JP2012190092A - Device utilization system with interface switching function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device utilization system capable of safely switching to a communication path even when using a device in another communication path, in a device utilization system available through both a peripheral interface and a device server.SOLUTION: While a device is used in a communication path, switching is not immediately performed even if connecting to another communication path is performed. Switching of a communication path is performed only when it is permitted after inquiring whether or not switching can be done to a PC using the communication path.

Description

  The present invention relates to interface switching in a device server system.

  With the recent expansion of computer network usage, there is an increasing demand for using PC peripheral devices on the network. A device server system is known as a means for responding to such a demand (Non-patent Document 1).

Silex Technology Co., Ltd. website <URL: http://www.silex.jp/products/deviceserver_prod.html>

  The device server system is a system that can use peripheral devices (hereinafter referred to as devices) from a PC via a network. A device server that plays a central role in a device server system includes both a network interface and a device interface, and a network and a device are connected to each interface. A PC is also connected to the same network, and the device server transmits and receives data transmission / reception requests to and from the device connected to itself by the device server. Can be used. In other words, the device server mutually converts communication between the device interface and the network interface.

  By the way, the number of interfaces provided in the device is usually one, and the device can be used by connecting it to a PC or a device server. For example, a USB (Universal Serial Bus) device is considered as a device. The USB device system is configured by a host and devices, and its topology (connection form) has a tree structure in which a plurality of devices are connected to one host. That is, a plurality of USB devices can be connected to one PC or device server corresponding to the host.

  Because of the fact that the device has one interface, it was not possible to connect the device to both the PC and the device server at the same time. That is, when connected to a PC, the device can be used only from the connected PC, and the device connected to the device server can be used only from the network.

  However, there is a strong demand to directly use devices not only via a network using a device server but also from a peripheral device interface of a PC. This is because recent devices, such as external hard disks, scanners, and TV tuners, often handle very large amounts of data compared to conventional devices, and have a problem in that performance drops over the network. On the other hand, there was a demand for convenience to use via device server rather than performance.

  In response to such demands for various usage forms, both a peripheral device interface for connecting a device to a PC with a device server built into the device itself and a network interface for connecting to a PC via the device server There is something with. FIG. 1 is an overall view of a device server system using such a device.

  A PC 101 is connected to the network, and a scanner 103 is also connected to the same network. The network interface of the scanner 103 is connected to the network, and the peripheral device interface is connected to the PC 102. By adopting such a connection form, the scanner 103 can be used from both the PC 101 and the PC 102. Of course, the PC 101 is used via the device server, and the PC 102 is used via the peripheral device interface.

  However, such a connection form has the following problems. Since the device is normally assumed to be used only from one PC, it cannot be used from a plurality of PCs at the same time. For example, when a scanner is considered as a device, a plurality of PCs cannot simultaneously perform a scanning operation. That is, in the device server system according to the present invention, the PC 102 via the peripheral device interface and the PC 101 via the device server cannot use the device at the same time.

  Although it is possible to forcibly switch each route in response to such a problem, there is a risk of adversely affecting the operation of the scanner 103 or the PC when the route being used is forcibly disconnected. Such an event is unique to the device server system according to the present invention.

  This is because the installation locations of the PC 101 via the device server and the PC 102 directly connected to the scanner which is a peripheral device are usually separated. In other words, it is dangerous for the user of each PC to forcibly switch the path because it is not easy to know whether the other PC is using the scanner.

  In view of such circumstances, the present invention is a device utilization system that can be used both via a peripheral device interface and via a device server, even when the device is being used on one communication path. It is an object of the present invention to provide a device utilization system capable of switching to the other communication path.

  The first embodiment according to the present invention is connected to a first device interface, a second device interface, a second device interface and a network connected to a first PC, and A device server for converting communication, a second PC connected to the network, a connection detecting means for detecting that the first PC is connected to the first device interface, and a connection of the first PC Is detected, the interface use determining means for determining whether or not the second PC is using the second device interface via the device server, and the interface use determining means are connected to the second device interface. Is determined to be used by the second PC, the first PC is connected to the first device interface. An information transmitting means for transmitting information based on the information received, an answer receiving means for receiving an answer to the information transmitted by the information transmitting means from the second PC, and the received answer can use the first device interface. On the basis of the information indicating that the second device interface is released, and when the use of the second device interface is released, the first device interface by the first PC is released. A device utilization system comprising: an interface activation means for enabling use.

  The second embodiment according to the present invention is connected to a first device interface, a second device interface, a second device interface, and a network connected to a first PC, and A device server for converting communication, a connection detecting means for detecting that the first PC is connected to the first device interface, and a network using the device server when the connection of the first PC is detected The interface use determining means for determining whether or not the second PC is using the second device interface, and the interface use determining means are used by the second PC for the second device interface. If it is determined that the first PC is connected, information based on the fact that the first PC is connected to the first device interface Based on information indicating that the first device interface can be used, and a response receiving unit that receives a response to the information transmitted by the information transmitting unit from the second PC. The release means for releasing the use of the second device interface and the interface activation for enabling the use of the first device interface by the first PC when the use of the second device interface is released. A device comprising: means.

  According to a third embodiment of the present invention, a device includes a first device interface unit connected to the first PC, a second device interface unit, a second device interface unit, and a network. Are connected to each other, device server means for mutually converting communication, connection detecting means for detecting that the first PC is connected to the first device interface means, and connection of the first PC is detected. An interface use determining means for determining whether the second PC is using the second device interface means via the network using the device server means, and an interface use determining means for the second device. When it is determined that the second PC is using the interface means, the second device interface is connected to the second PC. Information transmitting means for transmitting information based on the fact that the first PC is connected to the communication means, answer receiving means for receiving an answer to the information transmitted by the information transmitting means from the second PC, and the received answer being the first When the use of the second device interface means and the release means for releasing the use of the second device interface means are released based on the information that the use of the first device interface means is possible, A program that functions as an interface activation unit that enables the first device interface unit by the first PC.

  The fourth embodiment according to the present invention is connected to a first device interface, a second device interface, a second device interface, and a network connected to the first PC, and A device server for converting communication, a second PC connected to the network, and a connection for detecting that the second PC is connected to the second device interface via the network using the device server When the connection between the detection means and the second PC is detected, the interface use determination means and the interface use determination means for determining whether or not the first PC uses the first device interface, If it is determined that the first device interface is used by the first PC, the second device interface is connected to the first PC. Information transmitting means for transmitting information based on the fact that the second PC is connected to the computer, answer receiving means for receiving an answer to the information transmitted by the information transmitting means from the first PC, and the received answer being the second A release means for releasing the use of the first device interface based on the information indicating that the device interface can be used, and the second PC when the use of the first device interface is released. And an interface activation means for enabling the second device interface according to the above.

  According to the present invention, in the device utilization system that can be used both via the peripheral device interface and via the device server, the switch means appropriately controls the exclusive switching of the respective communication paths. Even while using the device, it is possible to safely switch to the other communication path.

Since the system according to the present invention is the same as that shown in FIG.
[Scanner function block diagram]

  FIG. 2 is a functional block diagram of the scanner 103. The first device interface 201 is an interface for a peripheral device for connecting to the PC 102, and is, for example, USB or IEEE 1394. The same applies to the second device interface 202. However, the second device interface 202 is connected to the PC 101 via the device server 203.

  The switch means 204 is a characteristic feature of the present invention, and will be described in detail later. The first device interface 201 and the second device interface 202 for the scanner main body data bus 205 under predetermined conditions Switch the connection.

FIG. 3 is a functional block diagram showing details of the switch means 204.
The connection detection unit 304 is a unit that detects that the PC 102 is connected to the first device interface 201. When this is detected, the connection detection unit 304 notifies the interface use determination unit 305 of this fact.

  The interface use determination unit 305 determines whether or not the second device interface 202 is in use. As can be seen from the figure, specifically, it is determined whether or not it is used by the PC 101 via the network using the device server 203. If the result of determination is that it is in use, this is notified to the information transmission means 306.

  The information transmission unit 306 transmits to the PC 101 that the PC 102 is connected to the first device interface 201 via the device server 203. Specifically, the information to be transmitted is for determining whether or not to permit the connection of the PC 102. An example of the screen on the PC 101 is shown in FIG. Note that this screen is displayed by an application (not shown) included in the PC 101 that has received the information.

  The response receiving unit 307 is a unit that receives a response from the PC 101 for the information transmitted by the information transmitting unit 306. Specifically, it is information as to whether or not the use of the first device interface 201 is permitted. When the information permitting use is received, the release means 308 is notified of this fact.

  The release unit 308 releases the use of the second device interface 202 and notifies the interface activation unit 309 of this fact.

The interface activation unit 309 makes the first device interface 201 usable. With the above processing, the first device interface 201 can be used, and the PC 102 can use the scanner 103.
[Device operation flow]

  FIG. 4 is an operation flow of the switch means 204. Each process of the flow is performed mainly by the above-described means (see the figure).

  In step 401, it is determined whether or not the PC 102 is connected to the first device interface 201. If the connection is detected, the process proceeds to step 402.

  In step 402, it is determined whether or not the second device interface 202 is in use.

  In step 403, the fact that the PC 102 is connected to the first device interface 201 is transmitted to the PC 101.

  If an answer to step 403 is received from the PC 101 at step 404, the process proceeds to step 405.

  If the received answer indicates permission OK in step 405, the process proceeds to step 406. On the other hand, if the received answer indicates that it is not permitted (No) in step 405, the connection of the PC 102 is rejected and the process returns to step 401. ) Is frequently performed. Instead, a flow may be used in which some notification is transmitted to the answer receiving unit 307 when the use of the PC 101 ends.

  In step 406, the second device interface 202 that has been used is released.

In step 407, the first device interface 201 is activated and made usable.
[Other Examples]

  In the embodiments so far, the release unit 308 exists on the scanner 103 side, but may exist on the PC 101 side. In this case, after receiving information from the information transmission unit 306 and determining whether or not the user is possible, the PC 101 is disconnected. Such processing is possible because the purpose of the present invention is to prevent the PC using the device from being suddenly disconnected, so even the determination of disconnection can be made on the PC in use. For example, either the device or the PC may execute the disconnection process.

  The device does not need to be a scanner, and the present invention can be applied to any device.

  In the embodiments so far, for a device that can be used both via the peripheral device interface and via the device server, a pattern is disclosed in which a PC is connected to the peripheral device interface while the device is being used via the device server. However, in the opposite case, that is, when the peripheral device interface is being used by the PC and connected from the PC via the device server, the same applies. That is, it is realizable by using the switch means 204 demonstrated in the previous Example. A functional block in this case is shown in FIG.

The connection detection unit 304 is a unit that detects that the PC 101 is connected to the second device interface 202, and when this is detected, notifies the interface use determination unit 305 of this fact.

  The interface use determination unit 305 determines whether or not the first device interface 201 is in use. If the result of determination is that it is in use, this is notified to the information transmission means 306.

  The information transmission unit 306 transmits to the PC 102 that the PC 101 is connected to the second device interface 202. Specifically, the information to be transmitted is for determining whether or not the connection of the PC 101 is permitted. A screen example on the PC 102 is the same as that in FIG.

  The response receiving unit 307 is a unit that receives a response from the PC 102 with respect to the information transmitted by the information transmitting unit 306. Specifically, this is information as to whether or not the use of the second device interface 202 is permitted. When the information permitting use is received, the release means 308 is notified of this fact.

  The release unit 308 is a unit that releases the use of the first device interface 201 and notifies the interface activation unit 309 of this fact.

The interface activation unit 309 makes the second device interface 202 usable. With the above processing, the second device interface 202 can be used, and the PC 101 can use the scanner 103.
[Summary]

According to the present invention, in the device utilization system that can be used both via the peripheral device interface and via the device server, the switch means appropriately controls the exclusive switching of the respective communication paths. Even while using the device, it is possible to safely switch to the other communication path.

Overall system diagram Device functional block diagram Detailed functional block diagram of switch means (1) Operation flow of switch means Example screen on PC101 Detailed functional block diagram of switch means (2)

101 PC
102 PC
201 first device interface 202 second device interface 203 device server 304 connection detection means 305 interface use determination means 306 information transmission means 307 reply reception means 308 release means 309 interface activation means

Claims (4)

A first device interface connected to the first PC;
A second device interface;
A device server connected to the second device interface and the network and converting communication with each other;
A second PC connected to the network;
Connection detecting means for detecting that the first PC is connected to the first device interface;
Interface connection determining means for determining whether the second PC is using the second device interface via the device server when the connection of the first PC is detected;
When the interface usage determining means determines that the second PC interface is being used by the second PC, the second PC is connected to the first device interface and the first PC is connected to the first PC interface. An information transmission means for transmitting information based on the fact that is connected,
An answer receiving means for receiving an answer to the information sent by the information sending means from the second PC;
Release means for releasing the use of the second device interface based on the information that the received answer is that the use of the first device interface is possible;
Interface activation means for enabling use of the first device interface by the first PC when use of the second device interface is released;
A device utilization system comprising: A first device interface connected to the first PC;
A second device interface;
A device server connected to the second device interface and the network and converting communication with each other;
Connection detecting means for detecting that the first PC is connected to the first device interface;
Interface use determining means for determining whether or not the second PC is using the second device interface via the network using the device server when the connection of the first PC is detected; ,
When the interface usage determining means determines that the second PC interface is being used by the second PC, the second PC is connected to the first device interface and the first PC is connected to the first PC interface. An information transmission means for transmitting information based on the fact that is connected,
An answer receiving means for receiving an answer to the information sent by the information sending means from the second PC;
Release means for releasing the use of the second device interface based on the information that the received answer is that the use of the first device interface is possible;
Interface activation means for enabling use of the first device interface by the first PC when use of the second device interface is released;
A device comprising: Device
First device interface means connected to the first PC;
A second device interface means;
Device server means connected to the second device interface means and the network, and for converting communication with each other;
Connection detecting means for detecting that the first PC is connected to the first device interface means;
When the connection of the first PC is detected, an interface usage determination is made to determine whether the second PC is using the second device interface means via the network using the device server means. Means,
If the interface use determining means determines that the second device interface means is being used by the second PC, the second PC is connected to the first device interface means. An information transmission means for transmitting information based on the fact that the PC is connected;
An answer receiving means for receiving an answer to the information sent by the information sending means from the second PC;
Release means for releasing the use of the second device interface means based on the information that the received response is that the first device interface means can be used;
Interface activation means for enabling use of the first device interface means by the first PC when use of the second device interface means is released;
Program to make it work. A first device interface connected to the first PC;
A second device interface;
A device server connected to the second device interface and the network and converting communication with each other;
A second PC connected to the network;
Connection detecting means for detecting that the second PC is connected to the second device interface via the network using the device server;
Interface use determining means for determining whether the first PC is using the first device interface when connection of the second PC is detected;
When the interface usage determining means determines that the first PC is using the first device interface, the first PC is connected to the second device interface and the second PC is connected to the second PC interface. An information transmission means for transmitting information based on the fact that is connected,
An answer receiving means for receiving an answer to the information sent by the information sending means from the first PC;
Release means for releasing the use of the first device interface based on the information that the received response indicates that the second device interface can be used;
Interface activation means for enabling use of the second device interface by the second PC when use of the first device interface is released;
A device utilization system comprising: