JP2012222687A - Server device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a server device which facilitates operation between devices having different communication protocols.SOLUTION: The server device comprises: a first communication unit for transmitting and receiving an operation command of a first protocol to and from a first external device using the first protocol; a second communication unit for transmitting and receiving an operation command of a second protocol to and from a second external device using the second protocol; and a controlling unit which when receiving the operation command of the first protocol from the first external device, converts the operation command to the operation command of the second protocol, and transmits thereof to the second external device.

Description

  The present invention relates to a server device that performs communication between a plurality of devices via a network, and more particularly to a server device that mediates between a plurality of different communication protocols.

  Recently, video systems utilizing network technology have been developed and implemented in various forms. For example, such video systems are composed of a plurality of cameras, video processing devices, and a plurality of monitors capable of network communication. . In this system, by controlling each unit having these communication functions by the control device, the camera corresponding to the subject to be viewed is switched using the video switching unit as required by the user, and selectively selected arbitrarily. Can be displayed on an arbitrary monitor or the like.

JP 2010-232826 A

  However, in a conventional video system having a network function, if the protocol of the network communication function is not unified, control can be performed within a common protocol range. It cannot be recognized.

  It is an object of the present invention to provide a server device that facilitates operations between devices using different communication protocols.

One embodiment to solve the problem is:
A first communication unit that transmits and receives an operation command of a first protocol to and from a first external device using the first protocol;
A second communication unit that transmits and receives an operation command of a second protocol different from the first protocol to and from a second external device using the second protocol;
When an operation command of the first protocol is received from the first external device via the first communication unit, the operation command of the first protocol is converted into an operation command of the second protocol, and the converted second protocol And a control unit that transmits the operation command to the second external device via the second communication unit.

  In a system composed of devices using a plurality of communication protocols, for example, even when a video device using a communication protocol different from the communication protocol used by the client PC is controlled, the difference in communication protocol is not conscious. This video device can be controlled from the client PC.

The figure which shows the structure of the communication system which is one Embodiment of this invention. The figure which similarly shows the other structure of a communication system. The flowchart which shows an example of the information acquisition process of the network monitoring server V similarly. The flowchart which similarly shows the command conversion process of the network monitoring server V. The flowchart which shows an example of the delivery process of the image | video similarly in a communication system.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
A configuration of a communication system according to an embodiment of the present invention will be described below with reference to FIGS. 1 and 2. First, as shown in FIG. 1, a communication system according to an embodiment of the present invention transmits and receives a video signal as an example. For example, an interface of a network camera product such as ONVIF (Open Network Video Interface Forum) is used. Although it is used as a common protocol that conforms to the communication protocol as the standardization forum, it is not limited to this protocol. As an example, this communication system includes the above-described ONVIF provided via a unique protocol compatible client PC 11 that communicates with a unique protocol that means a protocol that is not a common protocol, and a network such as a LAN (Local Area Network) or the Internet. Similarly, a client PC 12 compatible with a common protocol, an IP camera 13 compatible with a unique protocol that performs communication using a unique protocol that is not the common protocol, and an IP camera 14 compatible with a common protocol that is compliant with the ONVIF described above.

  In such a communication system using a common protocol compliant with ONVIF, the unique protocol compatible client PC 11 transmits a control command to the unique protocol compatible IP camera 13 or the common protocol compatible IP camera 14 via the network. After completion of the control process on the network product side, the response can be received by the client PC 11 corresponding to the unique protocol via the network, and the series of processes can be completed.

  In this communication system, similarly, a control command is transmitted from the common protocol compatible client PC 12 to the original protocol compatible IP camera 13 or the common protocol compatible IP camera 14 via the network. Can complete a series of processing.

  However, even if control is performed from the common protocol compatible client PC 12 to the unique protocol compatible IP camera 13, the unique protocol compatible IP camera 13 cannot recognize the control command from the common protocol compatible client PC 12, and responds to the control. I can't.

  For this reason, in the communication system of FIG. 1, the unique protocol compatible IP camera 13 and the common protocol compatible IP camera 14 cannot be simultaneously monitored from one common protocol compatible client PC 12. Thus, the unique protocol compatible IP camera 13 is monitored.

  On the other hand, in the communication system shown in FIG. 2, as an example, the above-described common protocol compatible client PC 12 compliant with ONVIF, which transmits and receives video signals and is provided via a network such as a LAN or the Internet, , A unique protocol compatible IP camera 13 that communicates with a unique protocol that is not the common protocol, a common protocol compatible IP camera 14 that complies with the above-described ONVIF, a unique protocol compatible network digital recorder 15, and a network monitoring server V ing. The network monitoring server V includes, as an example, an application including a RAM 21 that stores connected device information 20 and protocol correspondence information 19, a common protocol control unit 16, a unique protocol control unit 17, and a device information acquisition control unit 18. 22.

  Next, management information registration processing performed by the communication system having the above-described configuration shown in FIG. 2 will be described with reference to the flowchart of FIG. That is, when the network monitoring server V is connected in advance to the IP protocol 13 corresponding to the unique protocol method, the IP camera 14 corresponding to the common protocol method, and the network digital recorder 15 corresponding to the unique protocol, the device information acquisition control unit 18 applies each network product. A device information inquiry command corresponding to the unique method is transmitted to the device (step S11). The network monitoring server V receives the unique protocol device information response returned in response to the device information inquiry command from the unique protocol method compatible IP camera 13, the common protocol method compatible IP camera 14, and the unique protocol compatible network digital recorder 15. Then (Step S12), the device information acquisition control unit 18 updates and registers the responding device as the “unique protocol compatible device” in the protocol correspondence information 19 of the RAM 21 (Step S13), and the IP address, model, and the like. Is registered in the RAM 21 as the connected device information 20 (step S14).

  In addition, the device information acquisition control unit 18 of the network monitoring server V transmits a common method compatible device information inquiry command to each network product (step S15). Upon receiving the common protocol device information response (step S16), the device information acquisition control unit 18 registers the device that has responded as the “common protocol compatible device” in the protocol correspondence information 19 of the RAM 21 (step S17). Information such as the IP address and model is updated and registered as connected device information 20 in the RAM 21 (step S18). However, when both the unique protocol device information response and the common protocol device information response are received, the device information acquisition control unit 18 registers the common protocol compatible device as the protocol compatible information 19 in the RAM 21.

  Next, a method for controlling each connected network product by the common protocol compatible client PC 12 will be described with reference to the flowchart showing the control command conversion process shown in FIG. First, the case where the common protocol compatible IP camera 13 is controlled by the common protocol compatible client PC 12 will be described.

  In the communication system according to the embodiment of the present invention, when the common protocol compatible client PC 12 transmits a common control command to the network monitoring server V, the common protocol control unit 16 of the network monitoring server V receives this (step S21). The protocol correspondence information 19 and the connected device information 20 of the control target device are acquired (step S22). Next, when the common protocol control unit 16 checks the protocol correspondence information (step S23) and determines that the device is “unique protocol compatible device”, the unique protocol control unit 17 sends a control command for the common protocol to the control for the unique protocol. The command is converted into a command (step S24), and transmitted to the IP camera 13 corresponding to the unique protocol system to be controlled (step S25).

  After the control is completed in accordance with the control command in the unique protocol system compatible IP camera 13, a control response is transmitted to the network monitoring server V. When the common protocol control unit 16 of the network monitoring server V receives this control response (step S26), the unique protocol is transmitted. The control unit 17 determines whether the corresponding protocol of the device to be controlled is a unique protocol (step S27). When the unique protocol control unit 17 determines that the corresponding protocol of the control target device is the unique protocol, the unique protocol control unit 17 converts the control response for the unique protocol into the control response for the common protocol (step S28). Then, the common protocol control unit 16 transmits the converted common control response to the common protocol compatible client PC 12 (step S29). According to such a procedure, the control process of the unique protocol compatible IP camera 13 by the common protocol compatible client PC 12 is performed.

Next, the case where the common protocol compatible client PC 12 controls the common protocol compatible IP camera 14 will be described with reference to the flowchart of FIG.
When the network monitoring server V receives the common control command transmitted from the common protocol compatible client PC 12 (step S21), the common protocol control unit 16 of the network monitoring server V receives the protocol correspondence information 19 and the connected device information 20 of the control target device. Is acquired (step S22). When the common protocol control unit 16 checks the protocol correspondence information (step S23) and recognizes “common protocol compatible device”, the common protocol control unit 16 transmits a control command in the common protocol to the common protocol protocol compatible IP camera 14 to be controlled (step S25). ). After the control according to the control command is completed in the common protocol system compatible IP camera 14, a control response is transmitted to the network monitoring server V. When the network monitoring server V receives this control response (step S26), the common protocol control unit 16 determines that this control response is a common protocol (step S28), and sends the common control response to the common protocol compatible client PC 12. Transmit (step S29). As a result, the common protocol compatible IP camera 14 can be controlled by the common protocol compatible client PC 12.

Next, the case where the common protocol compatible client PC 12 controls the unique protocol compatible network digital recorder 15 will be described with reference to the flowchart of FIG.
When the network monitoring server V receives the common control command transmitted from the common protocol compatible client PC 12 (step S21), the common protocol control unit 16 of the network monitoring server V obtains the protocol correspondence information 19 and the connected device information 20 of the control target device. Obtain (step S22). Here, when the common protocol control unit 16 checks the protocol correspondence information and determines that the device is a “unique protocol compatible device” (step S23), the common protocol control unit 17 sends a control command for the common protocol to the control for the unique protocol. It is converted into a command (step S24) and transmitted to the unique protocol compatible network digital recorder 15 (step S25).

  In response to the control command for the unique protocol, the common protocol control unit 16 of the network monitoring server V sends the control response transmitted from the unique protocol compatible network digital recorder 15 after the control is completed by the unique protocol compatible network digital recorder 15. Upon reception (step S26), the unique protocol control unit 17 determines whether the corresponding protocol of the control target device is a unique protocol (step S27). When the unique protocol control unit 17 determines that the corresponding protocol of the control target device is the unique protocol, the unique protocol control unit 17 converts the control response for the unique protocol into the control response for the common protocol (step S28), and the common protocol control unit 16 A control response for the common protocol is transmitted to the common protocol compatible client PC 12 (step S29). In this manner, the common protocol compatible client PC 12 can control the unique protocol compatible network digital recorder 15.

Finally, a case where a video from the common protocol compatible IP camera 14 is received under the control of the common protocol compatible client PC 12 will be described as an example of video distribution using the video distribution processing flowchart shown in FIG.
When the common protocol compatible client PC 12 transmits a control command before video distribution connection to the network monitoring server V (step S31), the common protocol control unit 16 of the network monitoring server V receives the control command (step S32). Then, the protocol correspondence information 19 and the connected device information 20 of the control target device are acquired and the protocol correspondence information is checked (step S33). When the common protocol control unit 16 recognizes that the result of the check process is “common protocol compatible device”, the common protocol control unit 16 transmits a control command in the common protocol to the IP protocol 14 corresponding to the common protocol protocol to be controlled (step S34).

  When receiving the control command, the common protocol compatible IP camera 14 performs a control process in accordance with the control command and then transmits a control response to the network monitoring server V (step S35). When receiving the control command response (step S36), the common protocol control unit 16 of the network monitoring server V transmits the control command response to the common protocol compatible client PC 12 (step S37).

  When the common protocol compatible client PC 12 receives this control command response before video distribution connection (step S38), RTSP (Real Time Streaming) based on a URL (Uniform Resource Locator) (common protocol compatible IP camera 14) included in the response. Protocol) A connection request is transmitted to the common protocol compatible IP camera 14 (step S39). When the process according to the RTSP command is performed, the common protocol compatible IP camera 14 transmits a response to the common protocol compatible client PC 12 (step S40). When the RTSP connection is completed, video distribution from the common protocol compatible IP camera 14 to the common protocol compatible client PC 12 is started (step S41), and the common protocol compatible client PC 12 receives the distribution video and responds to the distribution video. Video display is performed (step S42).

  As described above with reference to the flowchart of FIG. 5, in the communication system according to the embodiment of the present invention, when video distribution from the common protocol compatible IP camera 14 to the common protocol compatible network product is performed as described above. Since video distribution can be performed without going through the network monitoring server V, the network load can be reduced.

  As described above in detail, in the communication system according to the embodiment of the present invention, even when the protocol used by the device to be controlled is mixed in the original protocol and the common protocol, the common protocol compatible client PC In the case of controlling from the beginning, it is possible to perform the control without being aware of the protocol.

  A plurality of the various embodiments described above can be implemented at the same time. With these descriptions, those skilled in the art can realize the present invention, but various modifications of these embodiments can be conceived. It is easy for a person skilled in the art and can be applied to various embodiments without inventive ability. Therefore, the present invention covers a wide range consistent with the disclosed principle and novel features, and is not limited to the above-described embodiments.

  DESCRIPTION OF SYMBOLS 11 ... Client PC corresponding to an original protocol, 12 ... Client PC corresponding to a common protocol, 13 ... IP camera corresponding to an original protocol, 14 ... IP camera corresponding to a common protocol, 15 ... Network digital recorder corresponding to an original protocol, 16 ... Common protocol controller, 17 ... Common protocol control unit, 18 ... device information acquisition control unit, 19 ... protocol correspondence information, 20 ... connected device information, 21 ... RAM, 22 ... application, V ... network monitoring server.

Claims (1)

A first communication unit that transmits and receives an operation command of a first protocol to and from a first external device using the first protocol;
A second communication unit that transmits and receives an operation command of a second protocol different from the first protocol to and from a second external device using the second protocol;
When an operation command of the first protocol is received from the first external device via the first communication unit, the operation command of the first protocol is converted into an operation command of the second protocol, and the converted second protocol And a control unit that transmits the operation command to the second external device via the second communication unit.

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