x 16 matrix to obtain a new row a[Y] (step S6).

The operation mentioned above is repeated until step S7 becomes affirmative, and the operation is put to an end.

With the above operation, the logogram input on the pattern registering matrix 34 In the pattern registering mat 33 is registered in a bit pattern in the key name column on the freely set key table (see Fig. 13).

Next, in respect of the registration of key names, a sixth embodiment is described with reference to rigs. 18 and 19. This embodiment features a process for registering an image read from the document reading unit (a scanner) 1 in the key name column in the freely set key table.

Af ter the image registering mode is set on by a manipulation means not illustrated in the figure, the operation shown in Fig. 18 is performed. Fig. 18 is a flow chart illustrating the operation of the CPU 5.

First, the CPU 5 determines whether or not any area in the freely set key area as set up in the manner described above has been specified (step S1). If affirmative, the CPU 5 then determines whether or not there has been any input of coordinates of two points from the coordinate input surface 11 (step S2).

For example, a desired original document 35 is placed on the coordinate input surface 11, and two points P1 and P2 are specified, as illustrated in Fig. 19.

If step S2 becomes affirmative, the CPU 5 determines whether or not any original document is set in the document reading unit (scanner) 1 (step S3). If affirmative, the operation for reading the document is carried out (step S4), and the image information thus read is stored in a page memory (step SS). Subsequently, an operation is performed for reading the data corresponding to the two points P1 and P2 as specified at step S2 out of the page memory and for registering the data in the key name column of the freely set key table (see Fig. 13). In the example shown in Fig. 19, the image information of - 20 i is registered in the prescribed key name column of the freely set key table. This embodiment makes it possible to freely register an image written on

the document in the prescribed key name column of the freely set key table, offering an advantage that the registration of key names can be done in an extensive range.

Next, in respect of the registration of key names, a seventh embodiment is now described with reference to Fig. 20.

In Fig. 20, reference number 11 indicates a coordinate input surface; 40, a freely set key setting sheet of paper or the like to be placed on the coordinate input surface 11; and 41, a menu mat made of a sheet made of transparent material and placed on the freely set key setting sheet 40. On part of the menu mat 41, keys (line width selecting keys) 42 are provided for selecting the thickness of lines as shown in the-figure. If a character, a line drawing, or the like is drawn with the stylus pen 13 af ter one of the line width selecting keys 42 is selected with this menu mat 41 placed on the coordinate input surface 11, then the character or line drawing can be rendered in the thickness of the line as selected with the line width selecting keys 42.

Therefore, a user can register an image name with a selected line thickness in the key name column of the freely set key table (ref er to Fig. 13) by writing the name in the freely set key area with the stylus pen 13 after selecting one of the line width keys 42 with the stylus pen 13, with the freely set key setting sheet 40, in which the freely set key area is written, and the menu mat 41 placed on the coordinate input surface 11.

According to this embodiments, an image name can be freely produced by handwriting, offering an advantageous effect that a user can register an arbitrarily selected image name in his own handwritten characters in the prescribed key name column of the freely set-key table, Next, a description is made of a registering method f or registering function keys in arbitrarily selected areas in the coordinate input surf ace of the coordinate input device used in combination with a plural number of menu mats.

In the registering system described in the - f irst embodiment, a menu mat 14 shown in Fig. 4 is used, but, as this menu mat 14 has a small space for the fixed key area 14a, the space does not permit writing all the fixed keys in it. It is the following embodiment that has been made to overcome this problem.

Figs. 21 and 22 illustrate the description made here with regard to an eighth embodiment of the present invention. Fig. 22 is a flow chart illustrating the operation of the CPU S.

Figs. 21 (a) and 21 (b) show two menu mats, each of which is provided with an area f or the selection of a mat number. The ROM 6 or the RAM 8 store f ixed key tables 1 corresponding to the respective mat numbers. Although only two menu mats are illustrated in these figures, it goes without saying that the number of the menu mats according to the present invention is not limited to two.

The operation to be performed in this embodiment is as illustrated in Fig. 22.

When a user has selected the registering mode for the freely set keys, the CPU 5 determines whether or not a selection has been made of a mat number (step Sl). If the CPU 5 determines that such a selection has been made, the CPU 5 then performs the selection of the fixed key table corresponding to the particular mat number (step S2). Next, the CPU 5 determines whether or not a f ixed key has been specified (step S3). If affirmative, an operation is performed for registering the two points specif ied by the user on the freely set key area 146, in correlation with the specified fixed key mentioned above, in the freely set key table (steps S4 through S7).

Next, when a fixed key registered on another menu mat is to be set in the freely set key area 146 of the menu mat 14, the fixed key of "END" is pushed once (step S8). After the menu mat is replaced with another, the operation is started again from step Sl in the manner described above.

