JP2010211764A - Image forming device and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To restrain an increase in power consumption in an image forming device, caused by a signal transmitted from a communication line. <P>SOLUTION: In a period in which a power saving state is set to a control part 30 which processes image forming instructions and simultaneously transmitted signals, a communication part 31 receives the simultaneously transmitted signals, in which a preliminarily determined character string is described in a data area, to set the control part 30 to an operating state. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an image forming apparatus and a program.

An image forming apparatus such as a printer connected to a communication line such as a network normally shifts to a power saving state in which power consumption is reduced depending on, for example, the reception status of a signal such as an image forming command sent from the communication line. . However, if the number of times of return from the power saving state by a signal other than an image forming command in the image forming apparatus increases, the effect of reducing the power consumption of the image forming apparatus by shifting to the power saving state cannot be obtained sufficiently.
For example, Patent Document 1 describes a technique for turning on / off a network circuit at regular intervals to save power in a system in which a plurality of printers are connected to the network.

JP 2004-110695 A

Here, in general, it is unclear whether or not signals transmitted simultaneously to an unspecified number of people, such as multicast and broadcast, need to be processed by the own device. Therefore, in the image forming apparatus, when a signal transmitted simultaneously is received, the signal processing unit that processes the signal returns from the power saving state, and determines whether the signal needs processing. For this reason, in a communication environment where there are many signals transmitted simultaneously such as multicast, the number of times the signal processing unit returns from the power saving state increases, and the power consumption of the image forming apparatus is not sufficiently reduced.
An object of the present invention is to suppress an increase in power consumption in an image forming apparatus due to a signal transmitted from a communication line.

  The invention according to claim 1 is a receiving means for receiving an image forming command transmitted to the own apparatus via a communication line and a simultaneous transmission signal transmitted all at once via the communication line; an operating state; A power saving state in which power consumption is lower than the operating state, and processing means for processing the image forming command and the simultaneous transmission signal received by the receiving means in the operating state; and power saving in the processing means And a setting means for setting the processing means to an operating state by receiving the simultaneous transmission signal in which a predetermined character string is described in a data area in a period in which the state is set. An image forming apparatus characterized by the above.

According to a second aspect of the present invention, in the receiving unit, a communication port for receiving the broadcast signal is determined in advance, and in the setting unit, the character string is converted into data by the predetermined communication port of the receiving unit. 2. The image forming apparatus according to claim 1, wherein the processing unit is set to an operating state by receiving the simultaneous transmission signal described in a region.
In the invention according to claim 3, the setting means describes a predetermined second character string between a predetermined first character string and a predetermined third character string in the data area of the simultaneous transmission signal. The image forming apparatus according to claim 1, wherein the processing unit is set to an operating state when it is set.
According to a fourth aspect of the present invention, the setting means includes a second character string having a predetermined amount of data described following the first character string predetermined in the data area of the simultaneous transmission signal. The image forming apparatus according to claim 1, wherein the processing unit is set to an operating state when the character string matches.

  The invention according to claim 5 is provided with a function of receiving an image formation command transmitted to the apparatus through a communication line and a simultaneous transmission signal transmitted all at once through the communication line, to the computer. The broadcast signal in which a predetermined character string is described in a data area is received in a period in which a power saving state in which power consumption is lower than an operating state is set in a processing unit that processes the image formation command and the broadcast signal. By doing so, it is a program characterized by realizing the function of setting the processing means to the operating state.

According to a sixth aspect of the present invention, the function of setting the processing means to the operating state is the processing by receiving the simultaneous transmission signal in which the character string is described in a data area through a predetermined communication port. 6. The program according to claim 5, wherein the means is set to an operating state.
In the invention according to claim 7, whether or not a predetermined second character string is described between a predetermined first character string and a predetermined third character string in the data area of the simultaneous transmission signal. And the function of setting the processing means to the operating state is characterized in that the processing means is set to the operating state when it is determined that the second character string is described. The program according to claim 5.
According to an eighth aspect of the present invention, a character string having a predetermined amount of data described following a first character string determined in advance in the data area of the simultaneous transmission signal matches a predetermined second character string. And a function for setting the processing means to the operating state is to set the processing means to the operating state when it is determined that the character string matches the second character string. The program according to claim 5, wherein:

According to the first aspect of the present invention, an increase in power consumption in the image forming apparatus due to a signal transmitted from the communication line can be suppressed as compared with a case where the present invention is not adopted.
According to the second aspect of the present invention, it is possible to narrow down the simultaneous transmission signals to be determined for the transition to the operating state, and it is necessary to set the processing means to the operating state as compared with the case where the present invention is not adopted. The transmission signal can be easily and quickly selected.
According to claim 3 of the present invention, a character string to be determined in the data area of the simultaneous transmission signal can be easily obtained by storing a plurality of predetermined character strings as compared with the case where the present invention is not adopted. Can be identified.
According to claim 4 of the present invention, a character string to be determined in the data area of the simultaneous transmission signal is stored by storing a predetermined character string and data amount as compared with the case where the present invention is not adopted. Can be easily identified.

According to claim 5 of the present invention, an increase in power consumption in the image forming apparatus due to a signal transmitted from the communication line can be suppressed as compared with a case where the present invention is not adopted.
According to the sixth aspect of the present invention, it is possible to narrow down the simultaneous transmission signals to be determined for the transition to the operating state, and it is necessary to set the processing means to the operating state as compared with the case where the present invention is not adopted. The transmission signal can be easily and quickly selected.
According to claim 7 of the present invention, compared to the case where the present invention is not adopted, by storing a plurality of predetermined character strings, it is possible to easily determine the character string to be determined in the data area of the simultaneous transmission signal. Can be identified.
According to claim 8 of the present invention, a character string to be determined in the data area of the simultaneous transmission signal is stored by storing a predetermined character string and data amount as compared with the case where the present invention is not adopted. Can be easily identified.

