KR20090127597A - Communication mode auto selecting apparatus of remote sensing module - Google Patents

Abstract

PURPOSE: An apparatus for automatically selecting a communication mode of a remote monitoring module is provided to execute the best communication by executing two-way communication between a remote monitoring module and a control center. CONSTITUTION: A remote monitoring module(2) and a communication device(10) control the condition of facilities(1). A communication module unit(11) executes interactive communication in the different communication modes. A communication module selecting unit(12) selects the communication module of the normal communication of single communication modules included in the communication module unit. A connection selecting unit(13) connects the selected communication module and an antenna(14).

Description

Communication mode auto selecting apparatus of remote sensing module

The present invention relates to a communication method automatic selection device of a remote monitoring module, and more particularly, is mounted on a remote monitoring module that remotely monitors the status of facilities, and automatically selects a communication method of a remote monitoring module to communicate with a control station. Relates to a device.

In general, the remote monitoring system is a system that allows the control station to monitor and control the remotely located facilities.

For example, the route marking facility remote management system is a system for remotely managing and controlling a lighthouse, a buoy, etc. installed in the sea for the safety of a navigational vessel, and controls and monitors a power state, a lamp blinking state, etc. in real time.

In addition, as another example, the remote rainfall observation data collection system is a system that installs an unmanned rainfall observation station in a large river basin, such as the Han River, Nakdong River, and receives the rainfall in real time by real-time wireless transmission as a basic data for river management according to rainfall Observation stations are often very spaced apart from residential / commercial areas, such as mountains and valleys, and are not included in a complete single communications area as a whole.

Such a remote monitoring system is widely used in industrial technology, environment, security / method and various facility management fields, and in the configuration of such a remote monitoring system, a communication network between a device installed at a remote site and a center is essential.

In particular, when the distribution of remote devices is scattered all over the place or wide area (sea, natural environment, etc.), it is common to configure a communication network using a wireless communication network (CDMA, TRS, VHF).

However, the conventional remote monitoring system as described above has considerable technical difficulty and cost to construct a wireless communication network only in a single manner due to the different radio wave environment and the inconsistent communication range when configuring the wireless network in a large area. Rise is caused.

In addition, when a wireless communication network for remote control is configured in a single manner, there may be a problem in that communication communication with some remote devices is not smooth, which means a functional defect of the remote system, and in a critical facility, monitoring / control is not smooth. There is a risk of not.

In the conventional remote monitoring system as described above, when a wireless communication network for remote control is configured in a single manner, a problem may occur in that communication communication with some remote devices is not smooth, which means a functional defect of the remote system, and in the case of important facilities Since the monitoring / control may not be performed smoothly, a configuration of various communication methods suitable for various radio wave environments is required.

The present invention provides a communication device of a remote monitoring module for remotely controlling a state of a facility, the communication device comprising: a communication module unit which is a collection of communication modules for performing bidirectional communication in different communication methods; A communication module selecting unit for selecting a communication module in which normal communication is performed from a single communication module included in the communication module unit; And a selection connecting unit connecting the communication module and the antenna selected by the communication module selecting unit.

The present invention is to automatically set the communication method for the different radio wave environment of the area where the remote monitoring module is installed so that the two-way communication between the remote monitoring module and the control station is made, so that the best communication is always made.

BRIEF DESCRIPTION OF THE DRAWINGS Prior to describing the present invention, the accompanying drawings, which are presented to help understand the technology, FIG. 1 is a block diagram schematically showing a configuration according to an embodiment of the present invention, and FIG. A block diagram is shown.

The present invention will be described below with reference to the accompanying drawings presented as above.

First, the present invention is different from each other in the communication device 10 of the remote monitoring module 2 to remotely control the state of the facility 1, as shown in Figure 1 and 2 of the accompanying drawings. A communication module unit 11 which is an assembly of communication modules for performing bidirectional communication in a communication method; A communication module selecting unit 12 for selecting a communication module for performing normal communication among the single communication modules included in the communication module unit 11; And a selection connector 13 connecting the communication module and the antenna selected by the communication module selection unit 12 to each other.

Here, the communication module unit 11 of the present invention includes a TRS communication module (11a) for providing a communication standard for the common use of one frequency band by multiple users; A CDMA communication module 11b providing a communication standard for allowing a plurality of users to access a service in the same frequency band; And a VHF / UHF communication module 11c using microwaves in a frequency range of about 30 to 300 MHz and microwaves in a frequency range of about 300 to 3000 MHz.

At this time, each of the TRS communication module 11a, the CDMA communication module 11b, and the VHF / UHF communication module 11c converts an information signal into a signal of a corresponding method or modulates and modulates a signal of a corresponding method into an original information signal. And a matching circuit for matching an impedance according to a frequency of each communication module to a corresponding frequency for high frequency matching.

In addition, a transmission and reception antenna 14 may be connected to an end of each communication module.

In this case, the antenna 14 may be a single antenna of a multiband type.

Meanwhile, in the present invention, the communication module selecting unit 12 may include a microprocessor equipped with a program for initially determining a communication state of a communication module set as a default and selecting another communication module if communication is not possible.

The microprocessor determines whether the communication signal is normally transmitted and received by the communication module set as a default, for example, the TRS communication module 11a, and when the communication is disabled, another communication module CDMA communication module 11b or VHF / UHF communication module 11c. Check if communication is possible with).

For example, if there is a remote station set to transmit temperature / humidity data to the control station every hour, it transmits the data to the control station through the TRS communication module 11a, which is the default communication module, and waits for a reception completion signal Ack.

At this time, when the data reception completion signal is received from the control station through the TRS communication module (11a), the state is maintained to the TRS communication module (11a) and waits for transmission of the next time.

At this time, if the reception completion signal (Ack) transmitted from the control station is not received through the TRS communication module (11a), the connection through the TRS communication module (11a) is considered not smooth, that is, it is considered as a communication incapable state and remote The station transmits data to the control station via another communication module CDMA communication module 11b and waits for a reception completion signal Ack.

At this time, when a data reception completion signal is received from the control station through the CDMA communication module 11b, the state is maintained by the CDMA communication module 11b and the transmission of the next time is waited.

At this time, if the reception completion signal (Ack) transmitted from the control station is not received through the CDMA communication module 11b, the connection through the CDMA communication module 11b is considered to be not smooth, that is, it is regarded as a communication inability and remote The station transmits data to the VHF / UHF communication module 11c, which is another communication module, and performs bidirectional communication as described above.

In addition, the communication module selecting unit 12 may include a discrete circuit including a logic circuit or a logic circuit for initially determining a communication state of a communication module set as a default, and selecting another communication module if communication is not possible.

The logic circuit may be a comparator which considers a normal state when the signal input to the communication module set as a default is HI compared to a reference signal, and regards it as abnormal, that is, a communication incapable state when the input signal is LO.

In addition, the communication module selector 12 may be a dip switch for artificially selecting and setting a communication module in advance.

In this case, the desired communication module can be selected and installed through the dip switch.

On the other hand, the selection connection unit 13 of the present invention may be a switch for connecting the antenna and the communication module selected in conjunction with the communication module selection unit 12.

In this case, the switch may be a solenoid or a semiconductor switching device.

In this case, when the communication module selector 12 selects a communication module and transmits a selection signal of a level differently set according to the corresponding communication module, the connection selector 13 switches to perform the corresponding communication. The matching circuit of the module and the antenna 14 are connected to allow transmission and reception.

Referring to the present invention configured as described above as an example of the remote management system of the route display facility as follows.

The remote monitoring module 2 constituting the remote management system of the route display facility includes a lamp unit 3 of a buoy; Detection unit (4) for monitoring the conditioner state, power state, ocean temperature and air pressure and wind direction and wind speed; GPS unit 5 for transmitting and receiving the installation position data to the satellite; While driving the respective parts by the power supplied from the power control unit 6, by transmitting the measurement data of the sensing unit 4 and the position data of the GPS unit 5 to the communication device 10 of the present invention remote monitoring module A CPU 7 for transmitting to the control station; It can be applied to the remote management system of the route display facility comprising a; connection unit 8 for providing a data input and output passage for control monitoring of the accessory including the sensor of the sensing unit.

At this time, the communication module selector 12 of the communication device 10 of the present invention remote monitoring module may be included in the CPU (7).

The remote management system of the route marking facility thus displays the ship's night route through the lamp 3 of the buoy, and monitors the state of the lamp, measured by the monitoring unit 4, power state, air temperature and air pressure and wind direction. When the position data of the GPS unit 5 is input to the CPU 7 as well as the over wind speed data, the CPU 7 temporarily stores the data.

Thereafter, the communication module selecting unit 12 selects a communication module or selects a communication module set as a default, for example, a TRS communication module 11a, and simultaneously receives a signal having a selection level corresponding to the selected TRS communication module 11a. Transfer to the connection selector 13 to connect the matching circuit and antenna 14 of the TRS communication module (11a).

In this state, when the CPU 7 transmits the data to be transmitted, the modulation circuit of the TRS communication module 11a converts the signal into a corresponding communication method, and converts the converted signal to a level at which the amplification circuit can send out. After matching, the matching unit transmits the impedance through the antenna 14 to the outside.

Then, the transmitted signal is received at the control station, and the reception completion signal of the reception is sent.

When the antenna 14 receives the reception completion signal transmitted from the control center in this way, the TRS communication module 11a is regarded as a normal state capable of bidirectional communication, and maintains the communication state and waits for transmission of the next time.

However, if the TRS communication module 11a does not receive the reception completion signal transmitted from the control station, it is considered that the connection through the TRS communication module 11a is not smooth and the CDMA communication module which is another communication module ( Send data to control station through 11b) and wait for reception completion signal.

At this time, when the CDMA communication module 11b receives the reception completion signal sent by the control station, the CDMA communication module 11b maintains the communication state and waits for transmission of the next time.

At this time, if the CDMA communication module 11b does not receive the reception completion signal transmitted by the control station, the connection through the CDMA communication module 11b is considered to be not smooth. The module transmits data to the VHF / UHF communication module 11c and performs bidirectional communication as described above.

Such, the present invention by automatically setting the communication method for the different radio wave environment of the area where the remote monitoring module is installed to make the two-way communication between the remote monitoring module and the control station, so that the best communication is always made.

Such a present invention can be utilized as a wireless interface device for data transmission for various monitoring facilities installed in areas where installation of wired networks is difficult or difficult, and remote environmental measurement devices (atmosphere, water quality, harmful substance concentration measurement, etc.), It can be used for data monitoring / control device of remotely installed sensors, operation status control and monitoring of IT-based operation maintenance system (minimization of unmanned or administrative personnel), remote integrated operation management of power generation facilities in alternative energy generation fields (operation efficiency), etc. .

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described.

Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

1 is a block diagram schematically showing a configuration according to an embodiment of the present invention.

Figure 2 is a block diagram showing in more detail the configuration according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: communication device of remote monitoring module 11: communication module

11a: TRS communication module 11b: CDMA communication module

11c: VHF / UHF communication module 12: communication module selector

13: connection selector 14: antenna

Claims (15)

In the communication device 10 of the remote monitoring module 2 that monitors the state of the facility 1 and remotely controls it, a communication module unit 11 which is a collection of communication modules for performing bidirectional communication in different communication methods. ); A communication module selecting unit 12 for selecting a communication module for performing normal communication among the single communication modules included in the communication module unit 11; And a connection selection unit (13) connecting the communication module and the antenna (14) selected by the communication module selection unit (12). The communication module unit of claim 1, further comprising: a TRS communication module (11a) for providing a communication standard for allowing several users to share one frequency band in common; A CDMA communication module 11b providing a communication standard for allowing a plurality of users to access a service in the same frequency band; And a VHF / UHF communication module (11c) using microwaves in a frequency range of about 30 to 300 MHz and microwaves in a range of about 300 to 3000 MHz. The TRS communication module 12a, the CDMA communication module 12b, and the VHF / UHF communication module 12c convert the information signal into a signal of a corresponding method, or convert a signal of the corresponding method into an original information signal. A modulation / demodulation circuit for converting the signal into a signal, an amplifying circuit for amplifying the transmitted / received signal, and a matching circuit for matching an impedance according to a frequency of each communication module to a corresponding frequency for high frequency matching. Type automatic selection device. The method of claim 1, wherein the communication module selection unit 12 is configured to include a microprocessor equipped with a program for initially determining the communication state of the communication module initially set by default, and selecting another communication module if communication is not possible. Communication type automatic selection device of remote monitoring module. According to claim 1, wherein the communication module selection unit 12 includes a discrete circuit including a logic circuit or a logic circuit for determining the communication state of the communication module initially set by default, and selecting another communication module if communication is not possible Communication method automatic selection device of a remote monitoring module, characterized in that configured. The apparatus of claim 1, wherein the communication module selector (12) comprises a dip switch for artificially selecting and setting a communication module in advance. The method of claim 1, wherein the connection selection unit 13 comprises a switch for connecting the communication module and the antenna selected in cooperation with the communication module selection unit 12, automatic selection of the communication method of the remote monitoring module Device. The apparatus of claim 1, wherein the antenna (14) is a single antenna of a multiband type. The apparatus of claim 1, wherein the facility (1) remotely controls, monitors, and observes a route marking facility or a good observation station, and transmits data to a center or a control station. 2. The remote monitoring module (2) according to claim 1, further comprising: a lamp unit (3) of a buoy; A detector (4) for measuring the state and power voltage of the equalizer, the air temperature and air pressure, the wind direction and the wind speed of the ocean; GPS unit 5 for transmitting and receiving the installation position data to the satellite; The CPU for driving the respective parts by the power supplied from the power control unit 6, while transmitting the measurement data of the sensing unit 4 and the position data of the GPS unit 5 to the communication device 10 to transmit to the control station ( 7); And a connection unit (8) for providing a data input / output passage for controlling monitoring of an accessory device including the sensors of the detection unit. The apparatus of claim 1, wherein the remote monitoring module is a wireless interface for transmitting data to a monitoring facility. According to claim 1, wherein the facility is a remote monitoring module communication method automatic selection device, characterized in that the remote environment measuring device for measuring the concentration of air, water quality, harmful substances. The apparatus of claim 1, wherein the remote monitoring module is a data monitoring / control device for remotely installed sensors. The apparatus of claim 1, wherein the facility is an IT-based operation and maintenance system. The apparatus of claim 1, wherein the facility is a remote integrated operation management system of a power generation facility in an alternative energy generation field.

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