JP2015041295A - Drawing system and image deleting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a drawing system and an image deleting method that allow a user to selectively delete an image having a particular attribute according to need if image drawing having multiple types of different attributes is made.SOLUTION: A drawing system includes a drawing tool for giving instructions related to drawing images, a drawing device having a display screen on which image drawing is performed on the basis of the instructions, and a deleting tool for giving instructions related to deletion of an image drawn on the display screen. The drawing tool, the drawing device, and the deleting tool can communicate with each other. The drawing device draws multiple types of images having different attributes according to instructions from the drawing tool, and selectively deletes an image having one or multiple attributes according to instructions from the deleting tool.

Description

  The present invention includes a drawing device that gives an instruction related to drawing, a drawing device having a display screen on which drawing is performed based on the instruction, and a deleting device that issues an instruction related to deletion of an image drawn on the display screen. And a drawing system in which the drawing device, the drawing device, and the deletion device can communicate with each other, and an image deletion method in the drawing system.

  2. Description of the Related Art In recent years, electronic whiteboards that include a so-called touch pen for drawing characters, graphics, and the like on a display screen and an eraser that erases the drawn image have been widely used.

  For example, in Patent Document 1, when an erasure request is made for an already drawn drawing, an image drawn with an erasure permission attribute at the time of the drawing request can be erased according to the erasure request. Further, a drawing control device is disclosed in which an image that has been rendered with a non-erasable attribute at the time of the rendering request can be changed to an erasable permission attribute by rejecting the erasure request or canceling the non-erasable attribute. ing.

JP-A-2-197963

  On the other hand, in the drawing control apparatus of Patent Document 1, when a user erases an image having an erasable attribute, a complicated process is required such that the erasable attribute is canceled and the erasable attribute is changed. There is a problem.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a drawing device that gives an instruction related to drawing, a drawing device that has a display screen on which drawing is performed based on the instruction, and In a drawing system having a deletion device that gives an instruction related to deletion of an image drawn on the display screen, and the drawing device, the drawing device, and the deletion device can communicate with each other, the drawing device receives an instruction from the drawing device. In accordance with the drawing, a plurality of types of images having different attributes are drawn, and in accordance with an instruction from the deleting device, one or a plurality of attributes are selectively erased, and drawing having a plurality of different types of attributes is performed. In this case, it is an object of the present invention to provide a drawing system and an image deletion method that allow a user to easily and selectively erase an image having a predetermined attribute.

  A drawing system according to the present invention provides a drawing device that gives an instruction relating to drawing, a drawing device having a display screen on which drawing is performed based on the instruction, and an instruction relating to deletion of an image drawn on the display screen In a drawing system having a deleting device, and wherein the drawing device, the drawing device, and the deleting device can communicate with each other, the drawing device draws a plurality of types of images having different attributes in accordance with instructions from the drawing device. Means and a deletion means for selectively erasing one or a plurality of attributes according to an instruction from the deletion device.

  In the drawing system according to the present invention, the drawing device includes a selection receiving unit that receives selection of a specific attribute. When the selection receiving unit receives the selection, the drawing unit draws an image of the specific attribute. It is comprised so that it may perform.

  In the drawing system according to the present invention, the deleting device includes an instruction receiving unit that receives a specific instruction, and the drawing apparatus includes a determining unit that determines whether the instruction receiving unit has received the specific instruction, When it is determined by the determination means that the specific instruction has not been received, the deletion means is configured to delete an image having an attribute other than the specific attribute.

  The drawing system according to the present invention is configured such that, when it is determined that the specifying instruction is received by the determining unit, the deleting unit deletes an image having all attributes including the specific attribute. It is characterized by that.

  The drawing system according to the present invention is configured such that, when it is determined that the specifying instruction is received by the determining unit, the deleting unit deletes the image having the specific attribute. To do.

  An image deletion method according to the present invention includes a drawing device that gives an instruction related to drawing, a drawing device that has a display screen on which drawing is performed based on the instruction, and an instruction related to deletion of an image drawn on the display screen. In an image deletion method for deleting an image in a drawing system having a deleter to perform, wherein the drawing device, the drawing device, and the deleter can communicate with each other, the drawing device has an attribute according to an instruction from the drawing device And a step of drawing a plurality of types of images different from each other, and a step of selectively erasing one or a plurality of attributes according to an instruction from the deleting device.

  According to the present invention, drawing having a plurality of different attributes can be performed, and even when drawing images with different attributes are mixed, the user can easily selectively erase images with predetermined attributes, Excellent user convenience.

It is the conceptual diagram which displayed notionally the drawing system which concerns on Embodiment 1 of this invention. It is a functional block diagram which shows the principal part structure of the electronic whiteboard of the drawing system which concerns on Embodiment 1 of this invention. It is a functional block diagram which shows the principal part structure of the control part in the electronic whiteboard of the drawing system which concerns on Embodiment 1 of this invention. It is a functional block diagram explaining the scanning process of the infrared light in the touch panel part of an electronic whiteboard in the drawing system which concerns on Embodiment 1 of this invention. It is explanatory drawing explaining the detection of the scanning and the contact position with a light-shielding object in the electronic whiteboard of the drawing system which concerns on Embodiment 1 of this invention. It is a flowchart explaining the drawing process performed in the drawing system which concerns on Embodiment 1 of this invention. It is a flowchart explaining the drawing process performed in the drawing system which concerns on Embodiment 1 of this invention. It is an illustration figure explaining the process of a drawing and deletion performed in the drawing system which concerns on Embodiment 1 of this invention.