1 is a diagram illustrating a configuration example of an image forming system according to an embodiment. It is a block diagram explaining the structure of the terminal device of this Embodiment. 1 is a block diagram illustrating a configuration of an image forming apparatus according to an exemplary embodiment. It is a figure explaining the operation mode set with the image forming apparatus of this Embodiment. It is the figure which showed an example of the protocol classification and port number which are memorize | stored in a character string memory | storage part, and the combination of a specific character string. (A) Data configuration of a broadcast signal in which a character string that matches a combination of three specific character strings specified in correspondence with a protocol type and a port number is described in the data area, and (b) a protocol type in the data area FIG. 5 is a diagram showing the data structure of a simultaneous transmission signal in which a character string that matches a combination of two specific character strings designated corresponding to a port number is described. 6 is a first half of a flowchart showing an example of the contents of processing performed when the image forming apparatus of the present embodiment receives a packet; 6 is a second half of a flowchart showing an example of the contents of processing performed when the image forming apparatus of the present embodiment receives a packet;

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
<Description of image forming system>
FIG. 1 is a diagram illustrating a configuration example of an image forming system 1 according to the present embodiment. In the image forming system 1 illustrated in FIG. 1, for example, terminal devices 2 </ b> A to 2 </ b> C (hereinafter, “terminal devices”) as examples of external devices installed in a work space (for example, a desk) of a user (operator, worker) or the like. 2 ”) and image forming apparatuses 3A and 3B (hereinafter also referred to as“ image forming apparatus 3 ”) as examples of image forming apparatuses that form images on paper based on an image forming command from the terminal device 2. Are connected to each other via a network 4 as an example of a communication line such as a LAN (Local Area Network), a WAN (Wide Area Network), and the Internet. The communication line may include a telephone line, a satellite communication line (for example, a spatial transmission line in digital satellite broadcasting), and the like.
Normally, a plurality of terminal apparatuses 2 and a plurality of image forming apparatuses 3 can be connected on the network 4, but in FIG. 1, as an example of the image forming system 1, three terminal apparatuses 2 and 2 are respectively connected. 4 illustrates a configuration in which four image forming apparatuses 3 are connected, and includes a configuration in which four or more terminal devices 2 and three or more image forming devices 3 are connected to a network 4.

<Description of terminal device>
First, the terminal device 2 (2A to 2C) will be described.
The terminal device 2 connected to the network 4 uses, for example, a personal computer (PC), and creates / stores image data including documents, graphics, graphics, photographs, and the like.
FIG. 2 is a block diagram illustrating the configuration of the terminal device 2 according to the present embodiment. As illustrated in FIG. 2, the terminal device 2 includes a control unit 20 that performs operation control of the entire terminal device 2 and various types of information processing, an image data creation unit 21 that creates image data according to predetermined application software, and a user. Is provided with a user interface (UI) unit 22 for receiving an instruction input and displaying various information to the user. Further, the terminal device 2 includes a communication unit 24 that communicates with the external storage unit 23 in which programs, various data, and the like are stored, and the network 4, and transmits an image formation command related to image data to the image forming device 3, for example. Yes. Further, the terminal device 2 includes a power supply unit 25 that supplies power to each component of the terminal device 2.
The control unit 20, the image data creation unit 21, the UI unit 22, the external storage unit 23, the communication unit 24, and the power supply unit 25 are connected to a PCI (Peripheral Components Interconnect bus) bus 26 and transmit / receive signals to / from each other. Do.

  The above-described components of the terminal device 2 are realized by cooperation of software and hardware resources. Specifically, in the external storage unit 23, an operating system for controlling each component of the terminal device 2, application software for executing a specific function of each component in cooperation with the operating system, and an image A printer driver program for generating an image formation command (print command: hereinafter referred to as “print job”) to the image forming apparatus 3 related to image data created by the data creation unit 21 or image data stored in the external storage unit 23 Etc. are stored. Then, an arithmetic device (CPU) (not shown) of the terminal device 2 reads these programs from the external storage unit 23 into the main storage device (for example, RAM), and the control unit 20, the image data creation unit 21, the communication unit 24, and the like. The process which implement | achieves the function of each structure part of is performed.

<Description of print job generation / transmission processing in terminal device>
When a printing instruction from the user is input to the UI unit 22 in the terminal device 2, the control unit 20 reads the printer driver program from the external storage unit 23 and activates it. Accordingly, the control unit 20 executes print job generation processing related to the image data created by the image data creation unit 21 or the image data stored in the external storage unit 23 in accordance with the printer driver program. Then, the control unit 20 transmits the generated print job from the communication unit 24 to the image forming apparatus 3.
Note that “image formation command (print job)” refers to image data, for example, the number of copies, paper size, N-up (printing that allocates N pages of an electronic document within one page of paper), the size of margins, and the like. Means a set of commands and data to which various attribute data specifying the print format are added.

