KR101235199B1 - An interface construction system and method to control low­erformance equipment using web technology - Google Patents

Abstract

The present invention relates to a system and a control method for controlling a low performance device based on web technology using a separate control terminal. More specifically, the control interface construction system of a remote device using a web technology, the system comprising: a collection module provided in the remote device for collecting data on the state of the remote device; A communication module provided in the remote device and configured to communicate data collected by the collection module through a web server; Comprising a calculation module for executing at least one of the operation, storage, display and plug-in data transmitted from the communication module and a processing module for transmitting the data calculated by the operation module to the communication module, the web browser is mounted Control terminal; And a control module provided in the remote device, the control module processing the calculated data transmitted to the communication module by the control terminal. It is about.

Description

An interface construction system and method to control low performance equipment using web technology using web technology

The present invention relates to a system and a control method for controlling a low-performance remote device based on web technology using a separate control terminal. More specifically, the technology can be applied to remote devices that do not include low-performance processors and Wi-Fi networks (processing on Wi-Fi is also possible). The present invention relates to a processing method capable of controlling a low-performance remote device using a web technology and providing information to a user.

The following problems exist in the existing systems and methods for controlling low-performance remote devices. First, a separate device must be installed by a professional device manager, and it is difficult to install such software for each remote device. That is, there is a problem that is difficult to set up by users without knowledge of the network and the computer.

Second, even if you build a server on a slow, low-performance remote device, there is a problem that you cannot use a server-side development language. Third, integrated management becomes difficult. For example, when using a remote control, there is a problem that various devices are not compatible.

Fourth, as well as installing a separate software as described above, there is a problem that the software must be developed separately for the operating system (OS) and remote device environment of each device. In other words, as the number of remote devices increases, a lot of development costs occur.

Fifth, there is a problem that it is difficult to run a separate protocol on a low-performance remote device.

In summary, the control of existing low-performance central processing units (hereafter referred to as CPUs) (USN, embedded CPUs, etc.) does not use back-end technology that burdens the server. Therefore, it has not been able to use the CPU of low-performance equipment, but has been used to build a server (middleware) or change to a faster CPU.

When using middleware, if the middleware fails, it is impossible to control all linked equipments and incurs the cost of constructing additional control equipment. Likewise, using a high-performance CPU on a low-end machine is a costly problem, so this is not a solution either.

In the past, a separate software was produced to control a low-performance remote device and installed on a PC or a terminal for control. A separate software was developed for each terminal (affected by an operating system or a device). Problems have often arisen because they are difficult to maintain.

Accordingly, the present invention has been made to solve the above problems, and provides a user interface (UI) to solve the existing problem and to control the remote device in a similar way to the user without the existing knowledge and Server should be able to be built in low-performance remote device, and the technology to control hardware using web technology is applied to implement without installing any software.

Conventionally, for example, to control embedded devices, data processing is performed using Extensible Markup Language (XML) data or stream technology. There had to be a separate management tool, which had to be pre-built on the client. In addition, even if the processing by the web, it was managed directly through the middleware or a remote device equipped with a high-performance CPU.

However, the system and the control method according to an embodiment of the present invention solve the problem by using the resources of the control terminal, unlike the existing technology in the technology that can control the remote device, transmission technology, operation, and the like. In other words, most of the technologies used in middleware or high-performance CPUs can be applied to low-performance remote devices using only one web technology. In addition, by removing the web server function from the communication module and simply using the existing communication method, only the web server can be managed externally and controlled through a browser. It also allows very basic communication such as serial communication in a browser without using an internet protocol (IP) based connection method such as Wi-Fi.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments in conjunction with the accompanying drawings.

An object of the present invention is a system for establishing a control interface of a low-performance remote device using a web technology, the system comprising: a collection module provided in the remote device to collect data on a state of the remote device; A communication module provided at a remote device and configured to communicate data collected by the collection module through a web server; Control terminal equipped with a calculation module for executing at least one of the operation, storage, display and plug-in data transmitted from the communication module and a processing module for transmitting the data calculated by the operation module to the communication module, the web browser ; And a control module provided in the remote device and processing the calculated data transmitted to the communication module by the control terminal, as a web technology-based control interface construction system for controlling the low-performance remote device. have.

The control terminal may further include an analysis module which receives the data transmitted from the communication module and analyzes the calculation module to be processed, and transmits the analysis data to the calculation module.

The operation module may include a user interface for configuring a screen in the control terminal.

The operation module may include a database for storing data transmitted from a remote device.

The operation module may be characterized by having a plug-in for external software to be displayed through the web browser of the control terminal.

The operation module may include a function module for calculating data transmitted from a remote device with JavaScript, processing the data transmitted by the remote device, and transmitting the processed data to the processing module.

The remote device may further include a control module that receives the data transmitted from the control terminal from the communication module and processes the transmitted data.

The remote device may further include an information module for transmitting information on the remote device to the collection module.

The information module is a status information module for updating the status of a remote device every predetermined time, a sensor information module for collecting measured values measured by the sensor when the remote device is provided with a sensor, and a device information module for storing information about the remote device. It may be characterized in that it comprises a.

The remote device may further include a generator configured to receive the data collected by the collection module and attach the preset markup language to form the markup data.

The remote apparatus may further include a memory configured to store the markup data formed by the generator at predetermined intervals and transmit the stored markup data to the communication module.

The communication module includes a web server using JavaScript, and the web server enables IP-based communication and serial communication in a web browser of a control terminal by linking markup data transmitted from a memory with a communication protocol used in a communication module. It can be characterized by.

In another category, an object of the present invention is to control a remote device using a web technology using a control terminal, the collecting module of the remote device collecting information on the remote device; Transmitting, by a communication module having a web server, the collected data collected by the collection module to the analysis module of the control terminal; Calculating and processing collected data transmitted from a remote device by a calculation module provided in a control terminal having a web browser; And transmitting the computed and processed operational data to a communication module through a processing module provided in the control terminal. The method may be achieved by using a web technology-based remote device control method using a control terminal.

Between the collecting step and the step of transmitting to the analysis module, the generator receives the collected data from the collection module to give the markup language to the collected data to form the markup data; may further comprise a.

Storing, by the memory, markup data at regular intervals after the markup data forming step; And transmitting the stored markup data to a communication module having a web server.

In the step of transmitting to the analysis module, the web server connects the markup data transmitted from the memory using JavaScript to the communication protocol used in the communication module to enable serial communication in addition to the IP-based communication in the web browser of the control terminal. It can be characterized.

The control module provided in the remote device may further comprise the step of processing the operation data transmitted to the communication module.

The information module included in the remote device may further include transmitting information on the remote device to the collection module.

Computing and processing the collected data comprises the steps of the user interface to configure the screen on the control terminal; the web database storing the data transmitted from the remote device; Allowing the plug-in to display external software through the web browser of the control terminal; And at least one of a step in which a function module including JavaScript calculates data transmitted from a remote device and processes the data transmitted by the remote device as data that can be processed by the remote device, and transmits the processed data to the processing module. You can do

Therefore, as described above, according to an embodiment of the present invention, firstly, even a low-performance remote device has an effect of making it possible to obtain control and information of the remote device without installing software.

Second, a JavaScript engine that can be run even on low-performance remote devices creates a minimal file transfer function. In other words, it can be used in a small, low-capacity remote device rather than a professional management tool like the existing Apache.

Third, the low-performance remote device has the effect of simply receiving data, performing operations by the client, and returning only the operation results.

Fourthly, even a low-performance remote device has the effect of being able to control a remote device connected using a web port.

Fifth, there is no need to apply any plug-in other than the web server on the server. The advantage of using an external plug-in is that it can be solved on the client. Sixth, the use of web technology has the advantage that the browser can run on any operating system (OS) available. Seventh, it is possible to create a DB such as DBMS (DBMS). Resolve commonly used database queries on the client such as select , update, and insert.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All fall within the scope of the appended claims.

1 is a block diagram showing the configuration of an interface building system for controlling a low-performance remote device using a web technology according to an embodiment of the present invention;
2 is a block diagram showing the configuration and data flow of a remote device according to an embodiment of the present invention;
3 is a block diagram showing a connection structure between markup data and a communication protocol according to an embodiment of the present invention.
4 is a block diagram showing the configuration and data flow of the control terminal according to an embodiment of the present invention;
5 is a flowchart illustrating a control method of a remote device based on web technology using a separate control terminal according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, this includes not only the case where it is directly connected, but also the case where it is indirectly connected with another element in between. In addition, the inclusion of an element does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Hereinafter, the operation and configuration of the interface building system 100 for controlling a low-performance remote device using a web technology according to an embodiment of the present invention will be described. First, FIG. 1 is a block diagram showing the configuration of an interface building system 100 for controlling a low-performance remote device using a web technology according to an embodiment of the present invention.

As shown in FIG. 1, the control interface building system 100 of the remote device 101 for the web terminal based control device 108 according to an embodiment of the present invention is largely provided with a remote device 101 that provides a service. ) And a control terminal 108 that communicates with the remote device 101 and controls the remote device 101. In the conventional case, in order to control the remote device 101, the development method is different for each device (eg, mobile device, desktop, etc.) using the service, and each operating system (OS) for example, Linux, Mac, Since the development method and language are different according to the window, an embodiment of the present invention has a feature of using a web technology that can be used as a common interface. When using the web technology, if the control terminal 108 is equipped with only the browser has a feature that can be immediately connected and used without additional installation.

 The remote device 101 according to an embodiment of the present invention corresponds to a device for providing a service. The remote device 101 may include a low performance USN device (about 5 MHz) to a high performance embedded device. In addition, it will support a variety of network equipment, such as IP-based communication or Bluetooth (bluetooth). The remote device 101 according to an embodiment of the present invention collects information of the remote device 101 and controls / gathering module 103 and control / gathering module for processing calculation data transmitted from the control terminal 108. And a generator 104 for assigning a markup language to the data collected at 103 to form the markup data. And a memory 105 for storing markup data formed in the generator 104, a communication module 106 having a web server, and the like.

The control terminal 108 is basically equipped with a web browser. Then, the data transmitted from the remote device 101 is operated, and the like is transmitted to the remote device 101 again by performing calculation, processing, and the like. The control terminal 108 includes a variety of devices, but basically should be equipped with a web browser. As well as a PC having a variety of web browsers, as well as a mobile phone or a smart phone, such as a hypertext generation language (hereinafter referred to as HTML) and the environment that can run JavaScript (JavaScript) is not limited in its kind.

As shown in FIG. 1, the control terminal 108 receives a markup language (markup data) such as HTML of the remote device 101 and analyzes the analysis module 114 to support the operation module 109. And a calculation module 109 for calculating, processing, and the like, the data transmitted by the analysis module 114, and a processing module for transmitting the calculated data back to the communication module 106 provided in the remote device 101 ( 115).

Hereinafter, a configuration of the system 100 of the present invention will be described in more detail. As shown in FIG. 1, the system 100 according to an embodiment of the present invention includes two module groups, a remote device 101 and a control terminal 108. The present invention enables high-performance processing using the resources of the control terminal 108 in the low-performance remote device 101 using the web technology. Therefore, the high speed processing can be performed even in the low performance remote destination 101.

Figure 2 shows a block diagram showing the configuration of a remote device 101 corresponding to one configuration in one embodiment of the present invention. The remote device 101 is a device that provides a service. From low performance USN equipment (approximately 5 MHz) to high performance embedded devices. It supports various network devices such as IP-based communication or Bluetooth. The remote device 101 includes an information module 102. As shown in FIG. 2, the information module 102 includes a state information module 102-1, a sensor information module 102-2, and device information. Module 102-3, and the like.

The state information module 102-1 of the constituting the information module 102 is a module for updating the state of the remote device 101 at a predetermined time. It can't do very high calculations, so it can provide remote device failure, voltage or simple information. In addition, the sensor information module 102-2 corresponds to a module for collecting a sensed value in real time when the remote device 101 having a sensor (eg, a temperature sensor, an illuminance sensor, an operation sensor, etc.) is provided. It is usually manufactured like the state information module 102-1.

In addition, the information module 102 may further include a device information module 102-3. The information present in the device information module 102-3 is information collected first by the collection module of the control / collection module 103 to be described below. It is a kind of metadata that stores fixed values such as the location and name of the remote device 101.

Next, the control / collection module 103 performs two functions. First, the collection module is a module for collecting information data on the state of the remote device 101 in the state information module 102-1, the sensor information module 102-2, and the device information module 102-3 described above. to be. This collection module performs the function of collecting only without any processing. The data collected in this way has only simple numbers.

In addition, the control / collection module 103 performs the function of the control module. The control module performs a function of processing data transmitted from the processing module 114 of the control terminal 108 which will be described in detail later. These control modules also do not have arithmetic functions. It uses a method of inputting a preformatted execution command. This is because it can be applied to the remote device 101 without operation. (For example, assuming that the number 3 is input to the control module, a command made in advance, for example, a device reboot, can be used. .)

The data collected by the collection module of the control / collection module 103 is transferred to the generator 104, as shown in FIG. The generator 104 corresponds to a module that performs a function of attaching a sensing value to previously prepared text information. That is, markup data is formed by attaching a predetermined markup language 116 to the collected data.

This text information has an HTML structure and contains only JavaScript and HTML without any image (also, an external server can be used when image processing is required).

The markup data formed by the generator 104 is transferred to and stored in the memory 105. In other words, the memory 105 stores the value generated by the generator 104. Although the values of the state information module 102-1, the sensor information module 102-2, and the device information module 102-3 may be produced and stored in a separate database, it is preferable to configure them so as not to send frequent queries. Do. This can be due to a low performance terminal. In addition, it is preferable that the process of storing the markup data formed by the generator 104 by the memory 105 does not occur frequently. That is, it is better to make it appear only at the request of the user. If you do it too often, you are more likely to have performance problems.

In addition, the remote device 101 according to an embodiment of the present invention includes a communication module 106. This communication module 106 is a module for a communication device. It is recommended to select an IP-based network for browser control, but it can also be made available through wired or wireless devices such as USB, RS-232, and Bluetooth. The communication module 106 transmits an HTML file, which is markup data, to the analysis module 114 of the control terminal 108 which will be described later by using the communication protocol 118 defined.

In addition, as shown in FIG. 2, the communication module 106 includes a web server 107. It is an easy technique to send data only from the low performance remote device 101 to the outside. However, in order to control this in the control terminal 108, an additional software must be installed or an environment in which control can be established. Installation of such software is cumbersome, and there is a problem in that a program must be produced for each terminal used by a user. Therefore, in one embodiment of the present invention, the remote device 101 is controlled by using a web technology, and the remote device 101 is controlled using only a web browser provided in the control terminal 108 without installing any software. do.

Since web technology has basically used a web service providing tool such as Apache, but cannot be an environment in which Apache can be run in the low-performance remote device 101, in one embodiment of the present invention, only a socket communication port is opened. In order to provide web services to users, we build a web server using JavaScript. Therefore, the port uses 80 as the default web service port or can be configured as a user desired port.

3 is a block diagram illustrating a connection structure between a markup language 116 and a communication protocol 118 according to an embodiment of the present invention. As shown in FIG. 3, markup language 116 corresponds to a language that specifies the structure of data using tags, such as HTML. The JavaScript 117 is a scripting language developed by Netscape Communications in the United States and can be used as a markup language. In an embodiment of the present invention, the JavaScript 117 serves as a bridge between the markup language 116 and the communication protocol 118. Function as a language. This technology allows serial communication in the browser. In addition, the communication protocol 118 is a part to be implemented according to the communication module 106 provided in the remote device 101.

Hereinafter, the configuration and operation of the control terminal 108, which is one component of the system according to an embodiment of the present invention, will be described in detail. 4 is a block diagram showing the configuration of a control terminal 108 according to an embodiment of the present invention. Control terminal 108 includes a variety of devices. However, the device should be equipped with a web browser by default. There are various browsers on the PC, but if the environment can run HTML and JavaScript on a mobile phone or smartphone, it is included in the control terminal. Since the control terminal 108 is a terminal capable of high performance processing, it is possible to provide various functions to the user.

First, the markup data is transmitted by the communication technology to the analysis module 114 provided in the control terminal 108 by the web server provided in the communication module 106 of the remote device 101 described above. That is, the analysis module 114 is a module for analyzing data transmitted from the web server 107. Since the operation is possible with a higher performance CPU than the remote device 101, the analysis module can be variously supported for a calculation module (a user interface (UI), a web database, a function module, etc.) to be described later. do. Most of these features are handled automatically by the browser.

The calculation module 109 according to an embodiment of the present invention includes a user interface 110, a web database 111, a plug-in 112, a function module 113, and the like. The user interface 110 is a module for screen configuration. There is no special function, but various user interfaces 110 available in HTML may be used. For example, you can use Label, Textbox, and Button.

In addition, the operation module 109 according to the embodiment of the present invention may include a web database 111. Collecting data from remote locations 101 creates a variety of problems. Problems that may appear include capacity, speed, search (select issues), and communication. In addition, when the data coming into the stream is viewed on the control terminal 108, the user may log this data or log the command input by the user to make a database.

To solve this problem, it was necessary to build a server and use DBMS (hereinafter referred to as DBMS, database management system), but recently, it can be used without a large DBMS by using HTML5 Indexed DB or WebSQL. Of course, you can add external transport modules to allow access to large DBMSs.

In addition, the calculation module 109 according to an embodiment of the present invention may further include a plug-in (112). Module for external plug-ins. The system provides an application program interface (hereafter API) so that this function can be combined with other modules. Plug-ins are accessed through the API.

And, the calculation module 109 according to an embodiment of the present invention may include a function module (Function, 112). The function module is a module capable of giving a command to the actual remote device 101 among the data received from the web server 107. This function module 112 is composed of JavaScript in HTML single file to avoid server side language. You can use a separate technique if you need to, but the key is to use JavaScript functions to handle it. The processing result is commanded to the remote device 101 through the processing module 114.

Accordingly, various operations and processes such as the user interface 110, the web database 111, the plug-in 112, and the function module 113 may be performed. In particular, the function module 113 corresponds to a code that is automatically pasted from the generator 104 of the remote location (101). Complicated and difficult to process instructions are calculated on behalf of the low-performance remote device 101.

Then, the user selects a result to be transmitted to the processing module 114, and the processing module 114 transmits data to the communication module 106 again with only a minimum value. Modules such as user interface 110, web database 111, plug-in 112, etc., are not critical when processing at control terminal 108. In order to control the remote device 101, a command must be transmitted to the communication module 106 of the remote device 101. Since the module of the low-performance remote device 101 is difficult to process, the processing module 115 transmits data consisting of numbers and separators. This process allows the remote device to be controlled using preformatted commands.

However, when transmitting from the processing module 115 to the communication module 106, a variety of networks may be used. This is to enable driving in a remote device that is not based on IP. To access the communication protocol 118 via markup data (markup language 116), the JavaScript 117 is bridged between the markup language 116 and the communication protocol 118 as shown in FIG. Enable communication. At this time, the available devices may use a low speed transmission device such as a wired device capable of serial communication such as Bluetooth, RS-232, and infrared communication.

Hereinafter will be described a control method of a web technology based remote device using a separate control terminal according to an embodiment of the present invention. First, FIG. 5 is a flowchart illustrating a control method of a remote device based on web technology using a separate control terminal according to an embodiment of the present invention.

First, information composed of the status information module 102-1, the sensor information module 102-2, the device information module 102-3, and the like, in the control / gathering module 103 provided in the low-performance remote device 101; Information of the module 102 is collected (S10). The data collected in this way has only simple numbers. The data collected by the collection module is transferred to the generator 104 to generate the markup data by attaching a predefined markup language 116 (S20).

This markup data is then immediately stored in the memory 105 (S30). This process does not occur frequently as described above. It is best to make it appear only at the request of the user. If you do it too often, you will likely have performance problems.

Then, the markup data (html file) is transmitted to the analysis module 113 using the communication protocol 118 defined in the communication module 106 previously defined (S40). This is the role of the low performance remote device 101.

In addition, since the control terminal 108 having the analysis module 114 is a terminal capable of high-performance processing, the control terminal 108 may provide various functions to the user. Data transmitted by the communication module 106 is analyzed by the analysis module 114 so that the calculation module 109 can be supported (S50). Most of these features are automatically handled by the browser.

The data analyzed to be processed by the calculation module 109 is transmitted to the calculation module 109. When transmitted, the user interface 110, the web database 111, the plug-in 112, the function module 113, etc. that constitute the operation module 109 may not perform various operations and operations in the low-performance remote device 101. Processing is performed (S60).

In particular, the function module 112 is a code that is automatically attached to the generator 104. Complicated and difficult to process commands are calculated on behalf of the low-performance remote device 101. In addition, the user selects a result to be sent to the processing module 115, and the processing module 115 returns to the communication module 106 of the remote device 101 with only a minimum value (S70). In addition, the control module of the control / collection module provided in the remote device 101 processes the data transmitted from the processing module 115 of the control terminal 108.

However, when transmitting from the processing module 115 to the communication module 106, a variety of networks may be used. This is to enable driving in a remote device that is not IP-based. In order to access the communication protocol 118 via the markup language 116, the communication between the markup language 116 and the communication protocol 118 is possible by using the JavaScript 117 as shown in FIG. do. At this time, the available equipment may use a low speed transmission device such as a wired device capable of serial communication such as Bluetooth, RS-232, and infrared communication.

Therefore, if the control interface construction system and control method of the web technology-based remote device using a separate control terminal according to an embodiment of the present invention using the analysis module 114, processing module using the resources of the control terminal 108 With the 115, the control / collection module 103 of the low performance remote device 101 can be freely used. That is, even a low-performance remote device such as USN can use all of the technologies such as direct control, calculation, collection, and DB of the low-performance remote device 101 using the resources of the control terminal using web technology. In addition, the collected results can be used in other network environments other than the IP-based environment, which enables transmission to network servers in other locations using the hardware of the control terminal.

100: Interface construction system for controlling low-performance remote device using web technology
101: remote device
102: information module
102-1: Status information module
102-2: Sensor information module
102-3: Device information module
103: control / collection module
104: Generator
105: Memory
106: communication module
107: web server
108: control terminal
109: operation module
110: user interface
111: Web database
112: Plug-in
113: function module
114: Analysis module
115: processing module
116: Markup data
117: JavaScript
118: communication protocol

Claims (19)

In the control interface construction system of remote devices using web technology,
A collecting module provided in the remote device to collect data on the state of the remote device;
A communication module provided in the remote device and configured to communicate data collected by the collection module through a web server;
Comprising a calculation module for executing at least one of the operation, storage, display and plug-in data transmitted from the communication module and a processing module for transmitting the data calculated by the operation module to the communication module, the web browser is mounted Control terminal; And
And a control module provided in the remote device, the control module processing the calculated data transmitted to the communication module by the control terminal.
The method of claim 1,
The control terminal,
Receiving the data transmitted from the communication module to analyze the calculation module to be processed to control the low-performance remote device using a web technology, characterized in that it further comprises an analysis module for transmitting the analysis data to the calculation module. Interface building system.
The method of claim 1,
The operation module is an interface building system for controlling a low-performance remote device using a web technology, characterized in that it comprises a user interface for configuring a screen in the control terminal.
The method of claim 1,
The computing module is an interface construction system for controlling a low-performance remote device using a web technology, characterized in that it comprises a web database for storing data transmitted from the remote device.
The method of claim 1,
The computing module is an interface building system for controlling a low-performance remote device using a web technology, characterized in that the external software is provided with a plug-in to be displayed through a web browser of the control terminal.
The method of claim 1,
The operation module is provided with a JavaScript module for calculating the data transmitted from the remote device to process the data that can be processed by the remote device, characterized in that it comprises a function module for transmitting the processed data to the processing module Interface construction system for controlling low-performance remote device using a web technology.
delete The method of claim 1,
The remote device is
And an information module for transmitting the information about the remote device to the collection module.
The method of claim 8,
The information module
Status information module for updating the status of the remote device every predetermined time, a sensor information module for collecting the measured value measured by the sensor when the sensor is provided in the remote device and device information for storing information about the remote device Interface building system for controlling a low-performance remote device using a web technology characterized in that it comprises a module.
The method of claim 1,
The remote device,
And a generator configured to receive the data collected by the collection module to form a markup data by attaching a preset markup language to the low performance remote device using web technology.
The method of claim 10,
The remote device,
And a memory for storing the markup data formed by the generator at regular intervals and transmitting the stored markup data to the communication module. system.
12. The method of claim 11,
The communication module includes:
The web server having a web server using JavaScript enables serial communication in the web browser of the control terminal by linking markup data transmitted from the memory with a communication protocol used in the communication module. Interface construction system for controlling low-performance remote devices using web technology.
In the control method of a remote device based on web technology,
Collecting information on the remote device by a collecting module of the remote device;
A communication module having a web server transmitting the collected data collected by the collection module to an analysis module of a control terminal;
Calculating and processing the collected data transmitted from the remote device by a calculation module provided in the control terminal having a web browser; And
And transmitting the calculated and processed operation data to the communication module through a processing module provided in the control terminal.
The method of claim 13,
Between the collection step and the step of transmitting to the analysis module
And generating, by the generator, the markup data by receiving the collected data from the collection module and assigning a markup language to the collected data to form a markup data. Way.
The method of claim 14,
After the markup data forming step
Storing, by a memory, the markup data at regular intervals; And
And transmitting the stored markup data to a communication module having the web server.
16. The method of claim 15,
The step of transmitting to the analysis module
The web server uses a control terminal to enable serial communication in a web browser of the control terminal by linking markup data transmitted from the memory with a communication protocol used in the communication module using JavaScript. Web technology based remote device control method.
The method of claim 14,
The control module of the remote device further comprises the step of processing the operation data transmitted to the communication module control method of a web technology based remote device using a control terminal.
The method of claim 13,
And transmitting the information about the remote device to the collection module by an information module provided in the remote device.
The method of claim 13,
Computing and processing the collected data,
A user interface configuring a screen in the control terminal;
Storing, by the web database, data transmitted from the remote device;
Allowing the plug-in to display external software through the web browser of the control terminal; And
A function module having a JavaScript may further include at least one of calculating data transmitted from the remote device and processing the data transmitted by the remote device as data that the remote device can process, and transmitting the processed data to the processing module. Web technology based remote device control method using a control terminal, characterized in that.

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