  Hereinafter, a drawing system according to an embodiment of the present invention is applied to a drawing system including a so-called electronic whiteboard, and will be described in detail based on the drawings.

(Embodiment 1)
FIG. 1 is a conceptual diagram conceptually showing a drawing system according to Embodiment 1 of the present invention. Reference numeral 1 in the figure indicates a drawing system according to Embodiment 1 of the present invention. The drawing system 1 according to Embodiment 1 of the present invention is configured to include an electronic whiteboard 100, a pen-type input device 200 (drawing device), and an eraser 300 (deleting device).

  In the drawing system 1 according to Embodiment 1 of the present invention, the electronic whiteboard 100 performs drawing processing in response to an instruction related to drawing from the pen-type input device 200, and responds to an instruction related to deletion from the eraser 300. In response, the drawn image is deleted.

  In addition, the pen-type input device 200 and the eraser 300 are configured to be able to perform wireless communication with the electronic whiteboard 100. That is, as will be described later, the electronic whiteboard 100 receives an instruction to draw an image with a specific attribute from the pen-type input device 200, and issues an instruction to delete an image with one or more attributes from the eraser 300. It is configured to receive.

  The electronic whiteboard 100 detects the positions of the pen-type input device 200 and the eraser 300 by a drawing process, for example, a display unit 100A having a rectangular display screen 101 on which a diagram image is displayed and a method described later. Or a touch panel unit 100B that accepts position designation of a predetermined position on the display screen 101.

  The touch panel unit 100B according to the first embodiment of the present invention is a so-called infrared shielding touch panel that includes a light emitting element that emits infrared light and a light receiving element that receives infrared light, and detects the position of a light shielding object. Hereinafter, for convenience of explanation, an infrared blocking touch panel system will be used for explanation, but other systems such as a capacitive touch panel, a camera touch panel, and the like can obtain the same effect.

  FIG. 2 is a functional block diagram showing a main configuration of the electronic whiteboard 100 of the drawing system 1 according to Embodiment 1 of the present invention.

  The display unit 100A includes a display screen 101 such as an LCD or an EL (Electroluminescence) panel, for example. An instruction related to drawing transmitted from the pen-type input device 200, a drawn image transmitted from the eraser 300 (hereinafter, drawn image). On the display screen 101 based on the instruction related to the deletion of the above and the detection results of the positions of the pen-type input device 200 and the eraser 300 by the touch panel unit 100B. The touch panel unit 100 </ b> B includes a scanning unit 9.

  In addition, the electronic whiteboard 100 includes a control unit 10, a ROM 2, a RAM 3, a communication unit 5, and a storage unit 6. The electronic whiteboard 100 includes a pen-type input device 200 and an eraser 300 via the communication unit 5. Receives an instruction relating to drawing, an instruction relating to deletion of the drawn image, and the like.

  The control unit 10 instructs the display unit 100A to draw characters, diagrams, and the like based on the coordinates related to the scanning result by the scanning unit 9, and the display unit 100A displays characters, diagrams, etc. on the display screen 101 according to the instructions. Is displayed.

  A control program is stored in the ROM 2 in advance, and the RAM 3 temporarily stores data and can be read out regardless of the storage order, storage position, or the like. The RAM 3 stores, for example, a program read from the ROM 2 and various data generated by executing the program.

  The control unit 10 loads the control program stored in advance in the ROM 2 onto the RAM 3 and executes it, thereby controlling the above-described various hardware via the bus and causing the electronic whiteboard 100 to function.

  The communication unit 5 receives an instruction relating to the drawing, an instruction relating to deletion of the drawing image, and the like from the pen-type input device 200 and the eraser 300. In this way, the instruction received by the communication unit 5 is stored in the storage unit 6. The communication unit 5 is configured to perform wireless communication such as Bluetooth (registered trademark), ZigBee (registered trademark), for example, corresponding to the communication unit of the pen-type input device 200 and the eraser 300 described later.

  The storage unit 6 is configured by a non-volatile storage medium such as a flash memory, EEPROM (registered trademark), HDD, MRAM (magnetoresistance memory), FeRAM (ferroelectric memory), or OUM.

  FIG. 3 is a functional block diagram showing a main configuration of the control unit 10 in the electronic whiteboard 100 of the drawing system 1 according to Embodiment 1 of the present invention. The control unit 10 includes a CPU 11, a coordinate detection unit 12, a light shielding unit management unit 13, a drawing unit 14, a display control unit 15, a deletion unit 16, and a determination unit 17.

  The coordinate detection unit 12 detects the coordinates of a light shielding object (for example, the pen-type input device 200 and the eraser 300) on the display screen 101. Specifically, the coordinates of such a light blocking object are detected based on an intensity signal described later, which is sent when the infrared light block on the display screen 101 of the display unit 100A is detected by the touch panel unit 100B.

  The light shielding object management unit 13 manages the position (coordinates) of the light shielding object detected by the scanning of the scanning unit 9. For example, when the light shielding object moves, the light shielding object management unit 13 stores the coordinate history representing the movement trace of the light shielding object in the storage unit 6.

