KR102159685B1 - Measuring apparatus for subscriber, and control method thereof - Google Patents

Abstract

The present invention relates to a subscriber detection device for real-time detection of a service state of an optical line for each subscriber in an IPTV service environment in which a fiber to the home (FTTH)-based optical subscriber network is configured, and an operation method thereof. The subscriber detection device comprises a confirmation unit, a transmission unit, and a determination unit.

Description

Subscriber detection device and its operation method {MEASURING APPARATUS FOR SUBSCRIBER, AND CONTROL METHOD THEREOF}

The present invention relates to a technology for real-time detection of a service state of an optical line per subscriber in an IPTV service environment in which an optical subscriber network based on FTTH (Fiber To The Home) is configured.

Currently, as optical communication technology is developed in connection with IPTV service and subscriber traffic increases at a high speed, FTTC (Fiber To The Curb) or FTTH (Fiber To The Home), in which an optical line is installed to the subscriber's home, is spreading. Optical cables are gradually expanding to subscriber modems at home.

For reference, in the IPTV service environment in which optical communication technology is applied, there is an optical line terminal (OLT) that serves to terminate the subscriber's optical signal at the office, and such an optical line termination device is installed in the national office to provide a backbone network. An optical subscriber network can be formed by connecting the subscriber network with each other.

However, in the case of an IPTV service environment, subscriber fluctuations may become frequent due to various reasons including, for example, new service subscription, service termination, and service area movement.

Accordingly, in order to rapidly respond to such subscriber fluctuation characteristics in terms of maintenance for a stable IPTV service environment, it is necessary to prepare a method for real-time detection of the service status of optical lines for each subscriber.

The present invention was created in view of the above circumstances, and an object to be reached in the present invention is to monitor the service status of optical lines for each subscriber in real time in an IPTV service environment in which an optical subscriber network based on FTTH (Fiber To The Home) It is in the inspection.

A subscriber detection apparatus according to an embodiment of the present invention for achieving the above object includes: a confirmation unit for checking whether an uplink operation signal is detected from the optical line according to an optical line connection; A transmitter configured to transmit a downlink detection signal through the optical line when the uplink operation signal is not detected; And a determining unit for determining whether or not a subscriber modem connected to the optical line exists based on a reflection value of the downlink detection signal detected from the optical line.

Specifically, the uplink operation signal may be an optical signal transmitted from the subscriber modem in an active state according to power application of the subscriber modem connected to the optical line.

Specifically, the downlink detection signal is an optical signal generated with a predetermined natural wavelength value, and the transmitter generates two or more downlink detection signals having different wavelength values, and the two or more downlink detection signals May be sequentially transmitted through the optical line.

Specifically, when the subscriber modem is connected to the optical line, the reflection value of the downlink detection signal may be determined by a reflectance for each wavelength of an optical filter located on the transmission path of the downlink detection signal in the subscriber modem. have.

Specifically, the determination unit, when a result of comparing the reflection value of the downlink detection signal detected from the optical line with a predefined reference reflection value, is within an error range, the existence of a subscriber modem connected to the optical line. Can be identified.

Specifically, the determination unit measures a reflection value of the two or more downlink detection signals, and a result of comparing the reflection value of a specific downlink detection signal among the two or more downlink detection signals with a predefined reference reflection value. When the error range is exceeded, the existence of a subscriber modem connected to the optical line can be determined only when the excess of the error range is observed equally for the other downlink detection signals except for the specific downlink detection signal. have.

In order to achieve the above object, a method of operating a subscriber detection apparatus according to an embodiment of the present invention includes a confirmation step of confirming whether an uplink operation signal is detected from the optical line according to an optical line connection; A transmission step of transmitting a downlink detection signal through the optical line when it is confirmed that the uplink operation signal is not detected; And a discriminating step of determining whether there is a subscriber modem connected to the optical line based on a reflection value of the downlink detection signal detected from the optical line.

Specifically, the uplink operation signal may be an optical signal transmitted from the subscriber modem in an active state according to power application of the subscriber modem connected to the optical line.

