JP3667258B2 - Information processing apparatus and information processing apparatus control method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present inventionInformation processing apparatus and information processing apparatus control methodAbout.
[0002]
[Prior art]
As facsimile apparatuses connectable to an information processing terminal such as a personal computer, JP-A-7-288625 to JP-A-7-288630, JP-A-7-288737 to JP-A-7-288645, JP-A-7 As described in JP-A No. 288671, JP-A-8-307702, etc., a bi-directional parallel port (compliant with IEEE1284) interface such as Centronics or a universal serial bus (Universal Serial BUS (USB)) interface, etc. 2. Description of the Related Art Facsimile apparatuses that connect via a wired interface are known.
[0003]
In the image processing system including the facsimile apparatus and the information processing terminal, the connection form between the facsimile apparatus and the information processing terminal is limited to a single wired interface.
[0004]
In the USB interface, a plurality of devices can be connected by connecting them in a host-led tree form. However, in the image processing system, basically, an information processing terminal and a facsimile apparatus are one. It is assumed that they are connected in a one-to-one relationship.
[0005]
[Problems to be solved by the invention]
However, in the conventional image processing system described above, there is a limitation on the length of the connection cable. For this reason, for example, the information processing terminal and the facsimile apparatus must be installed adjacent to each other. However, there is a problem that it cannot be said that it is easy.
[0006]
In the above conventional image processing system, it is not assumed that a plurality of information processing terminals are connected to a facsimile apparatus regardless of a wireless interface or a wired interface. There is a problem that the operation and processing procedures are not determined.
[0007]
The above problem also occurs in an image processing apparatus other than a facsimile apparatus.
[0008]
  The present invention relates to an information processing apparatus andOther equipmentAnd freedom of installation locationForCan be freely laid out so that the user can easily use each device.To doFor the purpose.
[0009]
  further,To ensure that images can be received and that the received images can be transferred to the connected device.Objective.
[0010]
[Means for Solving the Problems]
  The present invention provides a search means for searching for a wirelessly connectable device, a connection means for connecting to the device searched for by the search means, a changing means for changing a connection mode by the connection means, and receiving an image via a line. Determining means for determining whether or not the change means has a transfer means for changing the connection mode with the apparatus and transferring the received image to the connection apparatus in accordance with the determination by the determination means. An information processing apparatus and a control method thereof are provided.
  The present invention also provides a search means for searching for a wirelessly connectable device, a connection means for connecting to the device searched for by the search means, a changing means for changing the connection state by the connection means to a power saving state, a line Determining means for determining that an image has been received via the transfer means, and transfer means for canceling the power saving state changed by the changing means and transferring the received image to the connection device in accordance with the determination by the determining means An information processing apparatus and a control method thereof are provided.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a block diagram showing a schematic configuration of a facsimile apparatus 201 constituting the image processing system IDS1 according to the first embodiment of the present invention.
[0012]
In the facsimile apparatus 201, the CPU 101 is a system control unit and controls the entire facsimile apparatus 201.
[0013]
The ROM 102 stores a control program executed by the CPU 101, an operating system (OS) program, and the like.
[0014]
The RAM 103 is composed of SRAM (static RAM) or the like, stores program control variables, etc., stores setting values registered by the operator, management data of the facsimile apparatus 201, and the like, and is provided with various work buffer areas. Yes.
[0015]
The image memory 104 is configured by a DRAM (dynamic RAM) or the like, and stores image data. In the above embodiment, each control program stored in the ROM 102 performs software control such as scheduling and task switching under the management of the OS stored in the ROM 102.
[0016]
The data conversion unit 105 converts image data such as analysis of page description language (PDL) or the like, or CG (computer graphics) development of character data.
[0017]
The reading control unit 106 optically reads a document by the reading unit 107 using a CS image sensor (contact image sensor) and converts the image signal into electrical image data via an image processing control unit (not shown). Various image processing such as binarization processing and halftone processing is performed, and high-definition image data is output. In the above-described embodiment, the reading control unit 106 corresponds to both the sheet reading control method that reads a document while conveying the document and the book reading control method that scans the document on the document table.
[0018]
The operation unit 108 includes various keys, LEDs (light emitting diodes), an LCD (liquid crystal display), and the like, and performs various input operations by an operator, operation status of the facsimile apparatus 201, status status display, and the like.
[0019]
The communication control unit 109 is configured by a MODEM (modem / demodulation device), an NCU (network control device), or the like. In the above-described embodiment, the communication control unit 109 is connected to the analog communication line (PSTN) 203, and performs line control such as communication control based on the T30 protocol, and outgoing and incoming calls for the communication line.
[0020]
The answering machine control unit 110 includes a voice IC (integrated circuit), a voice recording / playback control unit (not shown), etc., and provides an answering machine function.
[0021]
The resolution conversion processing unit 111 performs resolution conversion control such as milli-inch resolution conversion of image data. Note that the resolution conversion unit 111 can also perform enlargement / reduction processing of image data.
[0022]
The code decoding processing unit 112 performs code decoding processing and enlargement / reduction processing on image data (MH, MR, MMR, JBIG, JPEG, etc.) handled by the facsimile apparatus 201.
[0023]
The recording control unit 113 performs various processes such as smoothing processing, recording density correction processing, and color correction on image data printed by a color printer 114 such as a laser beam printer or an ink jet printer via an image processing control unit (not shown). Image processing is performed, the image data is converted into high-definition image data, and output to the color printer 114. Of course, instead of the color printer 114, a printer capable of only monochrome output may be used.
[0024]
The Bluetooth control unit 115 performs communication control of Bluetooth, performs protocol control according to the Bluetooth standard, and converts a command from the Bluetooth control task (see FIG. 3 described later) executed by the CPU 101 into a Bluetooth packet. For example, the packet is transmitted to the baseband processing unit 116, or conversely, the packet from the Bluetooth baseband processing unit 116 is transmitted to the CPU 101 as a Bluetooth command.
[0025]
The Bluetooth baseband processing unit 116 performs Bluetooth frequency hopping processing and frame assembly / disassembly processing.
[0026]
The 2.4 GHz high frequency unit 117 transmits and receives 2.4 GHz band radio waves used by Bluetooth.
[0027]
The USB control unit 118 performs communication control of the USB interface, performs protocol control according to the USB standard, converts a command from a USB control task (see FIG. 3 described later) executed by the CPU 101 into a packet, and externally The USB packet is transmitted to the information processing terminal, or conversely, the USB packet from the external information processing terminal is transmitted to the CPU 101 as a command.
[0028]
The components 101 to 106, 108 to 113, 115, and 118 are connected to each other via a bus B.
[0029]
FIG. 2 is a block diagram showing an example of the configuration of the image processing system IDS1 according to the embodiment.
[0030]
The image processing system IDS1 includes a plurality of information processing terminals 202a to 202c (three in the above embodiment) represented by a facsimile apparatus 201 as an image processing apparatus and a personal computer (PC), the communication line 203, and the like. , And a counterpart terminal (for example, a facsimile machine or a PC) 204 connected to the communication line 203.
[0031]
The facsimile apparatus 201 is connected to the communication line 203, can perform facsimile communication with the counterpart terminal 204, and can also be wirelessly connected to the information processing terminals 202a to 202b.
[0032]
In the above embodiment, since the wireless part is a Bluetooth interface, each information processing terminal 202a to 202b has a built-in unit for Bluetooth communication, or a unit for Bluetooth communication is each information processing terminal 202a to 202b. If connected to 202b, image data, various data, and programs can be transmitted and received between the information processing terminals 202a to 202b.
[0033]
Further, the facsimile apparatus 201 can be connected to the information processing terminal 202c by wire. In the above embodiment, since the wired part is a USB interface, each of the information processing terminals 202c has a built-in USB communication unit, or the USB communication unit is connected to the information processing terminal 202c. Then, image data, various data, and programs can be transmitted / received to / from the information processing terminal 202c.
[0034]
Further, in the above embodiment, the facsimile apparatus is adopted as the image processing apparatus. However, the present invention is not limited to this. For example, a multifunction apparatus having a scanner function and a printer function may be used. Other image processing apparatuses such as an added E-Mail terminal may be used.
[0035]
FIG. 3 is a diagram illustrating an example of a hierarchical structure of control software executed by the CPU 101 of the facsimile apparatus 201.
[0036]
As shown in FIG. 3, there are five types of control tasks in the uppermost layer of the control software: a Scanner control task 301, a Printer control task 302, a Fax control task 303, an MMI control task 304, and a Phone control task 305. Each control task 301 to 305 controls device control and user operation of the facsimile apparatus 201.
[0037]
In the lower layer, there is a job control task 306. The job control task 306 analyzes and distributes jobs from the event control task 307, which is the lower layer, and queues them to the control tasks 301 to 305 in the uppermost layer. I do.
[0038]
The event control task 307 analyzes the event received from the lower-level Bluetooth control task 308 or the USB control task 321, and issues a command to the corresponding control task among the control tasks 301 to 305 in the uppermost layer. Perform queuing.
[0039]
When the Bluetooth control task 308 receives information to be transmitted from the event control task 307 of the higher layer to the information processing terminal 202 via the Bluetooth interface, the Bluetooth control task 308 delivers the information to the Bluetooth controller 309 of the lower layer. When receiving the information addressed to the upper layer from the Bluetooth controller 309 of the lower layer, the Bluetooth control task 308 delivers the information to the event control task 307 of the upper layer.
[0040]
The Bluetooth controller 309, together with the Bluetooth driver 310, converts the information received from the upper layer of the Bluetooth controller 309 into wireless information in accordance with “Generic Access Profile” of Bluetooth and “Serial Port Profile” which is a subordinate concept thereof. Form an interface. Since the air interface is a known technique, its description is omitted.
[0041]
On the other hand, when the USB control task 321 receives information to be transmitted from the upper layer event control task 307 to the information processing terminal 202 through the USB interface, the USB control task 321 delivers the information to the lower layer USB controller 322. When the USB control task 321 receives information addressed to the upper layer from the USB controller 322 of the lower layer, the USB control task 321 delivers the information to the event control task 307 of the upper layer.
[0042]
The USB controller 322, together with the USB driver 323, forms a so-called USB interface that converts information received from an upper layer of the USB controller 322 into wired information in accordance with the USB standard. Since the USB interface is a known technique, its description is omitted.
[0043]
The OS 311 is a built-in operating system of the facsimile apparatus 201, and has known functions for performing task switching, event management, memory management, and the like for each layer of the control software. The OS is, for example, μITRON.
[0044]
FIG. 4 is a diagram illustrating an example of a hierarchical structure of control software executed by each CPU (not shown) in each of the information processing terminals 202a to 202c.
[0045]
Each of the information processing terminals 202a to 202c is an information processing terminal in which both a Bluetooth as a wireless interface and a USB as a wired interface are mounted, but it is not always necessary to mount two interfaces.
[0046]
In FIG. 4, when control information is exchanged between the information processing terminals 202a to 202c and the facsimile apparatus 201, information generated by the facsimile manager 401, the printer application 404, the scanner application 406, etc. in the uppermost layer is Control information is exchanged by passing to the interface module 408 via the box 402, the outbox 403, the printer driver 405, and the scanner driver 407.
[0047]
Regardless of whether the control is performed by the facsimile manager 401 or one of the drivers, the interface module 408 transfers a file such as a facsimile image to be transmitted or an image to be scanned, and a facsimile received image. Manages batch transfer of images to be read and printed.
[0048]
When receiving the information to be transmitted from the higher layer interface module 408 to the facsimile apparatus 201 via the Bluetooth interface, the Bluetooth control task 409 delivers the information to the lower layer Bluetooth controller 410. When receiving the information addressed to the upper layer from the lower layer Bluetooth controller 410, the Bluetooth control task 409 hands over the information to the interface module 408 of the upper layer.
[0049]
The Bluetooth controller 410, together with the Bluetooth driver 411, converts the information received from the upper layer of the Bluetooth controller 410 into wireless information according to the “Generic Access Profile” of Bluetooth and the “Serial Port Profile” which is a lower concept thereof. A so-called air interface is formed.
[0050]
On the other hand, when the USB control task 421 receives information to be transmitted from the higher layer interface module 408 to the facsimile apparatus 201 via the USB interface, the USB control task 421 delivers the information to the lower layer USB controller 422. When the USB control task 421 receives information addressed to the upper layer from the USB controller 422 of the lower layer, the USB control task 421 delivers the information to the interface module 408 of the upper layer.
[0051]
The USB controller 422, together with the USB driver 423, forms a so-called USB interface that converts information received from an upper layer of the USB controller 422 into wired information in accordance with the USB standard.
[0052]
The OS 412 is an operating system installed in each of the information processing terminals 202a to 202c, and manages each layer of the control software and a base part in an application control service. The OS is, for example, Windows (registered trademark).
[0053]
FIG. 5 is a timing chart showing a wireless communication operation when the image processing system ISD1 according to the embodiment is activated.
[0054]
In FIG. 5, when the power of the facsimile apparatus 201 is turned on, one of the information processing terminals 202a to 202b with the facsimile apparatus 201 and the plurality of Bluetooth interfaces (for example, the information processing terminal 202a) is displayed. Shows an initialization process performed in cooperation with and a process until a transition to a standby state.
[0055]
Since the facsimile apparatus 201 and the information processing terminals 202a to 202b each form a piconet, this processing is performed when the facsimile apparatus 201 is powered on. At this time, it is assumed that the information processing terminals 202a to 202b have already been powered on.
[0056]
When the power of the facsimile apparatus 201 is turned on, first, each task in the facsimile apparatus 201 is initialized. When the Bluetooth control task 308 is initialized, the Bluetooth control task 308 initializes the Bluetooth controller 309. When the Bluetooth controller 309 is initialized, the Bluetooth controller 309 initializes the Bluetooth driver 310. After the initialization, the Bluetooth control task 308 performs a process for connecting to the information processing terminal 202a.
[0057]
That is, the Bluetooth control task 308 transmits an inquiry transmission request to the Bluetooth controller 309 in order to confirm that the connected information processing terminal 202a is in a communicable state. At this time, “Class of Device” information in the Inquiry command is transmitted as a “serial communication terminal”.
[0058]
Upon receiving the Inquiry transmission request, the Bluetooth controller 309 performs an inquiry procedure according to the Bluetooth connection procedure using the wireless communication function of the Bluetooth driver 310 and notifies the Bluetooth control task 308 of the result (“Inquiry Result”).
[0059]
When receiving the “Inquiry Result”, the Bluetooth control task 308 determines whether or not it can be connected to the information processing terminal 202a from the content, and if it can be connected, specifies the address of the information processing terminal 202a. Then, a connection request is made to the Bluetooth controller 309. On the other hand, when the connection fails or the information processing terminal 202a as the connection destination is not found from the contents of “Inquiry Result”, a message to that effect is displayed on the display unit (not shown) of the facsimile apparatus 201.
[0060]
When receiving the connection request, the Bluetooth controller 309 establishes a connection using “Serial Port Profile” to the Bluetooth controller 410 based on the Bluetooth standard via the Bluetooth driver 411 of the information processing terminal 202a. When the connection is established, the Bluetooth controller 309 notifies the Bluetooth control task 308 of the result.
[0061]
When the Bluetooth control task 308 detects from the connection result that the connection with the information processing terminal 202a has been established, the Bluetooth control task 308 notifies the MMI control task 304 via the event control task 307 and the job control task 306. The MMI control task 304 is displayed on the operation unit 108.
[0062]
Also, the attributes of the connection procedure (printer, scanner, facsimile, etc.) may be notified to the MMI control task 304 via the event control task 307 and job control task 306, and displayed on the operation unit 108 by the MMI control task 304. it can. Also, the information processing terminal 202a (its address, attribute, etc.) with which the connection has been established is registered in the connection destination list in the RAM 103. Then, it waits for a command from the information processing terminal 202a.
[0063]
On the other hand, if the connection fails, the Bluetooth control task 308 waits until the connection is established.
[0064]
When the Bluetooth control task 308 receives a message indicating that connection establishment has failed from the connection result, the message is notified to the MMI control task 304 via the event control task 307 and the job control task 306, and the MMI The control task 304 is displayed on the operation unit 108.
[0065]
The Bluetooth controller 410 of the information processing terminal 202a notifies the Bluetooth control task 409 of the result of the connection establishment procedure with the facsimile apparatus 201. When the Bluetooth control task 409 detects that the connection is established from the result of the connection establishment procedure, the Bluetooth control task 409 transmits a Ready signal to the facsimile manager 401. The facsimile manager 401 that has received the Ready signal displays a message to the effect that the connection has been established on the display unit of the information processing terminal 202a.
[0066]
Further, connection procedure attributes (printer, scanner, facsimile, etc.) can be displayed on the display section of the information processing terminal 202a. In addition, the facsimile apparatus 201 (its address, attribute, etc.) with which the connection has been established is registered in the connection destination list of the storage unit (not shown) of the information processing terminal 202a. When the Bluetooth control task 409 receives a message indicating that connection establishment has failed from the connection result, the Bluetooth control task 409 displays the message on the display unit of the information processing terminal 202a.
[0067]
When the facsimile manager 401 receives the Ready signal from the Bluetooth control task 409, the facsimile manager 401 sends a command for transferring the date information, the name registered in the facsimile manager 401, and the like stored in the information processing terminal 202a to the facsimile apparatus 201. Send to control task 409.
[0068]
The Bluetooth control task 409 transfers the received command as it is to the Bluetooth controller 410, and the Bluetooth controller 410 uses the “Serial PortProfile” via the Bluetooth driver 411 to transfer it to the facsimile apparatus 201.
[0069]
The Bluetooth controller 309 of the facsimile apparatus 201 transmits the command transmitted from the information processing terminal 202a to the Bluetooth control task 308, and the Bluetooth control task 308 passes the command to the event control task 307 as it is.
[0070]
The event control task 307 analyzes the received command and sends the result to the Bluetooth control task 308.
[0071]
When the initialization process is completed as described above, the facsimile manager 401 issues a reception information acquisition command in order to check whether or not there is a reception image in the facsimile apparatus 201. The event control task 307 that has received the reception information acquisition command searches whether there is a received image in the image management record stored in the RAM 103. If there is a received image, a response “with image” is returned to the reception information acquisition command issued by the Bluetooth control task 308, and if there is no received image, a response “without image” is returned.
[0072]
When the facsimile manager 401 determines that there is an image based on the response to the received information acquisition command, the facsimile manager 401 performs a received image transfer process according to the process shown in FIG.
[0073]
On the other hand, when determining that there is no received image, the facsimile manager 401 issues a status information acquisition command in order to store the status of the facsimile apparatus 201. Upon receiving the status information acquisition command, the event control task 307 checks the status relating to the facsimile apparatus 201 such as the printer status, the scanner status, and the memory status, and returns a response to that effect.
[0074]
If the facsimile manager 401 determines that it is in an error state based on the response to the status information acquisition command, it displays a message indicating the error state on the display unit of the information processing apparatus 202a until the error state is resolved. A reception information acquisition command and a state information acquisition command are periodically issued to the event control task 307.
[0075]
If there is no received image and the state of the facsimile apparatus 201 is normal, the communication between the information processing terminal 202a and the facsimile apparatus 201 is connected until the facsimile apparatus 201 receives or until a scanning operation is performed. Therefore, the facsimile apparatus 201 may shift to the Park mode, which is a power consumption mode.
[0076]
That is, first, the Bluetooth control task 308 of the facsimile apparatus 201 requests the Bluetooth controller 309 to shift to the Park mode. The Bluetooth controller 309 that has received the Park mode transition request executes a Park mode transition procedure with the Bluetooth controller 410 according to the Bluetooth standard.
[0077]
When the transition procedure is finished, the respective Bluetooth controllers 309 and 410 notify the respective Bluetooth control tasks 308 and 409 that the transition to the Park mode has been made.
[0078]
In the above embodiment, the Park mode is selected as the power saving mode. However, the present invention is not limited to this, and any other power saving mode, that is, the Sniff mode or the Hold mode may be selected.
[0079]
Note that when initialization processing is performed, or when registration data is changed at the information processing terminal 202a and registration data is transferred to the facsimile apparatus 201, the received image is set not to be transferred to the information processing terminal 202a. The Bluetooth control task 308 between the manager 401 and the facsimile apparatus 201 may wait in a state in which the state is shifted to the Park mode without issuing the reception information acquisition command and the status information acquisition command.
[0080]
In FIG. 5, when the power of the facsimile apparatus 201 is turned on, the facsimile apparatus 201 and one of the plurality of information processing terminals 202a to 202b with Bluetooth interfaces (for example, the information processing terminal 202a) The initialization process and the process up to the transition to the standby state are shown, but not only when the power of the facsimile apparatus 201 is turned on, but at any timing (button operation by the operator, device movement) The same processing as described above is also performed for the construction of the wireless network by the case of entering the communication range of
[0081]
In addition, it is possible to start the initialization process from the information processing terminal 202a. In this case, it may be considered that the procedure and direction until the connection is established are all opposite.
[0082]
FIG. 6 is a timing chart showing a wired communication operation when the image processing system IDS1 according to the embodiment is activated.
[0083]
In FIG. 6, when the power of the information processing terminal 202 is turned on, the facsimile apparatus 201 and the information processing terminal 202c with the USB interface work together to shift to a standby state. The process up to is shown. The facsimile apparatus 201 and the information processing terminal 202c form a USB function and a USB host, respectively, and this processing is performed when the information processing terminal 202c is powered on. At this time, it is assumed that the power of the facsimile apparatus 201 has already been turned on.
[0084]
When the information processing terminal 202c is powered on, first, each task in the information processing terminal 202c is initialized. When the USB control task 421 is initialized, the USB control task 421 initializes the USB controller 422. When the USB controller 422 is initialized, the USB controller 422 initializes the USB driver 423. The USB control task 421 that has been initialized performs processing for connecting to the facsimile apparatus 201.
[0085]
That is, the USB control task 421 transmits an attribute transmission request to the USB controller 422 in order to confirm that the connection destination facsimile apparatus 201 is in a communicable state. At this time, it is transmitted as a “printing class” of the USB device class.
[0086]
Upon receiving the attribute transmission request, the USB controller 422 uses the wired communication function of the USB driver 423, executes the attribute acquisition procedure according to the USB interface negotiation procedure, and notifies the USB control task 421 of the result.
[0087]
On the other hand, when the USB control task 321 in the facsimile apparatus 201 detects from the connection result that the connection with the information processing terminal 202c has been established, the information processing terminal 202c (the connection is established in the connection destination list in the RAM 103). That address). Then, it waits for a command from the information processing terminal 202c.
[0088]
If the connection fails, the USB control task 421 in the information processing terminal 202c enters a waiting state until the connection is established.
[0089]
Further, when the USB control task 321 receives a message indicating that the connection establishment has failed from the connection result, the USB control task 321 notifies the MMI control task 304 of this message via the event control task 307 and the job control task 306, and performs MMI control. The task 304 is displayed on the operation unit 108.
[0090]
The USB controller 422 of the information processing terminal 202 c notifies the USB control task 421 of the result of the connection establishment procedure with the facsimile apparatus 201. When the USB control task 421 detects that the connection is established from the result of the connection establishment procedure, the USB control task 421 transmits a Ready signal to the facsimile manager 401. Further, when the USB control task 421 receives a message indicating that connection establishment has failed from the connection result, the USB control task 421 displays it on the display unit of the information processing terminal 202c.
[0091]
When the facsimile manager 401 receives the Ready signal from the USB control task 421, a command for transferring data such as date information of the information processing terminal 202 c and data registered in the facsimile manager 401 to the facsimile apparatus 201 is sent to the USB 201. Send to control task 421.
[0092]
The USB control task 421 transfers the received command as it is to the USB controller 422, and the USB controller 422 transfers it to the facsimile apparatus 201 via the USB driver 423.
[0093]
The USB controller 322 of the facsimile apparatus 201 transmits the command transmitted from the information processing terminal 202 c to the USB control task 321, and the USB control task 321 passes the command to the event control task 307 as it is.
[0094]
The event control task 307 analyzes the received command and transmits the result to the USB control task 321.
[0095]
When the initialization process is completed as described above, the facsimile manager 401 issues a reception information acquisition command in order to check whether there is a received image in the facsimile apparatus 201. The event control task 307 that has received the reception information acquisition command checks whether there is a received image with respect to the image management record stored in the RAM 103. If there is an image received, a response “image is present” is returned to the reception information acquisition command issued by the USB control task 321; if there is no image received, a response “image is not present” is returned.
[0096]
If the facsimile manager 401 determines that there is an image based on the response to the received information acquisition command, the facsimile manager 401 performs a received image transfer process according to the process shown in FIG.
[0097]
On the other hand, if it is determined that there is no received image, the facsimile manager 401 issues a status information acquisition command to store the status of the facsimile apparatus 201. Upon receiving the status information acquisition command, the event control task 307 checks the status relating to the facsimile apparatus 201 such as the printer status, the scanner status, and the memory status, and returns a response to that effect.
[0098]
If the facsimile manager 401 determines that there is an error state based on the response to the state information acquisition command, the facsimile manager 401 displays a message indicating the error state on the display unit of the information processing apparatus 202c, and the error state is resolved. The reception information acquisition command and the status information acquisition command are periodically issued to the event control task 307.
[0099]
FIG. 7 is a timing chart showing wireless communication at the time of facsimile data transfer processing in which the facsimile apparatus 201 receives a facsimile document from the counterpart terminal 204 via the communication line 203 and transfers the received image to the information processing terminal 202a through the wireless interface. It is a chart.
[0100]
The event control task 307 periodically checks whether the state of the facsimile machine 201 has changed. When the facsimile apparatus 201 receives a facsimile document from the counterpart terminal 204 via the communication line 203, the FAX control task 303 stores a flag indicating that there is a received image to be transferred to the information processing terminal 202 a in the RAM 103. set.
[0101]
When the event control task 307 checks the flag of the RAM 103 and recognizes that there is an image to be transferred to the information processing terminal 202a, the event control task 307 transfers the received facsimile data to the information processing terminal 202a to the Bluetooth control task 308. Send a facsimile image transfer command.
[0102]
Upon receiving the facsimile image transfer command, the Bluetooth control task 308 restores communication between the facsimile apparatus 201 and the information processing terminal 202a. In order to return the communication, an Active return request is sent to the Bluetooth controller 309. The Bluetooth controller 309 that has received the Active return request communicates with the Bluetooth controller 410 of the information terminal process 202a in accordance with the Bluetooth communication return procedure.
[0103]
When the communication is restored, the facsimile received image data is transferred through the same command interface as when connected by wire, such as a parallel interface such as a conventional Centronics (standard interface standard to IEEE 1284).
[0104]
When the transfer processing of the received facsimile image data is completed, the facsimile manager 401 issues a status information acquisition command to the facsimile apparatus 201. The event control task 307 that has received the status information acquisition command checks whether or not there is an image received by the facsimile by using a flag stored in the RAM 103. return it.
[0105]
If the facsimile manager 401 determines from the response to the status information acquisition command that there is a facsimile reception image, the facsimile manager 401 re-executes the facsimile reception image transfer process.
[0106]
If it is determined that there is no facsimile received image, the event control task 307 that has received the status information acquisition command checks the status relating to the facsimile apparatus 201 such as the printer status, scanner status, memory status, etc., and returns a normal status response. return.
[0107]
If the facsimile manager 401 determines that it is in an error state based on the response to the state information acquisition command, it displays a message indicating the error state on the display unit of the information processing apparatus 202a until the error state is resolved. The reception information acquisition command and the status information acquisition command are periodically issued to the event control task 307. On the other hand, if the facsimile manager 401 determines that the state of the facsimile apparatus 201 is normal, the facsimile manager 401 suspends the issuance of the status information acquisition command and the reception information acquisition command until the mode again shifts to the Park mode that is the power consumption mode. .
[0108]
If the facsimile apparatus 201 determines that the state is normal, the facsimile apparatus 201 again shifts to the Park mode, which is a power consumption mode.
[0109]
Then, the Bluetooth control task 308 of the facsimile apparatus 201 makes a request for transition to the Park mode to the Bluetooth controller 309. The Bluetooth controller 309 that has received the Park mode transition request executes a Park mode transition procedure with the Bluetooth controller 410 in accordance with the specification of Bluetooth.
[0110]
When this transition procedure ends, the Bluetooth controllers 309 and 410 notify the Bluetooth control tasks 308 and 409 that the transition to the Park mode has been made.
[0111]
Then, the power saving Park mode is maintained until the user restarts services such as facsimile transmission, scan instruction, and printing in the information processing terminals 202a to 202b, or until the facsimile apparatus 201 performs facsimile reception and scanning operations.
[0112]
Further, the transfer of the scanned image can be applied to the wireless communication timing chart shown in FIG. That is, in the wireless communication timing chart, the facsimile received image can be replaced with the scanned read image.
[0113]
Further, simple transfer of state information can be applied to the wireless communication timing chart shown in FIG. That is, in the wireless communication timing chart, the received facsimile image can be replaced with a change in status information.
[0114]
FIG. 8 is a timing diagram showing wired communication at the time of facsimile data transfer processing in which the facsimile apparatus 201 receives a facsimile document from the counterpart terminal 204 via the communication line 203 and transfers the received image to the information processing terminal 202c via the wired interface. It is a chart.
[0115]
The event control task 307 periodically checks whether or not the state of the facsimile apparatus 201 has changed. In the facsimile apparatus 201, when a facsimile document is received from the counterpart terminal 204 via the communication line 203, the FAX control task 303 sets a flag indicating that there is a received image to be transferred to the information processing terminal 202c in the RAM 103. To do.
[0116]
When the event control task 307 checks the flag of the RAM 103 and recognizes that there is an image to be transferred to the information processing terminal 202c, the event control task 307 performs USB control to transfer the image data received by facsimile to the information processing terminal 202c. A facsimile image transfer command is sent to task 321.
[0117]
Upon receiving the facsimile image transfer command, the USB control task 321 notifies the information processing terminal 202c that there is a facsimile reception image to be transferred. In order to make this notification, a notification request is sent to the USB controller 322. The USB controller 322 that has received the notification request communicates with the USB controller 422 of the information terminal process 202c in accordance with the USB interrupt mode transfer procedure.
[0118]
When the transfer notification of the facsimile reception image is performed, the transfer processing of the facsimile reception image data is performed by the same command interface as when connected by wire with a conventional parallel interface such as Centronics (standard interface standard for IEEE1284 etc.). Do.
[0119]
When the transfer processing of the facsimile reception image data is completed, the facsimile manager 401 issues a status information acquisition command to the facsimile apparatus 201. The event control task 307 that has received the status information acquisition command checks whether there is an image received by facsimile based on a flag or the like stored in the RAM 103, and if there is a facsimile received image, “if there is a facsimile received image”. Returns a response.
[0120]
If the facsimile manager 401 determines that there is a facsimile reception image based on the response to the status information acquisition command, the facsimile manager 401 executes the facsimile reception image transfer process again.
[0121]
When determining that there is no received facsimile image, the event control task 307 that has received the status information acquisition command checks the status relating to the facsimile apparatus 201 such as the printer status, scanner status, memory status, etc. return it.
[0122]
When the facsimile manager 401 determines that it is an error state based on the response to the state information acquisition command, the facsimile manager 401 displays a message indicating this error state on the display unit of the information processing apparatus 202c, and the error state is resolved. Until then, the reception information acquisition command and the status information acquisition command are periodically issued to the event control task 307.
[0123]
The USB communication is kept in a standby state until the user restarts a service such as facsimile transmission, a scan instruction, or printing at the information processing terminal 202c or until the facsimile apparatus 201 receives a facsimile and performs a scanning operation.
[0124]
Further, the scan image transfer can be applied to the same wired communication flow as described above. That is, in the timing chart shown in FIG. 8, the received facsimile image can be replaced with the scanned image.
[0125]
Further, simple status information transfer can be applied to the wired communication timing chart shown in FIG. That is, in the timing chart shown in FIG. 8, the received facsimile image can be replaced with a change in status information.
[0126]
FIG. 9 shows a transfer method determination when the facsimile apparatus 201 receives a facsimile document from the counterpart terminal 204 via the communication line 203 and transfers the received facsimile millimeter image from the facsimile apparatus 201 to the information processing terminal 202. It is a flowchart which shows operation | movement.
[0127]
In step S101, the facsimile apparatus 201 determines whether a facsimile document is received from the counterpart terminal. If there is no facsimile reception, the determination is repeated. If there is a facsimile reception, the process proceeds to step S102.
[0128]
In step S102, it is determined whether transfer of the received image of the facsimile document is performed by Bluetooth communication or USB communication. When this determination is performed, the determination may be made based on an input signal from the operation unit 108 of the facsimile apparatus 201 and the received image may be transferred. At this time, the determination status may be displayed on the display device of the operation unit 108 of the facsimile apparatus 201.
[0129]
In addition, a priority order is determined in advance as a criterion for determining whether transfer of a received image of a facsimile document is performed by Bluetooth communication or USB communication. May be performed. Furthermore, the priority order of the determination criteria may be registered in advance, and the received image may be transferred by a possible method in descending order of the priority order. Further, the received image may be transferred in consideration of the wireless communication status of Bluetooth communication.
[0130]
In step S103, based on the result of determining the transfer method in step S102, the event control task 307 issues an image transfer request to the Bluetooth control task 308 or the USB control task 321. If Bluetooth communication is selected, the process proceeds to step S104. If USB communication is selected, the process proceeds to step S105.
[0131]
In step S104, the received facsimile image is transferred to the information processing terminal 202 by Bluetooth communication according to the timing chart shown in FIG.
[0132]
In step S105, the received facsimile image is transferred to the information processing terminal 202 by USB communication according to the sequence shown in FIG.
[0133]
Further, the transfer of the scanned image can be applied to the flowchart shown in FIG. That is, in the flowchart shown in FIG. 9, the received facsimile image can be replaced with the scanned read image.
[0134]
Further, simple transfer of status information can be applied to the flowchart shown in FIG. That is, in the flowchart shown in FIG. 9, the received facsimile image can be replaced with a change in status information.
[0135]
A storage medium storing software programs (program codes) for realizing the functions of the above embodiments is supplied to the system or apparatus, and the computer (or CPU or MPU) of the system or apparatus stores the storage medium in the storage medium. The program code may be read and executed.
[0136]
In this case, the program itself read from the storage medium realizes the new function in the embodiment, and the program and the storage medium storing the program constitute the present invention. .
[0137]
As a storage medium for storing the program, for example, a floppy (registered trademark) disk, a hard disk, an optical disk, a magneto-optical disk, a CD-ROM, a CD-R, a magnetic tape, a nonvolatile memory card, a ROM, or the like may be considered. it can. The program may be supplied from a server computer via a communication network.
[0138]
In addition, by executing the program read by the computer, not only the functions of the above-described embodiments are realized, but also the OS or the like running on the computer based on the instructions of the program performs an actual process. A case where the functions of the above-described embodiments are realized by performing part or all of the processing and the processing thereof is also included.
[0139]
Further, after the program read from the storage medium is written in a function expansion board inserted into the computer or a memory provided in a function expansion unit connected to the computer, the function expansion board is based on the instructions of the program. Also included is a case where the CPU or the like provided in the function expansion unit performs part or all of the actual processing, and the functions of the above embodiments are realized by the processing.
[0140]
The above embodiment may be applied to an image processing apparatus other than a facsimile apparatus.
[0141]
According to the above embodiment, it is possible to search for a wirelessly connectable terminal and notify the operator of the terminal that has responded.
[0142]
In addition, according to the above-described embodiment, the terminal that has detected the response can be registered. Furthermore, according to the above-described embodiment, it is possible to distinguish and display attributes that can be used by the responding terminal and attributes that cannot be used. And according to the said Example, a search instruction | indication request | requirement can be received at arbitrary timings.
[0143]
Further, according to the above embodiment, when a wireless connection is requested to a terminal storing identification information, it is not necessary to use an initial connection procedure. Furthermore, according to the above embodiment, after exchanging the attributes of the terminal, the wireless connection can be disconnected until a wireless connection request is made again with the terminal.
[0144]
【The invention's effect】
  According to the present invention, it is possible to improve the degree of freedom of the installation location of the information processing device and the connection device.
According to the first to seventh aspects of the invention, even if the connection device cannot be found, it is possible to reliably receive the image from the line, and to transfer the image to the connection device, the connection There is an effect that transfer processing in consideration of the state can be realized.
According to the eighth and ninth aspects of the invention, even if the connection device cannot be found, an image from the line can be received reliably, and power saving can be realized.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a facsimile machine 201 constituting an image processing system IDS1 according to a first embodiment of the present invention.
FIG. 2 is a block diagram illustrating an example of a configuration of an image processing system IDS1 according to the embodiment.
3 is a diagram illustrating an example of a hierarchical structure of control software executed by a CPU 101 of a facsimile apparatus 201. FIG.
FIG. 4 is a diagram illustrating an example of a hierarchical structure of control software executed by each CPU (not shown) in each information processing terminal 202a to 202c.
FIG. 5 is a timing chart showing a wireless communication operation when the image processing system ISD1 according to the embodiment is activated.
FIG. 6 is a timing chart showing a wired communication operation when the image processing system IDS1 according to the embodiment is activated.
7 is a timing diagram showing wireless communication at the time of facsimile data transfer processing in which a facsimile document is received from the counterpart terminal 204 via the communication line 203 and the received image is transferred to the information processing terminal 202a by the wireless interface in the facsimile apparatus 201. FIG. It is a chart.
FIG. 8 is a timing diagram showing wired communication at the time of facsimile data transfer processing in which the facsimile apparatus 201 receives a facsimile document from the counterpart terminal 204 via the communication line 203 and transfers the received image to the information processing terminal 202c via a wired interface. It is a chart.
FIG. 9 shows a transfer method determination in the facsimile apparatus 201 when a facsimile document is received from the counterpart terminal 204 via the communication line 203 and the received facsimile millimeter image is transferred from the facsimile apparatus 201 to the information processing terminal 202. It is a flowchart which shows operation | movement.
[Explanation of symbols]
IDS1 ... image processing system,
201 ... facsimile machine,
202 ... Information processing terminal,
204... Partner terminal.

Claims (9)

Search means for searching for wirelessly connectable devices;
Connection means for connecting to the device searched by the search means;
Changing means for changing the connection mode by the connecting means;
Discriminating means for discriminating that an image has been received via a line;
Transfer means for changing the connection mode with the device and transferring the received image to the connection device according to the determination by the determination means;
An information processing apparatus comprising: In claim 1,
The information processing apparatus characterized in that the connection means connects to the apparatus according to a Bluetooth communication standard. In claim 1,
An information processing apparatus comprising registration means for registering an apparatus to which the connection means is connected . In claim 1,
The information processing apparatus , wherein the search means is means capable of searching for the wirelessly connectable apparatus at an arbitrary timing. In claim 1,
An information processing apparatus comprising registration means for registering an attribute of a connection device to which the connection means is connected. In claim 1,
An information processing apparatus comprising display means for displaying a connection result by the connection means. A searching step for searching for wirelessly connectable devices;
A connection step for connecting to the device searched in the search step;
A change step for changing the connection mode in the connection step;
A discrimination step for discriminating that an image has been received via the line;
A transfer step of changing a connection mode with the device in the changing step and transferring a received image to the connecting device in accordance with the determination in the determining step;
A method for controlling an information processing apparatus, comprising: Search means for searching for wirelessly connectable devices;
Connection means for connecting to the device searched by the search means;
Changing means for changing the connection state by the connection means to a power saving state;
Discriminating means for discriminating that an image has been received via a line;
Transfer means for canceling the power saving state changed by the change means and transferring the received image to the connection device in accordance with the determination by the determination means;
An information processing apparatus comprising: A searching step for searching for wirelessly connectable devices;
A connection step for connecting to the device searched in the search step;
A change step of changing a connection state with the device to a power saving state;
A discrimination step for discriminating that an image has been received via the line;
A transfer step of canceling the power saving state changed in the changing step and transferring the received image to the connection device in accordance with the determination in the determining step;
A method for controlling an information processing apparatus, comprising:

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