TW201814497A - Information processing device, program, and printing system - Google Patents

Abstract

Provided is an information processing device with which original pictogram image data can be created using a simple handwriting operation. This information processing device is provided with: a detecting unit which detects a handwriting operation; a handwritten image data generating unit which generates handwritten image data on the basis of the handwriting operation detection result from the detecting unit; and a combined image data generating unit which generates combined image data in which the handwritten image data generated by the handwritten image data generating unit and pictogram image data stored in a storage unit are combined.

Description

Information processing device, program and printing system

The invention relates to an information processing device, a program and a printing system for generating handwritten image data based on a handwriting operation.

Previously, a print data generating device that generates print data based on an input track of handwriting input on a tape image is known (see Patent Document 1). [Prior Art Document] [Patent Document] [Patent Document 1] Japanese Patent Application Laid-Open No. 2016-115076

[Problems to be Solved by the Invention] In an information processing device that generates handwritten image data based on a handwriting operation, the generated handwritten image data becomes original graphic symbol image data that is different from the graphic symbol image data stored in advance. However, when the user performs a handwriting operation on the entirety of the original graphic symbol image data, it is a time-consuming and labor-intensive operation for the user. An object of the present invention is to provide an information processing device, a program, and a printing system capable of generating original graphic symbol image data by a simple handwriting operation. [Technical means for solving the problem] The information processing device of the present invention is characterized by including: a detection section that detects a handwriting operation; and a handwritten image data generation section that generates handwritten image data based on a detection result of the handwriting operation by the detection section; And a synthetic image data generating unit that generates synthetic image data that combines handwritten image data generated by the handwritten image data generation unit and graphic symbol image data stored in the memory unit. According to this configuration, the handwritten image data and the graphic symbol image data are synthesized to generate a synthesized image data. The generated synthetic image data becomes original graphic image data different from the graphic image data stored in the memory. Since the user does not need to perform a handwriting operation on the part of the synthetic image data using the graphic symbol image data stored in the memory section, the user's trouble is reduced accordingly. Therefore, it is possible to generate original graphic symbol image data using a simple handwriting operation. In this case, preferably, the detecting unit further detects a selection operation of selecting a graphic symbol image from a plurality of graphic symbol images corresponding to the graphic image data stored in the memory unit; and synthesizing; The image data generating section generates composite image data based on the detection result of the selection operation of the graphic symbol image by the detecting section, and synthesizes the graphic symbol image data and the handwritten image data corresponding to the selected graphic symbol image. According to this configuration, the graphic symbol image data corresponding to the graphic symbol image selected by the selection operation and the handwritten image data are stored in the plurality of graphic symbol image data stored in the memory section. Thereby, the user can select graphic symbol image data synthesized with handwritten image data from a plurality of graphic symbol image data memorized in the memory section. In this case, it is preferable that the detection unit further detects a selection operation of selecting a category from a plurality of categories related to the graphic symbol image data; the composite image data generating unit is based on the plurality of graphic symbols memorized in the memory unit In the image data, the detection result of the selection operation of the detection unit by the detection unit generates a plurality of synthesized image data that synthesizes the plurality of graphic symbol image data and handwritten image data that belong to the selected category; and the detection unit further Detecting a selection operation of selecting a composite image from a plurality of composite images corresponding to the plurality of composite image data generated by the composite image data generating section. According to this configuration, a plurality of synthesized image data are generated by combining a plurality of graphic symbol image data and handwritten image data belonging to the selected category. Moreover, the user can enable a user to select a composite image from a plurality of composite images corresponding to the generated composite image data. Another information processing apparatus of the present invention is characterized by comprising: a detecting section that detects handwriting operations; a handwritten image data generating section that generates handwritten image data based on a detection result of the handwriting operation by the detecting section; and composite image data The generating unit generates composite image data that combines a plurality of handwritten image data generated by the handwritten image data generating unit with each other. According to this