Specifically, the downlink detection signal is an optical signal generated with a predefined natural wavelength value, and in the transmitting step, two or more downlink detection signals having different wavelength values are generated to detect the two or more downlinks. Signals may be sequentially transmitted through the optical line.

Specifically, when the subscriber modem is connected to the optical line, the reflection value of the downlink detection signal may be determined by a reflectance for each wavelength of an optical filter located on the transmission path of the downlink detection signal in the subscriber modem. have.

Specifically, in the determination step, when the reflection value of the downlink detection signal detected from the optical line is within an error range as a result of comparing the reflection value of the downlink detection signal detected from the optical line, the presence of the subscriber modem connected to the optical line Can be determined as.

Specifically, in the determining step, a reflection value of the two or more downlink detection signals is measured, and among the two or more downlink detection signals, a reflection value of a specific downlink detection signal is compared with a predefined reference reflection value. As a result, if the error range is exceeded, it is determined that there is a subscriber modem connected to the optical line only when the excess of the error range is observed equally for the other downlink detection signals excluding the specific downlink detection signal. I can.

Accordingly, according to the subscriber detection device and its operation method of the present invention, the subscriber's value is reflected from the downlink detection signal detected from the optical line in the IPTV service environment in which the FTTH (Fiber To The Home)-based optical subscriber network is configured. Since it is possible to detect the service status in real time, it is possible to provide a stable IPTV service environment through maintenance that can respond quickly to subscriber fluctuation characteristics.

1 is an exemplary view showing a subscriber detection environment according to an embodiment of the present invention.
2 is an exemplary diagram for explaining a service state of an optical line for each subscriber according to an embodiment of the present invention.
3 is a schematic configuration diagram of a subscriber detection apparatus according to an embodiment of the present invention.
4 is an exemplary diagram for explaining a general configuration of a subscriber modem according to an embodiment of the present invention.
5 is an exemplary view for explaining the relationship of reflectance for each wavelength according to an embodiment of the present invention.
6 is a flow chart for explaining the operation flow in the subscriber detection apparatus according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

1 is an exemplary diagram showing a subscriber detection environment according to an embodiment of the present invention.

As shown in Fig. 1, the subscriber detection environment according to an embodiment of the present invention includes a subscriber detection device 10 connected to one end of an optical line 1, and a connection to the other end of the optical line 1 It may have a configuration including the subscriber modem 20.

Here, the subscriber detection device 10 is for real-time detection of the service status of optical lines for each subscriber on the premise of an IPTV service environment in which an optical subscriber network based on FTTH (Fiber To The Home) is configured, and an optical connector (SC/APC ) Refers to a portable device that can connect to the optical line 10 through an optical line 10 and detect the service status of each subscriber in real time.

In addition, in the case of the subscriber modem 20, it refers to an optical line termination device (ONU, Optical Network Unit/ONT, Optical Network Terminal) located in the subscriber's premises in an optical subscriber network based on FTTH (Fiber To The Home). , G-PON, GE-PON, NG-PON and XGS-PON may be applicable.

As described above, in the subscriber detection environment according to an embodiment of the present invention, the service status of the optical line for each subscriber can be detected in real time through the above configuration. Hereinafter, the configuration of the subscriber detection device 10 for realizing this will be described. It will be described in detail.

Meanwhile, prior to the description, the service state of the optical line for each subscriber that can be detected in an embodiment of the present invention is, for example, as shown in FIG. 2, the subscriber modem 20 in the active state in the optical line 1 It can be classified into a service active state being connected, a service off state in which the subscriber modem 20 is connected to the optical line (1), and a service disconnection state in which the subscriber modem 20 is not connected to the optical line (1). It is assumed that there is.

3 shows a configuration of a subscriber detection apparatus 10 according to an embodiment of the present invention.

As shown in Fig. 3, the subscriber detection apparatus 10 according to an embodiment of the present invention includes a confirmation unit 11 for checking whether an uplink operation signal is detected, and a transmission unit 12 for transmitting a downlink detection signal. ), and a determination unit 13 for determining a service state.

In addition, the subscriber detection device 10 according to an embodiment of the present invention further includes a generator 14 for generating an optical signal, and a detection unit 15 for detecting an optical signal from the optical line 1. I can.

Here, the generation unit 14 may be composed of, for example, a DFB Distributed FeedBack Laser Diode (LD), and the detection unit 15 may be composed of, for example, an Avalanche photodiode (APD).

The entire or at least part of the configuration of the subscriber detection device 20 including the above confirmation unit 11, transmission unit 12, determination unit 13, generation unit 14, and detection unit 15 is in the form of a hardware module or It may be implemented in the form of a software module or a combination of a hardware module and a software module.

In particular, in the case of the verification unit 11, the transmission unit 12, and the determination unit 13, it may be implemented in the form of a command, which is a software module executed by a processor that controls operations in the subscriber detection device 20. , These commands may have a form mounted in a memory in the subscriber detection device 20.

On the other hand, in addition to the above-described configuration, the subscriber detection device 20 according to an embodiment of the present invention further includes a UI configuration such as a display and a keypad for an interface with a user who has the subscriber detection device 20. Of course, it can contain.

As a result, the subscriber detection device 20 according to an embodiment of the present invention can detect the service status of the optical line 1 in real time through the above-described configuration. Hereinafter, the subscriber detection device 20 for realizing this I will describe my configuration in more detail.

The verification unit 11 performs a function of checking whether an uplink operation signal is detected.

More specifically, the confirmation unit 11 checks whether or not an uplink operation signal is detected from the optical line 1 according to the connection of the optical line 1.

Here, the uplink operation signal refers to an uplink optical signal transmitted from the subscriber modem 20 in an active state according to the power supply of the subscriber modem 20 connected to the optical line 1.

That is, the verification unit 11 detects an uplink operation signal transmitted through the optical line 1 when the subscriber modem 20 is active during the initial operation according to the optical line 1 connection through the detection unit 15 It is to check whether or not.

On the other hand, when the uplink operation signal is detected from the optical line (1), it means that the subscriber modem 20, which is active in the optical line (1), is in a connected service connection state, and conversely, from the optical line (1). When the uplink operation signal is not detected, the service off state in which the subscriber modem 20 in the off state is connected to the optical line 1 or the subscriber modem 20 connected to the optical line 1 does not exist. It means a service interruption state that does not exist

The transmission unit 12 performs a function of transmitting a downlink detection signal.

More specifically, the transmission unit 12 transmits the downlink detection signal through the optical line 1 when it is confirmed that the uplink operation signal is not detected from the optical line 1.

Here, the downlink detection signal refers to a downlink optical signal that is generated with a predetermined natural wavelength value and transmitted to a subscriber.

That is, the transmission unit 12 causes the generation unit 14 to check the existence of the subscriber modem 20 connected to the optical line 1 according to the non-detection of the uplink operation signal from the optical line 1 The downlink detection signal is generated so that the generated downlink detection signal is transmitted through the optical line 1.

At this time, the transmission unit 14 is such that two or more downlink detection signals having different wavelength values, for example, three downlink detection signals, are generated by the generation unit 14 and sequentially transmitted through the optical preference (1). do.

To this end, it goes without saying that the generation unit 14 may include each DFB LD (DFB-1, DFB-2, DB-3) for generating three downlink detection signals having different wavelength values. .

The determination unit 13 performs a function of determining the presence or absence of the subscriber modem 20.

More specifically, the determination unit 13 transmits the downlink detection signal through the optical line 1, and then the subscriber modem 20 connected to the optical line 1 based on the reflected value of the downlink detection signal. Is to determine the presence or absence of.

Here, the reflection value of the downlink detection signal is based on the reflectance of the optical filter located on the transmission path of the downlink detection signal in the subscriber modem 20 when the subscriber modem 20 is connected to the optical line 1. Can be determined by

In this regard, FIG. 4 exemplarily shows a general configuration of the subscriber modem 20.

As shown in FIG. 4, the subscriber modem 20 includes an optical filter 21 positioned on a transmission path of a downlink detection signal, and an APD for detecting a downlink detection signal through the optical filter 21. Avalanche photodiode), and a generator 23 corresponding to a DFB Distributed FeedBack Laser Diode (DFB) for generating the above-described uplink operation signal may have a general configuration.

As such, the optical filter 21 positioned on the transmission path of the downlink detection signal in the subscriber modem 20 has different reflectance characteristics according to the wavelength, and the downlink transmitted from the subscriber detection device 10 according to this characteristic The reflection value can be determined for the detection signal.

In this regard, in FIG. 5, the relationship between the reflectance of each wavelength in the subscriber modem can be exemplarily confirmed through a loss value (Deviation).

Eventually, the determination unit 13 transmits three downlink detection signals generated with different wavelengths through the optical line 1, and then the downlink is reflected from the optical filter 21 of the subscriber modem 20 and returned. Whether the subscriber modem 20 is connected to the optical line (1) by using the reflection value of the detection signal, that is, whether the subscriber modem 20 is connected to the optical line (1) in the off state or is connected to the optical line (1). It is possible to determine whether the subscriber modem 20 does not exist.

At this time, the determination unit 13 compares the reflection value of the downlink detection signal detected from the optical line 1 through the detection unit 15 with a reference reflection value predefined for each wavelength, and if it is within the error range, the subscriber modem It can be determined that (20) is in the off state of the service being connected to the optical line (1) in the off state.

On the other hand, the discrimination unit 13 compares the reflection value of the downlink detection signal detected from the optical line 1 with the reference reflection value predefined for each wavelength and exceeds the error range (more than the set value in the reference reflection value). If not, it can be determined that the subscriber modem 20 connected to the optical line 1 is in a non-existent service disconnection state.

Meanwhile, in an embodiment of the present invention, three downlink detection signals generated with different wavelengths are sequentially transmitted through the optical line 1.

Therefore, it can be assumed that the error range is exceeded as a result of comparing the reflection value of a specific downlink detection signal among the three downlink detection signals with a predefined reference reflection value.

In this case, the determination unit 13 is connected to the optical line 1 only when the excess of the error range for the specific downlink detection signal is equally observed for the other downlink detection signals excluding the specific downlink detection signal. It can be determined that the subscriber modem 20 in the off state is in an existing service off state.

Here, the fact that the excess of the error range for the reflection value from all three downlink detection signals is observed equally means that the reflection value loss for each downlink detection signal due to the optical line (1) is observed equally. have.

Accordingly, in an embodiment of the present invention, it is determined that there is an off-state subscriber modem connected to the optical line 1 only when the excess of the error range for the reflection value is equally observed from all of the downlink detection signals. It can be.

As described above, according to the configuration of the subscriber detection device 10 according to an embodiment of the present invention, detection from the optical line 1 in an IPTV service environment in which an optical subscriber network based on Fiber To The Home (FTTH) is configured. Since it is possible to detect the service state of a subscriber in real time using the reflection value of the downlink detection signal, it can be seen that a stable IPTV service environment can be provided through maintenance that can quickly respond to subscriber fluctuation characteristics.

Hereinafter, an operation flow of the subscriber detection apparatus 20 according to an embodiment of the present invention will be described with reference to FIG. 6.

First, the confirmation unit 11 checks whether or not an uplink operation signal is detected from the optical line 1 according to the connection of the optical line 1 (S10-S30).

Here, the uplink operation signal refers to an uplink optical signal transmitted from the subscriber modem 20 in an active state according to the power supply of the subscriber modem 20 connected to the optical line 1.

That is, the verification unit 11 detects an uplink operation signal transmitted through the optical line 1 when the subscriber modem 20 is active during the initial operation according to the optical line 1 connection through the detection unit 15 It is to check whether or not.

On the other hand, when the uplink operation signal is detected from the optical line (1), it means that the subscriber modem 20, which is active in the optical line (1), is in a connected service connection state, and conversely, from the optical line (1). When the uplink operation signal is not detected, the service off state in which the subscriber modem 20 in the off state is connected to the optical line 1 or the subscriber modem 20 connected to the optical line 1 does not exist. It means a service interruption state that does not exist.

Therefore, the determination unit 13, as a result of the confirmation in step S30, when the uplink operation signal is detected from the optical line 1, the subscriber modem 20, which is active in the optical line 1, is in the service connection state in which it is connected. It can be determined to be (S40).

Subsequently, the transmission unit 12 transmits the downlink detection signal through the optical line 1 when it is confirmed that the uplink operation signal is not detected from the optical line 1 (S50).

Here, the downlink detection signal refers to a downlink optical signal that is generated with a predetermined natural wavelength value and transmitted to a subscriber.

That is, the transmission unit 12 causes the generation unit 14 to check the existence of the subscriber modem 20 connected to the optical line 1 according to the non-detection of the uplink operation signal from the optical line 1 The downlink detection signal is generated so that the generated downlink detection signal is transmitted through the optical line 1.

At this time, the transmission unit 14 is such that two or more downlink detection signals having different wavelength values, for example, three downlink detection signals, are generated by the generation unit 14 and sequentially transmitted through the optical preference (1). do.

Further, the determination unit 13 transmits the downlink detection signal through the optical line 1, and then detects the reflected value of the downlink detection signal, and the presence of the subscriber modem 20 connected to the optical line 1 To be able to determine the presence or absence (S60).

Here, the reflection value of the downlink detection signal is based on the reflectance of the optical filter located on the transmission path of the downlink detection signal in the subscriber modem 20 when the subscriber modem 20 is connected to the optical line 1. Can be determined by

As such, the optical filter 21 positioned on the transmission path of the downlink detection signal in the subscriber modem 20 has different reflectance characteristics according to the wavelength, and the downlink transmitted from the subscriber detection device 10 according to this characteristic The reflection value can be determined for the detection signal.

Eventually, the determination unit 13 transmits three downlink detection signals generated with different wavelengths through the optical line 1, and then the downlink is reflected from the optical filter 21 of the subscriber modem 20 and returned. Whether the subscriber modem 20 is connected to the optical line (1) by using the reflection value of the detection signal, that is, whether the subscriber modem 20 is connected to the optical line (1) in the off state or is connected to the optical line (1). It is possible to determine whether the subscriber modem 20 does not exist.

At this time, the determination unit 13 compares the reflection value of the downlink detection signal detected from the optical line 1 through the detection unit 15 with a reference reflection value predefined for each wavelength, and if it is within the error range, the subscriber modem It can be determined that (20) is in the off state of the service being connected to the optical line 1 in the off state (S70-S80).

On the other hand, the determination unit 13 compares the reflection value of the downlink detection signal with the reference reflection value predefined for each wavelength in step S70 and exceeds the error range (if it is less than the set value or more than the reference reflection value), It can be determined that the subscriber modem 20 connected to the optical line 1 is in a non-existent service disconnection state (S90).

Meanwhile, in an embodiment of the present invention, three downlink detection signals generated with different wavelengths are sequentially transmitted through the optical line 1.

Therefore, it can be assumed that the error range is exceeded as a result of comparing the reflection value of a specific downlink detection signal among the three downlink detection signals with a predefined reference reflection value.

In this case, the determination unit 13 is connected to the optical line 1 only when the excess of the error range for the specific downlink detection signal is equally observed for the other downlink detection signals excluding the specific downlink detection signal. It can be determined that the subscriber modem 20 in the off state is in an existing service off state.

Here, the fact that the excess of the error range for the reflection value from all three downlink detection signals is observed equally means that the reflection value loss for each downlink detection signal due to the optical line (1) is observed equally. have.

Accordingly, in an embodiment of the present invention, it is determined that there is an off-state subscriber modem connected to the optical line 1 only when the excess of the error range for the reflection value is equally observed from all of the downlink detection signals. It can be.

As described above, according to the operation flow of the subscriber detection device 10 according to an embodiment of the present invention, detection from the optical line 1 in an IPTV service environment in which an optical subscriber network based on Fiber To The Home (FTTH) is configured. It is possible to detect the subscriber's service status in real time by using the reflected value of the downlink detection signal, so it can be seen that a stable IPTV service environment can be provided through maintenance that can quickly respond to subscriber fluctuation characteristics. .

Meanwhile, the steps of the method or algorithm described in connection with the embodiments presented herein may be directly implemented in hardware or implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination. The program instructions recorded in the medium may be specially designed and configured for the present invention, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of the program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The above-described hardware device may be configured to operate as one or more software modules to perform the operation of the present invention, and vice versa.

Although the present invention has been described in detail with reference to preferred embodiments so far, the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the following claims. Anyone of ordinary skill in the art will say that the technical idea of the present invention extends to the range in which various modifications or modifications are possible.

According to the subscriber detection device and its operation method according to the present invention, a subscriber's service using the reflection value of a downlink detection signal detected from an optical line in an IPTV service environment in which an FTTH (Fiber To The Home)-based optical subscriber network is configured. In terms of being able to detect the status in real time, as it exceeds the limitations of the existing technology, the possibility of marketing or sales of the applied device is sufficient as well as the degree to be practically obvious, so that industry It is an invention that can be used in the future.

10: Subscriber detection device
11: confirmation unit 12: transmission unit
13: discrimination unit
20: subscriber modem

Claims (12)

A check unit for checking whether or not an uplink operation signal is detected from the optical line according to the optical line connection;
A transmitter for sequentially transmitting two or more downlink detection signals generated with different natural wavelength values through the optical line when it is confirmed that the uplink operation signal is not detected; And
And a determination unit for determining the presence or absence of a subscriber modem connected to the optical line based on reflection values of the two or more downlink detection signals detected from the optical line,
The determination unit,
When the reflection value of the two or more downlink detection signals is measured, and the error range is exceeded as a result of comparing the reflection value of a specific downlink detection signal among the two or more downlink detection signals with a predefined reference reflection value, And determining that there is a subscriber modem connected to the optical line only when an excess of the error range is equally observed for other downlink detection signals other than the specific downlink detection signal. The method of claim 1,
The uplink operation signal,
And an optical signal transmitted from the subscriber modem in an active state according to power application of a subscriber modem connected to the optical line. delete The method of claim 1,
The reflection value of the downlink detection signal is,
And when the subscriber modem is connected to the optical line, it is determined by a reflectance for each wavelength of an optical filter located on a transmission path of the downlink detection signal in the subscriber modem. The method of claim 1,
The determination unit,
A subscriber, characterized in that, when the reflection value of the downlink detection signal detected from the optical line is within an error range as a result of comparing the reflection value of the downlink detection signal detected from the optical line, it is determined that there is a subscriber modem connected to the optical line. Detection device. delete A confirmation step of confirming whether or not an uplink operation signal is detected from the optical line according to the optical line connection;
A transmission step of sequentially transmitting two or more downlink detection signals generated with different intrinsic wavelength values through the optical line when it is confirmed that the uplink operation signal is not detected; And
A determination step of determining whether or not a subscriber modem connected to the optical line exists based on the reflection values of the at least two downlink detection signals detected from the optical line,
The determination step,
When the reflection value of the two or more downlink detection signals is measured, and the error range is exceeded as a result of comparing the reflection value of a specific downlink detection signal among the two or more downlink detection signals with a predefined reference reflection value, The subscriber detection device, characterized in that it determines that there is a subscriber modem connected to the optical line only when the excess of the error range is observed equally for the other downlink detection signals other than the specific downlink detection signal. How it works. The method of claim 7,
The uplink operation signal,
And an optical signal transmitted from the subscriber modem in an active state according to power supply of a subscriber modem connected to the optical line. delete The method of claim 7,
The reflection value of the downlink detection signal is,
When the subscriber modem is connected to the optical line, the method of operating a subscriber detection apparatus is determined by a reflectance for each wavelength of an optical filter located on a transmission path of the downlink detection signal in the subscriber modem. The method of claim 7,
The determining step,
A subscriber, characterized in that, when the reflection value of the downlink detection signal detected from the optical line is within an error range as a result of comparing the reflection value of the downlink detection signal detected from the optical line, it is determined that there is a subscriber modem connected to the optical line. How to operate the detection device. delete

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