JP4343973B2 - Information processing apparatus and information processing method - Google Patents

Description

The present invention relates to an information processing apparatus and an information processing method that are connected to a peripheral device by USB (Universal Serial Bus) connection, and relates to a recording medium that records the information processing method as a computer program.

  In recent years, as a standard interface for sending and receiving (transferring) data between information processing devices (host computers) such as personal computers and workstations and externally connected devices (peripheral devices) such as scanners, printers, and hard disk drives, USB (Universal Serial Bus) is popular. Data transfer between the host computer having the USB interface and a peripheral device (USB connection device) connected by a USB connection cable is performed based on a data transfer method defined in the USB standard.

  As an example, in the revision 1.0 of the USB specification, a single USB domain is required to support 127 devices operating on a distribution medium that provides a maximum bandwidth of 12 Mbps. On the other hand, the revised version 2.0 of the USB specification permits a bandwidth of 480 Mbps.

  However, at present, all known USB specifications limit the separation distance that the peripheral device (USB device) can be separated from the host PC (personal computer) up to 5 meters. On the other hand, when a series of USB hub devices are used, the limit of the separation distance can theoretically be extended to 30 meters. As an example, to support a single device in the 30 meter range, five hubs must be purchased. In addition, at least two of these hubs need to have power supplies. Since individual cables between hubs are limited to 5 meters, in some cases some of the hubs must be placed in very inconvenient and unsafe locations.

  In order to avoid these restrictions on the transmission distance, for example, a technique for setting the separation distance to 100 m by a method and apparatus using a local expander (LEX) and a remote expander (REX) is disclosed in Patent Document 1 Table 2002-542527).

In the technology described in Patent Document 1, in its normal form, a method for transmitting data to a host controller and peripheral devices over a wide area is provided. The method includes the following steps (a) to (m): It becomes more. That is,
(a) sending a first original output digital signal from the host controller to the local decompressor;
(b) arbitrarily converting the output digital signal into a converted output signal having a format suitable for wide-area transmission;
(c) transmitting, as an output transmission signal, either the output digital signal or the converted output signal on a signal distribution system;
(d) receiving the output transmission signal with a remote decompressor;
(e) arbitrarily converting the output transmission signal into the first original output digital signal;
(f) carrying the first original output digital signal from the remote decompressor to at least one peripheral device;
(g) receiving a response digital signal from the peripheral device at the remote decompressor;
(h) arbitrarily converting the response digital signal into a converted response signal having a format suitable for wide-area transmission by the remote decompressor;
(i) the remote decompressor transmitting either the response digital signal or the converted response signal as a response transmission signal on the signal distribution system;
(j) receiving the response transmission signal at the local decompressor;
(k) arbitrarily converting the response transmission signal into the response digital signal by the local decompressor;
(l) The response digital signal as an accumulated response digital signal until the local decompressor receives a subsequent original output digital signal that is similar or similar to the first original output digital signal output by the host controller. Step to accumulate,
(m) In response to the subsequent original output digital signal, the local decompressor transmits the storage response digital signal to the host controller.

  However, the host computer may not be able to recognize the peripheral device in a path for transmitting data from the host computer to the peripheral device using the local decompressor (LEX) and the remote decompressor (REX). Normally, such a situation occurs because there are too many data errors on the link cable. Alternatively, there may be a protocol or timing conflict between the host computer, local decompressor, remote decompressor, and peripheral device. That is, the host computer cannot recognize the peripheral device due to the influence of noise.

  There are the following (1) to (3) as noise in the data transmission path.

(1) USB cable length and noise due to mismatch of impedance between cable and connected device,
(2) Noise propagating to the USB cable from external noise sources (power cables, switching devices, etc.)
(3) Noise caused by noise from the power supply line to the power supply of the local stretcher (LEX) and remote stretcher (REX), and the IC that performs signal conversion malfunctions due to the noise propagated to the power supply.

  In addition, these noises are not only generated alone, but may be generated in combination, and there is a problem that it is difficult to isolate noise countermeasures. Furthermore, there are many cases where sufficient noise countermeasures cannot be taken due to restrictions on the size of the device and the arrangement of components.

  By the way, as an example of a method for avoiding a situation in which the host computer cannot recognize the peripheral device due to the influence of noise, the device is obtained by disconnecting the USB cable connecting the host computer and the peripheral device and reconnecting the cable. It is known to reacquire the ID. Therefore, in a consumer device, when the host computer no longer recognizes the peripheral device, it is often no problem in practical use to restore the recognition by connecting / disconnecting the cable.

However, in a production apparatus that operates for 24 hours, it is practically impossible to restore it by connecting / disconnecting a cable.
Japanese translation of PCT publication No. 2002-542527

  Accordingly, an object of the present invention is to provide an information processing apparatus capable of reliably recognizing a USB connected device connected by USB.

In order to solve the above problems, an information processing apparatus according to the present invention is connected to a USB port with a USB cable, and a signal of another protocol that can secure a longer transmission distance than a USB protocol signal from the USB cable. A local stretcher that can be converted to
Connected to the local expander with a predetermined cable, the signal of the other protocol is transmitted from the local expander, and the USB connection device is connected with the USB cable, and the signal of the other protocol is connected to the USB protocol. and remote decompressor that be transmitted from the USB cable to the USB connection apparatus is converted into the signal,
Whether or not the USB connection device is connected to the remote decompressor so that a device ID can be normally acquired based on a signal input via the remote decompressor, local decompressor, USB cable, or USB port. A connected device recognition unit that determines
Further, when the connected device recognizing unit determines that the USB connected device is not connected so that the device ID can be normally acquired in the remote decompressor, a signal representing the determination is received from the connected device recognizing unit. The local stretcher and the remote stretcher are turned off from the on -state to make the local stretcher and the remote stretcher electrically disconnected from the USB cable , and the power is turned off. And a power control unit for turning on the power after a predetermined time.

  According to the information processing apparatus of the present invention, when the connected device recognition unit determines that the USB connection device is not connected because the device ID of the USB connection device cannot be normally acquired due to the influence of noise or the like, the power control unit Turns off the power of the local decompressor and the remote decompressor connected between the USB port and the USB connection device, and turns on the power after a predetermined time from turning off the power. When the power is turned off and on, an operation corresponding to plugging / unplugging of the cable is performed, so that the device ID of the USB connected device can be acquired by the connected device recognition unit. Therefore, according to the present invention, it is possible to easily return the recognition of the USB connection device without connecting or disconnecting the cable.

Further, in the information processing how one embodiment, the step of starting the USB driver software,
Determining whether the USB driver software has started normally, and returning to the step of starting the USB driver software when it is determined that the USB driver software has not started normally;
Obtaining a device ID of a USB connected device corresponding to the specified connected device name;
Determining whether the acquired device ID is normal or abnormal;
Ending the USB driver software when it is determined that the device ID is abnormal;
After the step of ending the USB driver software, performing a timer process of turning off the power of the local decompressor and the remote decompressor and maintaining the power-off state for a predetermined time;
Turning on the local stretcher and the remote stretcher after turning off the local stretcher and the remote stretcher for a predetermined time, and
The above steps are repeated in order until a normal device ID can be acquired.

According to the information processing method of this embodiment, when the acquired device ID is abnormal due to the influence of noise or the like, the USB driver software is terminated, and then the local decompressor and the remote decompressor are powered on for a predetermined time. Just turn it off and then on. When the power is turned off and on, an operation corresponding to plugging / unplugging of the cable is performed, so that the device ID of the USB connected device can be acquired by the connected device recognition unit. Therefore, according to the present invention, it is possible to easily return the recognition of the USB connection device without connecting or disconnecting the cable.

Further, in the information processing how one embodiment, the step of obtaining the device ID of the USB connection apparatus corresponding to the specified Node Name,
Determining whether the acquired device ID is normal or abnormal;
If it is determined that the device ID is abnormal, a step of terminating the USB driver software, and a timer process for turning off the power of the local decompressor and the remote decompressor and maintaining the power-off state for a predetermined time. Performing a step of turning off the power of the local decompressor and the remote decompressor after turning off the power of the local decompressor and the remote decompressor for a predetermined time, and restarting the USB driver software. , In order, return to the step of acquiring the device ID of the USB connected device,
If it is determined that the acquired device ID is normal, a step of transferring data from the USB port to the USB connected device and a status signal indicating the state of the USB connected device after the data transfer are sent to the USB connected device. And the step of determining whether or not the data transfer error has occurred based on the status signal, and when determining that the data transfer error has occurred, Return to the step of acquiring the device ID.

According to the information processing method of this embodiment, when the device ID cannot be normally acquired due to the influence of noise or the like, the local decompressor and the remote decompressor are turned off for a predetermined time and then turned on. Reconnect the connected device. When the power is turned off and on, an operation corresponding to plugging / unplugging of the cable is performed, so that the device ID of the USB connected device can be acquired by the connected device recognition unit. If the device ID can be acquired normally, data transfer to the USB connection device is performed, and if a data transfer error occurs, the process returns to the step of acquiring the device ID, and the normal device ID of the USB connection device is returned. Can be obtained.

The recording medium of one embodiment stores a computer program for causing the information processing apparatus to execute the information processing method by the information processing apparatus of the above embodiment and is readable by the computer program.

The recording medium of one embodiment stores a computer program for causing the information processing apparatus to execute the information processing method by the information processing apparatus of the above embodiment and is readable by the computer program.

  According to the information processing apparatus of the present invention, when the connected device recognizing unit cannot acquire the device ID of the USB connected device due to the influence of noise or the like and determines that the USB connected device is not connected, the power supply control unit The local decompressor and the remote decompressor connected between the USB port and the USB connection device are turned off, and the power is turned on after a predetermined time since the power is turned off. When the power is turned off and on, an operation corresponding to plugging / unplugging of the cable is performed, so that the device ID of the USB connected device can be acquired by the connected device recognition unit. Therefore, according to the present invention, it is possible to easily return the recognition of the USB connection device without connecting or disconnecting the cable.

  Hereinafter, the present invention will be described in detail with reference to the illustrated embodiments.

(First embodiment)
FIG. 1 is a block diagram showing a state in which the information processing apparatus according to the first embodiment of the present invention is USB-connected to a USB device 17 that is a USB connection device with a USB cable 16. In FIG. 1, the end (a) and the end (b) of the USB cable 16 are continuously connected.

  As shown in FIG. 1, the information processing apparatus according to the first embodiment includes a host computer 1, a USB power control unit 2 as a power control unit, a local decompressor 13, and a remote decompressor 15.

  The host computer 1 includes a USB driver unit 3, a CPU (central processing unit) 5, a memory 6, an HDD (hard disk drive) 7, a clock oscillator, and the like. Further, the host computer 1 has a display, a keyboard, a mouse, etc. (not shown). The memory 6 includes a ROM (Read Only Memory), a RAM (Random Access Memory), etc. as recording media. The HDD 7 has a hard disk as a recording medium. Further, the CPU 5 can realize various functions by executing programs stored in the hard disk, ROM, or the like. The ROM and hard disk store programs and data for performing necessary processing. Further, necessary data is temporarily stored in the RAM.

  The USB driver unit 3 includes a USB transmission / reception unit 8 and a USB device recognition unit 10 as connected device recognition units, and is connected to the USB port 11. The USB power source controller 2 is connected to the USB device recognition unit 10.

  A local decompressor 13 is connected to the USB port 11 via a USB cable 12. The local decompressor 13 converts the USB protocol signal from the USB cable 12 into another protocol signal that can ensure a longer transmission distance than the USB protocol. The local decompressor 13 is connected to a remote decompressor 15 via a LAN cable 14. The remote decompressor 15 is connected to the USB port 18 of the USB device 17 with a USB cable 16.

  The HDD 7 included in the host computer 1 stores (embeds) an application program including image processing software for editing and printing data. The host computer 1 stores USB driver software for performing data transfer control, data conversion, error processing, and the like for realizing USB standard data transfer (transmission / reception).

  Therefore, when the USB device recognition unit 10 reads the state of the USB device 17 by the application program, the CPU 5 requests the USB driver unit 3 to transfer data according to the application program. The USB driver unit 3 transfers data to the USB device 17 via the USB port 11, the USB cable 12, the local decompressor 13, the LAN cable 14, the remote decompressor 15, and the USB cable 16, and the state of the USB device 17. The signal (status signal) indicating is transferred.

  A USB signal is input to the local decompressor 13 from the USB port 11 of the host computer 1 via the USB cable 12. The local decompressor 13 converts the input USB signal into a signal of another protocol (for example, packet communication) that can ensure a longer transmission distance than the USB protocol, and the converted signal is transmitted via the LAN cable 14. Transfer to remote decompressor 15. The remote expander 15 converts the signal input from the local expander 13 into a USB protocol signal and outputs the signal to the USB device 17 via the USB cable 16.

  Further, the USB driver unit 3 detects the connected USB device when the host computer 1 is activated (when the power is turned on) or when a peripheral device (USB device) is connected to the activated host computer 1 by USB connection. It has a USB device recognition unit 10 that detects and executes predetermined enumeration processing of the USB standard. The enumeration process is a process of reading information for controlling each USB device and assigning an address for managing each USB device. When the USB device recognition unit 10 can acquire the normal device ID of the USB device, the USB driver unit 3 receives the device ID from the USB device recognition unit 10 according to the application program on the hard disk drive 7. 8, data is transferred from the USB transmission / reception unit 8 via the USB port 11 and the USB cable 12.

  On the other hand, when the USB device 17 is a printer, for example, a recording unit 20 in which a program for controlling an operation for printing is recorded is incorporated. Further, the USB device 17 has an image data storage unit (not shown). The image data storage unit stores image data to be printed transmitted from the host computer 1 to the USB device 17 via the USB cable 12, the local decompressor 13, the LAN cable 14, the remote decompressor 15, and the USB cable 16. To do. The USB device 17 has a USB controller 19 incorporated therein. The USB controller 19 has the same function as the USB driver 3 included in the host computer 1 and controls the transfer (transmission / reception) of USB standard data between the host computer 1 and the USB device 17.

  Next, the USB power supply control unit 2 will be described. When the USB device recognition unit 10 receives a signal from the USB device recognition unit 10 indicating that the USB device recognition unit 10 has not acquired a normal device ID of the USB device 17 from the USB port 11, the local power expander 13 After the power of the remote decompressor 15 is turned off for a predetermined time, the power is turned on. This predetermined time is, for example, the time required to release the electric charge stored in the capacitor in each device (local stretcher 13, remote stretcher 15), for example, approximately 1 second or more. is there.

  Thus, by turning off the power of the local decompressor 13 and the remote decompressor 15 for a predetermined time, the same state as when the USB cables 12 and 16 connecting the host computer 1 and the USB device 17 are disconnected is obtained. . Then, after the power supply is turned off for a predetermined time, the USB power supply control unit 2 turns on the power supply, so that the local decompressor 13 and the remote decompressor 15 are operated, and the host computer 1 is connected with the USB connection. When the peripheral device USB device 17 is connected, the connected USB device can be detected.

  As described above, according to the information processing apparatus of this embodiment, when the host computer 1 cannot acquire the device ID of the USB device 17 due to noise or the like, the USB device recognition unit 10 connects the USB device to the USB port 11. The USB power supply control unit 2 that has received the signal representing the above determination from the USB device recognition unit 10 turns off the power of the local decompressor 13 and the remote decompressor 13 for a predetermined time and then turns it on. To do. As a result, a reconnection operation corresponding to the insertion and removal of the USB cables 12 and 16 is performed. This enables the host computer 1 to obtain the device ID. Therefore, according to this embodiment, the recognition of the USB device 17 can be easily restored without connecting or disconnecting the cable.

  In the above embodiment, the local expander 13 and the remote expander 15 are connected by the LAN cable 14, but may be connected by an optical cable instead of the LAN cable 14.

(Second embodiment)
Next, with reference to the flowchart of FIG. 2, for explaining the information processing how by the USB driver unit 3 in the host computer 1 provided in the information processing apparatus of the first embodiment as the second embodiment. A computer program for causing the host computer 1 to execute the information processing method of the second embodiment is recorded in the ROM of the memory 6 or the hard disk of the HDD 7.

  Processing in each step of the main flowchart shown in FIG. 2 is executed according to a USB driver control program (information processing apparatus control program) stored in the host computer 1. The main flowchart shown in FIG. 2 starts (starts) when the host computer 1 is turned on.

  First, in step S11, the USB driver software recorded on the hard disk drive 7 is activated.

  Next, proceeding to step S12, it is determined whether or not the USB driver software has been activated. If not, step S11 is executed again. On the other hand, if it is determined that the driver software has been activated, the process proceeds to step S13.

  In step S <b> 13, the USB driver unit 3 acquires the device ID of the USB connection device corresponding to the specified connection device name, for example, the USB device 17.

  Next, in step S14, the USB device recognition unit 10 determines whether or not a normal device ID has been acquired. If it is determined that the acquired device ID is abnormal, the USB device recognition unit 10 executes step S15. On the other hand, if it is determined that a normal device ID has been acquired, the process proceeds to step S19, where data transmission / reception is enabled.

  In step S15, the USB driver software is terminated. Next, proceeding to step S16, the USB power supply controller 2 turns the power of the local decompressor 13 and the remote decompressor 15 from on to off. Next, proceeding to step S17, the USB power controller 2 keeps the power of the local decompressor 13 and the remote decompressor 15 off for a predetermined time by a timer process. By the processing in step S16 and step S17, an effect equivalent to the work of removing the USB cables 12, 16 can be obtained.

  Next, in step S18, the USB power control unit 2 executes a process of turning on the power of the local expander 13 and the remote expander 15, and returns to step S11. By performing the process of turning on the power, the USB device recognition unit 10 can acquire the device ID of the USB device 17 again. As a result, the normal device ID of the USB device 17 can be acquired. Then, the USB device recognition unit 10 detects the USB device 17 connected to the remote decompressor 15 and executes a predetermined enumeration process of the USB standard. The enumeration process is a process of reading information for controlling each USB device and assigning an address for managing each USB device.

According to the information processing how this second embodiment, the influence of noise, when the host computer 1 is unable to acquire a normal device ID, turn off the power to the local expansion 13 and remote expander 15 Turn it on after a predetermined time. As a result, an operation corresponding to the reconnection of the USB cables 12 and 16 is performed, and the host computer 1 can acquire a normal device ID, and is brought into a startup completion state (data transmission / reception enabled state). can do.

(Third embodiment)
Next, an information processing method by the USB driver unit 3 in the host computer 1 included in the information processing apparatus of the first embodiment will be described as a third embodiment with reference to the flowchart of FIG. A computer program for causing the host computer 1 to execute the information processing method of the third embodiment is recorded in the ROM of the memory 6 or the hard disk of the HDD 7.

  Processing in each step of the flowchart of FIG. 3 is executed according to a USB driver control program (information processing device control program) stored in the host computer 1. The flowchart of FIG. 3 starts (starts) from a state where the information processing apparatus has been started up, that is, a state where data can be transmitted and received.

  First, in step S21, the device ID of the USB device (for example, USB device 17) corresponding to the designated connected device name is acquired.

  Next, proceeding to step S22, the USB device recognition unit 10 determines whether or not the normal device ID of the USB device has been acquired, and if it is determined that the acquired device ID is normal, the process proceeds to step S28. move on. On the other hand, if it is determined that a normal device ID could not be acquired, the process of step S23 is performed.

  In step S23, the USB driver software process is terminated. Next, proceeding to step S24, the USB power control unit 2 performs a process of turning off the power of the local decompressor 13 and the remote decompressor 15 from on. Next, proceeding to step S25, the USB power controller 2 keeps the power of the local decompressor 13 and the remote decompressor 15 off for a predetermined time by a timer process. By the processing in steps S24 and S25, an effect equivalent to the processing in which the USB cables 12 and 16 are disconnected can be obtained.

  Next, the process proceeds to step S26, in which the USB power control unit 2 executes a process of turning on the power of the local expander 13 and the remote expander 15, and then proceeds to step S27. In step S27, the USB driver software is restarted, and the process returns to step S21.

  On the other hand, in step S28, the device ID acquired in step S21 and the transmission data in the HDD 7 of the host computer 1 are transmitted from the USB transmission / reception unit 8 to the USB device 17. In step S29, the USB driver unit 3 acquires the device ID of the USB device 17. The device ID acquired here is used to acquire a status signal from the USB device 17 in step S31. This status signal is a signal for determining whether or not data transmission from the host computer 1 to the USB device 17 has been performed correctly.

  Next, the process proceeds to step S30. In step S29, it is determined whether or not the device ID of the USB device 17 has been normally acquired. If the device ID of the USB device 17 has been acquired normally, the process of step S31 is performed. . On the other hand, if the device ID of the USB device 17 cannot be acquired normally, the process returns to step S21.

  In step S31, a status signal is acquired from the USB device 17 based on the device ID obtained in step S29. This status signal is used to check whether or not the transmission data is correctly transmitted to the USB device 17. Next, proceeding to step S32, the host computer 1 determines whether or not a transmission error has occurred based on the value of the acquired status signal. If it is determined that a transmission error has occurred, step S21 is performed. Return to. On the other hand, if it is determined in step S32 that no transmission error has occurred, the data transmission / reception process is terminated.

According to the information processing how this third embodiment, the influence of noise, when the host computer 1 is unable to acquire a normal device ID, turn off the power to the local expansion 13 and the remote stretcher 15 Turn it on after a predetermined time. As a result, an operation corresponding to reconnection of the USB cables 12 and 16 is performed, the host computer 1 can acquire a normal device ID, and data transfer to the USB device 17 is normally performed. It becomes possible.

  According to the present invention, even when a signal exchanged between an information processing device and a USB connection device connected to the information processing device by USB is easily affected by various noises, the device ID of the USB connection device is normally acquired. Suitable for doing. As an example, when long-distance data transfer is performed between a USB-connected host computer and a USB connection device, the device ID acquisition status is checked every time data is transmitted and received, and the device ID cannot be acquired. By performing the operation of reacquiring the device ID, it is possible to reliably transmit and receive data.

1 is a block diagram illustrating a state where a first embodiment of an information processing apparatus according to the present invention and a USB connection device are USB-connected. FIG. Is a main flow chart for explaining the information processing how the second embodiment of the present invention. Is a main flow chart for explaining the information processing how the third embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Host computer 2 USB power supply control part 3 USB driver part 5 CPU
6 Memory 7 HDD
8 USB transmission / reception unit 10 USB device recognition unit 11, 18 USB port 12, 16 USB cable 13 Local decompressor 15 Remote decompressor 17 USB device 19 USB controller 20 Control program recording unit

Claims (5)

A local expander that is connected to a USB port with a USB cable and that can convert a USB protocol signal from the USB cable into a signal of another protocol that can ensure a longer transmission distance than the USB protocol;
Connected to the local expander with a predetermined cable, the signal of the other protocol is transmitted from the local expander, and the USB connection device is connected with the USB cable, and the signal of the other protocol is connected to the USB protocol. and remote decompressor that be transmitted from the USB cable to the USB connection apparatus is converted into the signal,
Whether or not the USB connection device is connected to the remote decompressor so that a device ID can be normally acquired based on a signal input via the remote decompressor, local decompressor, USB cable, or USB port. A connected device recognition unit that determines
Further, when the connected device recognizing unit determines that the USB connected device is not connected so that the device ID can be normally acquired in the remote decompressor, a signal representing the determination is received from the connected device recognizing unit. The local stretcher and the remote stretcher are turned off from the on -state to make the local stretcher and the remote stretcher electrically disconnected from the USB cable , and the power is turned off. And a power control unit that turns on the power after a predetermined time. An information processing method by the information processing apparatus according to claim 1,
Starting the USB driver software;
Determining whether the USB driver software has started normally, and returning to the step of starting the USB driver software when it is determined that the USB driver software has not started normally;
Obtaining a device ID of a USB connected device corresponding to the specified connected device name;
Determining whether the acquired device ID is normal or abnormal;
Ending the USB driver software when it is determined that the device ID is abnormal;
After the step of ending the USB driver software, performing a timer process of turning off the power of the local decompressor and the remote decompressor and maintaining the power-off state for a predetermined time;
Turning on the local stretcher and the remote stretcher after turning off the local stretcher and the remote stretcher for a predetermined time, and
An information processing method characterized by repeating the above steps in order until a normal device ID can be acquired. An information processing method by the information processing apparatus according to claim 1,
Obtaining a device ID of a USB connected device corresponding to the specified connected device name;
Determining whether the acquired device ID is normal or abnormal;
If it is determined that the device ID is abnormal, a step of terminating the USB driver software, and a timer process for turning off the power of the local decompressor and the remote decompressor and maintaining the power-off state for a predetermined time. Performing a step of turning off the power of the local decompressor and the remote decompressor after turning off the power of the local decompressor and the remote decompressor for a predetermined time, and restarting the USB driver software. , In order, return to the step of acquiring the device ID of the USB connected device,
If it is determined that the acquired device ID is normal, a step of transferring data from the USB port to the USB connected device and a status signal indicating the state of the USB connected device after the data transfer are sent to the USB connected device. And the step of determining whether or not the data transfer error has occurred based on the status signal, and when determining that the data transfer error has occurred, information processing how, characterized in that the flow returns to step of acquiring the device ID. A recording medium in which a computer program for causing the information processing apparatus to execute the information processing method according to claim 2 is recorded and the computer program is readable. A recording medium in which a computer program for causing the information processing apparatus to execute the information processing method according to claim 3 is recorded and the computer program is readable.

Images