<Description of Service Requested from Terminal Device to Image Forming Apparatus via Network>
The control unit 20 of the terminal device 2 reads various application softwares from the external storage unit 23 and activates them, and requests (packets) for requesting provision of various services (services) to the image forming apparatus 3 connected to the network 4. Is transmitted from the communication unit 24.
Specifically, the control unit 20 of the terminal device 2 requests the image forming apparatus 3 to provide the following various services, for example. That is, a service that refers to setting / management information in an MIB (Management Information Base) in the image forming apparatus 3 using SNMP (Simple Network Management Protocol) and returns the result, WS-Discovery (Web Services Dynamic Discovery) A service that responds to device search requests using IP, a service that responds to IP (Internet Protocol) address notification requests, a service that responds to a request to reference setting / management information in the image forming apparatus 3 using a Web browser, and NetWare The image forming apparatus 3 is requested to provide a service that satisfies the print request.
In this case, the control unit 20 includes a protocol type (TCP (Transmission Control Protocol) or UDP (User Datagram Protocol)) described in a packet transmitted to the image forming apparatus 3 and a service requested to the image forming apparatus 3 and Specify the destination port number (hereinafter referred to as port number). The protocol type is described in the packet network layer (IP header) and specifies the protocol type of the transport layer. The port number is described in the transport layer (TCP header or UDP header) of the packet, and is information for specifying the upper protocol. By specifying the protocol type and port number in the packet, the protocol for executing various services requested by the packet is uniquely determined. Therefore, the service that is requested to the image forming apparatus 3 is specified in the image forming apparatus 3 by the protocol type and the port number specified in the packet.

<Description of Image Forming Apparatus>
Next, the image forming apparatus 3 (3A, 3B) will be described.
The image forming apparatus 3 according to the present embodiment sets a service for selecting (filtering) whether or not to accept a request for a service requested to be provided from the terminal device 2 during the power saving state setting period. For this purpose, filtering is performed to determine whether or not a multicast packet, which is an example of a simultaneous transmission signal that simultaneously transmits the same packet to a plurality of partners (image forming apparatus 3) in the network 4, is accepted during the power saving state setting period. The target protocol type and communication port are set in advance. When a multicast packet in which the protocol type to be filtered and the number assigned to the communication port (port number) is received is received, a specific character string described in the data area (payload) of the multicast packet Based on the above, it is determined whether or not to return from the power saving state. As a result, when the data area includes a specific character string, the image forming apparatus 3 returns from the power saving state.

That is, whether or not the image forming apparatus 3 according to the present embodiment specifies and accepts in advance the protocol type and port number described in the header area of the multicast packet (simultaneous transmission signal) when shifting to the power saving state. Limit the services to be selected. Furthermore, a specific character string included in the data area (payload) of the multicast packet is designated in advance in association with the designated protocol type and port number. If the specified protocol type and port number are described in the header area of the multicast packet sent from the terminal device 2, the specific protocol specified in correspondence with the specified protocol type and port number It reacts only to the multicast packet whose character string is described in the data area, and returns from the power saving state.
On the other hand, when a multicast packet that does not describe the protocol type and port number to be filtered is received, or the protocol type and port number to be filtered are described but the data area does not contain a specific character string When the packet is received, the image forming apparatus 3 does not return from the power saving state.
Accordingly, the number of times of returning from the power saving state due to a multicast packet (simultaneous transmission signal) transmitted via the network 4 is reduced, and power consumption in the image forming apparatus 3 is reduced.
In this case, in addition to the multicast packet or instead of the multicast packet, a broadcast packet that is an example of a broadcast signal that broadcasts the same packet to a plurality of counterparts (image forming apparatus 3) in the network 4 Also, the same processing may be performed.

  Generally, a request destination of a service is specified in a packet that requests a print job or a service that responds to a setting / management information reference request using SNMP or a Web browser. Therefore, packets requesting these services are sent to the image forming apparatus 3 by unicast, for example, in which the packets are transmitted from the terminal device 2 on a one-to-one basis. Such a packet transmitted from the terminal device 2 by unicast describes identification information of the image forming apparatus 3 such as a destination MAC (Media Access Control) address and a destination IP address. By filtering at, it is immediately determined whether or not the packet is addressed to itself in the communication unit. Accordingly, the image forming apparatus 3 only needs to return from the power saving state only when a packet that needs to be processed by itself is received.

  In contrast, in a communication environment in which the IP address of the image forming apparatus 3 is automatically assigned by, for example, a DHCP (Dynamic Host Configuration Protocol) server, the IP address is automatically set when the image forming apparatus 3 finishes communication. Are collected and assigned to another image forming apparatus 3. For this reason, the IP address of the image forming apparatus 3 may be changed. Thereby, for example, the terminal device 2 that intends to transmit a print job may need to know the IP address of the image forming device 3. In that case, the image forming apparatus 3 broadcasts the IP address notification request of the image forming apparatus 3 using, for example, WS-Discovery as a multicast packet. That is, since the terminal apparatus 2 does not have information regarding the IP address of the image forming apparatus 3, for example, the UUID (Universally Unique Identifier) of the image forming apparatus 3 is specified, and the image forming apparatus 3 to which the specified UUID is assigned. For example, the network 4 is searched with a multicast packet using WS-Discovery.

  In this case, the image forming apparatus 3 that has received the multicast packet determines whether or not the packet is addressed to itself because the identification information such as the destination MAC address and the destination IP address is not described in the multicast packet. Can not. Therefore, in the image forming apparatus 3, normally, a specific communication port corresponding to multicast (for example, port 3702 in WS-Discovery) is always set in a state of accepting multicast packets, and multicast for which the service request target is itself. A state that can handle packets is set. Then, when a multicast packet is acquired at a specific communication port corresponding to multicast, an image that is a functional unit that determines a packet in order to determine whether the multicast packet needs to be processed by itself The control unit (CPU) of the forming apparatus 3 is returned from the power saving state. Then, the control unit that has returned from the power saving state determines, for example, whether or not the UUID described in the multicast packet is assigned to itself, and if it is the UUID assigned to itself, An address will be returned.

However, for example, the terminal devices 2A to 2C constituting the image forming system 1 request notification of the IP address of any one of the plurality of image forming devices 3A and 3B connected to the network 4, for example. When the multicast packet to be transmitted is transmitted, each of the image forming apparatuses 3A and 3B must return from the power saving state in response to all of the multicast packets sent from the terminal apparatuses 2A to 2C. For this reason, for example, even when an IP address notification request is sent to the image forming apparatus 3A, both the image forming apparatuses 3A and 3B return from the power saving state.
Then, for example, in a large-scale network 4 in which about several tens to several hundreds of terminal devices 2 and about several tens to several hundreds of image forming apparatuses 3 are connected, the data is transmitted from one terminal device 2A, for example. By the multicast packet, the control units of about several tens to several hundreds of image forming apparatuses 3 are simultaneously restored from the power saving state. Further, the control unit of each image forming apparatus 3 returns from the power saving state by a multicast packet from each of several tens to several hundred terminal apparatuses 2.
For this reason, the number of times the control unit of each image forming apparatus 3 is restored from the power saving state increases, and thereby the power consumed by the entire image forming system 1 becomes extremely large.

Therefore, when the image forming apparatus 3 according to the present embodiment shifts to the power saving state, for example, whether the protocol type and the port number described in the header area of a simultaneous transmission signal such as a multicast packet are designated in advance and accepted. Limit the services to be selected. Furthermore, a specific character string included in the data area of the simultaneous transmission signal is designated in advance in correspondence with the designated protocol type and port number. If the designated protocol type and port number are described in the simultaneous transmission signal sent from the terminal device 2, a specific character designated corresponding to the designated protocol type and port number The column reacts only to the broadcast signal described in the data area and returns from the power saving state.
On the other hand, when a broadcast signal that does not specify the protocol type and port number to be filtered is received, or the protocol type and port number to be filtered are specified, but the data area does not contain a specific character string When the simultaneous transmission signal is received, the image forming apparatus 3 does not return from the power saving state.
Accordingly, the number of times of returning from the power saving state due to the simultaneous transmission signal transmitted via the network 4 is reduced, and the power consumption in the image forming apparatus 3 is reduced.

Subsequently, the configuration of the image forming apparatus 3 of the present embodiment that performs the above-described operation will be described.
FIG. 3 is a block diagram illustrating the configuration of the image forming apparatus 3 according to the present embodiment. As shown in FIG. 3, the image forming apparatus 3 communicates with the control unit 30 that performs various information processing including operation control of the entire image forming apparatus 3 and image processing, and the network 4 to transmit signals (packets). A communication unit 31 is provided as an example of a receiving unit for receiving.
The image forming apparatus 3 also includes a user interface (UI) unit 32 that receives an instruction input from a user at an operation input unit (not shown) and displays various information to the user at a display unit (not shown). An image output unit 33 as an example of an image forming unit that forms an image on a sheet according to a print job transmitted from the terminal device 2 via the network 4 is provided. As the image output unit 33, for example, an electrophotographic image forming engine is used.
In addition, the image forming apparatus 3 includes various programs such as an operating system for controlling each component of the image forming apparatus 3 and application software that executes a specific function of each component in cooperation with the operating system. In addition, an external storage unit 34 configured by, for example, a hard disk (HDD) that stores various data such as image data is provided.

  Further, the image forming apparatus 3 converts, for example, 100 V AC power supplied from a commercial power source or AC power from the commercial power source into a predetermined DC voltage (for example, 24 V, 12 V, 5 V, 3 V), and the respective components. An electric power supply unit 35 is provided. The power supply unit 35 supplies or stops driving system power or control system power to each component unit according to the operation mode (operation state) of the image forming apparatus 3 set by the control unit 30. On the other hand, the power supply unit 35 constantly supplies control system power to the communication unit 31 regardless of the operation mode.

The control unit 30, the communication unit 31, the UI unit 32, the image output unit 33, the external storage unit 34, and the power supply unit 35 disposed in the image forming apparatus 3 are connected to the PCI bus 36, and mutually transmit signals. Send and receive.
The above-described components of the image forming apparatus 3 are realized by cooperation of software and hardware resources. Specifically, an arithmetic unit (CPU) (not shown) of the image forming apparatus 3 reads various programs such as an operating system and application software from the external storage unit 34 into the main storage device (for example, RAM), and controls the control unit 30 and communication. The processing for realizing the functions of the components such as the unit 31, the UI unit 32, the image output unit 33, the external storage unit 34, and the power supply unit 35, or the operation control and information processing for each component are executed.

  In addition, as another provision form regarding various programs such as the operating system and application software, a form that is provided in a state stored in advance in a read-only storage device (ROM) and loaded into the main storage device (RAM). There is. Further, when a rewritable ROM such as an EEPROM is provided, there is a form in which only a program is installed in the ROM and loaded into the RAM after the arithmetic unit (CPU) is set. Further, there is a form in which a program is transmitted to a CPU via a network 4 such as the Internet, installed in a ROM, and loaded into a RAM. Furthermore, there is a form that is loaded into the RAM from an external recording medium such as a DVD-ROM or a flash memory.

<Description of Function of Control Unit of Image Forming Apparatus>
Next, functions of the control unit 30 of the image forming apparatus 3 will be described.
First, the control unit 30 of the image forming apparatus 3 has a function of processing a print job transmitted from the terminal device 2 to the image forming apparatus 3 itself via the network 4, for example. That is, the control unit 30 performs processing (image processing) on the image data included in the print job in accordance with the print job transmitted from the network 4, and transfers the image processed image data to the image output unit 33.