As described hereinabove, this embodiment makes it possible to register many kinds of fixed keys in the freely set key area 146 of the menu mat 14.

- 23 Fig. 23 illustrates a modIf i-catlon of the eighth embodiment. This modification shows a method of identifying the type of a menu mat on the basis of holes 43 and 44 made in respective menu mats. The detection of the positions of the holes 43 and 44 can be performed, for example, by a circuit using a photoreflector comprised of a light-emitting diode and a phototransistor.

It goes without saying that the specification of the type of a menu mat can be done also with numerical figures of the ten key unit set on the control panel.

Now the preferred embodiments of the present invention have been described so far, and it is evident that any modifications of the preferred embodiments given hereinabove are to be included within the scope and extent of the present invention so long as such modifications do not deviate from the purports and technical scope of the present invention.

As it is clearly recognized in light of the description made hereinabove, the present invention warrants expectations of the advantageous effects described in the following:

(1) Now that a user can assign the function of a fixed (operation) key to a selected area by performing the manipulation- of the f ixed (operation) key and the operation f or setting an area on the coordinate input surf ace, with the registering mode being selected, the user can thereby easily 1 copy any fixed (operation) key to an arbitrarily selected area in the coordinate input surface.

(2) Since a user can thus copy any fixed (operation) key to an arbitrarily selected area in the coordinate input surface, the user can form a control panel in such a size, a shape, and a layout as will be suitable for his preference.

(3) Since key names can be given to the areas formed on the coordinate input surf ace by input with reference to the JIScode table, by logogram input, by handwritten input, or by Input through reading an original document, the user can perform the key input with ease from the coordinate input surface.

(4) Since the functions corresponding to the fixed (operation) keys can be assigned to the areas on the coordinate input surf ace by the use of a plural number of menu mats, a user can register many types of functions.

Claims (9)

CLAIMS:

1.. An apparatus for registering an operation key on a coordinate input surface of a coordinate input device, comprising:

means for selecting a registering mode; means for specifying the operation key; means for specifying an arbitrary area of the coordinate input surface; and means f or producing a f reely set key table which correlates operation key information representing a function of the specified operation key and first area information representing the specified area of the coordinate input surface.

2. The apparatus according to claim 1, wherein the area specifying means comprises a key setting sheet on which operation keys are written in advance and which is placed on the coordinate input surface, and the arbitrary area is specified by specifying one of the areas in the key setting sheet.

3. The apparatus according to claim 1, wherein the operation key specifying means comprises a display device, placed under the coordinate input surface which is transparent, for displaying operation keys to be specified and registered operation keys.

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4. The apparatus according to claim 1, further comprising means for registering a key name of the registered operation key in the freely set key table.

5. The apparatus according to claim 4, wherein the key name registering means comprises: a key name registering mat in which a plurality of character inf ormation such as a character and a f igure are written in divided areas, and which is placed on the coordinate input surface; means for storing an area-character table which correlates second area information representing areas of the coordinate input surface corresponding to the respective divided areas of the key name registering mat and the plurality of character information; and means for registering a character in the freely set key table as the key name when the character is selected by specifying one of the divided areas of the key name registering mat.

6. The apparatus according to claim 4, wherein the key name registering means comprises: a logo-pattern registering mat in which a plurality of divided areas are written in a matrix form, and which is placed on the coordinate input surface; means for converting into an image third area information representing selected ones of the plurality of divided areas which have been input through the logo-pattern registering mat; and means for registering the image in the freely set key table as the key name.

7. The apparatus according to claim 4, wherein the key name registering means comprises: means for reading a sheet placed on the coordinate input surface; means for extracting information representing an image written in a specified area of the sheet; and means f or registering the image in the f reely set key table as the key name.

8. The apparatus according to claim 4, wherein the key name registering means comprises: means for specifying a thickness of a line to be drawn on the coordinate input surface; and means for registering an image drawn on the coordinate Input surface in the freely set key table as the key name.

9. The apparatus according to claim 1, wherein the operation key specifying means comprises a plurality of menu i 1 i mats selectively placed on the coordinate input surf ace, through which the operation key is specified, each of the plurality of menu mats having an identification portion to be used for identifying a kind of a menu mat being placed on the coordinate input surface.

published 1991 at 7be Patent Office. State House. 66/71 High Holborn. London WCIR47?- Further copies rnay be obtained from Saks Branch,:JrAt 6. N:ne Mile Point, Cwmlelinfach. Cross Keys, NewporL NPI 7HZ. Printed bY Multiplex techniques Itd, St Mary Cyay, Kent.