KR20050078541A - Protocol for monitoring and control of home network devices - Google Patents

Abstract

The present invention relates to a home networking service, and more particularly, to a method for monitoring and controlling a home network device.

According to the present invention, there is provided a method for monitoring and controlling a home network device as a protocol between a home network serving node (HNSN) and an in-house equipment for controlling a home device by a central server. If a device control command is selected at the server, transmitting a device control message to the HNSN; The HNSN forwarding the device control message to the residential gateway and forwarding the device control message response from the residential gateway to the user application server; If the user selects a status check command from the user application server, sending the status check message to the HNSN; And transmitting, by the HNSN, the status message to the residential gateway, and delivering the status message response from the residential gateway to the user application server.

Description

{Protocol for monitoring and control of home network devices}

The present invention relates to a home networking service, and more particularly, to a method for monitoring and controlling a home network device.

Home networking generally refers to information in a home, including a personal computer, that allows electrical equipment to be integrated into a single network. Home networking is expanding rapidly with the development of networking technology, underlying software and information appliances.

Negotiated home networking is limited to network technology that integrates wired and wireless, but the concept of broad is home networking by integrating information appliances with electronics and basic software that can control and manage such hardware. have.

Home networking requires the development of networking technology and the development of information electronics and application software that makes this integrated environment work smoothly.

Recently, JINI, Home Wide Web (HWW), Home Audio Video Interoperability (HAVi), and Universal Plag and Play (UPnP) have been proposed as standard software middleware. Among them, UPnP is a standard that makes it easy to use services provided by various devices participating in the network. For example, when a printer is connected to a network, it can be used immediately without any additional process such as installing a driver.

UPnP-enabled devices support the protocol defined by UPnP and provide definition and presentation functions for the services supported by the device. Services provided by UPnP-capable devices can be used through a control point or internet browser in the network.

The control point uses UPnP's Simple Service Discovery Protocol (SSDP) to find available services connected to the network and to control the service definitions described in XML language from those services. The application field of UPnP capable devices is expected to be largely for office or home use. In general, the application technology of UPnP capable devices is in the spotlight due to the lack of expertise in computers and communication networks.

The UPnP technology described above includes a set of protocols based on TCP / IP:

-'Simple Service Discovery Protocol 1.0' (<http://search.ie.org/internet-drafts/draft-cai-ssdp-v1-01.txt>)

-'Multicast Discovery of Domain Name Server (DNS) Service' (<draft-manning-multicast-dns-01.txt>)

-'Extended Markup Language'-XML (1.0 W3C Recommended)

-Supports all interfaces (ISA, PCI, VESA, USB, etc.) and all networks, applicable to all network protocols

On the other hand, the network equipment integrating all the devices in the network eventually results in a home gateway, or RG. As illustrated in FIG. 3, the RG plays a role of managing the Internet, broadcasting (set-top box), remote control, home automation, and the like. In other words, RG is a home networking core device that enables home networks to be connected to the Internet at a high speed to receive various multimedia services and to easily control the home networks to the home.

An object of the present invention is a protocol between a server (HNSN: Home Network Serving Node) and an indoor equipment (e.g., RG; Residential Gateway) for controlling a device in a home by a central server. It can be used to monitor and control home network devices. That is, the home network device can be controlled using a wired or wireless communication network anytime and anywhere.

The present invention for realizing this object is a method for monitoring and controlling a home network device as a protocol between a server (HNSN: Home Network Serving Node) and a home equipment to be able to control the device in the home by a central server, When the user selects a device control command from the user application server, transmitting a device control message to the HNSN; The HNSN forwarding the device control message to the residential gateway and forwarding the device control message response from the residential gateway to the user application server; If the user selects a status check command from the user application server, sending the status check message to the HNSN; And transmitting, by the HNSN, the status message to the residential gateway, and delivering the status message response from the residential gateway to the user application server.

UPnP is a service discovery technology that automatically finds and configures devices in a network and makes them accessible through other devices with minimal user intervention. In addition, UPnP expresses information exchanged between devices based on IP in XML, and communicates using HTTP protocol. The UPnP has a simple structure and can be easily ported to small home appliances with low processing power.

In the present invention, it is possible to monitor and control a home network device using a PC, PDA, mobile phone, and the like from the outside by using the UPnP technology. That is, the home network device can be controlled using a wired or wireless communication network anytime and anywhere.

For example, communication between devices through UPnP includes a discovery step, a description step, a control step, and an eventing step.

In the discovery phase, the control point (client wishing to use the service of the UPnP device) finds the services and the services inform the control point of their existence. UPnP uses the SSDP protocol, and discovery messages in the SSDP protocol are designed for multicast for efficiency as a way to find devices that do not know where the client is on the network.

Next, in the description phase, once the control point finds the service, it requests a technical document via HTTP over TCP. This is done through standard HTTP GET commands. The UPnP technical documentation for the device is expressed in XML and includes vendor-specific and manufacturer-specific information such as model name, model number, serial number, manufacturer name, and vendor-specific website URL.

In the control phase, after the control point gets the technical document of the device, the control point can send a command to the device's service. To do this, the control point sends the appropriate control message to the service's control URL. Control messages are expressed in XML and use the Simple Object Access Protocol (SOAP) protocol. In order to respond to control messages like function calls, the service returns values that are command specific. The effect of the command is obtained by changing the value of a variable that represents the runtime state of the service.

In the event of an event, the UPnP description document for the service contains a list of commands the service responds to and a list of variables that represent the state of the service at run time. The service informs you that this variable has changed when the variable changes, and the control point can register with the service to receive this information. The service notifies the update by sending an event message. The event message contains the names of one or more state variables and the current values of those variables. Event messages are expressed in XML and are constructed using the GENA (General Event Notification Architecture).

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention; In the drawings, the same reference numerals are used to refer to the same or similar components and signals for the sake of consistency of description.

1 is a configuration diagram of an entire network to which the present invention is applied.

As shown in FIG. 1, home network 100 is established via RG 102 and local network 104.

Gateways are network points that act as entrances to other networks. From the routing point of view, the Internet is a network of many gateway nodes and host nodes, where the host nodes are the computers of network users and the computers that provide content such as web pages. The gateway nodes are the computers that control traffic or the computers of Internet service providers. Therefore, the RG 102 may be referred to as a gateway installed in a general home.

The local network 104 is implemented via telephone lines, power lines, wireless LANs, and the like. In FIG. 1, different types of home network devices 106, 108, and 110 are connected to the local network 104 to share information, or to a television receiver, a digital set-top box, an audio speaker, or the like. It provides a function of exchanging AV information or connecting and controlling a refrigerator, a washing machine and a boiler.

The RG 102 is connected to a Home Network Serving Node (HNSN) 114 via a network or internet network 112. The HNSN 114 is a system for managing the RG 102 to allow the RG 102 to be connected to the Internet or to receive various additional services.

The user application server (UAS) 116 may provide a service to the service users 102 and 118 directly through the network or the internet network 112, and the service user 102 via the HNSN 114. , 118).

2 is a flowchart illustrating the monitoring and control operation of the home network device according to the present invention.

The HNSN 114 provides a function of remotely controlling home network equipment managed by the home RG 102. This is not only on the web screen. Can also be used at the same time in the terminal.

Monitoring and control operation of the home network device of the present invention is shown in Figure 1, which will be described in detail as follows.

First, Discovery and Description perform the process defined in the UPnP protocol. That is, each device is recognized through the RG 102 in the discovery process of the HNSN 114, and a device description file and a service description file of each device are received in the description process.

Next, when the user selects a device control command from the user application server 116, the SOAP request message (ACTION-Req) of the command is delivered to the HNSN 114.

The HNSN 114 then forwards the received SOAP request message (ACTION-Req) to the RG 102, and forwards the SOAP response message (ACTION-Res) from the RG 102 to the user application server 116. do.

Next, when the user selects a status check command from the user application server 116, the SOAP request message (QUERY-Req) of the command is delivered to the HNSN 114.

Next, the HNSN 114 forwards the received SOAP request message QUERY-Req to the RG 102 and forwards the SOAP response message QUERY-Res from the RG 102 to the user application server 114. do.

The protocol stack for this uses SOAP (HTTP) over TCP / IP.

The embodiments described herein are merely intended to enable those skilled in the art to easily understand and to practice the present invention, and are not intended to limit the scope of the invention. Therefore, those skilled in the art should note that various modifications or changes are possible within the scope of the present invention. The scope of the invention is defined in principle by the claims that follow.

According to the configuration of the present invention, a home network device is monitored using a PC, PDA, mobile phone, etc. from the outside as a protocol between the server (HNSN) and the indoor equipment for controlling the device in the home by a central server. It offers the advantage of being able to control.

1 is a configuration diagram of an entire network to which the present invention is applied.

2 is a flow chart illustrating a home network device monitoring and control method according to the present invention.

3 is a view for explaining a conventional home gateway concept.

Explanation of symbols on main parts of drawing

100: home network 102: RG

104: local network 114: HNSN

116: user application server

Claims (3)

In the method of monitoring and controlling a home network device as a protocol between a server (HNSN: Home Network Serving Node) and the indoor equipment to be able to control the device in the home by a central server, When the user selects a device control command from the user application server, transmitting a device control message to the HNSN;  The HNSN forwarding the device control message to the residential gateway and forwarding the device control message response from the residential gateway to the user application server; If the user selects a status check command from the user application server, sending the status check message to the HNSN;  And transmitting, by the HNSN, the status message to the residential gateway, and transmitting the status message response from the residential gateway to the user application server. The home network device monitoring and control method of claim 1, further comprising: recognizing, by the HNSN, the residential gateway as a UPnP device during discovery and receiving a device description file and a service description of the residential gateway during the description. The home network device monitoring and control method according to claim 1, wherein SOAP is used on a TCP / IP basis as a protocol stack.