configuration, the handwritten image data is synthesized with each other to generate a synthesized image data. The generated synthetic image data becomes original graphic image data different from the graphic image data stored in the memory. If at least one of the synthesized handwritten image data is used with pre-memorized handwritten image data, since the user does not need to re-write the handwritten part using the pre-memorized handwritten image data, correspondingly, Reduce trouble for users. In addition, even in the case where the handwriting operation is re-performed for all the synthesized handwritten image data, the user does not need to perform handwriting operation on one handwritten image in such a manner that other handwritten images become a desired configuration. , So reduce the user's trouble accordingly. Therefore, it is possible to generate original graphic symbol image data by a simple handwriting operation. In this case, it is preferable that the detection unit further detects a selection operation of selecting a synthesis mode from the plurality of synthesis modes, and the synthetic image data generation unit is based on a detection result of the selection operation of the synthesis mode by the detection unit. According to the selected synthesis type, a synthetic image data is generated by combining a plurality of handwritten image data with each other. According to this configuration, the handwritten image data is synthesized with each other according to a synthesis form selected by a selection operation among a plurality of synthesis types synthesized with the handwritten image data. Thereby, the user can select a synthetic type in which handwritten image data is synthesized with each other from a plurality of synthetic types. Preferably, the information processing device further includes a memory control section that stores the synthetic image data generated by the synthetic image data generating section in the memory section. According to this configuration, the composite image data generated by the composite image data generating section is stored in the storage section. Therefore, when the user repeatedly uses the same synthetic image data, the trouble of repeatedly performing operations for generating synthetic image data can be saved. In this case, it is preferable to further include a display unit that displays a tracing image for a handwriting operation. According to this configuration, the user can perform a handwriting operation by tracing the selected tracing image. Therefore, the user can easily perform a handwriting operation. In this case, it is preferable that the detection unit further detects a selection operation for selecting whether to completely fill the line-closed area in the handwritten image corresponding to the handwritten image data, and the handwritten image data generation unit is based on the detection unit The handwriting image data is generated by the detection result of the selection operation of whether all are filled. According to this configuration, the user can choose to generate the handwritten image data in such a manner that the area enclosed by the centerline of the handwritten image is completely filled, or generate the handwritten image in such a manner that the area enclosed by the centerline of the handwritten image is not filled. Like information. The program of the present invention is for a computer to function as the above-mentioned information processing device. According to this configuration, the computer can function as an information processing device capable of generating original graphic symbol image data by a simple handwriting operation. The printing system of the present invention is characterized by including an information processing device and a printing device, and the information processing device includes: a detection section that detects a handwriting operation; and a handwritten image data generation section that generates information based on a detection result of the handwriting operation by the detection section. Handwritten image data; a synthetic image data generating unit that generates synthetic image data that combines the handwritten image data generated by the handwritten image data generating unit and the graphic symbol image data stored in the memory unit; the printed data generating unit , Which generates print data based on the composite image data generated by the composite image data generation unit; and a print data transmission unit, which sends the print data generated by the print data generation unit to a printing device. Another printing system of the present invention is characterized by including an information processing device and a printing device, and the information processing device has: a detection section that detects a handwriting operation; and a handwritten image data generation section that is based on a detection result of the handwriting operation by the detection section. To generate handwritten image data; a composite image data generating section that generates a composite image data that combines a plurality of handwritten image data generated by the handwritten image data generating section with each other; a printed data generating section that is based on a composite image The print data is generated by synthesizing the image data generated by the image data generation unit; and the print data transmission unit sends the print data generated by the print data generation unit to the printing device. According to this configuration, the printing device performs printing based on the printed data generated based on the synthetic image data generated by the information processing device, that is, the original graphic symbol image data. Thereby, a composite image, that is, an original graphic symbol can be printed on a print medium.

Hereinafter, a printing system S which is an embodiment of the printing system of the present invention will be described with reference to the drawings. A schematic configuration of the printing system S will be described based on FIG. 1. The printing system S includes an information processing device 1 and a printing device 2. The information processing device 1 generates printed data and sends the generated printed data to the printing device 2. The printing device 2 receives printing data sent from the information processing device 1 and prints a printing medium based on the received printing data. An application program (hereinafter referred to as a “corresponding application program”) corresponding to the information processing device 1 and the printing device 2 is installed on a smartphone as a computer. The computer is not limited to a smart phone, as long as it is a device capable of realizing each function of the information processing device 1 described later using a corresponding application program. As a computer, in addition to a smartphone, for example, a tablet terminal or a personal computer can be used. The information processing device 1 includes a display 11, a touch panel 12, a CPU 13 (Central Processing Unit), a RAM 14 (Random Access Memory), a flash memory 15, and a processing-side interface 16. The display 11 displays various information. The touch panel 12 is arranged on the display 11 in an overlapping manner, and the position of the surface of the touch panel 12 that is pressed is detected by a user's operation. The CPU 13 executes various processes (including corresponding application programs) stored in the flash memory 15 by using the RAM 14. The processing-side interface 16 transmits / receives various kinds of data such as various commands and printed materials to and from a printing-side interface 24 described later. The printing apparatus 2 includes a printing mechanism 21, a media feeding mechanism 22, a control circuit 23, and a printing-side interface 24. The printing mechanism 21 prints a print medium. The printing method of the printing mechanism 21 is not particularly limited, and for example, a thermal method, an electrophotographic method, or an inkjet method can be used. The print medium is not particularly limited, and for example, a tape-shaped member, a roll paper, or a single sheet can be used. The media feed mechanism 22 feeds print media. The control circuit 23 includes a CPU and various memories (not shown), and controls the printing mechanism 21 and the media feeding mechanism 22 in accordance with a control program. The print-side interface 24 sends / receives various commands and various data to and from the processing-side interface 16. The functional configuration of the information processing apparatus 1 and the printing apparatus 2 will be described based on FIG. 2. The information processing apparatus 1 includes a display unit 101, a detection unit 102, a memory unit 103, a memory control unit 104, a handwritten image data generation unit 105, a composite image data generation unit 106, a printed data generation unit 107, and a printed data transmission unit. 108. The display unit 101 is implemented by the display 11. The detection unit 102 is implemented using the touch panel 12. The memory unit 103 is implemented by a flash memory 15. The memory control unit 104, the handwritten image data generating unit 105, the composite image data generating unit 106, and the printed data generating unit 107 are implemented by the CPU 13 executing a corresponding application program. The printed material transmitting unit 108 is realized by the processing-side interface 16. The functions of the functional units of the information processing device 1 are described below. The printing apparatus 2 includes a print data receiving unit 201 and a printing unit 202. The printed material receiving unit 201 is implemented by a printing-side interface 24. The print data receiving unit 201 receives the print data transmitted from the print data transmitting unit 108. The printing unit 202 is implemented by a printing mechanism 21 and a media feeding mechanism 22. Based on the received print data, the printing unit 202 feeds the print medium and prints on the print medium. In addition, the memory unit 103 stores graphic symbol image data in addition to normal text image data. The so-called graphic symbol image data refers to the image data of the graphic symbol, and the so-called graphic symbol refers to the symbolized illustrations of various objects, characters, and graphics. The print data generating unit 107 can generate print data based on not only text image data but also graphic symbol image data. The information processing device 1 generates handwritten image data based on a handwriting operation. Then, the information processing device 1 can generate a composite image by synthesizing the generated handwritten image data and the graphic symbol image data stored in the memory 103, or by synthesizing the generated handwritten image data with each other. Like information. In this regard, the process of generating synthetic image data by the information processing device 1 will be described, and the functions of the functional units of the information processing device 1 shown in FIG. 2 will be described. Here, description will be made in the order of (1) the case where the handwritten image data and the graphic symbol image data are synthesized, and (2) the case where the handwritten image data is synthesized with each other. In addition, according to (1), it is divided into: (A) a case where the user selects a graphic symbol image G1 (see FIG. 7), and (B) a case where the user selects a composite image G4 (see FIG. 14). The situation will be explained. Referring to the screen transition diagrams of FIGS. 6 to 12 and based on the flowchart of FIG. 3, for the case where (1) handwritten image data and graphic symbol image data are synthesized, and (A) the user is selected to select a graphic symbol image G1 The situation will be explained. After the corresponding application program is started in the information processing device 1, if the detection unit 102 detects a specific operation, the display unit 101 displays a synthesis method selection screen D1 (see FIG. 6) in step S1. In the synthesis method selection screen D1, as an option of a synthesis method related to the synthesized image data, a sentence "Synthesis with graphic symbol image" and a sentence "Synthesis of handwritten images with each other" are displayed. The process proceeds to step S2. If the detection unit 102 detects a selection operation of selecting the phrase "synthesize with a graphic symbol image" in the synthesis method selection screen D1 (S2: Yes), the process proceeds to step S3, and the display unit 101 displays a graphic Symbol selection screen D2 (see FIG. 7). In the graphic symbol selection screen D2, a plurality of graphic symbol images G1 corresponding to the graphic image data stored in the memory unit 103 are displayed in a selectable manner. When the detection unit 102 detects a selection operation of selecting a graphic symbol image G1 on the graphic symbol selection screen D2, the process proceeds to step S4, and the display unit 101 displays a replacement area adjustment screen D3 (see FIG. 8). In the replacement area adjustment screen D3, the selected graphic symbol image G1 and the replacement area display frame G2 are displayed. The replacement area display frame G2 displays the area where the graphic symbol image G1 is replaced with the handwritten image G3 (see FIG. 10) on the graphic symbol image G1 when the graphic symbol image data is combined with the handwritten image data. By. When the detection unit 102 detects a specific operation, in the replacement area adjustment screen D3, the position and size of the display area G2 of the replacement area with respect to the graphic symbol image G1 are adjusted. Thereby, the position and size of the area replaced with the handwritten image G3 in the graphic symbol image G1 are adjusted. When the position and size of the display area G2 of the replacement area are determined, the process proceeds to step S5, and the display unit 101 displays a creation selection screen D4 (see FIG. 9). In the production selection screen D4, as the handwritten image data synthesized with the graphic symbol image data, it is selected whether to regenerate or use the memorized option, and the sentence "Create a new handwritten image" is displayed, and " "Choose the completed handwritten image". The process proceeds to step S6. If the detection unit 102 detects a selection operation of selecting the sentence "Create a new handwritten image" on the production selection screen D4 (S6: Yes), the process proceeds to step S7, and the display unit 101 displays the handwritten image. Create screen D5 (see FIG. 10). When a handwriting operation is performed on the displayed handwriting image creation screen D5, the detection unit 102 detects a handwriting operation. Specifically, the detection section 102 detects a movement trajectory of a position where the surface of the detection section 102 is pressed due to a handwriting operation. The handwritten image data generating section 105 generates handwritten image data based on a detection result of a handwriting operation by the detecting section 102. A handwritten image G3 corresponding to the generated handwritten image data is displayed on the handwritten image creation screen D5. In addition, the handwriting operation can be performed on the handwriting image creation screen D5 by the user directly touching the fingertip with the detection section 102 (touch panel 12), or using a stylus pen (stylus pen). . If the handwritten image data generation unit 105 is used to generate handwritten image data, the process proceeds to step S8, and the synthesized image data generation unit 106 generates the generated handwritten image data and a pattern selected on the graphic symbol selection screen D2. The composite image data in which the graphic symbol image data corresponding to the symbol image G1 is synthesized. The composite image data generating unit 106 combines the handwritten image data and the graphic symbol image data in such a manner that the area indicated by the replacement area display frame G2 in the graphic symbol image G1 is replaced by the handwritten image G3. In addition, the synthetic type of the handwritten image data and the graphic symbol image data is not particularly limited, and the synthetic image data generating unit 106 may, for example, arrange the two images side by side or side by side with the handwritten image G3 and the graphic symbol image G1 Like data to be synthesized. In addition, the synthesized image data generating unit 106 may synthesize two image data such that the handwritten image G3 and the graphic symbol image G1 overlap each other. The information processing device 1 enables the user to select a synthetic type. When the composite image data is generated, the process proceeds to step S9, and the display unit 101 displays a composite image display screen D6 (see FIG. 11). In the composite image display screen D6, a composite image G4 corresponding to the generated composite image data is displayed. If after the composite image data is generated, the detection unit 102 detects an operation for performing printing, it proceeds to step S10, and the print data generation unit 107 separates the generated composite image data separately or with a normal text image based on the generated composite image data. Produce printed materials together with materials. When the printing device 2 performs printing based on the print data, the composite image G4 is printed on the print medium. In addition, if the detecting unit 102 detects an operation for storing the synthesized image data after the synthesized image data is generated, the memory control unit 104 stores the generated synthesized image data in the storage unit 103. The print data generating unit 107 may also generate print data based on the composite image data stored in the memory unit 103. In addition, the synthesized image data generating section 106 may use the synthesized image data stored in the storage section 103 as the graphic symbol image data synthesized with the handwritten image data. In addition, the handwritten image data synthesized with the graphic data of the graphic symbols is not limited to the handwritten image data regenerated by the handwritten image data generating unit 105, and the handwritten image data created before, that is, previously created by The handwritten image data generating unit 105 generates and stores the handwritten image data in the memory unit 103. Specifically, in step S6, if the detection unit 102 detects that the phrase "selection of the handwritten image that has been completed" is selected on the production selection screen D4 shown in FIG. 9 (S6: NO), the process proceeds to step S11. The display unit 101 displays a handwritten image selection screen D7 (see FIG. 12). In the handwritten image selection screen D7, a plurality of handwritten images G3 corresponding to the plurality of handwritten image data that have been completed are displayed in a selectable manner. If the detection section 102 detects a selection operation for selecting a handwritten image G3 in the handwritten image selection screen D7, it proceeds to step S8, and the synthesized image data generating section 106 generates a selection to be selected in the handwritten image selection screen D7. Synthesized image data corresponding to the handwritten image data corresponding to the handwritten image G3 and the graphic symbol image data corresponding to the graphic symbol image G1 selected in the graphic symbol selection screen D2. Referring to the screen transition diagrams of FIG. 6, FIG. 9, and FIG. 12 to FIG. 14, and based on the flowchart of FIG. 4, for the case where (1) handwritten image data and graphic symbol image data are synthesized, (B) A case where the user selects the composite image G4 will be described. In step S21, a composition method selection screen D1 shown in FIG. 6 is displayed. The process proceeds to step S22. If the detection unit 102 detects a selection operation of selecting the phrase "composite with a graphic symbol image" in the synthesis method selection screen D1 (S22: Yes), the process proceeds to step S23, and the display unit 101 displays an image The production selection screen D4 shown in FIG. The process proceeds to step S24. If the detection unit 102 detects a selection operation of selecting the sentence "selection of the handwritten image completed" on the production selection screen D4 (S24: NO), the process proceeds to step S25, and the display unit 101 displays a diagram The handwritten image selection screen D7 shown in FIG. When the detection unit 102 detects a selection operation for selecting a handwritten image G3 on the handwritten image selection screen D7, the process proceeds to step S26, and the display unit 101 displays a category selection screen D8 (see FIG. 13). In the category selection screen D8, a plurality of categories related to the graphic symbol image data are displayed in a selectable manner. That is, the graphic symbol image data is divided into a plurality of categories and stored in the storage unit 103. If the detection unit 102 detects a selection operation for selecting a category in the category selection screen D8, the process proceeds to step S27, and the composite image data generation unit 106 is based on the detection unit in the plurality of graphic symbol image data stored in the memory unit 103. The detection result of the selection operation of the category 102 generates a plurality of composite image data. That is, the synthesized image data generating unit 106 generates a plurality of graphic symbol image data belonging to the selected category and synthesizes the handwritten image data corresponding to the handwritten image G3 selected on the handwritten image selection screen D7. Multiple synthetic image data. The synthetic image data generating unit 106 applies the graphic symbol image data and the handwritten image data side by side so that the graphic symbol image G1 corresponding to the graphic symbol image data and the handwritten image G3 corresponding to the handwritten image data are side by side. synthesis. In addition, also in this case, the synthetic type of the handwritten image data and the graphic symbol image data is not particularly limited. When a plurality of synthesized image materials are generated, the process proceeds to step S28, and the display unit 101 displays a synthesized image selection screen D9 (see FIG. 14). In the composite image selection screen D9, a plurality of composite images G4 corresponding to the generated composite image data are displayed in a selectable manner. If the detection unit 102 detects a selection operation for selecting a composite image G4 in the composite image selection screen D9, it proceeds to step S29, and the composite image data corresponding to the selected composite image G4 is related to (A) The case where the user selects the graphic symbol image G1 is similarly supplied as printed data or may be stored in the storage unit 103. The handwritten image data synthesized with the plurality of graphic symbol image data belonging to the selected category is not limited to the completed handwritten image data, and a handwritten image regenerated by the handwritten image data generating section 105 can be used data. That is, in step S24, if the detection unit 102 detects a selection operation of selecting the sentence "Create a new handwritten image" in the production selection screen D4 (S24: Yes), it proceeds to step S30, and the display unit 101 displays A handwriting image creation screen D5 shown in FIG. 10. If a handwriting operation is performed on the displayed handwritten image creation screen D5 and the handwritten image data is generated by the handwritten image data generating unit 105, the process proceeds to step S26. Further, it is feasible that the information processing apparatus 1 can perform both (A) a case where the user selects the graphic symbol image G1 and (B) a case where the user selects the composite image G4. In this case, for example, it is feasible that if the sentence "Synthesis with graphic symbol image" is selected in the synthesis method selection screen D1, the display section 101 is displayed for the user to select whether to execute (A) A picture of either of the situation and the situation of (B). Referring to the screen transition diagrams of FIGS. 6, 9, 12, 15, and 16, and based on the flowchart of FIG. 5, (2) a case where the handwritten image data is synthesized with each other will be described. In step S2 of the flowchart shown in FIG. 3 or step S22 of the flowchart shown in FIG. 4, if the detection unit 102 detects that “combination of handwritten images with each other is selected” in the synthesis method selection screen D1 shown in FIG. 6. "" (S2: No, or S22: No), the process proceeds to step S31 of the flowchart shown in FIG. 5, and the display unit 101 displays the production selection screen D4 shown in FIG. The process proceeds to step S32. If the sentence "selection of the handwritten image created" is selected in the production selection screen D4 (S32: NO), the process proceeds to step S33, and the display unit 101 displays the handwritten image selection shown in Fig. 12 Picture D7. If the detection unit 102 detects a selection operation for selecting a handwritten image G3 in the handwritten image selection screen D7, the process proceeds to step S34, and the display unit 101 displays the creation selection screen D4 again. The process proceeds to step S35, and if the sentence "selection of the handwritten image that has been completed" is selected in the re-displayed production selection screen D4 (S35: NO), the process proceeds to step 36, and the display unit 101 displays the handwritten image selection screen again. D7. When the detection unit 102 detects a selection operation of selecting a handwritten image G3 in the redisplayed handwritten image selection screen D7, the process proceeds to step S37, and the display unit 101 displays a composite type selection screen D10 (see FIG. 15). In the composite type selection screen D10, plural numbers of handwritten image data corresponding to the handwritten image G3 selected by the first selection operation and plural handwritten image data corresponding to the handwritten image G3 selected by the second selection operation Each synthetic pattern is displayed in a selectable manner. In addition, in FIG. 15, as a plurality of composite patterns, a pattern in which the handwritten images G3 are positioned side by side with each other, a pattern in which the handwritten images G3 are positioned side by side with each other, and a pattern in which the handwritten images G3 are overlapped with each other are displayed. , But not limited to those. In addition, as a display pattern of a plurality of composite patterns of the composite pattern selection screen D10, as shown in FIG. 15, a rectangular image can represent each handwritten image G3, and the actual handwritten image G3 can also be displayed. If the detection section 102 detects a selection operation for selecting a composite type in the composite type selection screen D10, the process proceeds to step S38, and the composite image data generation section 106 detects a detection result based on the selection operation of the composite type by the detection section 102. Generate synthetic image data. That is, the synthesized image data generating unit 106 generates synthesized image data that combines the handwritten image data selected for the first time and the handwritten image data selected for the second time according to the selected synthesis type. When the composite image data is generated, the process proceeds to step S39, and the display unit 101 displays a composite image display screen D6 (see FIG. 16). A composite image G4 corresponding to the generated composite image data is displayed on the composite image display screen D6. Proceeding to step S40, the generated synthetic image data is supplied as printed data in the same manner as in the case where (1) the handwritten image data and the graphic symbol image data are synthesized, or can be stored in the memory unit 103. The synthesized image data generating unit 106 may use not only the handwritten image data that has been created, but also the handwritten image data regenerated by the handwritten image data generation unit 105 as the synthesized handwritten image data. That is, in step S32, if the detection unit 102 detects the selection operation of selecting the sentence "Create a new handwritten image" on the production selection screen D4 (S32: Yes), it proceeds to step S41, and the display unit 101 displays FIG. 10 The handwriting image creation screen D5 is shown. If a handwriting operation is performed on the displayed handwritten image creation screen D5, and the handwritten image data is generated by the handwritten image data generating unit 105, the process proceeds to step S34. Similarly, in step S35, if the detection unit 102 detects a selection operation of selecting the sentence "Create a new handwritten image" on the production selection screen D4 (S35: Yes), it proceeds to step S42, and the display unit 101 displays A handwriting image creation screen D5 shown in FIG. 10. If a handwriting operation is performed on the displayed handwritten image creation screen D5 and the handwritten image data is generated by the handwritten image data generating unit 105, the process proceeds to step S37. In addition, the synthesized image data generating unit 106 not only synthesizes different handwritten image data with each other, but also synthesizes common handwritten image data with each other. In addition, the synthesized image data generating unit 106 may generate synthesized image data in which three or more handwritten image data are synthesized. The information processing device 1 does not need to perform both of the above-mentioned (1) the case where the handwritten image data and the graphic symbol image data are synthesized, and (2) the case where the handwritten image data is synthesized with each other, as long as at least one of them can be performed . As described above, the information processing apparatus 1 according to this embodiment includes the detection unit 102, the handwritten image data generation unit 105, and the composite image data generation unit 106. The detection section 102 detects a handwriting operation. The handwritten image data generating section 105 generates handwritten image data based on a detection result of a handwriting operation by the detecting section 102. The synthesized image data generating unit 106 generates synthesized image data that combines the handwritten image data generated by the handwritten image data generating unit 105 and the graphic symbol image data stored in the memory unit 103. According to this configuration, the handwritten image data and the graphic symbol image data are synthesized to generate a synthesized image data. The generated synthetic image data becomes original graphic symbol image data which is different from the graphic symbol image data stored in the memory section 103. Since the user does not need to perform a handwriting operation on the part of the synthetic image data that uses the graphic symbol image data stored in the memory section 103, the user's trouble is reduced accordingly. Furthermore, in the case where the synthesized handwritten image data is stored in the memory unit 103 in advance, since the user does not need to perform a handwriting operation again on the part of the synthesized image data that uses the previously stored handwritten image data, correspondingly, Reduce trouble for users. Therefore, it is possible to generate original graphic symbol image data using a simple handwriting operation. Further, in the information processing apparatus 1 of this embodiment, the detection unit 102 further detects that a graphic symbol image G1 is selected from a plurality of graphic symbol images G1 corresponding to a plurality of graphic symbol image data stored in the storage unit 103. Operation. Based on the detection result of the selection operation of the graphic symbol image G1 by the detection unit 102, the composite image data generating section 106 generates a composite of the graphic symbol image data and the handwritten image data corresponding to the selected graphic symbol image G1. Image data. According to this configuration, the graphic symbol image data corresponding to the graphic symbol image G1 selected by the selection operation and the handwritten image data among the plurality of graphic symbol image data stored in the storage unit 103 are synthesized. Thereby, the user can select the graphic symbol image data synthesized with the handwritten image data from the plurality of graphic symbol image data memorized in the storage unit 103. Further, in the information processing apparatus 1 of the present embodiment, the detection unit 102 further detects a selection operation for selecting one of a plurality of categories related to the graphic symbol image data. The synthetic image data generating unit 106 generates a plurality of graphic symbol image data that will belong to the selected category based on the detection result of the selection operation of the detection unit 102 in the plurality of graphic symbol image data stored in the memory unit 103. A plurality of synthetic image data synthesized with handwritten image data. The detecting section 102 further detects a selection operation of selecting a composite image G4 from a plurality of composite images G4 corresponding to the plurality of composite image data generated by the composite image data generating section 106. According to this configuration, a plurality of synthesized image data are generated by combining a plurality of graphic symbol image data and handwritten image data belonging to the selected category. In addition, the user can enable the user to select a composite image G4 from a plurality of composite images G4 corresponding to the generated composite image data. In addition, in the information processing apparatus 1 of this embodiment, the synthetic image data generating unit 106 may generate synthetic image data in which handwritten image data and graphic symbol image data are synthesized instead of generating a plurality of handwritten images. Synthetic image data in which data is synthesized with each other. According to this configuration, the handwritten image data is synthesized with each other to generate a synthesized image data. The generated synthetic image data becomes original graphic symbol image data which is different from the graphic symbol image data stored in the memory section 103. In the case where at least one of the synthesized handwritten image data is used, the handwritten image data stored in the memory unit 103 is used in advance, because the user does not need to rewrite the handwritten portion of the handwritten image data that is stored in advance. Operation, so the user's trouble is reduced accordingly. Moreover, in the case where the handwriting operation is re-performed for all the synthesized handwritten image data, since the user does not need to perform one handwritten image G3 with another handwritten image G3 as a desired configuration The handwriting operation reduces the user's trouble accordingly. Therefore, it is possible to generate original graphic symbol image data using a simple handwriting operation. Further, in the information processing apparatus 1 of the present embodiment, the detection unit 102 further detects a selection operation for selecting a synthesis pattern from a plurality of synthesis patterns. The composite image data generating unit 106 generates a composite image data that combines a plurality of handwritten image data with each other according to the selected composite type based on the detection result of the selection operation of the composite type by the detection unit 102. According to this configuration, the handwritten image data is synthesized with each other according to a synthesis pattern selected by a selection operation among a plurality of synthesis patterns with which the handwritten image data is synthesized with each other. Thereby, the user can select a synthetic type in which handwritten image data is synthesized with each other from a plurality of synthetic types. The information processing apparatus 1 according to this embodiment further includes a memory control unit 104. The memory control unit 104 stores the synthesized image data generated by the synthesized image data generation unit 106 in the storage unit 103. According to this configuration, the composite image data generated by the composite image data generating unit 106 is stored in the storage unit 103. Thus, in the case where the user repeatedly uses the same synthetic image data, the trouble of repeatedly performing a series of operations for generating a series of synthetic image data can be saved. The corresponding application program of this embodiment enables a computer to function as an information processing device 1 capable of generating original graphic symbol image data by a simple handwriting operation. The printing system S of this embodiment includes an information processing device 1 and a printing device 2. The information processing device 1 includes a print data generation unit 107 and a print data transmission unit 108 in addition to the detection unit 102, the handwritten image data generation unit 105, and the composite image data generation unit 106 described above. The print data generating section 107 generates print data based on the composite image data generated by the composite image data generating section 106. The print data transmission unit 108 transmits the print data generated by the print data generation unit 107 to the printing apparatus 2. According to this configuration, the printing device 2 performs printing based on the printed data generated based on the synthetic image data generated by the information processing device 1, that is, the original graphic symbol image data. Thereby, a composite image G4, that is, an original graphic symbol can be printed on a print medium. The present invention is not limited to the embodiments described above, and it should be understood that various configurations can be adopted without departing from the scope of the invention. For example, this embodiment can be changed to the following. As shown in FIG. 17, the display unit 101 may display a tracing image G5 for a handwriting operation on the handwriting image creation screen D5. In this case, the user can perform a handwriting operation by tracing the outline or a part of the image of the selected tracing image G5. Therefore, the user can easily perform a handwriting operation. The tracing image G5 displayed on the handwritten image creation screen D5 may be, for example, a graphic symbol image G1, or a photo image stored in advance in the flash memory 15 or the like, or captured by a camera provided in the information processing device 1. Photo image. As shown in FIGS. 18 and 19, a coating selection icon G6 may be displayed on the handwritten image creation screen D5. When the detection unit 102 detects an operation on the coating selection icon G6, the coating selection icon G6 switches between the full coating mode and the non-full coating mode. If the detection section 102 detects the operation on the coating selection icon G6 and the coating selection icon G6 is in the full fill mode, the handwritten image data generating section 105 generates a handwritten image G3 in which the area closed with the line is completely filled. (See FIG. 18) Corresponding handwritten image data. On the other hand, if the detection section 102 detects an operation on the coating selection icon G6, and the coating selection icon G6 is in a non-full painting mode, the area closed by the handwriting image data generating section 105 and the line is not completely painted. Handwritten image data corresponding to the full handwritten image G3 (see FIG. 19). In this way, the detection unit 102 further detects a selection operation in the handwritten image G3 for selecting whether to completely fill the closed area of the line. The handwritten image data generating section 105 generates handwritten image data based on a detection result of the selection operation of the detection section 102 as to whether or not it is completely filled. Thereby, the user can choose to generate handwritten image data in such a manner that the area closed in the middle line of the handwritten image G3 is completely filled, or in such a manner that the area closed in the centerline of the handwritten image G3 is not completely filled. Generate handwritten image data. In addition, in the case where there are a plurality of regions where the line is closed in the handwritten image G3, whether or not all of them are filled can be individually selected. And, you can choose the full color. The detection unit 102 can be realized by various detection mechanisms provided in a computer constituting the information processing apparatus 1. In the case where the information processing device 1 is constituted by a personal computer, for example, the detection unit 102 can be realized by using a touch panel or a mouse. The detection unit 102 can be implemented by a plurality of detection mechanisms. Similarly, the memory unit 103 can be realized by various memory mechanisms provided in the computer constituting the information processing apparatus 1. For example, in a case where the information processing device 1 is constituted by a personal computer, the storage unit 103 may be implemented by a hard disk. In addition, the memory unit 103 may be implemented by a memory mechanism (for example, a server) provided outside the information processing device 1. The memory unit 103 may be implemented by a plurality of memory mechanisms. For example, the memory unit 103 may be implemented by using a flash memory 15 that stores image data of graphic symbols and a server that stores synthetic image data. Some or all of the handwritten image data generating unit 105, the composite image data generating unit 106, the memory control unit 104, and the printed data generating unit 107 can be implemented using only hardware resources.

1‧‧‧ Information Processing Device

2‧‧‧Printing Device

11‧‧‧ Display

12‧‧‧Touch Panel

13‧‧‧CPU

14‧‧‧RAM

15‧‧‧Flash memory

16‧‧‧Handling side interface

21‧‧‧Printing Agency

22‧‧‧ Media Feeder

23‧‧‧Control circuit

24‧‧‧Printing side interface

101‧‧‧Display

102‧‧‧Testing Department

103‧‧‧Memory Department

104‧‧‧Memory Control Department

105‧‧‧Handwriting image data generation unit

106‧‧‧Composite image data generation unit

107‧‧‧Printed Data Generation Department

108‧‧‧Printed materials distribution department

201‧‧‧Printed materials receiving department

202‧‧‧Printing Department

D1‧‧‧Synthesis method selection screen

D2‧‧‧ Graphic Symbol Selection Screen

D3‧‧‧Replacement area adjustment screen

D4‧‧‧ production selection screen

D5‧‧‧ handwriting image production screen

D6‧‧‧ composite image display screen

D7‧‧‧ Handwritten image selection screen

D8‧‧‧ Category selection screen

D9‧‧‧composite image selection screen

D10‧‧‧Synthetic form selection screen

G1‧‧‧ Graphic Symbol Image

G2‧‧‧ Display border in replacement area

G3‧‧‧ handwritten image

G4‧‧‧Composite image

G5‧‧‧Tracing image

G6‧‧‧Coat selection icon

S‧‧‧Printing System

FIG. 1 is a block diagram showing a schematic configuration of a printing system according to an embodiment of the present invention. FIG. 2 is a block diagram showing a functional configuration of an information processing device and a printing device constituting a printing system. FIG. 3 is a flowchart showing a flow of a case where a user selects a graphic symbol image in a case where handwritten image data and graphic symbol image data are synthesized. FIG. 4 is a flowchart showing a flow of a case where a user selects a synthesized image in a case where handwritten image data and graphic symbol image data are synthesized. FIG. 5 is a flowchart showing a flow of a case where handwritten image data is synthesized with each other. FIG. 6 is a diagram showing a synthesis method selection screen. FIG. 7 is a diagram showing a graphic symbol selection screen. FIG. 8 is a diagram showing a replacement area adjustment screen. FIG. 9 is a diagram showing a production selection screen. FIG. 10 is a diagram showing a screen for creating a handwritten image. FIG. 11 is a diagram showing a composite image display screen in which a composite image corresponding to a composite image data obtained by combining graphic symbol image data and handwritten image data is displayed. FIG. 12 is a diagram showing a handwritten image selection screen. FIG. 13 is a diagram showing a category selection screen. FIG. 14 is a diagram showing a composite image selection screen. FIG. 15 is a diagram showing a composite type selection screen. 16 is a diagram showing a composite image display screen in which a composite image corresponding to composite image data in which handwritten image data is synthesized with each other is displayed. FIG. 17 is a diagram showing a handwritten image creation screen in which a tracing image is displayed. FIG. 18 is a diagram showing a screen for creating a handwritten image in which a handwritten image in which an area with closed lines is completely filled is displayed. FIG. 19 is a diagram showing a screen for creating a handwritten image in which a handwritten image in which an area where a line is closed is not completely painted is displayed.

Claims (11)

An information processing device, comprising: a detection unit that detects a handwriting operation; a handwritten image data generation unit that generates handwritten image data based on a detection result of the handwriting operation by the detection unit; and a composite image data generation unit , Which generates synthesized image data obtained by combining the aforementioned handwritten image data generated by the aforementioned handwritten image data generating section and the graphic symbol image data stored in the memory section. For example, the information processing device of claim 1, wherein the detection unit further detects a selection operation of selecting one of the graphic symbol images from a plurality of graphic symbol images corresponding to the plurality of graphic symbol image data stored in the storage unit. ; And the composite image data generating section generates the graphic symbol image data and the handwritten image that will correspond to the selected graphic symbol image based on a detection result of the selection operation of the graphic symbol image by the detection section. The data is synthesized from the aforementioned synthetic image data. For example, the information processing device of claim 1 or 2, wherein the detection unit further detects a selection operation of selecting one of the foregoing categories from the plurality of categories related to the graphic symbol image data; and the synthetic image data generation unit is based on the memory in the foregoing The detection result of the selection operation of the aforementioned category among the plurality of aforementioned graphic symbol image data in the memory unit generates a plurality of aforementioned aforementioned graphic symbol image data and the aforementioned handwritten image data which belong to the selected aforementioned category. The plurality of synthesized image data synthesized; the detection unit further detects a selection of selecting one of the synthesized images from a plurality of synthesized images corresponding to the plurality of synthesized image data generated by the synthesized image data generating unit; operating. An information processing device, comprising: a detection unit that detects a handwriting operation; a handwritten image data generation unit that generates handwritten image data based on a detection result of the handwriting operation by the detection unit; and a composite image data generation unit , Which generates synthesized image data in which a plurality of the aforementioned handwritten image data generated by the aforementioned handwritten image data generating section are synthesized with each other. For example, the information processing device of claim 4, wherein the detection unit further detects a selection operation of selecting one of the plurality of synthesis patterns from the plurality of synthesis patterns; and the synthesis image data generation unit is based on The detection result of the selection operation generates the synthesized image data obtained by synthesizing a plurality of the handwritten image data with each other according to the selected synthesized type. The information processing device according to any one of claims 1 to 5, further comprising: a memory control section that stores the synthetic image data generated by the synthetic image data generating section in the memory section. The information processing device according to any one of claims 1 to 6, further comprising: a display unit that displays a tracing image for a handwriting operation. The information processing device according to any one of claims 1 to 7, wherein the aforementioned detecting section further detects a selection operation for selecting whether to completely fill the line-closed area in the handwritten image corresponding to the aforementioned handwritten image data; and The handwritten image data generating section generates the handwritten image data based on a detection result of a selection operation performed by the detecting section on whether or not all of them are filled. A program for causing a computer to function as an information processing device according to any one of claims 1 to 8. A printing system includes an information processing device and a printing device; and the foregoing information processing device includes: a detection section that detects a handwriting operation; and a handwritten image data generation section that generates handwriting based on a detection result of the handwriting operation by the detection section. Image data; a composite image data generating unit that generates composite image data that combines the aforementioned handwritten image data generated by the aforementioned handwritten image data generating unit and the graphic symbol image data stored in the memory unit; print data generation And a print data sending unit that sends the print data generated by the print data generating unit to the printing device. A printing system includes an information processing device and a printing device; and the foregoing information processing device includes: a detection section that detects a handwriting operation; and a handwritten image data generation section that generates handwriting based on a detection result of the handwriting operation by the detection section. Image data; a composite image data generating section that generates composite image data that combines a plurality of the aforementioned handwritten image data generated by the aforementioned handwritten image data generating section with each other; a printed data generating section that is based on the aforementioned synthetic map The print data is generated by the aforementioned composite image data generated by the image data generating unit; and the print data sending unit sends the print data generated by the print data generating unit to the printing device.