Further, the control unit 30 has a function of controlling the operation mode (operation state) of the image forming apparatus 3 in accordance with, for example, the reception status of a packet such as a print job from the terminal device 2. FIG. 4 is a diagram for explaining an operation mode set in the image forming apparatus 3 of the present embodiment. As illustrated in FIG. 4, for example, the control unit 30 includes, as operation modes, “image forming operation mode” and “standby mode” as an example of an operation state, and “sleep mode” as an example of a power saving state. Selectively set.
The image forming operation mode is set when image-processed image data is transferred to the image output unit 33, and the image output unit 33 performs an image forming operation on a sheet according to a print job. State. The standby mode is set, for example, when a print job is acquired from the terminal device 2 or when an instruction is input from the user via the UI unit 32. The standby mode is an operation state in which, for example, the control unit 30 immediately shifts to the image forming operation mode when image processing relating to all or part of the image data included in the print job is completed. Furthermore, the standby mode may be set in a predetermined period (standby time T) after the end of the image forming operation mode. In the image forming operation mode and the standby mode corresponding thereto, the drive system power is supplied from the power supply unit 35 to the components that perform the operation related to the image formation in the image forming apparatus 3, and the operation related to the control / processing in the image forming apparatus 3 is performed. Control system power is supplied to the components to be performed.

In the sleep mode, for example, even when a predetermined waiting time T after the image forming operation mode ends and the standby mode is set has elapsed, a print job is again received by the communication unit 31 or a user in the UI unit 32 This is an operation state set when there is no instruction input. In the sleep mode, normally, only the operation input unit (not shown) of the communication unit 31 and the UI unit 32 continues to operate, and the other components including the control unit 30 stop operating. That is, in the sleep mode, supply of control system power from the power supply unit 35 to the operation input unit of the communication unit 31 and the UI unit 32 is continued. On the other hand, the drive system power from the power supply unit 35 to the components that perform operations related to image formation in the image forming apparatus 3 is stopped, and the operations related to control / processing in the image forming apparatus 3 including the control unit 30 are performed. Control system power to the components to be performed is stopped. Thereby, power saving of the image forming apparatus 3 in the sleep mode is achieved.
However, even in the sleep mode, when it is necessary to determine whether the signal received by the communication unit 31 needs to be processed by itself, the control unit 30 returns from the stopped state (for example, , Region C of FIG. 4). In this case, the power consumption in the sleep mode is increased by the amount of power consumed by the control unit 30.

  The control unit 30 of the image forming apparatus 3 is an example of a processing unit that processes a packet (signal) received from the network 4 by the communication unit 31, and provides various services requested by the received packet (signal). Has the function to provide. That is, the control unit 30 analyzes the received packet, and specifies the service requested by the packet to the image forming apparatus 3 by the protocol type and the port number described in the packet. Then, a service is provided based on the protocol specified by the protocol type and the port number. Furthermore, information generated by providing the service is transmitted to the packet transmission source via the communication unit 31 as necessary.

Furthermore, the control unit 30 has a function of designating a simultaneous transmission signal such as a multicast packet that is accepted by the communication unit 31 when shifting to the sleep mode. Specifically, the control unit 30 sets a service to be filtered by specifying in advance the protocol type and port number described in the header area of the broadcast signal for the communication unit 31. Furthermore, a specific character string included in the data area of the simultaneous transmission signal is designated in advance in correspondence with the designated protocol type and port number. The communication unit 31 includes a protocol type and port number designated in advance, and a broadcast signal in which a specific character string designated in advance corresponding to the protocol type and port number is described in the data area. When receiving, the communication part 31 returns the control part 30 from a power saving state. Thereby, the control part 30 provides the service requested | required with a simultaneous transmission signal.
Accordingly, the simultaneous transmission signal received by the communication unit 31 when the sleep mode is set is limited, and the number of times the control unit 30 returns from the sleep mode due to the simultaneous transmission signal is reduced. Reduce power consumption.

<Description of Communication Unit of Image Forming Apparatus>
Next, the communication unit 31 of the image forming apparatus 3 will be described.
The communication unit 31 of the image forming apparatus 3 performs data communication with the network 4. As shown in FIG. 3, the communication unit 31 is a communication control unit 311 that controls data communication between the control unit 30 and the network 4, and data transmission / reception between the communication control unit 311 and the PCI bus 36. A PCI interface (PCI_I / F) unit 312, and a network interface (NET_I / F) unit 313 for transmitting and receiving data between the communication control unit 311 and the network 4.

Further, the communication unit 31 includes a packet determination unit 314 and a character string storage unit 315.
The packet determination unit 314 acquires the packet received from the NET_I / F unit 313 from the communication control unit 311. Further, filtering is performed based on identification information such as a destination MAC address and a destination IP address of the acquired packet, and it is determined whether or not the acquired packet is addressed to itself. The determination result is notified to the communication control unit 311. For example, if the received packet is a print job addressed to itself, the communication control unit 311 is notified of that fact.

  The packet determination unit 314 is an example of a determination unit. When a broadcast signal such as a multicast packet is received during the sleep mode setting period, a protocol described in the header area of the received broadcast signal is received. Select the filtering target based on the type and port number. If a pre-designated protocol type and port number are described in the header area of the broadcast signal, the data area is checked next. Then, it is determined whether or not a specific character string specified in correspondence with a protocol type and port number specified in advance is included in the data area of the simultaneous transmission signal, and the determination result is notified to the communication control unit 311. To do. For example, if the protocol type and port number specified in advance in the received broadcast signal are described in the header area and the specific character string is a broadcast signal included in the data area, the communication control unit 311 Notify that.

