JP2002512758A - Server system and method for networking a control network and a direct input / output device using the world wide web - Google Patents

Abstract

(57) [Summary] A scalable control data network system that has an open-ended architecture and is independent of platform and protocol. The server of this system accesses the control data via a web browser on the control network or a network that receives data from direct I / O sources and translates the data into and out of the general control protocol And manages communication with a plurality of clients of the general control protocol. The server acts as a physical and network interface to the control network or direct I / O source, translating the native control data or direct I / O data into a generic control protocol format and translating the generic control protocol format into native control data or direct Translate to input / output data. The server also performs the function of managing communications with multiple clients using open standards such as the TCP / IP protocol. One or more embedded applets graphically display control data and allow a user to monitor and adjust the control data.

Description

DETAILED DESCRIPTION OF THE INVENTION     Control network and direct I / O devices using the World Wide Web             Server system and method for network connection Background of the Invention     The present invention generally relates to networked computer systems. For more information on data communications, data processing and information retrieval, Network or directly from I / O sources, and Protocol, and from a general control protocol to its data. General control protocol to manage communications with multiple clients over a network. Server system for accessing control data via web browser I do.     Vertically integrated dedicated control such as SCADA (Supervisory Control Data Acquisition) system Your data network system provides building security, temperature control, and Numerous operations, including control of reactor and reservoir pressure or fluid levels It is widely used in the industry for translations or procedures. FIG. FIG. 3 is a functional block diagram of a direct integration control data network system 400. This The system 400 of FIG. A plurality of client workstations 14a, 14b, 14c. This control network includes a camera 20, an air conditioner 22, Generally shown as an application sensor 24, a temperature sensor 26 and a door lock 28. Have a plurality of devices. Associating various devices with the control network 18 be able to. The workstations 14a, 14b, 14c are connected to a control network. On a workstation specifically written for interfacing with The application 440 communicates with the control network 18. These vertical Integrated control data network systems are generally based on proprietary technology. , Not designed with open-ended architecture For example, the position and the device are limited. As such, these systems are scaled. Lack of reliability, platform-dependent, dedicated network Limited to architecture and protocol. As a result, these systems Inability to adapt to rapidly changing computer network technology, The choice of available software and hardware is severely limited.     LONWORKS^TMAnd DEVICENET^TMControl networks such as Data network systems. These control Network is somewhat more than a dedicated vertically integrated control data network system There is flexibility. Because LONWORKS^TMAnd DEVICENET^TMReduces protocol conflicts As well as an established, open-ended architecture This is because they have established standards. However, these control networks To achieve this, transmission media, networks such as routers and gateways -Requires significant investment in infrastructure. In addition, existing control networks Network still lacks scalability and is generally platform dependent And cannot be immediately adopted for different protocols. Thus, the control net Link work subsystems to a larger network or control system Network to a wide area network, or from one network to another Monitor and control, generally between low-level systems and high-level information networks It is difficult at present to disseminate information.     In general, existing standards for both information and control networks And leveraging technology is more cost effective. Therefore, It has a dido architecture and is platform and protocol independent. There is a need for a highly scalable control data network system. The present invention satisfies these needs, as well as others, and generally addresses existing needs. Overcoming the deficiencies found in the control data network systems of the US. Summary of the Invention     The present invention provides access to control data via the World Wide Web Network between the control network and the direct input / output device from the device A server system and method. Most generally speaking, the system of the present invention It consists of a server and multiple embedded client applets. this The server can control one or more direct I / O sources or control data from the control network. Operation to receive data, and the received control data to the general control protocol. Operation between the server and multiple clients. And a program for performing operations for managing communication of general control protocols. I have. Multiple client apps embedded in multiple corresponding web pages The unit transmits control data to the server using a general control protocol, and controls Control data is presented to the client user in the form of a graphical display on a web page.     “World Wide Web” or “Web” refers to the Internet and Internet. Clients widely used in intranet computer networks It is a server hypertext information communication system. "Internet" A set of protocols called Transmission Control Protocol / Internet Protocol (TCP / IP) Cooperative, globally distributed computer network that exchanges information through Network. "Hypertext" is a single linear sequence It is a text that cannot be changed. The web and the Internet are NETSCAPE NAVIGATOR that enables access^TMAnd MICROSOFT EXPLORER^TMLike c Use a web “browser” program to share information between computers around the world I have been able to do it. An important feature of hypertext documents is the user Special embedding that can connect the user to other related hypertext documents It can have a "link". Hypertext Transfer Protocol (HTTP) is the native protocol of the web and Hypertext document between a computer connected by the Internet and the Web Used to transfer the data. Hypertext documents are generally high In the form of Pertext Media Language (HTML) pages or web pages You.     The development of the World Wide Web is an object-oriented It has been driven by the development of the Gramming (OOP) language. OOP is a computer pro A relatively new programming that allows you to decompose gram into components It is a paradigm. Commonly used OOP languages are C ++, JAVA and Smalltal k is included. OOP translates computer programs into software objects It provides an implementation method that is configured as a cooperative aggregate of. This software Each of the core objects is a member of a class or inheritance relationship. Represents the case of a class with a class hierarchy that is combined with Software Hardware objects are generally encapsulated in one or more ways. It consists of a case variable data field. Each other in one program The objects connected to communicate via messages. OOP encapsulation These attributes allow OOP applications residing on a web server to be Web client having a portable machine and operating system Download to. OOP JAVA does not depend on the machine, yet it is a different operator It is designed to work within the operating system. JAVA is the web "Apple" which can be embedded in the site and write individual HTML pages smoothly A small application called a "kit" can be used. JAVA applet is wide NETSCAPE NAVIGATOR which is often used^TMBrowser and MICROSOFT EXPLORER^TMB Requires a JABA enabled browser such as a browser.     Internet working systems are typically highly integrated However, it is built around a set of discrete systems that function functionally as separate components. OOP's encapsulated attributes allow data from one protocol to be Network systems and communication systems that can be encapsulated within the Adapt yourself well. Encapsulated protocols are used between different protocols It must be open-ended so that the data can be translated.     Air conditioners, motion sensors, temperature sensors, cameras and door locks Many low-level devices are increasingly cheaper embedded in the device It has recently evolved to be intelligent with microprocessors. This trend Is related to these devices such as temperature, real-time image and device status It has created the possibility of accessing information remotely. The present invention provides a remote device Directly via input / output devices or from a control network connected to a series of devices When accessing such data, individual platforms, protocols Or to web clients unrelated to the network architecture. To take advantage of the benefits of the World Wide Web and OOP to provide You.     For example, but not limited to, the server of the present invention may be programmed according to the present invention. Encoded executable instructions for performing ram operations In a conventional programmed data processor such as a PC with Has been This server uses information such as an Ethernet TCP / IP interface. Information network interface and LONWORKS^TMOr DEVICENET^TMbased on Has control network interface and direct I / O interface Includes multiple interfaces. The web client program , In addition to multiple HTML pages, NETSCAPE NAVIGATOR^TMAnd ICROSOFT EXPLORER^TM Support client programs or web browser programs such as PC, APPLE MACINTOSHTM, UNIXTM, etc. Embodied in a machine or workstation, such as a ing.     For example, but not limited to, a single static JAVA client object Project is included in each of a plurality of HTML pages. On an HTML page One or more separate input / output JAVA applets access control data Graphical user accessing static JAVA client object for The interface (GUI) applet device or widget You. Server is a static JAVA client applet via a traditional TCP / IP socket Is connected to the network. Other optional network means may be Of CORBA calls managed by the Object Request Broker or OLE Such as TCP / IP sockets with distributed object method invocation It can be used as a substitute for a kit. GUI applet based on JAVA And can write HTML pages smoothly rather than being server pushed, Enables real-time client-user interaction.     Server programming is a client program request To provide information and services to client programs in accordance with Software applications. The server of the present invention also includes the following It consists of programming means for performing perations.     (a) Managing communication with multiple clients     (b) Control between the general control protocol and the native control data format Translating or converting your data     (c) Interface with control network and direct input / output     (d) Data aggregation, event monitoring and data Intelligent management of control data including logging     Control data between the general control protocol and the native control data format When performing data translation, the program also includes an operation to identify the input and output points. Operations to identify data points, and data format It is preferable to provide a means for performing perlation. The translation works in both directions, the server ・ The architecture and programs are controlled by the control data request from the GUI applet. Est and assignment, and control from the control network and direct input / output points Control your data updates and results.     The server system of the present invention uses a polling method for control data exchange and an event. It is preferable to include both of the method of driving by the method. The general control protocol of the present invention is as follows. Preferably, it consists of     (a) Means for providing node identification     (b) Input / output point identification providing means     (c) Data format provision means     (d) Data unit provision means     (e) Data value providing means     The present invention allows a user at a client workstation to access a web browser. Run a browser program to connect the modem to a dial-up serial connection or other Determines the network connection with the server according to the standard method. The user enters the URL (user (Former resource locator) by address or other standard means. The location or location of the desired HTML page corresponding to the specific control data you want to access Identifies the address. The embedded applet on the selected HTML page is remotely mounted The control data from the device is displayed graphically, and setting changes and parameters for the remote device are displayed. Provide the user with selectable options, such as changing parameters. The user A suitable applet using a mouse, tracking ball or other conventional means You can select the specific desired control data by "clicking" on it can. After viewing the selected control data, the user clicks on the appropriate applet To change settings or controls on the remote device.     It is an object of the present invention to remotely access control data via the World Wide Web. A network connection between the control network and the input / output device directly Server systems and methods.     Another object of the invention is to have an open-ended architecture. Control network and direct I / O devices that are both scalable and The purpose of the present invention is to provide a server system and a method for linking.     Another object of the invention is to provide a platform and protocol independent, A server system for connecting an input / output device directly to your network via a network And to provide a method.     Another object of the present invention is to connect a control data communication server to a network. Control network and direct I / O using embedded embedded applets The purpose of the present invention is to provide a server system and a method for linking networks.     Another object of the invention is to provide native control data formats for multiple formats. Data and I / O point identification schemes for different control network protocols A general control protocol that accommodates a team without losing information from any protocol Server for linking the control network directly to the input / output via the network -To provide systems and methods.     Another object of the present invention is to manage communication of control data with a plurality of clients. Server that connects the control network and the input / output device directly via the network -To provide systems and methods.     Another object of the present invention is to make the control network subsystem a large network. Control network and direct I / O devices linked to the network It is to provide a server system and a method for connecting.     Another object of the present invention is to provide a low level system to a higher level system. A control network that allows information to flow to the system It is to provide a server system and a method for connecting.     Further objects and advantages of the present invention will become apparent at the following places in this specification. Would. There is a detailed description to fully disclose the embodiments of the present invention without limitation. It has been done. BRIEF DESCRIPTION OF THE FIGURES     The present invention will be more fully understood with reference to the following drawings. .     FIG. 1 shows a network connecting a control network and direct input / output according to the present invention. FIG. 2 is a functional block diagram of a server system for operating the present invention. Is shown in     FIG. 2 shows a network connecting a control network and direct input / output according to the present invention. FIG. 2 is a functional block diagram of a server system for operating the logical system according to the present invention. Is shown.     FIG. 3 shows a network connecting a control network and direct input / output according to the present invention. FIG. 2 is a functional block diagram of a server system for executing the present invention; 2 shows an implementation configuration.     FIG. 4 is a functional block diagram of a conventional vertically integrated network system.     FIG. 5 shows a control data format of a message from the GCP according to the present invention. It is a flowchart figure of translation to.     FIG. 6 shows a general representation of a message from a control data format according to the invention. It is a flowchart figure of translation to a control protocol. Detailed Description of the Preferred Embodiment     Turning now to the drawings in greater detail, the present invention may be implemented in accordance with the components generally illustrated in FIGS. 1-3. Server system. This server system is Can be modified in terms of components and architectural details, Without departing from the basic concepts disclosed herein, the details and the Can be changed.     FIG. 1 generally illustrates a server system according to the present invention. system Reference numeral 10 denotes a server 12 and a corresponding plurality of wide area network connections 16a. Workstation connected to the server 12 by the client, 16b, 16c And include The server 12 also includes a camera 20, an air conditioner 22, Generally shown as an application sensor 24, a temperature sensor 26 and a door lock 28. And a control network 18 having a plurality of devices. The individual attributes of the devices 20-28 are exemplary, and various devices for monitoring and controlling may be implemented. It can be connected to a control network 18. Network connection 30 is a server 12 is linked to a control network 18. The network 30 is a control network. Instead of or in addition to network 18, a series of inputs and outputs from separate devices Can be linked.     The server 12 executes the encoded data in the server 12 computer memory. According to a computer program based on executable instructions, Hardware and software that perform the various operations Conventional programmed data processor having logic circuits implemented therein Alternatively, it is preferably a computer. Same for workstations 14a to 14c WINDOWS^TM, MACINTOSH^TM, UNIX^TMStandard commercial platforms such as Or a standard client application that works with the operating system. Logic implemented in hardware or software that supports A conventional programmed data processor or computer with circuitry Is preferred. Control network 18 is LONWORKS^TMOr DEVICENET^TMSuch as It is a local area network (LAN) based on your network standards.     The devices 20 to 28 connected to the control network 18 are “smart”; Micro embedded in each device 20-28 or another connected to it It includes a processor or computer (not shown). Embedded microphone The processor controls the status of the devices 20 to 28 to control the network 18. And other conventional means for monitoring and transmitting control data. Apparatus 20-2 8 are linked in the control network 18 by standard means. Net The work connections 16a-16c and 30 are at the physical layer and Standard connection, preferably consisting of an ALUP serial connection It is.     The client workstations 14a to 14c each have a NETSCAPE N AVIGATOR^TMOr MICROSOFT EXPLORER^TMEtc. for client applications Such a browser program 32 is supported. Each client work Stations 14a-14c are in one browser for clarity of explanation. Although only shown, multiple browsers 32 can be supported. Each Brow Although only one page is shown for simplicity of explanation, HTML page 34 is supported. As described above, the applets 36a-3 6c displays the data and allows the client user to remotely To allow the setting or parameters of the devices 20-28 to be changed from a location A Java GUI applet that provides a graphical user interface is preferred. Good.     Embedded applets 36a-36c and HTML page 34 are platforms And all types of client workstations 14a- 14c, all browsers 32 (that can support applets) It can be used together with the system 10. Similarly, the nature of the control network 18 and And configuration can be changed based on the particular circumstances in which system 10 is used. Wear. Thus, a plurality of applets 36a-36c on each HTML page 34, HTML pages 34 on each web browser 32 and workstations 14a- 14c and a plurality of workstations 14a- 14c all communicate with the single server 12 on one network. server 12 manages client applets 36a-36c on one side of system 10. , Communicate with the control network 18 on the other side of the system 10.     The server 12 according to the present invention provides data from workstations 14a-14c. Can be understood from the platform-independent form by the control network 18. Translate to a platform-dependent form. Similarly, the server 12 controls Data from the network 18 can be transferred from platform dependent forms to Depending on platforms not understood by workstations 14a-14c No translation to form.     