KR20140125092A - Portable communication terminal apparatus and optical fiber measurement sysmem using the same - Google Patents

Abstract

The present invention relates to a portable communication terminal and an optical cable measurement system using the same. The portable communication terminal includes a wireless communication module accessing a wireless network and a mobile communication network; and an optical cable monitoring program receiving and outputting optical fiber measurement data which is data for indicating characteristics of an optical fiber from the outside via the wireless network and transmitting the optical fiber measurement data via the mobile communication network, wherein the optical cable monitoring program receives a control signal for changing an output variable of the optical fiber measurement data outputted by itself and transmits the received control signal via the wireless network, and it is desirable that the wireless network is WiFi and the mobile communication network is 3G or 4G network. Thereby, the present invention can check the measurement data of the optical fiber via the optical cable monitoring program in the portable terminal, so it can enhance the efficiency of monitoring an optical cable. Additionally, the present invention transmits optical signal measurement data to a sever in real time, so it can enhance optical signal measurement data management efficiency in the server.

Description

TECHNICAL FIELD [0001] The present invention relates to a portable communication terminal and a light ray path measurement system using the same. BACKGROUND OF THE INVENTION [0002]

The present invention relates to a portable communication terminal and a light ray path measuring system using the same.

An optical communication broadband information network can be divided into a backbone network and a local network. An example of a subscriber network is a fiber to the home (FTTH) subscriber network.

The FTTH subscriber network is a network connecting from the telephone office to the subscriber's home network using optical fiber. The optical fiber is formed of thin strands of glass or plastic, and the service provider monitors the optical fiber installed in the FTTH subscriber network so that the optical communication service provided to the subscriber is not obstructed.

At this time, there is an optical time domain reflectometer (OTDR) for measuring the failure state of the optical fiber (or the optical cable including the optical fiber). This optical line measuring device is a device for measuring a loss of optical fiber, a distance to a connection point, a connection loss, a reflection amount from a connection point, and a broken fiber when the optical pulse is incident on a measurement target optical fiber, Measure the distance.

Since the optical line measuring device is not portable, the optical communication service provider for optical fiber management measures the optical fiber using the optical line measuring device and stores the measured data on a removable disk such as a USB (universal serial bus) And stores it in the communication service server.

As a result, there is a disadvantage that the optical fiber status measurement data measured by the optical path measuring device can not be stored in the communication service server in real time.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to confirm state data of optical fibers measured by a light ray measuring apparatus in a portable terminal.

According to another aspect of the present invention, there is provided a method for storing state data of an optical fiber measured by a light ray measuring apparatus in a light ray measurement data storage server in real time.

A portable communication terminal according to an embodiment of the present invention includes a wireless communication module connected to a wireless network and connected to a mobile communication network, and receives and outputs optical fiber measurement data, which is data indicating the characteristics of the optical fiber from the outside through the wireless network, And an optical line monitoring program for transmitting the optical fiber measurement data through the mobile communication network, wherein the optical line monitoring program inputs a control signal for changing an output variable of the optical fiber measurement data output from the optical line monitoring program (WiFi), and the mobile communication network may be a 3G network or a 4G network.

An optical line measurement system using a portable communication terminal according to one aspect of the present invention includes an access point (AP) module for generating a wireless network and a display, and measures the characteristics of the optical fiber to output optical fiber measurement data to the display A portable optical line measuring device for transmitting the optical fiber measurement data, a wireless communication module and a light line monitoring program, wherein the portable optical line measuring device is connected to the wireless network generated by the portable optical line measuring device, A portable communication terminal for receiving and outputting the optical fiber measurement data and transmitting the optical fiber measurement data through a mobile communication network, a server for receiving and storing the optical fiber measurement data transmitted by the portable communication terminal through the mobile communication network, , And the portable communication terminal Smart phones may be a pidieyi (PDA) or a tablet PC (tablet PC).

According to this aspect, the portable communication terminal receives the optical fiber measurement data from the optical path measuring device through the wireless network created by the optical path measuring device, outputs the received optical fiber measurement data, and transmits the optical fiber measurement data through the mobile communication network To the service server in real time. As a result, the communication service server can receive and store the measured optical fiber measurement data in the optical path measuring device in real time, thereby improving the management efficiency of the optical fiber measurement data.

1 is a block diagram schematically illustrating a portable communication terminal according to an embodiment of the present invention and a light path measurement system using the same.
2 is a flowchart illustrating an operation of an optical path measurement system 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 so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Hereinafter, a portable communication terminal according to an embodiment of the present invention and a light path measuring system using the same will be described with reference to the accompanying drawings.

First, a portable communication terminal according to an embodiment of the present invention will be described in detail with reference to FIG.

1, the portable communication terminal 100 according to an exemplary embodiment of the present invention includes an optical line monitoring program 110. The electronic communication terminal 100 includes a wireless network such as Wifi and a mobile communication network such as 3G or 4G And is a terminal having a communication function capable of connecting to a network.

The portable communication terminal 100 may be one of devices having a communication function such as a smart phone, a personal digital assistant (PDA), and a tablet pc.

The optical line monitoring program 110 provided in the portable communication terminal 100 controls the portable communication terminal 100 to be connected to the wireless network and receives the optical fiber measurement data through the connected wireless network, To the outside through the wireless network.

In this case, the control signal input to the portable communication terminal 100 is a control signal for controlling the output variable of the optical fiber measurement data, and the optical line monitoring program 110 generates the control signal through the wireless network 12 Lt; / RTI >

The optical line monitoring program 110 outputs the optical fiber measurement data received through the wireless network 12 to a display provided in the portable communication terminal 100 and transmits the optical fiber measurement data to the external .

Referring to FIG. 1, a light path measurement system using a portable communication terminal according to an embodiment of the present invention will be described. In a light path measurement system using a portable communication terminal, an optical fiber 1 is taken in, Which is connected to the portable optical line measuring device 10 via the wireless network 12 and is connected to the base station 200 through the mobile communication network 210, And a server 20 connected to the base station 200 through a wired network 220. [

The portable optical line measuring apparatus 10 receives the optical fiber 1 positioned at the end of the optical network and measures the characteristics of the optical fiber 1. The portable optical line measuring apparatus 10 is preferably an OTDR.

At this time, the portable optical line measuring apparatus 10 measures the intensity of the optical output reflected from the optical fiber 1 by inputting the optical pulse to the optical fiber 1 to be measured, The thickness of the optical fiber 1 can be calculated through the time required for the optical pulse to be reflected from the optical fiber 1 after entering the optical fiber 1. [

At this time, the state of the optical fiber 1 such as the connection loss, the high-strength position, and the optical output intensity of the optical fiber 1 is measured through the amount of light reflected from the optical fiber 1.

The portable optical line measuring apparatus 10 has a display unit 11 and the display unit 11 outputs the measurement data of the optical fiber 1 measured in the portable optical line measuring apparatus 10 as described above.

The portable optical line measuring apparatus 10 includes an access point (AP) module (not shown) for creating a wireless network inside the apparatus. The wireless AP module generates a WiFi (WiFi), which is a wireless network 12 for transmitting measurement data of the optical fiber 1 measured by the portable optical line measuring device 10 to the outside.

As described above, the portable communication terminal 100 is a portable electronic apparatus having a communication function and includes a light-line monitoring program 110. [

The portable communication terminal 100 is connected to the wireless network 12 generated by the portable optical line measuring apparatus 10 and connected to the mobile communication network 210 generated by the base station 200. [

The optical line monitoring program 110 is transmitted from the portable optical line measuring apparatus 10 via the wireless network 12 by connecting the portable communication terminal 100 to the wireless network 12 and the mobile communication network 210 respectively Receives the optical fiber measurement data, and transmits the optical fiber measurement data to the server 20 through the mobile communication network 210.

At this time, the base station 200 generates a mobile communication network 210 such as 3G or 4G as a base station providing a mobile communication network.

The server 20 is a server of a service provider providing an optical communication service and is connected to the base station 200 through a wired network 220.

The server 20 receives the optical fiber measurement data transmitted from the base station 200 by the portable communication terminal 100 and stores the received optical fiber measurement data. The server 20 can measure the optical fiber measured by the optical path measuring apparatus 10 through the portable optical line measuring apparatus 10, the portable communication terminal 100, the wireless network 12, and the mobile communication network 210. [ Receive and store data in real time.

Therefore, there is an effect that the management efficiency of the optical fiber measurement data is good.

Next, the operation of the optical path measuring system using the portable communication terminal of the present invention will be described with reference to FIG.

First, the portable optical line measuring apparatus 10 receives the optical fiber 1 to be measured from the optical line located at the end of the optical network and measures the characteristics of the optical fiber 1 by applying the optical pulse to the optical fiber 1 (S11), and outputs the measured characteristics of the optical fiber (hereinafter referred to as "optical fiber measurement data") (S12).

At this time, the portable lightwave measuring device 10 outputs the optical fiber measurement data to the display 11 so that the optical communication service provider using the portable lightwave measuring device 10 can confirm the optical fiber measurement data in real time.

Next, the portable communication terminal 100 starts the optical line monitoring program 11 for monitoring the optical fiber measurement data (S101).

Then, the portable communication terminal 100 transmits a wireless network connection request signal to the portable optical line measuring apparatus 10 (S1001), and the portable optical line measuring apparatus 10 receives the wireless network connection request signal.

The portable optical line measuring apparatus 10 forms a wireless network 12 with a built-in wireless access point (wireless AP) and transmits the portable optical line measuring apparatus 10 and the portable communication terminal 100) (S13).

When the portable optical line measuring apparatus 10 and the portable communication terminal 100 are connected to each other through the wireless network 12, the portable optical line measuring apparatus 10 transmits the wireless network connection completion signal And the optical fiber measurement data, which is a measurement characteristic of the optical fiber, to the portable communication terminal 100 (S1002).

Accordingly, the portable communication terminal 100 outputs the optical fiber measurement data, which is the measurement characteristic of the optical fiber received from the portable optical line measuring apparatus 10, to the optical line monitoring program 11 (S102).

Then, the portable communication terminal 100 transmits the measurement characteristic of the optical fiber to the base station 200 (S1003).

The portable communication terminal 100 receives the variable change request signal for changing the output variable of the optical fiber measurement data to adjust the output value of the optical fiber measurement data output from the optical path monitoring program 11 at step S103.

The variable light change request signal S103 received in the portable communication terminal 100 is transmitted to the portable optical line measuring apparatus 10 in step S1005 and the portable optical line measuring apparatus 10 receives the variable change request signal S103 received from the portable communication terminal 100 And the measured optical fiber characteristic data is output to the display 11 of the portable optical line measuring device 10 (S14).

Thus, the portable communication terminal 100 receives the optical fiber measurement data of the optical fiber 1 to be measured, which is measured by the portable optical line measuring apparatus 10, in real time without wired connection with the portable optical line measuring apparatus 10, The optical fiber measurement data of the optical fiber 1 can be moved and confirmed through the communication terminal 100.

In addition, if the terminal has the optical line monitoring program 11 and has the wireless communication and mobile communication functions, it can receive and output the optical fiber measurement data from the portable optical line measuring apparatus 10, There is an effect that the operation is easy when the subscriber's optical line is maintained.

2, the operation of the optical line measuring system using the portable communication terminal will be described. The portable optical line measuring apparatus 10 transmits the measurement characteristic of the newly measured optical fiber to the portable communication terminal 100 S1006).

At this time, the portable communication terminal 100 outputs the optical fiber measurement data measured in accordance with the variable received from the portable optical line measuring apparatus 10 to the optical line monitoring program 11 (S102) (S1003) of delivering the data to the mobile station 200 is repeated.

The portable communication terminal 100 transmits the optical fiber measurement data received from the portable optical line measuring apparatus 10 to the base station 200 in real time and the portable communication terminal 100 transmits the optical fiber measurement data to the base station 200 via the mobile communication network 210, And transmits measurement data to the base station 200.

The base station 200 transmits the optical fiber measurement data received from the portable communication terminal 100 to the server 20 through the wired network 220.

The server 20 detects whether or not a signal is received from the outside (S21). If the signal is not received, the server 20 performs an infinite orbit to continuously detect the signal reception. In the signal reception detection step S21, If it is determined that a signal is received from the outside, the server 20 stores the received optical fiber measurement characteristic in the server 20 (S22).

Accordingly, the server 20 receives the optical fiber measurement data in real time from the portable communication terminal 100 through the mobile communication network 210 and stores the optical fiber measurement data in the server 20 in real time, thereby managing the optical fiber measurement data Efficiency is improved.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

1: Optical fiber 10: Portable light ray measuring device
11: Display 12: Wireless network
20: server 100: portable communication terminal
110: Ray path monitoring program 200: Base station
210: mobile communication network 220: wired network

Claims (2)

A wireless communication module for connecting to a wireless network and connecting to a mobile communication network, and
The optical fiber measurement data being data indicating the characteristics of the optical fiber from the outside through the wireless network, and outputting the optical fiber measurement data through the mobile communication network,
/ RTI >
Wherein the optical line monitoring program receives a control signal for changing an output variable of the optical fiber measurement data output from the optical line monitoring program and transmits the control signal through the wireless network,
Wherein the wireless network is a WiFi and the mobile communication network is a 3G network or a 4G network. A portable optical line measurement device having an access point (AP) module for generating a wireless network and a display, measuring characteristics of the optical fiber to output optical fiber measurement data to the display, and transmitting the optical fiber measurement data,
A wireless communication module and a light path monitoring program, the optical fiber measurement device being connected to the wireless network created by the portable optical line measurement device, receiving and outputting the optical fiber measurement data transmitted by the portable optical line measurement device, A portable communication terminal for transmitting via a mobile communication network,
A server for receiving and storing the optical fiber measurement data transmitted by the portable communication terminal through the mobile communication network;
Lt; / RTI >
Wherein the portable communication terminal is a smart phone, a PDA, or a tablet PC.

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