  The drawing unit 14 uses the application for executing the drawing process stored in the storage unit 6 and the coordinates of the pen-type input device 200 detected by the coordinate detection unit 12, for example, via the communication unit 5. The drawing instruction received from the pen-type input device 200 is integrated to generate drawing data related to the drawing process, and an image to be displayed on the display screen 101 is generated based on the generated drawing data. Drawing is performed by outputting an image to the display screen 101 as an image signal.

  The drawing unit 14 is configured to be able to draw with two types of images having different attributes. Here, the attribute is the ease of deleting the drawn image. Compared to an image having one type of attribute (hereinafter referred to as a first attribute), an image having another type of attribute (hereinafter referred to as a second attribute) is given a predetermined condition for deletion, and such a condition is satisfied. If it does not exist, it cannot be deleted. Hereinafter, drawing processing of an image having the first attribute is referred to as first drawing processing, and drawing processing of an image having the second attribute is referred to as second drawing processing.

  The predetermined condition is whether or not the eraser 300 has received a specific instruction to be described later. That is, the drawn image by the second drawing process of the drawing unit 14 can be deleted only when the eraser 300 receives the specific instruction.

  Furthermore, the drawing unit 14 performs a first drawing process or a second drawing process depending on whether or not a specific attribute selection instruction to be described later is received from the pen-type input device 200. That is, when the specific attribute selection instruction is received from the pen-type input device 200, the drawing unit 14 performs drawing in the second drawing process. For example, when the drawing unit 14 performs drawing in the second drawing process, the CPU 11 draws specific information for specifying the drawing image and the drawing image in the storage unit 6 in the second drawing process. And a flag indicating that it has been recorded.

  The display control unit 15 displays on the display screen 101 an operation menu that is a window for accepting settings relating to drawing from the user. The operation menu includes, for example, soft key icons for accepting instructions such as diagram color, deletion, and termination.

  The deletion unit 16 uses the application for executing the drawing process stored in the storage unit 6, and the coordinates of the eraser 300 detected by the coordinate detection unit 12, for example, from the eraser 300 via the communication unit 5. Based on the received instruction regarding deletion of the drawn image, the image already drawn on the display screen 101 is deleted, and the coordinate history stored in the storage unit 6 is deleted.

  Further, when the eraser 300 receives the specific instruction, that is, when the specific instruction reception notification described later is received from the eraser 300, the deletion unit 16 includes a drawing image obtained by the second drawing process of the drawing unit 14. An image with any attribute can be deleted, but if the eraser 300 has not received the specific instruction, the image drawn by the second drawing process of the drawing unit 14 cannot be deleted, and the first drawing Only a drawn image by processing can be deleted.

  The determination unit 17 determines whether or not the specific instruction reception notification has been received. In other words, the determination unit 17 can determine whether or not the eraser 300 has received the specific instruction from the user by determining whether or not the specific instruction reception notification has been received.

  Further, the determination unit 17 determines whether or not the specific attribute selection instruction has been received from the pen-type input device 200 when the drawing unit 14 performs drawing.

  When the communication unit 5 receives the specific instruction reception notification from the eraser 300 or when the communication unit 5 receives the specific attribute selection instruction from the pen-type input device 200, the storage unit 6 stores that fact. The determination unit 17 performs the determination as described above by monitoring the communication unit 5 or checking the storage unit 6.

  On the other hand, the CPU 11 controls the light emitting element and the light receiving element of the scanning unit 9.

  The touch panel unit 100B is an infrared shielding touch panel as described above. That is, when the tip of the pen-type input device 200 or the eraser 300 touches the display screen 101 of the display unit 100A, the light blocking object is detected by detecting the infrared light blockage (pen-type input device 200, eraser 300). The position of is detected. That is, as a result of scanning, a signal (intensity signal) obtained from the light receiving element is sent to the control unit 10, and based on this, the coordinate detection unit 12 detects the coordinates of the light shielding object. In this way, the touch panel unit 100B receives input of position designation, characters, line drawings, and the like on the display unit 100A (display screen 101) from the user.

  The scanning unit 9 of the touch panel unit 100B scans infrared light (infrared light) along the display screen 101 of the display unit 100A. The scanning unit 9 includes a light emitting unit 91 having a plurality of light emitting elements that emit infrared light, a light receiving unit 92 having a plurality of light receiving elements that receive infrared light from the corresponding light emitting elements, and a control unit 10 (CPU 11). The address decoder 93 that assigns the light emission signal and the light reception signal from the light reception unit 91 to the light emission unit 91 and the light reception unit 92, and the A / D that converts the analog signal from the light reception unit 92 used for detection of infrared light blockage into a digital signal And a converter 94.

  FIG. 4 is a functional block diagram for explaining infrared light scanning processing in the touch panel unit 100B of the electronic whiteboard 100 in the drawing system 1 according to Embodiment 1 of the present invention.

  The light emitting unit 91 has a multiplexer (not shown), and each of the light emitting elements is connected to the multiplexer. The light receiving unit 92 also includes a multiplexer (not shown), and each of the light receiving elements is connected to the multiplexer. Further, each light emitting element of the light emitting unit 91 is configured to correspond (oppose) to any one light receiving element of the light receiving unit 92.

  The CPU 11 of the control unit 10 outputs a light emission signal for causing the plurality of light emitting elements to emit light to the address decoder 93A, and outputs a light reception signal for causing the plurality of light receiving elements to receive light to the address decoder 93B. The address decoder 93A outputs, to the light emitting unit 91, a signal for specifying any one of the light emitting elements related to light emission in response to the signal from the CPU 11, and the address decoder 93B responds to the signal from the CPU 11. Then, a signal for specifying the light receiving element corresponding to the specified light emitting element among the light receiving elements is output to the light receiving unit 92.

  The light emitting element thus identified emits infrared light, and the corresponding light receiving element receives infrared light. At this time, an intensity signal indicating the intensity of the infrared light received by the light receiving element as a voltage value is output to the A / D converter 94. The A / D converter 94 converts the intensity signal into an 8-bit digital signal, for example, and outputs the converted intensity signal to the control unit 10. The control unit 10 sequentially repeats the process of acquiring the intensity signal from each light receiving element in order to acquire the intensity signal from all the light receiving elements.

  The CPU 11 of the control unit 10 calculates the amount of light received by the light receiving element based on the intensity signal acquired from each light receiving element. When the calculated amount of received light exceeds a predetermined threshold, the CPU 11 determines that the optical path of the infrared light received by the light receiving element is not blocked. When the calculated amount of received light is equal to or less than a predetermined threshold, it is determined that the optical path of infrared light received by the light receiving element is blocked.

  Based on the determination result of the CPU 11, the coordinate detection unit 12 detects the position of contact between the pen-type input device 200 or eraser 300 and the display screen 101. That is, the coordinate detection unit 12 identifies a light receiving element in which the optical path of infrared light is blocked, and based on the position of the identified light receiving element, the pen-type input device 200 and the eraser on the display screen 101 of the display unit 100A. Processing for detecting the position of the contact surface with 300, that is, the coordinates of the contact is performed.

  Hereinafter, the scanning and detection of the contact position with the light shielding object will be described in detail. FIG. 5 is an explanatory diagram for explaining scanning and detection of a contact position with a light shielding object in the electronic whiteboard 100 of the drawing system 1 according to Embodiment 1 of the present invention.

  As described above, the display screen 101 of the display unit 100A has a rectangular shape, and a plurality of light emitting elements 911, 911,... It is installed side by side. The light emitting element 911 is, for example, a light emitting diode (LED) that emits infrared light. In the drawing, the optical path of the infrared light emitted from each light emitting element 911 is indicated by a solid arrow.

  The plurality of light emitting elements 911, 911,... On the right side are provided so that the optical paths of the infrared light emitted from the respective light emitting elements 911 are parallel to each other along the display screen 101. , 911,... Are similarly provided.

  That is, in FIG. 5, the lower side light emitting elements 911, 911,... Arranged side by side in the left-right direction (x-axis direction) and the plurality of right side light emitting elements 911, 911 arranged side by side in the vertical direction (y-axis direction). Are provided so that their optical paths are orthogonal to each other.

  Further, on the display screen 101 of the display unit 100A, light receiving elements 921, 921,... Are provided at positions facing the light emitting elements 911, 911,.

  That is, on the left side and the upper side of the display screen 101 of the display unit 100A, a plurality of light receiving elements 921, 921,. The light receiving element 921 is a light receiving diode that receives infrared light. The infrared light from the light emitting elements 911, 911,... Is received by the light receiving elements 921, 921,.

  As in the case of the light emitting elements, the upper light receiving elements 921, 921, ... and the left light receiving elements 921, 921, ... are provided so that the optical paths of the infrared light to be received are orthogonal to each other.

  The scanning unit 9 sequentially causes the light emitting elements 911 to emit light one by one from the one end to the other end in the X-axis direction and from one end to the other end in the Y-axis direction on the display screen 101 of the display unit 100A. The contact position of the pen-type input device 200 and the eraser 300 on the display screen 101 of 100A is detected as described above.

  The pen-type input device 200 and the eraser 300 are configured to be communicable with the electronic whiteboard 100 (communication unit 5), and give instructions for drawing to the electronic whiteboard 100 or instructions for deleting the drawn image. Hereinafter, the pen-type input device 200 and the eraser 300 will be described with reference to FIGS. 1 and 2.

  The pen-type input device 200 communicates between the electronic whiteboard 100 and a pen-tip button (not shown) that contacts the display screen 101 of the display unit 100A when the user performs drawing using the pen-type input device 200. A communication unit 203 to perform, a drawing instruction unit 204 that instructs the electronic whiteboard 100 to start drawing via the communication unit 203, a selection reception unit 202 that receives selection of an attribute of an image related to drawing, and a selection of a specific attribute And a selection reception button 201 for receiving a message from the user.

  The communication unit 203 of the pen-type input device 200 corresponds to the communication unit 5 of the electronic whiteboard 100 and is configured to perform wireless communication such as Bluetooth (registered trademark) and ZigBee (registered trademark).

  For example, when the user holds the pen-type input device 200 and draws on the display screen 101 of the display unit 100 </ b> A, contact pressure is applied to the pen tip button by the contact between the pen tip button and the display screen 101, and the Become. At this time, the drawing instruction unit 204 monitors the pen point button, and when the pen point button is turned on, the communication unit transmits an instruction to start the drawing operation to the electronic whiteboard 100 when the pen point button is turned on. 203 is instructed. In response to the instruction from the drawing instruction unit 204, the communication unit 203 transmits to the electronic whiteboard 100 an instruction to start a drawing operation.

  The selection reception button 201 receives selection of a specific attribute from the user. That is, the user can select the second attribute by operating the selection acceptance button 201.

  At this time, the selection reception unit 202 receives selection of the first attribute or the second attribute via the selection reception button 201. That is, when the selection reception button 201 is operated by the user, the selection reception unit 202 regards that the selection of the second attribute is received, and when the selection reception button 201 is not operated, the selection reception unit 202 sets the first attribute It is considered that the selection was accepted.

  As described above, when the selection receiving unit 202 receives the selection of the second attribute via the selection receiving button 201, an instruction (specific attribute selection instruction) indicating that the selection of the specific attribute has been received is performed by the communication unit 203 by the electronic white. It is transmitted to the board 100.

  On the other hand, when the user performs an operation of deleting a drawing image, the eraser 300 has a contact unit having a specific area that comes into contact with the display screen 101 of the display unit 100A, and a communication unit 303 that communicates with the electronic whiteboard 100; When the user gives an instruction to delete the image having the second attribute, that is, the image by the second drawing process of the drawing unit 14, the user receives the instruction reception button 301 to be operated and the user through the instruction reception button 301. And an instruction receiving unit 302 for receiving the specific instruction.

  The communication unit 303 of the eraser 300 corresponds to the communication unit 5 of the electronic whiteboard 100 and is configured to perform wireless communication such as Bluetooth (registered trademark) and ZigBee (registered trademark).

  The instruction reception button 301 receives a specific instruction from the user. That is, when the user intends to delete the drawing image displayed on the display screen 101 of the display unit 100A, the user operates the instruction reception button 301 as necessary. For example, when the user intends to delete the entire image including the image of the second attribute among the drawn images, the instruction reception button 301 is operated.

  At this time, the instruction receiving unit 302 receives an instruction to delete only the first attribute image or an instruction to delete all attribute drawing images including the second attribute image via the instruction receiving button 301. That is, when the instruction reception button 301 is operated by the user, the instruction reception unit 302 is regarded as having received an instruction to delete all attribute drawing images including the second attribute image (hereinafter referred to as a specific instruction) When the instruction reception button 301 is not operated, the instruction reception unit 302 is regarded as having received an instruction to delete a drawing image with other attributes excluding the image with the second attribute.

  As described above, when the instruction receiving unit 302 receives the specific instruction via the instruction receiving button 301, a notification that the specific instruction has been received (specific instruction receiving instruction) is sent by the communication unit 303 to the electronic whiteboard 100. Sent to.

  In addition, the coordinate detection unit 12, the shading object management unit 13, the drawing unit 14, the display control unit 15, the deletion unit 16, and the determination unit 17 described above may be configured by hardware logic. The CPU 11 may be constructed in software by executing a predetermined program.

  Since it has such a configuration, the drawing system 1 according to Embodiment 1 of the present invention draws an image that may be easily erased and an image that is not easily erased as needed by the user. Can be executed separately. In other words, an image that is not easily erased is not deleted unless the instruction acceptance button 301 is operated when the eraser 300 deletes the image with the second attribute as the image with the second attribute. Therefore, it can respond to the user's request.

  6 and 7 are flowcharts for explaining a drawing process performed in the drawing system 1 according to the first embodiment of the present invention. For convenience of explanation, a case where a teacher gives a predetermined arithmetic problem to the electronic whiteboard 100 and a plurality of children solve the arithmetic problem in order will be described as an example.

  First, the teacher holds the pen-type input device 200 and performs an operation of writing an arithmetic problem on the display screen 101 of the electronic whiteboard 100. Since the arithmetic problem is solved by a plurality of children in order, Is not deleted, the selection acceptance button 201 is pressed to select the second attribute. That is, the teacher writes the arithmetic problem while holding down the selection acceptance button 201.

  At this time, the CPU 11 determines whether or not the operation is the pen-type input device 200 (step S101). Such a determination is based on whether the contact area of the object in contact with the display screen 101 is equal to or less than the threshold 1 based on the detection result of the coordinate detection unit 12 based on the scanning result of the scanning unit 9 of the touch panel unit 100B. This is done by judging. That is, when the contact area is equal to or less than the threshold value 1, the CPU 11 determines that the pen input device 200 is in contact (operation).

  When the CPU 11 determines that the operation is an operation of the pen-type input device 200 (step S101: YES), the CPU 11 subsequently determines whether or not the operation is a drawing operation (step S102). Such a determination is made based on whether or not the pen tip button is on and whether or not the contact position has moved more than a predetermined distance. For example, when the pen point button is on and the contact position has moved a predetermined distance or more, the CPU 11 determines that the drawing operation is being performed. The contact position can be acquired from the detection result of the coordinate detection unit 12 based on the scanning result of the scanning unit 9 of the touch panel unit 100B.

  When determining that the operation is not a drawing operation (step S102: NO), the CPU 11 determines whether the operation is an operation menu operation (step S107). Such a determination is performed, for example, by comparing the contact position of the pen-type input device 200 with the display position of the operation menu. That is, when the contact position is within the range where the operation menu is displayed, the CPU 11 determines that the operation is an operation of the operation menu.

  When it is determined by the CPU 11 that the operation menu is not operated (step S107: NO), in other words, the pen-type input device 200 is in contact with the display screen 101, but is not a drawing operation or an operation menu operation. If so, this processing routine returns.

  On the other hand, for example, when it is not a drawing operation but an operation of selecting and selecting any icon from the operation menu, the CPU 11 determines that the operation is an operation menu operation (step S107: YES). It is determined whether such an operation is an operation of an end icon (step S108). Such a determination is made by comparing the contact position of the pen-type input device 200 with the display position of the end icon.

  For example, when the contact position of the pen-type input device 200 is within the display position of the end icon in the operation menu window, the CPU 11 determines that such operation is an operation of the end icon (step S108: YES), an end process is executed (step S109). That is, the CPU 11 stores the drawing content, display content, and the like in the storage unit 6 and turns off the power.

  Further, for example, when the contact position of the pen-type input device 200 is within the window of the operation menu and not within the display position of the end icon, the CPU 11 determines that such operation is not an operation of the end icon ( Step S108: NO), that is, it is determined that the operation is for an icon other than the end icon, and the process corresponding to the operated icon is executed (Step S110). For example, processing corresponding to any icon of the operation menu window corresponding to the contact position of the pen-type input device 200 is executed. Thereafter, this processing routine returns.

  On the other hand, when the CPU 11 determines that the operation is a drawing operation (step S102: YES), the CPU 11 determines whether or not the image has the first attribute (step S103). Such a determination is made based on the determination result by determining whether the determination unit 17 has received the specific attribute selection instruction from the pen-type input device 200.

  If the determination unit 17 determines that the specific attribute selection instruction has not been received from the pen-type input device 200, the CPU 11 determines that the image has the first attribute (step S103: YES).

  Next, a contact position between the pen-type input device 200 and the display screen 101 is detected by the scanning unit 9, and a coordinate history representing a movement trace of the contact position is stored in the storage unit 6, and a drawing unit is displayed according to the coordinate history. 14 performs drawing in the first drawing process on the display screen 101 (step S104). At this time, the CPU 11 stores specific information (for example, coordinates, attributes, etc.) for specifying the drawn image in the storage unit 6 (step S105). Thereafter, this processing routine returns.

  If the determination unit 17 determines that the specific attribute selection instruction has been received from the pen-type input device 200, the CPU 11 determines that the image has no first attribute (step S103: NO).

  That is, as described above, when the teacher writes the arithmetic problem while pressing the selection reception button 201, it is determined that the specific attribute selection instruction has been received from the pen-type input device 200. It is determined that the drawing is not an image having an attribute.

  In accordance with the operation of the teacher writing the arithmetic problem, the contact position between the pen-type input device 200 and the display screen 101 is detected by the scanning unit 9, and the coordinate history representing the movement trace of the contact position is stored in the storage unit 6. In accordance with the coordinate history, the drawing unit 14 draws on the display screen 101 by the second drawing process (step S106). At this time, the CPU 11 stores specific information (for example, coordinates, attributes, etc.) for specifying such a drawing image and a flag indicating that the drawing image has been drawn in the second drawing process in the storage unit 6. (Step S105). Thereafter, this processing routine returns.

  FIG. 8A is an exemplary diagram showing an example of the arithmetic problem drawn in the second drawing process by the above process.

  On the other hand, after the arithmetic problem is drawn on the display screen 101 in this way, when the teacher solves the arithmetic problem by a plurality of children, a plurality of arithmetic problems shown in FIG. Since the child repeatedly writes the answer in the same place on the display screen 101, it is necessary to erase the answer every time the child changes. Therefore, the child solves the arithmetic problem without pressing the selection acceptance button 201.

  That is, as described above, the processing of step S101 and step S102 is performed, and the CPU 11 determines whether or not the image having the first attribute is drawn (step S103). Such determination has already been described, and detailed description thereof will be omitted.

  If the determination unit 17 determines that the specific attribute selection instruction has not been received from the pen-type input device 200, the CPU 11 determines that the image has the first attribute (step S103: YES).

  That is, as described above, when one student writes the answer to the arithmetic problem without pressing the selection reception button 201, it is determined that the specific attribute selection instruction is not received from the pen-type input device 200. Therefore, the CPU 11 determines that the image has the first attribute.

  In response to the operation of writing the child's answer, the contact position between the pen-type input device 200 and the display screen 101 is detected by the scanning unit 9, and a coordinate history representing the movement trace of the contact position is stored in the storage unit 6. In accordance with the coordinate history, the drawing unit 14 performs drawing on the display screen 101 by the first drawing process (step S104). At this time, the CPU 11 stores specific information (for example, coordinates, attributes, etc.) for specifying the drawn image in the storage unit 6 (step S105). Thereafter, this processing routine returns.

  If the determination unit 17 determines that the specific attribute selection instruction has been received from the pen-type input device 200, the CPU 11 determines that the image has the first attribute (step S103: YES), and as described above. A coordinate history representing the movement trace of the contact position is stored in the storage unit 6, and the drawing unit 14 performs drawing on the display screen 101 in the second drawing process according to the coordinate history (step S106). At this time, the CPU 11 stores specific information (for example, coordinates, attributes, etc.) for specifying such a drawing image and a flag indicating that the drawing image has been drawn in the second drawing process in the storage unit 6. (Step S105). Thereafter, this processing routine returns.

  FIG. 8B is an exemplary diagram showing an example of an answer drawn in the first drawing process by the above process. For convenience, the answer drawn in the first drawing process is indicated by a solid line that is thinner than the arithmetic problem drawn in the second drawing process.

  On the other hand, as described above, when an answer is written on the display screen 101 by one child, it is necessary to erase the written answer for the next child. It is necessary to erase. Hereinafter, such an operation will be described.

  That is, when it is determined in step S101 that the operation is not an operation of the pen-type input device 200 (step S101: NO), the CPU 11 subsequently determines whether or not the operation is an operation of the eraser 300 (step S111). Such a determination is based on the detection result of the coordinate detection unit 12 based on the scanning result of the scanning unit 9 of the touch panel unit 100B, and the contact area of the object in contact with the display screen 101 is greater than or equal to the threshold 1. It is performed by determining whether or not it is 2 or less. That is, when the contact area is equal to or greater than the threshold value 1 and equal to or less than the threshold value 2, the CPU 11 determines that the eraser 300 is in contact (operation).

  If the CPU 11 determines that such an operation is not an operation of the eraser 300 (step S111: NO), the processing routine returns.

  When the CPU 11 determines that such an operation is an operation of the eraser 300 (step S111: YES), the determination unit 17 determines whether the eraser 300 has received the specific instruction (step S112). Such a determination is made by determining whether or not the specific instruction reception notification is received from the eraser 300.

  For example, when an answer is written on the display screen 101 by one child and the written answer is erased for the next child, only the answer drawn in the first drawing process needs to be erased, and even the arithmetic problem is erased. There is no need. Therefore, the teacher performs an operation to erase the answer in a state where the instruction acceptance button 301 of the eraser 300 is not pressed.

  At this time, the electronic whiteboard 100 does not receive the specific instruction reception notification, and the determination unit 17 determines that the eraser 300 has not received the specific instruction (step S112: NO).

  Accordingly, the deletion unit 16 is an image corresponding to the coordinates of the eraser 300 detected by the coordinate detection unit 12 using an application for executing the drawing process stored in the storage unit 6, and has the second attribute. Only the answer that is the image of the first attribute by the first drawing process is deleted (step S115).

  At this time, the CPU 11 deletes the specific information that specifies the deleted drawing image (answer image) already stored in the storage unit 6 (step S114). Thereafter, this processing routine returns.

  FIG. 8C is an exemplary diagram showing a state in which the answer drawn in the first drawing process is erased by the above process. For convenience, the erased drawn image is indicated by a broken line.

  On the other hand, in the scene where the arithmetic class ends and all the drawn images including the arithmetic problem are erased, the teacher performs an operation of erasing the drawn images on the display screen 101 while pressing the instruction reception button 301 of the eraser 300. .

  At this time, the eraser 300 receives the specific instruction via the instruction reception button 301, and the specific instruction reception notification is transmitted to the electronic whiteboard 100. Accordingly, the determination unit 17 determines that the eraser 300 has received the specific instruction (step S112: YES).

  Accordingly, the deletion unit 16 is an image corresponding to the coordinates of the eraser 300 detected by the coordinate detection unit 12 using an application for executing the drawing process stored in the storage unit 6, and has the second attribute. The drawn image on the display screen 101 including the first image, that is, the answer that is the first attribute image by the first drawing process and the arithmetic problem that is the second attribute image by the second drawing process are deleted. (Step S113)

  At this time, the CPU 11 deletes the specific information that specifies the deleted drawing image (answer image) already stored in the storage unit 6 (step S114). Thereafter, this processing routine returns.

  FIG. 8D is an exemplary diagram showing a state in which the answer drawn in the first drawing process and the arithmetic problem drawn in the second drawing process are erased by the above process. For convenience, the erased drawn image is indicated by a broken line.

  The drawing system 1 according to Embodiment 1 of the present invention is not limited to the above description. In the above description, a case where the drawing image of all attributes including the second attribute is erased when the instruction reception button 301 of the eraser 300 is operated has been described as an example, but the present invention is not limited to this. For example, when the instruction acceptance button 301 of the eraser 300 is operated, only the drawing image having the second attribute may be erased.

(Embodiment 2)
In the first embodiment, the case where the pen-type input device 200 includes the selection reception button 201 and receives selection of a specific attribute from the user via the selection reception button 201 has been described as an example. It is not limited.

  For example, a pen-type input device 200 for an image having a first attribute and a pen-type input device 200 for an image having a second attribute may be provided separately. In such a case, each pen type input device 200 is configured to have its own identification data, so that the communication unit 203 of each pen type input device 200 instructs to start drawing on the electronic whiteboard 100. When transmitting, the identification data of the own device may be transmitted together.

(Embodiment 3)
In the first embodiment, the case where the pen-type input device 200 includes the selection reception button 201 and receives selection of a specific attribute from the user via the selection reception button 201 has been described as an example. It is not limited.

  For example, an icon for accepting an instruction for drawing an image with a first attribute and an icon for accepting an instruction for drawing an image with a second attribute are provided in the operation menu, which is a window for accepting settings relating to drawing from the user. You may comprise so that it can select by touch-operating such an icon as needed.

(Embodiment 4)
In the above description, the case where the attributes of the image are divided according to the ease of deleting the drawn image has been described as an example. However, the present invention is not limited to this. For example, the attribute may be divided for each line color related to drawing, the attribute may be divided for each type of line related to drawing, or the attribute may be divided for each position of the drawing image.

(Embodiment 5)
In the above description, the case where there are two types of attributes has been described as an example, but the present invention is not limited to this. For example, the number of attributes may be set to three or more. In this case, the selection of attributes in the instruction reception button 301 and the selection reception button 201 may be configured to be determined by the number of times these buttons are pressed.

  In the present invention, a drawing device 200 for giving an instruction related to drawing, a drawing device 100 having a display screen 101 for drawing based on the instruction, and an instruction for deleting an image drawn on the display screen 101 are provided. In the drawing system 1 that includes the deleting device 300 to perform, and the drawing device 200, the drawing device 100, and the deleting device 300 can communicate with each other, the drawing device 100 has a plurality of different attributes according to instructions from the drawing device 200. The image processing apparatus includes a drawing unit 14 that draws a type of image and a deletion unit 16 that selectively deletes an image having one or a plurality of attributes in response to an instruction from the deletion unit 300.

  According to the present invention, the drawing unit draws a plurality of types of images having different attributes in accordance with an instruction from the drawing unit. Thus, even when images of a plurality of types of attributes are mixed, The deleting means selectively deletes one or a plurality of attributes according to an instruction from the deleting device.

  In the present invention, the drawing device 200 includes a selection receiving unit 202 that receives a selection of a specific attribute. When the selection receiving unit 202 receives the selection, the drawing unit 14 draws an image of the specific attribute. It is comprised so that it may perform.

  According to the present invention, when the selection receiving unit receives a selection of a specific attribute from a user, for example, the drawing unit draws an image having the specific attribute.

  In the present invention, the deleting device 300 includes an instruction receiving unit 302 that receives a specific instruction, and the drawing apparatus 100 includes a determination unit that determines whether the instruction receiving unit 302 has received the specific instruction. When the determination unit determines that the specific instruction has not been received, the deletion unit 16 is configured to delete an image having an attribute other than the specific attribute.

  According to the present invention, when the determination unit determines that the instruction receiving unit has not received the specific instruction, the deletion unit deletes an image having an attribute other than the specific attribute.

  In the present invention, the drawing apparatus 100 is configured such that when the determination unit determines that the specific instruction has been received, the deletion unit 16 deletes all attribute images including the specific attribute. It is characterized by.

  According to the present invention, when the determination unit determines that the instruction receiving unit has received the specific instruction, the deletion unit deletes all attribute images including the specific attribute.

  In the present invention, the drawing apparatus 100 is configured such that, when the determination unit determines that the specific instruction has been received, the deletion unit 16 deletes the image having the specific attribute. .

  According to the present invention, when the determination unit determines that the instruction receiving unit has received the specific instruction, the deletion unit deletes the image having the specific attribute.

  In the present invention, a drawing device 200 for giving an instruction relating to drawing, a drawing apparatus 100 having a display screen 101 for drawing based on the instruction, and an instruction for deleting an image drawn on the display screen 101 are provided. In the image deletion method for deleting an image in the drawing system 1 that includes the deletion device 300 for performing the deletion and the drawing device 200, the drawing device 100, and the deletion device 300 can communicate with each other, the drawing device 100 includes the drawing device 200. A step of drawing a plurality of types of images having different attributes in response to an instruction from the device, and a step in which the drawing apparatus 100 selectively erases one or more attributes of an image in response to an instruction from the deleting device 300. It is characterized by including.

  According to the present invention, drawing of a plurality of types of images having different attributes is performed in accordance with an instruction from the drawing unit. Thus, even when images of a plurality of types of attributes are mixed, the deleting unit In response to an instruction from 300, an image having one or more attributes is selectively erased.

DESCRIPTION OF SYMBOLS 1 Drawing system 10 Control part 11 CPU
14 Drawing part 16 Deletion part 17 Judgment part 100 Electronic whiteboard (drawing apparatus)
DESCRIPTION OF SYMBOLS 101 Display screen 200 Pen type input device 202 Selection reception part 300 Eraser 302 Instruction reception part

Claims (6)

A drawing device for giving an instruction related to drawing, a drawing device having a display screen for drawing based on the instruction, and a deleting device for giving an instruction for deleting an image drawn on the display screen, In a drawing system in which a drawing device, a drawing device, and a deletion device can communicate with each other,
The drawing device includes:
Drawing means for drawing a plurality of types of images having different attributes according to an instruction from the drawing device;
A drawing system comprising: deletion means for selectively erasing one or a plurality of attributes according to an instruction from the deletion device. The drawing device includes selection receiving means for receiving selection of a specific attribute,
The drawing system according to claim 1, wherein when the selection receiving unit receives the selection, the drawing unit is configured to draw an image having the specific attribute. The deleting device includes an instruction receiving means for receiving a specific instruction,
The drawing device includes:
Determining means for determining whether or not the instruction receiving means has received the specific instruction;
3. The apparatus according to claim 2, wherein when the determination unit determines that the specific instruction is not accepted, the deletion unit is configured to delete an image having an attribute other than the specific attribute. The described drawing system. The drawing device includes:
4. The drawing system according to claim 3, wherein, when it is determined by the determination unit that the specific instruction is received, the deletion unit is configured to delete an image having all attributes including the specific attribute. . The drawing device includes:
4. The drawing system according to claim 3, wherein when the determination unit determines that the specific instruction is received, the deletion unit is configured to delete the image having the specific attribute. A drawing device for giving an instruction related to drawing, a drawing device having a display screen for drawing based on the instruction, and a deleting device for giving an instruction for deleting an image drawn on the display screen, In an image deletion method for deleting an image in a drawing system in which a drawing device, a drawing device, and a deleting device can communicate with each other,
The drawing device drawing a plurality of types of images having different attributes according to an instruction from the drawing device;
And a step of selectively erasing an image having one or a plurality of attributes in accordance with an instruction from the deleting device.

Images