The logical operation of the present invention will be better understood with reference to FIG. 2 in addition to FIG. Will be fully understood. Here, the logic architecture of the system 10 of the present invention is described. The key 33 is shown. As mentioned above, a plurality of applets 36a-36 c is executed on each of the HTML pages 34a to 34c. HTML version 32 is HTML Applet 36 when pages 34a-34c are loaded into a web browser It supports applet tags that execute a-36c. This applet The tag also allows applets 36a-36c to be scripted in HTML pages 34a-34c. To the specific desired section of the     Each applet 36a-36c generally has a graphical form control over the user. It performs two functions: display of control data and communication of control data with the server. You The control data display to the user is controlled by the program operation of the control data display. Graphical user interface, shown as configuration 38 Preferably, it is provided in the form of a hardware or GUI device (not shown). GUI device Can be used for gauges, graphs, buttons, dials, meters, sliders, text, etc. Conventional GUI device formats are possible. Control data in various desired formats Means for converting to units or units are included with the applets 36a-36c. You. Then, this means is shared with the HTML pages 34a to 34c when properly arranged. In addition, if the user has a user interface such as a mouse or tracking ball, Select and execute GUI devices by "clicking" on the device. Buttons, text, sliders, dials, lights, gauges, From appropriate input / output GUI devices like icons for roughs (bars and plots) etc. Is preferred.     Each applet 36a-36c is also supported using a general control protocol (GCP). And means for communicating control data with the server 12. This GC detailed below P is not specified for control networks or I / O format forms. GCP Of the control data and other communication of the control data with the server 12 Means is generally used as the control data transmission / reception program operation 40 in the GCP. Is shown.     The server 12 communicates with a physical server via network connections 16a to 16c. Connected to applets 36a-36c at the Connection 30 to control network 18 or other control data source Have been. The server 12 has program means for performing the following operations. Contains.     (a) Managing communication with multiple clients     (b) The general control protocol and the network of the devices 20 to 28 and the control network 18 To and from the active control data format     (c) Direct input / output not connected to control network 18 or network Interface with equipment     (d) Data aggregation, event monitoring and data Intelligent management of control data including logging     Of the server 12 shown as communication manager operation 42 The communication management means comprises a server 12 and a plurality of client workstations 14a. -14c, thus allowing the same or different HTML pages 34a- 34c, browser 32 or a plurality of workstations 14a-14c. Applets 36a-36c can communicate with server 12 simultaneously.     The service shown as GCP / Control Data Translator Program Operation 44 The translation execution means of the server 12 includes a general control protocol and a native control data format. Perform translation of control data between mats. This translation execution means also Operations to identify points and operations to identify data points And program means for performing data format operations. Is preferred. This translation execution means works in both directions (from GCP to native control data Format and native control data format to GCP) Both control data requests and assignments from GUI applets and control Control data updates and updates from your network or direct I / O points Take control of Zalto.     The translation executing means is shown in FIGS. FIG. 5 shows the results from GCP according to the present invention. FIG. 7 is a flowchart of the translation of a message into a control data format. Sa The server 12 starts in the idle state of step 502. Message at step 504 When the device arrives from workstations 14a-14c, at step 506, the Message is the data corresponding to the data unit on the control network first. Disassembled into units. Then, in step 508, the data unit is Each is translated from GCP to control control format. , Translated de The data unit then proceeds to step 510, where the corresponding control network data The data is transmitted to the control network while setting the data unit to an appropriate value. And At step 512, control network messages are initialized from these values. You. This message prompts the action appropriate for the value of the data unit.     FIG. 6 shows the message from the control data format to the GCP according to the present invention. FIG. 4 is a flow chart of the translation of FIG. Again, the server 12 determines the It starts with a state. In step 604, the data unit on the control network When it is time to send an update for the value, the server 12 Fetch the value of the control network data unit to be updated . The conditions for prompting the sending of the update include the update from the client and the regular Conditions such as temperature changes past the threshold Includes requests for updates and based on. At step 608 The data unit is packed into one message, and the control data Encode the message from the format into GCP, then step 61 At 2 the message is transmitted to the appropriate workstation 14a-14c.     Generally, control data interface program operation 46 The interface means of the server 12, indicated as Or a logical interface to other control data sources, such as a series of input / output point arrays. Ace.     The server architecture 33 mainly includes the server 12 and its program. Operation, embedded applets 36a-36c and their programs ・ It consists of operations. Architecture supporting hardware Key 33 is as open-ended, scalable and technically Preferably, they are generic and compatible so that they are adaptable. Architecture 3 3 on at least one workstation 14a-14c. On a single browser 32, on at least one HTML page 34a-34c, Enough flexibility so that at least one applet 36a-36c can be used. ing.     