<Description of the character string to be restored from the power saving state>
On the other hand, the character string storage unit 315 uses a protocol type and port number specified in advance when the packet determination unit 314 determines a simultaneous transmission signal, and a specific type specified in advance corresponding to the protocol type and port number. The combination of character strings is stored. The protocol type and port number stored in the character string storage unit 315 and a combination of specific character strings are set by the control unit 30 when shifting to the sleep mode.
The “specific character string combination” in this case is, for example, a first specific character string (first character string), a second specific character string (second character string), and a third specific character string (first character string). 3 character strings), and a combination of three specific character strings. The “specific character string combination” includes, for example, a first specific character string (first character string) followed by a second specific character string (second character string) having a predetermined number of bytes. You may comprise by the combination of two specific character strings. That is, the “specific combination of character strings” includes a character string to be discriminated in the data area, a leading index that defines the start (tip) of the character string to be discriminated, and a character string to be discriminated. It consists of a rear end index that defines the end (rear end).

  FIG. 5 is a diagram illustrating an example of a combination of a protocol type and port number stored in the character string storage unit 315 and a specific character string. FIG. 5 exemplifies a case where UDP that is a protocol type related to WS-Discovery and port 3702 that is a port number are designated as a service using WS-Discovery as a filtering target. FIG. 5A shows a configuration example in which a combination of three specific character strings is set as a specific character string specified corresponding to the protocol type and port number, and FIG. 5B shows two specific character strings. The example of a structure which set the combination of these is shown.

In the configuration example shown in FIG. 5A, the character string to be determined in the data area is the second specific character string (A_2), and the second specific character string (A_2) to be determined is Designation of the first specific character string (A_1) that is the leading index that defines the beginning and the third specific character string (A_3) that is the trailing index that defines the end of the second specific character string (A_2) is doing. Thereby, the packet determination unit 314 is sandwiched between the first specific character string (A_1) and the third specific character string (A_3) stored in the character string storage unit 315 from the data area of the simultaneous transmission signal. Extract a string. If the extracted character string matches the second specific character string (A_2) stored in the character string storage unit 315, the communication control unit 311 is notified of this fact. Thereby, the communication control unit 311 returns the control unit 30 from the sleep mode.
In the configuration example shown in FIG. 5B, the character string to be discriminated in the data area is the second specific character string (B_2), and the second specific character string (B_2) is discriminated. For example, it is specified that the character string is composed of, for example, 64 bytes following the first specific character string (B_1), which is a leading index for defining the start of the second specific character string (B_2) as a target. The number of bytes of the second specific character string (B_2) here is a rear end index that defines the end of the second specific character string (B_2) to be determined. Thereby, the packet determination unit 314 determines a character string having a data length (for example, 64 bytes) following the first specific character string (B_1) stored in the character string storage unit 315 from the data area of the simultaneous transmission signal. Extract. If the extracted character string matches the second specific character string (B_2) stored in the character string storage unit 315, the packet determination unit 314 notifies the communication control unit 311 of that fact. Thereby, the communication control unit 311 returns the control unit 30 from the sleep mode.

FIG. 6 shows (a) a data structure of a simultaneous transmission signal in which a character string matching a combination of three specific character strings designated corresponding to a protocol type and a port number is described in the data area, and (b) a data area. FIG. 4 is a diagram showing the data structure of a broadcast signal in which character strings that match a combination of two specific character strings specified in correspondence with protocol types and port numbers are described.
In FIG. 6A, the first specific character string (A_1) that is the leading index of the character string to be discriminated is <d: Types>, and the third specific character string (A_3) that is the trailing index. Is </ d: Types>. The character string to be discriminated is sandwiched between <d: Types> which is the first specific character string (A_1) and </ d: Types> which is the third specific character string (A_3). "Printer". If this “Printer” matches the second specific character string (A_2) stored in the character string storage unit 315, the packet determination unit 314 notifies the communication control unit 311 of that fact.
In FIG. 6B, the first specific character string (B_1) that is the leading index of the character string to be determined is <a: EndpointReference>, and the character string to be determined is the first specific character string. The character string (B_1) <a: EndpointReference> is a character string having a predetermined data length (rear end index) and “uuid: 98765ac2-0670-4ad7-ac5a-9812345e3214”. If this “uuid: 98765ac2-0670-4ad7-ac5a-9812345e3214” matches the second specific character string (B_2) stored in the character string storage unit 315, the packet determination unit 314 notifies the communication control unit 311 to that effect. To be notified.

  In the image forming apparatus 3 according to the present embodiment, the communication unit 31 performs data communication with the network 4 in any setting of the image forming operation mode, the standby mode, and the sleep mode. When the sleep mode (power saving state) is set in the image forming apparatus 3, when the NET_I / F unit 313 of the communication unit 31 acquires (receives) a print job addressed to itself from the terminal device 2. The communication control unit 311 instructs the power supply unit 35 to supply control system power to the control unit 30. As a result, the power supply unit 35 starts supplying control system power to the control unit 30, and returns the control unit 30 (CPU) from the stopped state.

As described above, during the period when the sleep mode is set in the image forming apparatus 3, the communication unit 31 determines that the packet determination unit 314 when the NET_I / F unit 313 acquires (receives) a simultaneous transmission signal. The simultaneous transmission signal is filtered at. That is, the packet determination unit 314 checks the data area next if the protocol type and port number designated in advance are described in the header area of the broadcast signal. Thereby, the simultaneous transmission signal is narrowed down temporarily by the protocol type and the port number. Then, it is determined whether or not a specific character string designated in association with a protocol type and port number designated in advance is included in the data area of the simultaneous transmission signal. Thereby, the simultaneous transmission signal is secondarily narrowed down by a specific character string in the data area. As a result, if the protocol type and port number specified in advance in the received broadcast signal are described in the header area and the specific character string is a broadcast signal included in the data area, the communication control unit 311 To that effect. Then, the communication control unit 311 instructs the power supply unit 35 to supply control system power to the control unit 30. As a result, the power supply unit 35 starts supplying control system power to the control unit 30, and returns the control unit 30 (CPU) from the stopped state.
On the other hand, when the packet determination unit 314 determines that the packet is a simultaneous transmission signal that does not describe the protocol type and port number to be filtered, or when a protocol type and port number to be filtered are described, a specific character string is present in the data area. If it is determined that the transmission signal is not included, the communication control unit 311 does not instruct the power supply unit 35 to supply control system power to the control unit 30. Thereby, the control unit 30 (CPU) maintains the stopped state.
Thus, the communication unit 31 (communication control unit 311) and the power supply unit 35 return the control unit 30 from the stopped state (power saving state) to set the operating state, or put the control unit 30 in the stopped state. It has a function as setting means for setting to maintain.

<Description of packet reception processing>
In the image forming apparatus 3 of the present embodiment, processing for a packet received by the communication unit 31 will be described.
Next, FIG. 7 and FIG. 8 are flowcharts showing an example of the contents of processing performed when the image forming apparatus 3 of the present embodiment receives a packet.
First, as shown in the flowchart of FIG. 7, in the image forming apparatus 3 according to the present embodiment, the communication control unit 311 of the communication unit 31 acquires packets transmitted via the network 4 by the NET_I / F unit 313. Is monitored (step 101). When the NET_I / F unit 313 acquires a packet from the network 4 (Yes in Step 101), the communication control unit 311 transfers the acquired packet to the packet determination unit 314 (Step 102). Thereby, the packet determination unit 314 performs filtering based on identification information such as the destination MAC address and destination IP address of the acquired packet, and determines whether the acquired packet is a packet addressed to the image forming apparatus 3 itself ( Step 103).
On the other hand, when the NET_I / F unit 313 does not acquire a packet, the communication control unit 311 continues to monitor the packet from the network 4 (No in step 101).

As a result of determination by the packet determination unit 314, it is determined that the acquired packet is a packet addressed to the image forming apparatus 3 itself (Yes in step 103), and the sleep mode is set in the image forming apparatus 3 (Yes in step 104), the communication control unit 311 instructs the power supply unit 35 to supply control system power to the control unit 30 (step 105). Specifically, the communication control unit 311 generates an instruction signal instructing supply of control system power to the control unit 30 and outputs the instruction signal to the power supply unit 35 via the PCI bus 36.
In response to this, the power supply unit 35 starts supplying control system power to the control unit 30 (step 106). Thereby, the control unit 30 returns from the stopped state (step 107).
After the control unit 30 returns from the stopped state, the communication control unit 311 transfers the acquired packet addressed to the image forming apparatus 3 itself to the control unit 30 (step 108).
On the other hand, when the image forming operation mode or the standby mode is already set in the image forming apparatus 3 (No in step 104), the communication control unit 311 immediately transmits the acquired packet addressed to the image forming apparatus 3 itself to the control unit. 30 (step 108).

Thereby, the control unit 30 processes the packet. For example, when the packet is a print job, the control unit 30 shifts the image forming apparatus 3 to the standby mode, performs image processing on the image data included in the print job, and outputs the image processed image data to the image output unit. 33. Then, an image forming operation is executed in the image output unit 33. For example, when the packet requests provision of a service or the like that responds to a setting / management information reference request using SNMP or a Web browser, the control unit 30 maintains the image forming apparatus 3 in the sleep mode. Provide such services.
After transferring the packet to the control unit 30 in step 108, the communication control unit 311 returns to step 101 and monitors whether the packet transmitted via the network 4 is acquired by the NET_I / F unit 313. .

  Next, when the packet determination unit 314 determines in step 103 that the acquired packet is not specified as a packet of the image forming apparatus 3 by filtering based on identification information such as a destination MAC address or a destination IP address. If the image forming operation mode or the standby mode is already set in the image forming apparatus 3 (No in Step 109), the communication control unit 311 sends the acquired packet to the control unit. 30 (step 108). Thereby, the control unit 30 processes the packet.

On the other hand, if it is not specified that the acquired packet is the packet of the image forming apparatus 3 itself (No in step 103), and the sleep mode is set in the image forming apparatus 3 (Yes in step 109). The packet determination unit 314 refers to the protocol type and port number described in the acquired packet (step 110). Then, the packet determination unit 314 determines whether or not the protocol type and port number described in the acquired packet match the protocol type and port number stored in the character string storage unit 315 (step 111).
If the packet determination unit 314 determines that the protocol type and port number stored in the character string storage unit 315 do not match (No in step 112), the communication control unit 311 does not receive the acquired packet ( Step 113). Thereby, the communication control unit 311 does not instruct the power supply unit 35 to supply control system power to the control unit 30, and the control unit 30 is maintained in the stopped state.

On the other hand, as a result of determination by the packet determination unit 314, if the protocol type and port number stored in the character string storage unit 315 match (Yes in step 112), the process proceeds to the flowchart of FIG. The unit 314 determines whether or not a character string that matches the specific character string stored in the character string storage unit 315 is included in the data area of the packet (step 114).
In this case, as described with reference to FIG. 5A, the first specific character string (A_1) stored in the character string storage unit 315 from the data area of the packet and the third specific character string ( A character string sandwiched by A_3) is extracted. Then, it is determined whether or not the extracted character string matches the second specific character string (A_2) stored in the character string storage unit 315. Further, as described with reference to FIG. 5B above, a predetermined data length (for example, 64) following the first specific character string (B_1) stored in the character string storage unit 315 from the data area of the packet. Character string consisting of bytes). Then, it is determined whether or not the extracted character string matches the second specific character string (B_2) stored in the character string storage unit 315.
If the packet determination unit 314 determines that a character string that matches the specific character string stored in the character string storage unit 315 is included in the data area of the packet (Yes in step 115), the communication control unit In step S <b> 311, the process proceeds to step 105 and instructs the power supply unit 35 to supply control system power to the control unit 30. Subsequently, processing subsequent to step 106 is performed. Thereby, the control unit 30 processes the packet transferred from the communication control unit 311. For example, when the packet requests provision of a service that responds to a device search request using WS-Discovery or a service that responds to an IP address notification request, the control unit 30 provides such a service.

  Next, as a result of the determination by the packet determination unit 314, if it is determined that a character string matching the specific character string stored in the character string storage unit 315 is not included in the data area of the packet (step 115, No), the communication control unit 311 does not receive the acquired packet (step 116). Thereby, the communication control unit 311 does not instruct the power supply unit 35 to supply control system power to the control unit 30, and the control unit 30 is maintained in the stopped state.

As described above, the image forming apparatus 3 according to the present embodiment is described in the header area of the broadcast signal that is broadcast to the image forming apparatus 3 connected to the network 4 when shifting to the power saving state. The protocol type and port number to be selected are specified in advance, and the services to be selected for acceptance or not are limited and set. Furthermore, a specific character string included in the data area of the simultaneous transmission signal is designated in advance in correspondence with the designated protocol type and port number. When the designated protocol type and port number are described in the simultaneous transmission signal from the terminal device 2, a specific character string designated corresponding to the designated protocol type and port number is stored as data. It reacts only to the broadcast signal described in the area and returns from the power saving state.
On the other hand, when a broadcast signal that does not specify the protocol type and port number to be filtered is received, or the protocol type and port number to be filtered are specified, but the data area does not contain a specific character string When the simultaneous transmission signal is received, the image forming apparatus 3 does not return from the power saving state.
Accordingly, the number of times of returning from the power saving state due to the simultaneous transmission signal transmitted via the network 4 is reduced, and the power consumption in the image forming apparatus 3 is reduced.

DESCRIPTION OF SYMBOLS 1 ... Image forming system, 2 (2A, 2B, 2C) ... Terminal device, 3 (3A, 3B) ... Image forming apparatus, 4 ... Network, 30 ... Control part, 31 ... Communication part, 32 ... User interface (UI) 33, image output unit, 34 ... external storage unit, 35 ... power supply unit, 311 ... communication control unit, 314 ... packet determination unit, 315 ... character string storage unit

Claims (8)

Receiving means for receiving an image formation command transmitted to the own apparatus via a communication line and a simultaneous transmission signal transmitted simultaneously via the communication line;
An operating state and a power saving state in which power consumption is lower than the operating state are set, and processing means for processing the image forming command and the simultaneous transmission signal received by the receiving means in the operating state;
A setting for setting the processing means in an operating state by receiving the simultaneous transmission signal in which a predetermined character string is described in a data area in the period when the power saving state is set in the processing means. And an image forming apparatus.   The receiving means has a predetermined communication port for receiving the broadcast signal, and the setting means has the broadcast signal in which the character string is described in a data area by the predetermined communication port of the receiving means. The image forming apparatus according to claim 1, wherein the processing unit is set to an operating state by receiving the signal.   The setting means, when a predetermined second character string is described between a predetermined first character string and a predetermined third character string in the data area of the simultaneous transmission signal, the processing means The image forming apparatus according to claim 1, wherein the image forming apparatus is set in an operating state.   When the character string having a predetermined data amount described following the first character string determined in advance in the data area of the simultaneous transmission signal matches the second character string determined in advance, 2. The image forming apparatus according to claim 1, wherein the processing unit is set to an operating state. On the computer,
A function of receiving an image forming command transmitted to the own apparatus via a communication line and a simultaneous transmission signal transmitted simultaneously via the communication line;
The broadcast signal in which a predetermined character string is described in a data area in a period in which a power saving state in which power consumption is lower than an operating state is set in a processing unit that processes the received image formation command and the broadcast signal And a function for setting the processing means to an operating state by receiving the program.   The function of setting the processing means to the operating state is to set the processing means to the operating state by receiving the simultaneous transmission signal in which the character string is described in a data area through a predetermined communication port. 6. The program according to claim 5, wherein A function of determining whether a predetermined second character string is described between a predetermined first character string and a predetermined third character string in the data area of the simultaneous transmission signal;
6. The program according to claim 5, wherein the function for setting the processing means to the operating state sets the processing means to the operating state when it is determined that the second character string is described. A function of determining whether or not a character string having a predetermined amount of data described following the first character string determined in the data area of the simultaneous transmission signal matches a second character string determined in advance; Have
6. The program according to claim 5, wherein the function of setting the processing means to an operating state sets the processing means to an operating state when it is determined that the character string matches the second character string.

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