JP6558155B2 - Document processing apparatus and operation panel control method thereof - Google Patents

Description

  The present invention includes a touch panel type operation panel, and a document processing configured to be able to communicate with a terminal device, for example, a ring-type wearable terminal, whose position may move in accordance with an operation of the operation panel by a user. The present invention relates to a device and a method for controlling the operation panel.

  Conventionally, document data (image data) input from a personal computer or read by a scanner by a document processing apparatus such as a copier or MFP (Multi-functional Peripheral) in an office or the like. ) Is used for processing.

  Such a document processing apparatus normally includes a touch panel type operation panel, and controls the operation of the operation keys displayed on the screen of the operation panel by the user using various gestures. It is possible. Regarding generation of a screen for an interactive operation by a user, there is a technique of dynamically changing a basic screen to generate a necessary screen (Patent Document 1).

  On the other hand, as a technique for transferring data requiring processing to a processing device, there are techniques described in Patent Documents 2 and 3, for example.

  That is, Patent Document 2 discloses receiving data from a nearby support terminal storing the same data as the data transmitted by the transmission terminal when the data transfer status from the transmission terminal is poor. ing.

  In Patent Document 3, in order to prevent discontinuity of data due to instantaneous interruption in digital broadcasting, a packet is duplicated and two identical packets are transmitted at different times. When transmission of one packet is instantaneously interrupted, Interpolation with the other packet is disclosed.

JP-A-5-197535 JP 2010-148029 A JP 2004-320394 A

  By the way, in recent years, wearable terminals that users can wear and carry have been provided on the market. There are various types of wearable terminals such as a ring type, a bracelet type, a wristwatch type, or a spectacle type. Since the wearable terminal is a kind of computer, it can store various data and transfer it to other devices as needed.

  Therefore, it is conceivable to store document data in a wearable terminal, transfer the document data to a document processing apparatus using radio waves, and perform printing or the like. In that case, in order to prevent unnecessary communication from being performed, it is necessary to narrow the communication range between the wearable terminal and the document processing apparatus. However, since the position of the wearable terminal may move according to the operation of the operation panel by the user, communication may be interrupted by the movement of the hand during the operation. When the communication is interrupted, the data transfer is started again from the beginning, so that the work efficiency is lowered.

  In this case, if data is received from a support terminal as in Patent Document 2 described above, such a support terminal is required and costs increase.

  Further, if the same packet is transmitted at different times as in Patent Document 3, the data transfer amount is doubled.

  The present invention has been made in view of the above-described problems, and includes a touch panel type operation panel, and can communicate with a terminal device whose position may move according to the operation of the operation panel by the user. It is an object of the document processing apparatus configured to improve work efficiency by minimizing the possibility of communication interruption.

A document processing apparatus according to an embodiment of the present invention includes a touch panel type operation panel, and is configured to be able to communicate with a terminal device whose position may move according to an operation of the operation panel by a user. A communication processing unit that performs communication by transmitting and receiving radio waves to and from the terminal device, a communication strength detection unit that detects a communication strength of the terminal device received by the communication unit, and the terminal A communication execution determining unit that determines whether or not to perform communication with the device, and the operation panel so that communication by the communication unit is stabilized after it is determined to perform communication with the terminal device. possess a screen control unit for changing the screen layout, and the screen control unit, as the operation keys on the operation panel is positioned close to the communication base of the communication unit, a screen ray of the operation panel To change the out.

  The communication execution determination unit may determine that communication is performed with the terminal device when an input operation is performed on the operation panel, or may be detected by the communication strength detection unit. When the communication strength is equal to or higher than a threshold value, it may be determined that communication is performed with the terminal device.

  According to the present invention, in a document processing apparatus that includes a touch panel type operation panel and is configured to be able to communicate with a terminal device whose position may move in response to an operation of the operation panel by a user. It is possible to improve the work efficiency by minimizing the possibility of interruption.

It is a figure which shows the example of the terminal device with which the document processing apparatus which concerns on one Embodiment of this invention, and the user were mounted | worn. It is a figure which shows the example of the communication range in which wireless communication with a document processing apparatus and a terminal device is performed. It is a figure which shows the relationship between a communication range and communication intensity. It is a figure which shows the example of the positional relationship of a communication range and a terminal device. It is a figure which shows the example of the hardware constitutions of a document processing apparatus. It is a figure which shows the example of the hardware constitutions of a terminal device. It is a figure which shows the example of a functional structure of a document processing apparatus. It is a figure which shows the example of a change of communication intensity | strength, and operation | movement of the document processing apparatus according to it. It is a figure which shows an example of a change of a screen layout. It is a figure which shows an example of a change of a screen layout. It is a figure which shows an example of a change of a screen layout. It is a figure which shows an example of a change of a screen layout. It is a flowchart which shows the example of the flow of the whole process in a document processing apparatus. It is a flowchart which shows the example of the flow of a process of the execution judgment based on communication intensity. It is a flowchart which shows the example of the flow of a process of the execution judgment based on communication intensity. It is a flowchart which shows the example of the flow of a screen control process. It is a flowchart which shows the example of the flow of a layout change process.

  FIG. 1 shows an example of a document processing apparatus 1 and a terminal apparatus 2 worn by a user 3 according to an embodiment of the present invention.

  The document processing apparatus 1 is an MFP that integrates functions such as a copier, a printer, a facsimile machine, and a scanner. The document processing apparatus 1 can execute various processes relating to a document (including an image) such as printing, transmission to an external apparatus, storage (storage), and data conversion (scanning).

  The document processing apparatus 1 includes a touch panel type operation panel 12 and is configured to be able to perform wireless communication by radio waves with a terminal apparatus 2 whose position may move in accordance with an operation of the operation panel 12 by the user 3. Has been. As the terminal device 2, various wearable computers, smartphones, portable information devices such as PDAs (Personal Digital Assistants) can be used. That is, the terminal device 2 is attached to a body such as a user's hand or finger, or is moved along with the operation of the operation when the user operates the operation panel 12 by being held in the hand or held by clothes. there's a possibility that. Moreover, although the user may place the terminal device 2 carried by the user in the vicinity of the operation panel 12, there is a possibility that the terminal device 2 may move along with the operation of the user. The terminal device 2 shown in FIG. 1 is a bracelet-type wearable computer, but is not limited to this. For example, a ring-type device, a glove-type device, a device sewn on clothes, etc. Various wearable terminals may be used.

  It is assumed that not only one user 3 but also other users possess the terminal device 2. In this case, among the plurality of terminal devices 2, the terminal device 2 possessed by the user 3 who is in a position where the operation panel 12 can be operated near the document processing device 1 becomes a communication target, and the conditions described later are satisfied. Communication is executed when it is done.

  The document processing device 1 has a convenient function using the terminal device 2. For example, in the automatic document data transfer function, the user 3 stores the document data in the terminal device 2 in advance, so that the document data is automatically transferred from the terminal device 2 to the document processing device 1 and is stored in the document. The processing device 1 can print or save. Further, in the automatic login function, when logging in to the document processing apparatus 1, the authentication data necessary for login is automatically transmitted from the terminal device 2 to the document processing apparatus 1 without the user 3 performing a special operation. Send and log in automatically.

  In the case of the automatic document data transfer function, the user 3 automatically transfers the document data while the user 3 performs the operation for specifying the printing conditions such as the paper size, the number of copies, and the printing color. As compared with the case where the transfer is performed after the designation of the printing conditions is finished and the start of printing is instructed, the execution of printing becomes faster, and the user 3 can obtain the printed matter earlier. That is, the work efficiency for the user 3 is improved.

  In the case of the automatic login function, the terminal device 2 automatically transfers the authentication data to the document processing device 1 while the user 3 performs an operation for designating the processing (job) that the document processing device 1 wants to execute. Thus, the time required for authentication is shortened, and the work efficiency for the user 3 is improved as compared with the case where the user inputs authentication data or waits for the completion of authentication to specify a job.

  In this way, when data is transferred to and from the terminal device 2, the communication range (communication area) is set to the document processing device 1 in order to prevent leakage of information to the outside and erroneous connection with devices other than the terminal device 2. It is effective to limit to the vicinity of. The communication range is a distance range (spatial range) in which communication for transferring document data, which is data to be processed by a job, is performed. The communication range is also a distance range in which communication for transferring authentication data for login to the document processing apparatus 1 from the terminal apparatus 2 to the document processing apparatus 1 is performed. That is, it can be said that the communication range is a distance range in which transfer of document data and authentication data is permitted under a predetermined condition. The document data and the authentication data may be transferred from the terminal device 2 to the document processing device 1 and vice versa.

  Hereinafter, communication for transferring document data or authentication data for login may be referred to as “document data communication”. The document data communication is performed in a state where the connection (communication) between the document processing device 1 and the terminal device 2 is established.

  FIG. 2 shows an example of communication ranges 50 and 51 in which wireless communication between the document processing device 1 and the terminal device 2 is performed. 2A shows communication ranges 50 and 51 on the XY plane parallel to the upper surface of the operation panel 12, and FIG. 2B shows communication on the XZ plane parallel to the cross section of the operation panel 12 in the thickness direction. Ranges 50 and 51 are shown, respectively.

  In the document processing apparatus 1, the communication ranges 50 and 51 are almost equal in all directions when the antenna has no directivity and there is no obstacle, so that the radius centered on the communication base point P1 at the right corner of the operation panel 12 is used. It becomes a spherical shape of r0 and r1. The communication base point P1 is the position of the antenna of the wireless communication unit 10p arranged inside the operation panel 12 or a position in the vicinity thereof.

  Among these, the communication range 50 is set as a provisional communication range. That is, a three-dimensional space in which the distance from the communication base point P1 is smaller than a predetermined value (radius r0) is provisionally set as the communication range 50. The radius r0 is set to about 20 to 100 centimeters, for example. When the terminal device 2 enters the communication range 50, it is highly likely that the terminal device 2 is possessed by a user who intends to operate the operation panel 12. Therefore, the document processing device 1 uses the terminal device 2 Is temporarily selected as the communication partner.

  In the communication range 50, the document processing apparatus 1 may monitor the transition of the radio wave intensity of the terminal device 2 and the state of the operation panel 12 without establishing a connection with the terminal device 2. In the communication range 50, the document processing apparatus 1 establishes a connection with the terminal apparatus 2, and monitors whether or not a condition for executing the document data communication is satisfied with the connection established. Also good.

  On the other hand, the communication range 51 is set as a definitive communication range. The communication range 51 is a range narrower than the communication range 50. The radius r1 of the communication range 51 is set to 10 centimeters, for example. When the terminal device 2 enters the communication range 51, the possibility that the terminal device 2 is possessed by the user operating the operation panel 12 becomes extremely high. Is definitely selected as the communication partner.

  In the communication range 51, the document processing device 1 may establish a connection with the terminal device 2 and execute document data communication. Further, when the connection with the terminal device 2 has already been established, the document data communication may be executed when the communication range 51 is entered.

  When the document processing apparatus 1 completes necessary document data communication after establishing the connection with the terminal apparatus 2, the document processing apparatus 1 is in a predetermined state such as when the distance to the terminal apparatus 2 is greater than the predetermined distance. The connection may be released (communication disconnection) at this time. In this case, it is preferable to consider the stability of document data communication.

  FIG. 3 shows the relationship between the communication ranges 50 and 51 and the communication strength TK.

  In FIG. 3, the example of the contour line about the intensity | strength DK of the electromagnetic wave which the terminal device 2 emits is shown. If the antenna of the terminal device 2 is not directional and has no obstacles, the radio wave intensity DK is almost uniform in all directions, and thus has a spherical shape with radii r10 and r11 with the terminal device 2 as the center. That is, the radio wave intensity DK decreases as the distance from the terminal device 2 increases.

  Of the concentric circles centered on the terminal device 2, a circle having a radius r <b> 10 is shown as a provisional strength circle 60. The provisional strength circle 60 is a circle corresponding to the provisional communication range 50, and r10 is equal to r0 in this embodiment.

  That is, when the terminal device 2 located far away approaches the operation panel 12 and the communication base point P1 has just entered the provisional strength circle 60, the terminal device 2 enters the provisional communication range 50 in the document processing device 1. It will be. At this time, it can be said that the radio wave intensity DK of the terminal device 2 at the communication base point P1 has reached the threshold value th0 at which document data communication can be permitted.

  Accordingly, the provisional communication range 50 is set by setting the radio wave intensity DK at a position away from the terminal apparatus 2 by the radius r10 as the threshold value th0 of the communication intensity TK in the document processing apparatus 1. It will be. That is, the document processing apparatus 1 recognizes that the terminal apparatus 2 has entered the provisional communication range 50 when the radio wave intensity DK exceeds the threshold th0. Thus, the radio wave intensity DK is an example of the communication intensity TK.

  Further, a circle having a radius r <b> 11 centering on the terminal device 2 is shown as a definite strength circle 61. The definite strength circle 61 is a circle corresponding to the definitive communication range 51, and r11 is equal to r1 in this embodiment.

  That is, when the terminal device 2 further approaches the operation panel 12 and the communication base point P1 has just entered the determined strength circle 61, the terminal device 2 has entered the deterministic communication range 51 in the document processing device 1. Become. At this time, it can be said that the radio wave intensity DK by the terminal device 2 at the communication base point P1 has reached the threshold value th1 for forcibly executing the document data communication.

  Therefore, the definite communication range 51 is set by setting the radio wave intensity DK at a position away from the terminal apparatus 2 by the radius r11 as the threshold value th1 of the communication intensity TK in the document processing apparatus 1. It will be. That is, the document processing apparatus 1 recognizes that the terminal apparatus 2 has entered the definite communication range 51 when the radio wave intensity DK exceeds the threshold value th1.

  That is, the threshold values th0 and th1 of the communication strength TK or the radio wave strength DK correspond to the threshold values Dth0 and Dth1 of the distance D between the communication base point P1 and the terminal device 2, and the threshold value th0. , Th1 may be replaced by thresholds Dth0 and Dth1 of distance D. In this sense, the threshold values th0 and th1 can be said to be equivalent to the distance threshold values Dth0 and Dth1.

  Note that these threshold values th0, th1, Dth0, and Dth1 can be determined based on data obtained through experiments or simulations. In this case, since the threshold value is changed according to the output power of the terminal device 2 and the efficiency of the antenna, the values corresponding to the output power and model of the terminal device 2 are set to the threshold values th0, th1, and so on. You may store in the document processing apparatus 1 as a table which shows Dth0 and Dth1.

  FIG. 4 shows an example of the positional relationship between the communication range 51 and the terminal device 2.

  In the document processing apparatus 1 of the present embodiment, the communication range 51 is set to a range that does not include the entire operation panel 12. For this reason, it is possible that the terminal device 2 is not within the communication range 51 even though the user 3 is operating the operation panel 12.

  In FIG. 4A, the user 3 operates one operation key 33 on the operation panel 12 with a hand wearing the ring-type terminal device 2. The operation key 33 is disposed in the vicinity of the communication base point P1. In this case, the terminal device 2 is in the communication range 51.

  On the other hand, in FIG. 4B, the user 3 operates one operation key 34 farther from the communication base point P 1 than the operation key 33. In this case, the terminal device 2 is not within the communication range 51.

  The time required for completing the document data communication depends on the amount of data to be transferred. If the amount of data is large, the required time may be several seconds or more. Therefore, there is a possibility that the position of the terminal device 2 may move in response to an operation by the user 3 during document data communication.

  If the terminal device 2 moves out of the communication range 51 during the execution of the document data communication, the document data communication may be interrupted or the communication may be disconnected. In that case, the completion of communication is delayed by the amount of interruption. When the document data communication is restarted from the beginning every time it is interrupted, the completion is further delayed. Therefore, in order to improve the work efficiency for the user 3, it is preferable that the document data communication is completed in the minimum necessary time without being interrupted or disconnected.

  Therefore, the document processing apparatus 1 has a screen control function for minimizing the possibility of communication interruption.

  Next, the configuration and operation related to this screen control function will be described.

  FIG. 5 shows an example of the hardware configuration of the document processing apparatus 1.

  The document processing apparatus 1 includes a CPU (Central Processing Unit) 10a, a RAM (Random Access Memory) 10b, a ROM (Read Only Memory) 10c, an auxiliary storage device 10d, a touch panel display 10e, an operation key group 10f, a NIC (Network Interface Card). 10g, a modem 10h, a scanner 10i, a printer 10j, an authentication control unit 10k, a wireless communication unit 10p, and the like.

  The touch panel display 10e and the operation key group 10f are provided on the operation panel 12. The touch panel display 10e displays a screen showing a message for the user, a screen for the user to input a command or information, a screen showing a result of processing executed by the CPU 10a, and the like. Further, the touch panel display 10e sends a signal indicating the touched position to the CPU 10a. The operation key group 10f includes a start key 121 (see FIG. 2) and other hardware keys.

  The NIC 10g communicates with an external device using a protocol such as TCP / IP (Transmission Control Protocol / Internet Protocol).

  The modem 10h exchanges document data in a facsimile data format with a facsimile terminal using a protocol such as G3.

  The scanner 10i reads an image written on a sheet (original) set on a platen glass and generates document data in an image data format.

  The printer 10j prints the image read by the scanner 10i. Also, network printing is performed. That is, an image is printed on a sheet based on data received by the NIC 10g from a personal computer or the like, and an image is printed on a sheet based on data received by the modem 10h from the fax terminal. Further, an image is printed on a sheet based on the document data received from the terminal device 2 by the wireless communication unit 10p.

  The authentication control unit 10k performs a process for user authentication based on the authentication data received from the terminal device 2 by the wireless communication unit 10p. Further, the authentication control unit 10k authenticates the terminal device 2 that is a communication partner, and performs processing for establishing a connection such as pairing.

  The wireless communication unit 10p performs communication by transmitting / receiving radio waves to / from the terminal device 2 with the position on the operation panel 12 as the communication base point P1. Only the antenna of the wireless communication unit 10p may be arranged at the communication base point P1. The wireless communication unit 10p is an example of the “communication unit” in the present invention. The wireless communication unit 10p communicates with the terminal device 2 by a protocol (profile) compliant with, for example, the Bluetooth (registered trademark) standard.

  The ROM 10c or the auxiliary storage device 10d stores a program for operating the document processing apparatus 1 as a copier, a printer, a facsimile machine, a scanner, or the like. Furthermore, a work efficiency improvement program for realizing the functions related to the document data communication is stored.

  These programs are loaded into the RAM 10b as necessary and executed by the CPU 10a. As the auxiliary storage device 10d, a hard disk drive or an SSD (Solid State Drive) is used.

  FIG. 6 shows an example of the hardware configuration of the terminal device 2.

  The terminal device 2 includes a CPU 20a, a RAM 20b, a ROM 20c, a flash memory 20d, an operation key group 20e, a display unit 20f, an authentication control unit 20k, a wireless communication unit 20p, and the like.

  The operation key group 20 e is configured by various operation keys necessary for operation of the terminal device 2.

  The display unit 20 f includes a display or a lamp that displays the state of the terminal device 2. The display unit 20f may include a touch panel display that displays various screens.

  The authentication control unit 20 k performs processing for transmitting authentication data necessary for the user 3 to log in to the document processing apparatus 1 to the document processing apparatus 1. The authentication data may be a user ID and a password that are input in advance to the authentication control unit 20k. When the terminal device 2 is a wearable type, the authentication control unit 20k detects the biometric information (for example, pulse wave) of the user 3 wearing the terminal device 2, and transmits the detected data as authentication data. It's okay.

  Further, the authentication control unit 20k authenticates the document processing apparatus 1 that is a communication partner, and performs processing for establishing connection such as pairing.

  The wireless communication unit 20p performs communication by transmitting and receiving radio waves to and from the wireless communication unit 10p of the document processing apparatus 1. The wireless communication unit 20p includes an antenna.

  FIG. 7 shows an example of a functional configuration of the document processing apparatus 1. FIG. 8 shows an example of the change in the communication strength TK and the operation of the document processing apparatus 1 according to the change.

  7, the document processing apparatus 1 includes a communication control unit 101, a communication strength detection unit 102, an operation information detection unit 103, a communication execution determination unit 104, a terminal position prediction unit 105, a screen control unit 106, and a data acquisition unit 107. Etc. are provided. These functions are realized by the hardware configuration described above and by the CPU 10a executing the work efficiency improvement program described above.

  Hereinafter, the function of each unit of the document processing apparatus 1 will be described by taking as an example a case in which the user 3 causes the document processing apparatus 1 to print a document previously stored in the terminal apparatus 2.

  The user 3 operates the touch panel display 10e of the operation panel 12 while wearing the terminal device 2, and designates printing conditions including selection of a document to be printed. When the designation of printing conditions is completed, the user 3 presses the start key 121 to instruct the start of printing.

  When the user 3 operates the touch panel display 10e, for example, the terminal device 2 enters the communication range 51 as shown in FIG.

  When the terminal device 2 enters the communication range 51, the document processing device 1 starts document data communication without waiting for the user 3 to press the start key 121, and sends the document data DD of the document to be printed to the terminal. Capture from device 2.

  The communication control unit 101 controls communication with the terminal device 2 by the wireless communication unit 10p and performs processing necessary for establishing a connection. In addition, the communication control unit 101 generates communication status data D101 indicating the status of communication with the wireless communication unit 20p of the terminal device 2. The communication status data D101 may include information indicating the output power or class determined by the specification of the wireless communication unit 20p of the terminal device 2 together with information indicating the reception status of the radio wave at that time. These pieces of information may be acquired from the terminal device 2 before, for example, establishing a connection with the terminal device 2 or when establishing the connection. Alternatively, identification information (for example, a MAC address) that identifies the terminal device 2 may be acquired when establishing a connection, and a database of specifications of various devices may be searched to acquire the information.

  The communication strength detection unit 102 detects the communication strength TK of the terminal device 2 received by the wireless communication unit 10p, for example, based on information indicating the reception status included in the communication status data D101.

  The operation information detection unit 103 detects operation information S12 including the coordinate position when there is an input operation to the operation panel 12. The input operation includes a touch on the touch panel display 10e and a press of a hardware operation key of the operation key group 10f.

  The communication execution determining unit 104 determines whether to execute communication (document data communication) with the terminal device 2 based on the operation information S12 and the communication strength TK.

  That is, the communication execution determining unit 104 determines whether or not there is an input operation based on the operation information S12, and determines that communication is performed with the terminal device 2 when there is an input operation.

  The communication execution determining unit 104 executes communication with the terminal device 2 when the communication strength TK detected by the wireless communication unit 10p is equal to or higher than the threshold th1 based on the communication strength TK. to decide.

  As described above, since the strength DK of the radio wave from the terminal device 2 depends on the output power of the terminal device 2, the threshold th1 is determined according to the output power of the terminal device 2 that is the communication partner. That's fine. Further, instead of changing the threshold th1 according to the output power, normalization may be performed by multiplying the radio wave intensity DK by a coefficient corresponding to the output power. In this case, the normalized radio wave intensity DK can be used as the communication intensity TK.

  Further, when establishing the connection, the user 3 brings the terminal device 2 into contact with the mark indicating the communication base point P1 on the surface of the operation panel 12, and the document processing device 1 measures the radio wave intensity DK at that time to perform calibration. May be performed.

  As described above, it is determined based on the distance D between the document processing apparatus 1 and the terminal apparatus 2 whether to execute communication based on the communication strength using the threshold th1. Is equivalent to Accordingly, the communication execution determining unit 104 determines that the distance D between the terminal device 2 and the terminal device 2 obtained based on the communication strength TK detected by the wireless communication unit 10p corresponds to a predetermined threshold value (the radius r0 of the communication range 51). (Value) When it becomes Dth1 or less, it may be configured to determine that communication with the terminal device 2 is executed.

  The determination result D104 by the communication execution determination unit 104 is notified to the terminal position prediction unit 105, the data acquisition unit 107, and the like.

  When the communication execution determining unit 104 determines to execute communication, the data acquisition unit 107 cooperates with the communication control unit 101 to transmit the document data DD stored in the data storage unit 202 of the terminal device 2 to the terminal device. 2 to the document processing apparatus 1. At this time, the communication control unit 201 of the terminal device 2 controls the wireless communication unit 20p.

  The data acquisition unit 107 stores the transferred document data DD in, for example, the auxiliary storage device 10d. Thereafter, when the user 3 gives an instruction to start printing, the document data DD is printed by the printer 10j.

  The terminal position prediction unit 105 predicts the position (three-dimensional coordinate position) P2 of the terminal device 2 based on the coordinate position detected by the operation information detection unit 103 and the communication strength TK at that time. That is, the direction with respect to the communication base point P1 of the terminal device 2 is not known only by the communication strength TK, but the approximate direction can be obtained by taking into account the two-dimensional coordinate position where the input operation has been performed. The terminal position prediction unit 105 assumes that the position P2 is directly above the coordinate position where the input operation has been performed, and calculates the three-dimensional coordinates of the position P2 as a prediction result.

  The terminal position prediction unit 105 re-predicts the position of the terminal device 2 every time the operation information S12 or the communication strength TK is updated.

  After determining that the document data communication is to be executed with the terminal device 2, the screen control unit 106 changes the screen layout of the operation panel 12 so that the communication by the wireless communication unit 10p is stabilized. That is, the display content on the touch panel display 10e is changed so that the document data DD is transferred in a state where the communication strength TK is as large as possible with the threshold value th1 or more.

  The screen control unit 106 changes the screen layout based on the position P2 of the terminal device 2 predicted by the terminal position prediction unit 105. When the terminal position prediction unit 105 changes the prediction of the position of the terminal device 2, the screen layout is changed again accordingly.

  The screen control unit 106 groups the arrangement control unit 108 that changes the position of the operation key arranged on the screen for operation, the size control unit 109 that changes the size of the operation key, and the operation key according to functions corresponding thereto. A group control unit 110 that performs

  Referring to FIG. 8, as user 3 approaches document processing device 1, terminal device 2 possessed by user 3 approaches communication base point P1. When the terminal device 2 approaches the communication base point P1, the communication strength TK increases.

  As shown by a thick solid line in FIG. 8, the communication strength TK increases from a value smaller than the threshold value th1, exceeds the threshold value th0 at time t0, and exceeds the threshold value th1 at time t1.

  When the communication strength TK exceeds the threshold value th1, that is, when the terminal device 2 enters the communication range 51, the communication execution determining unit 104 determines to execute document data communication with the terminal device 2. In response to this determination, the communication control unit 101 establishes a connection with the terminal device 2, the data acquisition unit 107 requests the terminal device 2 to transfer the document data DD, and the terminal device 2, the document processing device 1, The transfer of the document data DD is started.

  Although not shown in FIG. 8, when the communication strength TK exceeds the threshold th0, that is, when the terminal device 2 is in the communication range 50, at the timing when the operation panel 12 is operated, The communication execution determining unit 104 determines that document data communication is to be performed with the terminal device 2, and triggered by this determination, a connection is established in the same manner as described above, and transfer of the document data DD is started.

  When the document data communication is started, the screen control unit 106 changes the screen layout of the touch panel display 10e from the normal layout in order to stabilize the communication, that is, to perform the communication with the communication strength TK being larger. Change to the first reduced layout. Thereafter, the screen control unit 106 changes the screen layout from the first reduced layout to the second reduced layout as necessary, as will be described later.

  The normal layout is a general layout in which objects (operation keys, icons, etc.) sensitive to touch are arranged at arbitrary positions within the display surface of the touch panel display 10e. The normal layout is set as the initial layout of each screen.

  The first reduced layout is a layout in which an object sensitive to touch is arranged close to the communication base point P1 on the display surface of the touch panel display 10e. That is, the object on the display surface is arranged close to the communication base point P1.

  The second reduced layout is a layout in which an object sensitive to touch is arranged closer to the communication base point P1 than the first reduced layout on the display surface of the touch panel display 10e.

  By changing the screen layout from the normal layout to the first reduced layout, the user 3 operates an area close to the communication base point P1 on the display surface of the touch panel display 10e. As a result, the possibility that the terminal device 2 stays in the communication range 51 is increased, the communication intensity TK at the communication base point P1 is increased, and the possibility that the terminal device 2 is lower than the threshold th1 is reduced, and the communication is stabilized.

  However, since the communication strength TK changes according to the movement of the hand of the user 3, as shown by a thin broken line in FIG. 8, the value of the communication strength TK is less than the threshold th1 during the execution of document data communication. The communication is not stable.

  Therefore, in order to further stabilize the communication, the screen control unit 106 determines that the screen layout is determined when the position P2 is moving away from the communication base point P1 based on the prediction result of the position P2 of the terminal device 2 by the terminal position prediction unit 105. Is changed from the first reduced layout to the second reduced layout. In the example shown in FIG. 8, the screen layout is changed to the second reduced layout at time t2.

  By changing the screen layout to the second reduced layout, the user 3 operates an area closer to the communication base point P1, and the possibility that the terminal device 2 stays in the communication range 51 is further increased and communication is stabilized. .

  In this way, by changing the screen layout to the first reduced layout or the second reduced layout, the communication is stabilized, the possibility of interruption of the document data communication is minimized, and the data transfer is completed in a short time. Efficiency can be improved.

  In the example shown in FIG. 8, the document data communication is completed at time t3. When the document data communication is completed, the screen control unit 106 returns the screen layout from the second reduced layout (or the first reduced layout) to the normal layout.

  FIGS. 9 to 12 show examples of changing the screen layout.

  A screen G1 shown in FIG. 9A is a screen having a normal layout having a slide area 40 that is long in the left-right direction in the drawing. In the slide area 40, a slider 41 movable in the left-right direction is arranged. The slider 41 moves left and right within the range of the slide area 40 in response to a slide operation (drag operation) or a flick operation. By moving the slider 41, the user 3 can specify a desired value for an item such as print density, magnification, or resolution, for example.

  In the screen G1, the operation range (movable range) of the slider 41 extends from the vicinity of the left end of the touch panel display 10e to the vicinity of the right end. When document data communication starts while the screen G1 is displayed, the screen layout is changed, and a screen G1b shown in FIG. 9B is displayed instead of the screen G1.

  A screen G1b in FIG. 9B is a screen of the first reduced layout corresponding to the screen G1. The difference between the screen G1b and the screen G1 is that, on the screen G1b, a reduced slide area 40b is set instead of the slide area 40 of the screen G1.

  The slide area 40b on the screen G1b corresponds to the slide area 40 on the screen G1 contracted to the right. A slider 41b that can move in the left-right direction is disposed in the slide region 40b. The operation range of the slider 41b is limited to a part near the communication base point P1 in the operation range of the slider 41 on the screen G1. That is, even if the slider 41b is moved to the left end, the fingertip of the user 3 remains near the communication base point P1 as compared with the case where the same operation is performed on the screen G1.

  On the screen G1b, the user 3 performs the same operation as that on the screen G1 using only the area within the range closer to the communication base point P1 than the case where the operation on the screen G1 is performed on the display surface of the touch panel display 10e. Can do.

  A screen G2 shown in FIG. 10A is a normal layout screen having operation keys 30 in 3 rows and 3 columns.

  The operation key group 30 is arranged with a substantially uniform margin around it so that its geometric center substantially coincides with the geometric center of the display surface of the touch panel display 10e. The nine operation keys constituting the operation key group 30 are arranged with a gap H between them in the left-right direction (vertical direction) and a gap V in the up-down direction (vertical direction) in the figure. When document data communication is started while the screen G2 is displayed, the screen layout is changed, and a screen G2b shown in FIG. 10B is displayed instead of the screen G2.

  A screen G2b in FIG. 10B is a screen of the first reduced layout corresponding to the screen G2. The difference between the screen G2b and the screen G2 is that, in the screen G2b, an operation key group 30b with a gap is arranged instead of the operation key group 30 on the screen G2.

  The operation key group 30 b includes the same nine operation keys as the operation key group 30. The size of each operation key and the arrangement order of the functions corresponding to the operation key are the same as those of the operation key group 30.

  In the operation key group 30b, the nine operation keys are arranged side by side with a gap Hb and a gap Vb. The gap Hb is smaller than the gap H, and the gap Vb is smaller than the gap V. The operation key group 30b is arranged such that its geometric center is closer to the upper right corner of the display surface than the geometric center of the display surface of the touch panel display 10e.

  That is, on the screen G2b, the nine operation keys on the screen G2 are arranged close to the upper right corner of the display surface and are close to the communication base point P1.

  On the screen G2b, the user 3 performs the same operation as the screen G2 using only the area within the range closer to the communication base point P1 than the case of performing the operation on the screen G2 on the display surface of the touch panel display 10e. Can do.

  In the example described above, both the margin at the upper right corner and the gaps H and V in the screen G2 are shrunk at a time, but one of the margin and the gaps H and V is shrunk, and then the communication strength TK decreases. When doing so, the other one may be shrunk.

  The example of FIG. 11 is an example in which the first reduced layout is changed to the second reduced layout. The screen G2b in FIG. 11A is the same as that in FIG.

  When the communication strength TK decreases to some extent while the screen G2b is displayed, a screen G2c shown in FIG. 11B is displayed instead of the screen G2b.

  A screen G2c in FIG. 11B is a second reduced layout screen corresponding to the screen G2. The difference between the screen G2c and the screen G2b is that, in the screen G2c, instead of the operation key group 30b of the screen G2b, an operation key group 30c with reduced operation keys is arranged.

  In other words, the operation key group 30c corresponds to the nine operation keys of the operation key group 30b that are reduced in size and arranged in 3 rows and 3 columns, with the center positions and the order of arrangement being the same. As the size is reduced, character strings representing functions corresponding to the operation keys are simplified.

  By reducing the size of the operation key, the position farthest from the communication base point P1 in the operation key group 30c (the position of the lower left corner of the operation key 37) is closer to the communication base point P1 than when the operation key is not reduced.

  On the screen G2c, the user 3 performs the same operation as the screen G2 or the screen G2b by using only the area within the range closer to the communication base point P1 than the case of performing the operation on the screen G2b on the display surface of the touch panel display 10e. It can be performed.

  When the communication strength TK further decreases while the screen G2c is displayed, a screen G2d shown in FIG. 11C is displayed instead of the screen G2c.

  A screen G2d in FIG. 11C is another example of the second reduced layout screen corresponding to the screen G2. The difference between the screen G2d and the screen G2c is that, in the screen G2d, an operation key group 30d with a gap is arranged instead of the operation key group 30c of the screen G2c.

  The operation key group 30d corresponds to the operation key group 30c on the screen G2 that is close to the communication base point P1 by placing the operation keys of the operation key group 30c close to the upper right corner of the display surface.

  On the screen G2d, the user 3 can perform the same operation as the screen G2 using only the area within the range closer to the communication base point P1 than the case where the operation is performed on the screen G2c on the display surface of the touch panel display 10e. it can.

  When the communication strength TK further decreases in the state where the screen G2d is displayed, the screen G21 shown in FIG. 12A is displayed instead of the screen G2d, and then, according to the operation by the user 3, FIG. ) Or screens G22 and G23 shown in (C) are displayed.

  A screen G21 in FIG. 12A, a screen G22 in (B), and a screen G23 in (C) are all other examples of the second reduced layout screen corresponding to the screen G2. These screens G21, G22, and G23 correspond to three groups obtained by grouping the nine operation keys of the operation key group 30d in FIG.

  The screens G21, G22, and G23 are hierarchized, the highest screen G21 is displayed before the lower screens G22 and G23, and the lowest screen G23 is the second highest screen G22. It will be displayed later. Depending on the operation by the user 3, the screens G22 and G23 may not be displayed.

  The screen G21 in FIG. 12A has three operation keys 31, 32, and 33 that belong to the first group, and a lower screen call key 45. These operation keys are arranged in the upper right corner, which is a portion near the communication base point P1, on the display surface of the touch panel display 10e so as to be as close to the communication base point P1 as possible. As shown in the figure, the operation keys 31 and the operation keys 32 are arranged side by side, the operation keys 33 and the lower screen call keys 45 are arranged substantially vertically in a line below the operation keys 32.

  When the lower screen call key 45 is operated while the screen G21 is displayed, the screen G22 of FIG. 12B is displayed instead of the screen G21.

  The screen G22 has three operation keys 34, 35, 36 belonging to the second group, a lower screen call key 45, and an upper screen call key 46. The positions of the three operation keys 34, 35, and 36 and the lower screen call key 45 are the same as those on the screen G21. The upper screen call key 46 is arranged near the left side of the lower screen call key 45.

  When the lower screen call key 45 is operated while the screen G22 is displayed, the screen G23 of FIG. 12C is displayed instead of the screen G22. When the upper screen call key 46 is operated, the screen G21 in FIG. 12A is displayed again.

  The screen G23 in FIG. 12C has three operation keys 34, 35, and 36 that belong to the third group, and an upper screen call key 46. The positions of these keys are almost the same as those on the screen G22.

  When the upper screen call key 46 is operated while the screen G23 is displayed, the screen G22 of FIG. 12B is displayed again.

  The user 3 switches the screen by appropriately operating the lower screen call key 45 and the upper screen call key 46 so that the operation key to be operated is displayed.

  By switching and operating the screens G21, G22, and G23, the user 3 is within a range closer to the communication base point P1 than when operating on the screen G2d in FIG. 11C among the display surfaces of the touch panel display 10e. The same operation as that which can be performed on the screen G2d can be performed using only this area.

  Hereinafter, the operation of the document processing apparatus 1 will be described with reference to a flowchart.

  FIG. 13 shows an example of the overall processing flow in the document processing apparatus 1.

  The document processing device 1 searches for the terminal device 2 (# 10). For example, the communication strength TK or the like is acquired from the radio waves of one or a plurality of terminal devices 2 received by the wireless communication unit 10p, and the nearest terminal device 2 is recognized. Then, the terminal device 2 that has entered the temporary communication range 51 is recognized as the terminal device 2 that is permitted as the partner of the document data communication (# 11).

  When there is an input operation on the operation panel 12 (YES in # 12), it is determined that communication is performed with the terminal device 2, and a connection is established. If there is no input operation (NO in # 12), an execution determination routine based on the communication strength is performed (# 13).

  FIG. 14 and FIG. 15 show examples of the flow of execution determination processing based on the communication strength.

  In FIG. 14, when the communication strength TK is equal to or higher than the threshold th1 (YES in # 131), it is determined that the terminal device 2 enters the definite communication range 50 and the document data communication is executed (# 132). ). When the communication strength TK is less than the threshold th1 (NO in # 131), it is determined not to execute the document data communication (# 133).

  In FIG. 15, when the distance D between the terminal device 2 is equal to or less than the threshold value Dth1 (YES in # 131b), document data communication is executed assuming that the terminal device 2 has entered the definite communication range 50. Then, it is determined (# 132b). When the distance D exceeds the threshold value Dth1 (NO in # 131b), it is determined not to execute the document data communication (# 133b).

  Returning to FIG. 13, when it is determined that document data communication is to be executed (YES in # 14), it is checked whether or not there is document data DD to be transferred to the terminal device 2 (# 15). If there is document data DD (YES in # 15), document data communication for transferring the document data DD is started (# 16).

  After starting the document data communication, the screen control process is executed (# 17). The screen control process is executed until the document data communication ends. After the document data communication is completed, it is checked based on the operation information S12 whether or not there has been an input operation for giving the job for processing the document data DD to the document processing apparatus 1 (# 18).

  If YES at step # 18, the process of the flow of FIG. 13 is terminated. In this case, the document processing apparatus 1 executes a job for processing the document data DD in response to an input operation instructing the start of execution of the job. For example, if the given job is a print job, a document corresponding to the document data DD is printed. If the job is a facsimile transmission job, the document data DD is transmitted to the transmission destination designated by the user 3. If the job is a save job, the document data DD is stored in the save destination designated by the user 3.

  If NO in step # 18, the temporarily stored document data DD is deleted (# 19). Thereby, it is possible to prevent the document data DD in the terminal device 2 from being saved in the document processing device 1 even though the user 3 has not instructed saving.

  FIG. 16 shows an example of the flow of screen control processing.

  First, it is checked whether or not the screen displayed on the operation panel 12 is a slide screen (# 71). When it is a slide screen and the slidable operation range is larger than a predetermined value (YES in # 71 and # 72), the slidable operation range is reduced (# 73).

  Subsequently, a layout change processing routine for changing another screen layout is executed (# 74).

  While the document data communication is being executed (NO in # 75), the processes of steps # 71 to # 74 are repeated.

  When the document data communication is completed (YES in # 75), the screen layout is initialized (# 76). The flow returns to the main flow of FIG.

  FIG. 17 shows the flow of layout change processing.

  Here, in order to stabilize the document data communication so that the communication strength TK does not become smaller than the threshold value th1, the screen layout is changed as follows.

  First, it is checked whether or not the operation key can be moved within the displayed screen (# 741). That is, it is checked whether the margin between the operation key and the upper right corner of the display surface, or the gap between the operation keys is larger than a predetermined minimum value.

  If the operation key can be moved (YES in # 741), the normal layout is changed to the first reduced layout, or the first reduced layout is changed to the second reduced layout (# 742).

  In the case of NO at step # 741, it is checked whether or not the size of the operation key is a predetermined minimum size (# 743). If NO in step # 743, the size of the operation key is reduced (# 744). If YES in step # 743, the operation keys are grouped, and a plurality of operation keys in the same group are arranged in the upper hierarchy displayed first and the lower hierarchy displayed later (# 745).

  Based on the latest acquired communication strength TK, it is determined whether or not the communication strength TK has decreased (# 746). At this time, it may be determined whether or not the communication strength TK has decreased by a predetermined amount or more by comparing with the previous communication strength TK. Alternatively, it is determined whether or not the threshold value has dropped to the threshold value closest to the previous communication strength TK among one or more threshold values (th2, th3,...) Within a range larger than the threshold value th1. Yes.

  If “YES” in the step # 746, the process returns to the step # 741 to change the screen layout again. If NO at step # 746, the flow returns to the flow of FIG.

  In the embodiment described above, the screen layout may be changed not only when the document data DD is transferred but also when data communication for transferring the authentication data DA is being executed. For example, when the biometric information such as the pulse wave described above is transferred as the authentication data DA, the time required for transfer becomes longer than when the authentication data such as the user ID and password is transferred. Changing the screen layout is effective in stabilizing the transfer of authentication data.

  In the above-described embodiment, it has been described that it is determined that document data communication is to be executed when an input operation is performed while the terminal device 2 is in the provisional communication range 50. However, it may be determined that the document data communication is executed only when the terminal device 2 enters the definite communication range 51. In this case, if the terminal device 2 does not enter the communication range 51 despite the input operation to the operation panel 12, the operation keys on the operation panel 12 are arranged closer to the communication base point P1. Thus, the screen layout of the operation panel 12 may be changed. Then, such a screen layout change may be repeated until the communication range 51 is entered.

  In the embodiment described above, the screen control unit 106 determines the remaining amount of document data DD to be transferred by document data communication before the document data communication between the terminal device 2 and the wireless communication unit 10p ends. Can be changed to a screen layout in which the operability is more important than the current layout. For example, the screen layout of FIG. 12 in which the operation keys are grouped and displayed for each group is returned to the screen layout of FIG. 11 in which the operation keys are collectively displayed without being grouped, or the reduced size of the operation keys is restored. To do.

  That is, since the document data communication will be terminated soon, when the possibility that the document data communication is interrupted becomes small, a screen with a screen layout that is easy to operate is displayed.

  In the embodiment described above, the number of stages for changing the screen layout has been described as three or more. However, the screen layout may be changed in two stages for switching between the normal layout and the reduced layout.

  The screen layout change is not limited to the operation key movement, the operation key size reduction, and the operation key grouping performed in order according to the decrease in the communication strength TK. Moreover, you may implement in order different from illustration. Furthermore, any one or any two of these three types of changes may be implemented.

  When a plurality of operation keys are brought closer to the communication base point P1 by changing the screen layout, the operation key arrangement order is appropriately changed so that the frequently used operation keys are closer to the communication base point P1 than the less frequently used operation keys. You may arrange.

  The document data communication is not limited to data transfer from the terminal device 2 to the document processing device 1, but may be transfer of document data DD or authentication data from the document processing device 1 to the terminal device 2.

  The document processing apparatus 1 is not limited to an MFP, and may be any device that processes document data, and may be a copier, a printer, a facsimile machine, a scanner, or the like.

  The position of the communication base point P1 is not limited to the corner of the operation panel 12. The center of the display surface of the touch panel display 10e or another position in the display surface may be used as the communication base point P1. The size of the communication ranges 50 and 51 and the range of the distance D are not limited to the illustrated values.

  If the document data communication is interrupted, the transferred data may be held until the communication is completed so that the data transfer does not have to be performed again from the beginning.

  In addition, the operation panel 12, the wireless communication unit 10 p, the communication strength detection unit 102, the operation information detection unit 103, the communication execution determination unit 104, the terminal position prediction unit 105, the screen control unit 106, the terminal device 2, or the document processing device 1. The configuration of the whole or each part, the content of processing, the order or timing, the content or timing of changing the screen layout, and the like can be appropriately changed in accordance with the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Document processing apparatus 2 Terminal apparatus 3 User 10p Wireless communication unit (communication part)
12 Operation panels 30, 30b, 30d Operation key group (operation keys)
37 Operation keys 40 Slide area (operation range)
51 Communication range (range)
102 Communication strength detection unit 103 Operation information detection unit 104 Communication execution determination unit 105 Terminal position prediction unit 106 Screen control unit TK Communication strength th0, th1 Threshold value Dth0, Dth1 Threshold value r0, r1, r10, r11 Radius (threshold) value)
S12 Operation information DA Authentication data DD Document data P1 Communication base point G21 Screen (upper layer)
G22, G23 screen (lower hierarchy)

Claims (16)

A document processing apparatus that includes a touch panel type operation panel and is configured to be able to communicate with a terminal device that may move in accordance with the operation of the operation panel by a user.
A communication unit that performs communication by transmitting and receiving radio waves to and from the terminal device;
A communication strength detection unit for detecting the communication strength of the terminal device received by the communication unit;
A communication execution determining unit that determines whether to perform communication with the terminal device;
Have a, a screen control unit which after it is determined that executes communication, communication by the communication unit to change the screen layout of the operation panel to be stable between the terminal device,
The screen control unit
Changing the screen layout of the operation panel so that the operation keys on the operation panel are arranged close to the communication base point of the communication unit;
A document processing apparatus characterized by that. The communication execution determination unit
When there is an input operation to the operation panel, it is determined that communication is performed with the terminal device.
The document processing apparatus according to claim 1. The communication execution determination unit
When the communication strength detected by the communication strength detection unit is equal to or higher than a threshold, it is determined to perform communication with the terminal device.
The document processing apparatus according to claim 1. The communication execution determination unit
When a distance between the terminal device obtained based on the communication strength detected by the communication strength detection unit is equal to or less than a threshold value, it is determined to perform communication with the terminal device.
The document processing apparatus according to claim 1. An operation information detection unit that detects operation information including the coordinate position when there is an input operation to the operation panel;
A terminal position prediction unit that predicts the position of the terminal device based on the coordinate position detected by the operation information detection unit and the communication strength at that time;
The screen control unit
Changing the screen layout based on the position of the terminal device predicted by the terminal position prediction unit;
The document processing apparatus according to claim 1. The terminal position prediction unit re-predicts the position of the terminal device every time the operation information or the communication strength is updated,
When the terminal position prediction unit changes the prediction of the position of the terminal device, the screen control unit re-changes the screen layout accordingly.
The document processing apparatus according to claim 5. The screen control unit
When the data transfer is completed by executing communication with the terminal device, the screen layout is returned to the initial setting.
The document processing apparatus according to claim 1. If you are in authentication mode,
When there is an input operation to the operation panel, the communication execution determination unit determines to perform communication with the terminal device, and the communication unit executes communication to transmit authentication data to the terminal device. If it is stored, receive the authentication data,
The screen control unit returns the screen layout to an initial setting after authentication is completed.
The document processing apparatus according to claim 1. When there is an input operation to the operation panel, the communication execution determination unit determines to execute communication with the terminal device, and the communication unit executes communication to transmit document data to the terminal device. If the document data is stored,
The screen control unit returns the screen layout to an initial setting after the reception of the document data is completed.
The document processing apparatus according to claim 1. The screen control unit
Reducing the size of the operation keys so that the operation keys on the operation panel are arranged within a range in which the communication strength detected by the communication strength detection unit is equal to or higher than a threshold value;
The document processing apparatus according to claim 1 . The screen control unit
A plurality of operation keys on the operation panel are grouped, and a plurality of operation keys in the same group are arranged in an upper hierarchy displayed first and a lower hierarchy displayed later, respectively.
The document processing apparatus according to claim 1 . The screen control unit
When there is an operation key for performing a flick operation or a slide operation on the operation panel, the operation range by the user of the operation key is reduced.
The document processing apparatus according to claim 1 . When the communication unit cannot perform communication despite an input operation to the operation panel, the screen control unit is arranged such that the operation keys on the operation panel are closer to the communication base point of the communication unit. As described above, the screen layout of the operation panel is changed, and this is repeated until the communication unit can execute communication.
The document processing apparatus according to claim 1 . The screen control unit
When the remaining amount of data to be transferred by communication between the terminal device and the communication unit is equal to or less than a threshold, the screen layout of the operation panel is changed to a screen layout that emphasizes operability.
The document processing apparatus according to claim 1 . Communication with ring type the terminal device is a wearable terminal is configured to be a document processing apparatus according to any one of claims 1 to 14. A control method of an operation panel in a document processing apparatus that includes a touch panel type operation panel and is configured to be able to communicate with a terminal device whose position may move in accordance with an operation of the operation panel by a user. And
While performing communication with the terminal device, the screen layout of the operation panel is changed so that the communication is stable ,
Changing the screen layout of the operation panel so that the operation keys on the operation panel are arranged close to a communication base point provided for performing the communication;
An operation panel control method in a document processing apparatus.

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