Referring to FIG. 3 in addition to FIGS. 1 and 2, an embodiment of the present invention is an architecture. It is shown generally as keyer 48. Here, the same components are assigned the same numbers. ing. A single static JAVA client object 50 into an HTML page 34a- It is preferably used every 34c. Applets 36a-36c are JAVA GUI applets Preferably, each of them is a Java client by messages 52a-52c. Make a call to the client object 50. Each JAVA GUI applet 36a-3 6c is shown only one for easy understanding, but the related GUI It has a device 54.     Generally, the server system of the present invention uses a polling method for control data exchange. And event-driven methods. Recommended architecture 48 One JAVA client object 50 is an HTML page 34a-34c Exists every time. JAVA client objects 50 are static, If the JAVA client object 50 does not already exist, Includes initialization method called by JAVA GUI applets 36a-36c You. JAVA client object 50 also provides Update to register JAVA GUI applets 36a-36c Includes methods. It is polling and event driven as related above It is preferred that     JAVA client object 50 is controlled by server 12 to control data Updates are managed by each of a number of JAVA GUI applets 36a-36c. Manage communications. Each JAVA client object 50 has a GCP transmission / reception control data. Control data in the general control protocol, indicated as data operation 40. Send and receive. Each JAVA client object 50 is Register as a client and register from multiple JAVA GUI applets 36a-36c Should be sent between the JAVA GUI applets 36a-36c and the server 12. Determine a set of polling updates or event-driven updates . JAVA client object 50 has a corresponding physical layer connection 16a Server 12 through a plurality of TCP / IP sockets 56a-56c on It is preferred to communicate with TCP / IP sockets 56a-56c are external objects CORBA (Common Object Request Block) (Local architecture) calls, distributed object invocations Can be modified to take advantage of the method. CORBO is an object in An open interface whose interface is described in IDL (Interface Definition Language) Provides object infrastructure. Alternatively, use a TCP / IP socket Utilizes OLE (Object Linking and Embedding) standard for distributed objects Can be changed to However, OLE is currently relying on MICROSOFTTM Supported only between different platforms, such as CORBA Do not provide. Instead, other such as DCE (Distributed Computing Environment) Use of distributed object standards with TCP / IP sockets depending on the particular use of the invention Can be.     JAVA GUI applets 36a-36c, according to the client's user specifications Displays changes in control data from devices 20-28 in control network 18. Support methods. JAVA GUI applets 36a-36c are GUI The control data is displayed on the HTML pages 34a to 34c via the device 54. GU I device 54 includes gauges, graphs, buttons, dials, meters, sliders, Well-known general graphic means such as traditional icons such as Kist are preferable. GUI device 54 includes both input and output GUI devices In. JAVA GUI applets 36a-36c are copied from HTML pages 34a-34c The parameters that are accepted as arguments when controlled, preferably include: New     (a) Size of GUI device 54     (b) Screen position of GUI device 54     (c) Polling frequency or event threshold value     (d) Control data identifier (control network node or direct I / O point G)     (e) Specific GUI parameters (labels, colors, options, etc.) When called from HTML pages 34a-34c, each JAVA GUI applet 36a- 36c registers a JAVA client object 50 for a specific HTML page. Record and pass the parameters associated with the JAVA client object 50. this These parameters include polling frequency, event threshold value, and control data. Data identifier. JAVA client object 50 is up Once dated, JAVA GUI applets 36a-36c will be converted to HTML pages 34a-3 4C shows a change in control data via the GUI device 54 on 4c.     The server 12 has an interface with the information network and a control network. Consists of an embedded PC that has an interface with the preferable. As described above, network connections 16a-16c are TCP / An Ethernet using the IP protocol is preferred. The server 12 is a communication pipe Multiple Java client objects, commonly referred to as Program means for managing communication with the object 50. Server 12 Manages the JAVA client object 50 and Java client clients via open TCP / IP sockets 56a-56c Preferably, the object 50 is controlled. Registration request and data request are JAVA client Event from the control network 18, controlled by the event object 50. Data and data to all registered JAVA client objects 50 available.     The server 12 also typically implements a GCP control data translation operation 44 As shown, the general control protocols and devices 20-28 and control network 18 Control data and control data transfer to and from the native control data format Includes program means for performing quest translation. This operation is Includes I / O point identification, data format, and data format. this Translation is performed by uploading control data from the control network 18 or direct input / output points. In addition to dates and results, control data from the JAWA GUI applets 36a-36c Work in both directions, governing data requests and assignments.     Server 12 is also not connected by control network 18 or network Includes program means for interfacing with the direct input / output of the device. For the recommended architecture 48 shown in FIG. 3, the control network 18 is a LONWOR KS^TMControl network.     The general control protocol of the present invention loses any information from any particular protocol. Data and I / O for a variety of different control network protocols A point identification scheme can be accommodated. General control protocols include the following means: Is preferred.     (a) Means for providing node identification     (b) Input / output point identification providing means     (c) Data format provision means     (d) Data unit provision means     (e) Data value providing means

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated country EP (AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, I T, LU, MC, NL, PT, SE), JP (72) Inventor Koch, Ed             United States 94902 California             San Rafael Devon Drive             218 (72) Inventor Marsh, Adam             United States 94117 California             San Francisco Stewart Province 40 (72) Inventor Henneage, Dan             United States 94941 California             State Milbury Centro Way 915 [Continuation of summary] Be able to adjust.

Claims (1)

[Claims] 1. A control network that includes a specific control protocol and the control network Compiled with multiple workstations connected and containing general control protocols A method for providing computer network connectivity, comprising:       (a) the general control process between the plurality of workstations and a server; Transmitting control data in the format of the protocol,       (b) The control data is converted from the format of the general control protocol to the While translating to the format of the fixed control protocol, Translating from a format to the format of the general control protocol;       (c) the specific control protocol between the server and the control network Transmitting control data in a format of A method that includes 2. The translating step (b) comprises:       (b1) a plurality of data units in the format of the general control protocol To disassemble       (b2) each of the plurality of decomposed data units is stored in the general control protocol. File format to the format of the specific control protocol. ,       (b3) Multiple control units corresponding to multiple disassembled and translated data units Setting the value of the network data unit;       (b4) controlling according to the values of the plurality of control network data units Means for initiating a network message; The method of claim 1 comprising: 3. The translating step (b) comprises:       (b1) a plurality of control networks in the format of the specific control protocol Fetching the value of the data unit       (b2) the plurality of control network data units in a single message And packing       (b3) converting the single message into the format of the general control protocol Encoding, The method of claim 1 comprising: 4. Wherein each of the plurality of workstations comprises:       (a) at least one web browser program;       (b) multiple web browser programs supported by the web browser program; A hypertext media language page,       (c) supported by the hypertext media language page; Multiple embedded applets, The method of claim 1 comprising: 5. The embedded applet controls the format of the general control protocol. Means for transmitting control data between the server and the plurality of workstations. 5. The method of claim 4 functioning as a step. 6. The step of translating (b) further comprises:       (b1) identifying input / output points;       (b2) identifying the data points;       (b3) identifying the data format; The method of claim 1 comprising: 7. The general control protocol of the translating step (b),       (a) providing node identification;       (b) providing input / output point identification;       (c) provide a data format;       (d) providing a data unit;       (e) providing a data value; The method of claim 1 comprising: 8. A control network that includes a specific control protocol and the control network Compiled with multiple workstations connected and containing general control protocols A system for computer network connectivity,       The general control protocol between a server and the plurality of workstations Means for transmitting control data in the format of       The control data is converted from the format of the general control protocol to the specific control. In addition to translating into the format of the protocol, Means for translating from a mat to the format of the general control protocol;       The format of the specific control protocol between the server and the control network. Means for transmitting control data of the With the system. 9. The translation means       Disassemble a plurality of data units in the format of the general control protocol Means to       Each of the plurality of disassembled data units is converted to a file of the general control protocol. Means for translating from the format to the format of the specific control protocol,       Multiple control networks for multiple disassembled and translated data units Means for setting the value of the work data unit;       A control network according to the value of said plurality of control network data units; Means for initiating a work message and The system of claim 8, comprising: 10. The translation means       A plurality of control network data in the format of the specific control protocol; Means for fetching the value of the data unit;       The control network data units into a single message Means to lock       Encode the single message into the format of the general control protocol Means to load The system of claim 8, comprising: 11. Wherein each of the plurality of workstations comprises:       (a) at least one web browser program;       (b) multiple web browser programs supported by the web browser program; A hypertext media language page,       (c) supported by the hypertext media language page; Multiple embedded applets, The system of claim 8, comprising: 12. The embedded applet has a format of the general control protocol. For transmitting control data between said server and said plurality of workstations. 12. The system of claim 11, functioning as a means. 13. The translation means further comprises:       Input / output point identification means,       Data point identification means;       Data format identification means The system of claim 8, comprising: 14． The general control protocol,       Node identification providing means;       Input / output point identification providing means,       Data format providing means,       Data unit providing means;       Data value providing means and The system of claim 8, comprising: 15. Control network including specific control protocol and general control protocol Network system including a plurality of workstations Server for       (a) the general control protocol between the plurality of workstations; Means for transmitting control data in a format;       (b) The control data is converted from the format of the general control protocol to the While translating to the format of the fixed control protocol, Means for translating from a format to the format of the general control protocol;       (c) the format of the specific control protocol with the control network. Means for transmitting control data of the Server with. 16. The translating step (b) comprises:       (b1) a plurality of data units in the format of the general control protocol To disassemble       (b2) each of the plurality of decomposed data units is stored in the general control protocol. File format to the format of the specific control protocol. ,       (b3) Multiple control units corresponding to multiple disassembled and translated data units Setting the value of the network data unit;       (b4) The control network according to the values of the plurality of control network data units. Means for initiating a network message; 16. The method of claim 15, comprising: 17． The translating step (b) comprises:       (b1) a plurality of control networks in the format of the specific control protocol Fetching the value of the data unit;       (b2) the plurality of control network data units in a single message And packing       (b3) converting the single message into the format of the general control protocol Encoding, 16. The method of claim 15, comprising: 18. Wherein each of the plurality of workstations comprises:       (a) at least one web browser program;       (b) multiple web browser programs supported by the web browser program; A hypertext media language page,       (c) supported by the hypertext media language page; Multiple embedded applets, 16. The system of claim 15, comprising: 19. The embedded applet has a format of the general control protocol. For transmitting control data between said server and said plurality of workstations. 20. The system of claim 18, functioning as a means. 20. The translation means further comprises:       Input / output point identification means,       Data point identification means;       Data format identification means; 16. The system of claim 15, comprising: 21. The general control protocol,       Node identification providing means;       Input / output point identification providing means,       Data format providing means,       Data unit providing means;       Data value providing means and 16. The system of claim 15, comprising: 22. Computer with control network and multiple workstations · Computer having computer instructions for providing network connectivity A readable medium, wherein the instructions comprise:       (a) a general control protocol between the plurality of workstations and the server; To transmit control data in the format of       (b) The control data is converted from the format of the general control protocol to the specific control protocol. Translate to protocol format and format for specific control protocol From the general control protocol format,       (c) a specific control protocol between the server and the control network. It is for transmitting control data of the format. Computer readable medium. 23. The instructions for the translating means are:       Disassemble a plurality of data units in the format of the general control protocol Means to       Converting each of the plurality of decomposed translation data units to the general control protocol Means for translating from the format of the specific control protocol to the format of the specific control protocol,       A plurality of control networks corresponding to the plurality of decomposed data units; Means for setting the value of the lock data unit;       A control network according to the value of said plurality of control network data units; work. Means for initiating the message; 23. The computer readable medium of claim 22, comprising: 24. The instructions for the translating means are:       A plurality of control network data in the format of the specific control protocol; Means for fetching the value of the data unit;       The control network data units into a single message Means to lock       Encode the single message into the format of the general control protocol Means to load 23. The computer readable medium of claim 22, comprising: