JP3996092B2 - Optical data transmission network and transmission rate control method for optical data transmission network - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an optical data transmission network and a transmission rate control method for an optical data transmission network, and more particularly to application to a network in which the ground of a transmission processing unit and a reception processing unit connected to an optical path is dynamically changed. Technology.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, data transmission networks that transmit (transmit / receive) data between a plurality of terminals include optical data transmission networks that use optical paths using optical fibers, optical amplifiers, optical switches, and the like as transmission paths.
[0003]
For example, as shown in FIG. 12, the optical data transmission network includes transmission processing means 2 for converting data of the terminal 1A into communication data for network transmission, and communication data converted by the transmission processing means 2 from electrical signals. An E / O conversion means 3 for converting to an optical signal, an optical path 4 comprising an optical fiber 401, an optical amplifier 402, an optical switch 403, etc. for transmitting communication data converted to the optical signal, and a communication for transmitting the optical path 4 An O / E converter 5 for converting data from an optical signal to an electrical signal, and a reception processor 6 for transferring communication data converted into an electrical signal by the O / E converter 5 to the terminal 1B.
[0004]
At this time, as shown in FIG. 13, the transmission processing means 2 includes a data conversion means 201 for converting the data of the terminal 1A into communication data, and the communication data converted by the data conversion means 201 in the E / O conversion. The communication data transfer means 202 for transferring to the means 3 and the transmission speed setting means 205 for setting the transfer speed of the communication data are constituted. Further, as shown in FIG. 13, the E / O conversion means 3 stores the communication data storage means 301 for storing the transferred communication data and the communication data stored in the communication data storage means 301 bit by bit. An LD (laser diode) 302 that converts to an optical signal, and a CLK 303 that provides a period for conversion to an optical signal by the LD 302 are configured. At this time, the period given by the CLK 303 is set by the transmission speed setting means 203.
[0005]
Further, as shown in FIG. 14, the O / E conversion means 5 includes a PD (photodiode) 501 that receives (receives) communication data (optical signal) transmitted through the optical path 4 and converts it into an electrical signal. The bit synchronization circuit 502 for reproducing the communication data converted into the electric signal, the reproduction communication data check means 503 for checking the normality of the communication data reproduced by the bit synchronization circuit 502, and the data by the bit synchronization circuit 502 And a clock 504 for giving a cycle when reproducing the image. Further, as shown in FIG. 14, the reception processing means 6 includes a communication data receiving means 601 for receiving normal communication data as a result of checking by the reproduction communication data checking means 503, and the received communication data. Is converted to data that can be handled by the terminal, and reception speed setting means 605 for setting the reception speed of the communication data received by the communication data reception means 602. At this time, the period given by the CLK 504 is set by the reception speed setting means 605.
[0006]
In the conventional optical data transmission network, the transmission processing means 2 and the reception processing means 3 used (connected) by the terminals 1A and 1B and the transmission speed of communication data are determined in advance. Therefore, the optical signal transmission power of the LD 302, the optical signal reception sensitivity of the PD 501 and the degree of degradation of the optical signal in the optical path 4 (optical fiber 401) are specified in advance to enable accurate data transmission. .
[0007]
[Problems to be solved by the invention]
However, in the conventional technique, the transmission rate of the communication data is predetermined. Therefore, for example, when the reception processing means 6 used (connected) by the terminal 1B is changed, the receivable speed of the reception processing means 6 after the change is the receivable speed of the reception processing means 6 before the change. May be different. When the reception processing means 6 to which the terminal 1B is connected is changed, for example, the reception processing means 6 of the first ground Z1 shown in FIG. 12 is geographically separated from the first ground Z1. Is changed to the reception processing means 6 of the second ground Z2, the path of the optical path between the transmission processing means 2 and the reception processing means 6, in other words, the length of the optical fiber 401 through which communication data passes, The number of amplifiers 402 and optical switches 403 may vary greatly.
[0008]
Thus, when the reception processing means 6 used by the terminal 1B changes and the receivable speed or the path of the optical path 4 changes greatly, the reception processing means 6 side matches the receivable speed. Unless the transmission speed on the transmission processing means 2 side is controlled, it is difficult to perform accurate data transmission. For this reason, there has been a problem that it is difficult to determine a single transmission rate (transmission rate) as in the prior art.
[0009]
Further, in the conventional optical data transmission network, for example, when the reception processing means 6 used by the terminal 1B is dynamically changed and the path of the optical path 4 changes greatly with the change, transmission is performed in advance. Since it is difficult to determine a single speed, there is a problem that the stability (accuracy) of data transfer tends to be low.
[0010]
An object of the present invention is to provide an optical data transmission network that performs data transmission between terminals via an optical path composed of an optical fiber, an optical amplifier, an optical switch, and the like. An object of the present invention is to provide a technique capable of performing accurate data transmission even if the data is changed.
[0011]
Another object of the present invention is to easily control the transmission rate of communication data in an optical data transmission network that performs data transmission between terminals via an optical path including an optical fiber, an optical amplifier, an optical switch, and the like. To provide technology.
[0012]
The above and other objects and novel features of the present invention will be apparent from the description of this specification and the accompanying drawings.
[0013]
[Means for Solving the Problems]
The outline of the invention disclosed in the present application will be described as follows.
(1) Transmission processing means for converting terminal data into communication data for network transmission, E / O conversion means for converting communication data converted by the transmission processing means from an electric signal to an optical signal, and the optical signal Optical path for transmitting converted communication data, O / E conversion means for converting communication data transmitted through the optical path from an optical signal to an electrical signal, and communication data converted into an electrical signal by the O / E conversion means Receiving processing means for receiving and transferring to the terminal; Optical path management means having transmission path information inside the optical path; An optical data transmission network comprising: the transmission processing means: Means for acquiring transmission path information of an optical path between the transmission processing means and the reception processing means of the reception destination of the communication data from the optical path management means, and the transmission speed based on the acquired transmission path information Speed estimation means for estimating an appropriate speed; Comprising a transmission speed control means for controlling the transmission speed of communication data converted into an optical signal by the E / O conversion means, the reception processing means, A means for acquiring transmission path information of an optical path between the transmission processing means of the transmission source of the communication data and the reception processing means from the optical path management means, and an appropriate reception speed based on the acquired transmission path information Speed estimation means for estimating the speed, In order to change the transmission speed and the reception speed between the transmission speed control means and the reception speed control means, comprising a reception speed control means for controlling the reception speed of communication data received by the O / E conversion means This is an optical data transmission network that transmits / receives the speed control data and determines the transmission speed of the communication data.
[0015]
According to the means (1), the transmission speed of the communication data can be easily changed by transmitting / receiving the speed control data between the transmission speed control means and the reception speed control means. Therefore, for example, even when the reception processing means used by the terminal is dynamically changed, the transmission speed between the transmission processing means and the reception processing means after the change is easily set to a speed suitable for the transmission path. The stability (accuracy) of data transmission is improved.
[0016]
At this time, the above ( 1 )of Optical data transmission network As described above, by providing the transmission path information from the optical path management means and the speed estimation means, the time required to obtain the optimum transmission speed can be shortened. Therefore, for example, even when the reception processing means used by the terminal is changed and the path of the optical path changes greatly after the change, it is possible to shorten the time during which the stability of data transfer is lowered.
[0017]
( 2 The terminal data is converted into communication data for network transmission, the transmission / reception processing means for receiving the communication data, the communication data converted by the transmission / reception processing means is converted from an electric signal to an optical signal, and the transmission / reception is performed. E / OO / E conversion means for converting the communication data received by the processing means from an optical signal to an electrical signal; and an optical path for transmitting the communication data converted to the optical signal; Optical path management means having transmission path information inside the optical path; An optical data transmission network comprising: the transmission / reception processing means: Means for acquiring transmission path information of an optical path between the transmission / reception processing means of the transmission source of the communication data and the transmission / reception processing means of the reception destination of the communication data from the optical path management means, and the acquired transmission path information Speed estimation means for estimating an appropriate speed as the transmission speed and the reception speed of the communication data based on; Transmission / reception that controls the transmission speed of communication data that is converted into an optical signal by the E / OO / E conversion means and the reception speed of communication data that is received by the E / OO / E conversion means and converted into an electrical signal A transmission / reception speed control means provided in the transmission source transmission / reception processing means when the transmission / reception processing means of the communication data is different from a transmission / reception processing means of the transmission destination of the communication data; An optical data transmission network for transmitting / receiving speed control data for changing the transmission speed and the reception speed of the communication data and controlling the transmission speed of the communication data between the transmission / reception speed control means of the transmission / reception processing means It is.
[0019]
The optical data transmission network of (2) is the optical data transmission network of (1). In place of the transmission processing means and the reception processing means, a transmission / reception processing means capable of bidirectional communication is provided, and instead of the E / O conversion means and the O / E conversion means, E / OO / E conversion is provided. A transmission network provided with means. Therefore, said (1) Optical data transmission network Similarly to the above, even when the transmission / reception processing means used by the terminal is dynamically changed, it is possible to easily change the transmission speed to the optimum transmission path for the changed optical path. Also , Legend The time required for changing the feed rate can be shortened, and the time during which the stability of data transmission until the change is completed can be shortened.
[0020]
( 3 ) Transmission processing means for converting terminal data into communication data for network transmission, communication data converted by the transmission processing means, E / O conversion means for converting electrical signals into optical signals, and conversion into optical signals An optical path for transmitting communication data, an O / E conversion means for converting communication data transmitted through the optical path from an optical signal to an electrical signal, and communication data converted into an electrical signal by the O / E conversion means. A transmission rate control method for controlling a transmission rate of communication data transmitted from the transmission processing unit to the reception processing unit on an optical data transmission network including a reception processing unit for transferring to the terminal. A first step of setting, a second step of transmitting confirmation data from the transmission processing means to the reception processing means at the transmission rate set in the first step, and the reception processing In the processing unit, when the reception of the confirmation data is successful in the third step and the third step trying to receive the confirmation data at the transmission rate set in the first step, When the transmission rate set in the first step is increased and the reception of the confirmation data fails in the fourth step and the third step in which the third step is repeated from the first step. In addition, the transmission speed that is lower than the set transmission speed and that is the highest transmission speed among the transmission speeds at which the confirmation data has been successfully received is transmitted from the transmission processing means to the reception processing means. And has a fifth step The first step includes a step of acquiring transmission path information of an optical path from the transmission processing means to the reception processing means from an optical path management means having transmission path information, and the acquired transmission path information And estimating a transmission rate based on This is a transmission rate control method.
[0022]
( 4 ) Said ( 3 )of Transmission speed control method In step 1, each step from the first step to the fifth step is periodically performed Transmission speed control method .
[0023]
Said ( 3 )of Transmission speed control method (1) Light of Data transmission network In How to control the transmission rate Example By performing the steps from the first step to the fifth step, it is possible to facilitate the operation of controlling the transmission speed suitable for the path of the optical path from the transmission processing unit to the reception processing unit. it can. Therefore, for example, even when the reception processing means used by the terminal is dynamically changed and the path of the optical path changes greatly after the change, it is possible to prevent a decrease in data transmission stability (accuracy).
[0024]
Also , Said ( 3 )of Transmission speed control method As described above, it is possible to reduce the time until the optimum transmission speed is obtained by obtaining the transmission path information matched with the transmission path of the optical path from the optical path management means and estimating the optimum transmission speed. it can.
[0025]
At this time, the above ( 4 )of Transmission speed control method Like the above ( 3 )of Transmission speed control method By periodically performing these steps, for example, even when the reception processing means used by the terminal is dynamically changed, the time during which the stability of data transmission is lowered due to the change can be shortened.
[0026]
( 5 The terminal data is converted into communication data for network transmission, the transmission / reception processing means for receiving the communication data, the communication data converted by the transmission / reception processing means is converted from an electric signal to an optical signal, and the transmission / reception is performed. On an optical data transmission network comprising E / OO / E conversion means for converting the communication data received by the processing means from an optical signal into an electrical signal, and an optical path for transmitting the communication data converted into the optical signal, A transmission rate control method for controlling a transmission rate of communication data transmitted between a first transmission / reception processing unit and another second transmission / reception processing unit, the first step of setting the transmission rate, the first A second step of transmitting confirmation data from the first transmission / reception processing means to the second transmission / reception processing means at the transmission rate set in the step, and the second transmission / reception processing Means for attempting to receive the confirmation data at the transmission rate set in the first step, and when the confirmation data is successfully received in the third step, A fourth step of transmitting confirmation data from the second transmission / reception processing means to the first transmission / reception processing means at the transmission rate set in step 1; and the first step in the first transmission / reception processing means. In the fifth step that attempts to receive the confirmation data at the transmission rate set in step 5, and in the fifth step, if the confirmation data is successfully received, the transmission set in the first step In the sixth step of repeating the first step to the fifth step by increasing the speed, and in the third step or the fifth step, The first transmission / reception processing means and the second transmission / reception processing are set to the maximum transmission rate lower than the set transmission rate when the reception of the confirmation data is failed and the reception of the confirmation data is successful. And a seventh step for setting a transmission speed when transmitting the communication data between the means. The first step includes a step of acquiring transmission path information of an optical path from the transmission processing means to the reception processing means from an optical path management means having transmission path information, and the acquired transmission path information And estimating a transmission rate based on This is a transmission rate control method.
[0028]
( 6 ) Said ( 5 )of Transmission speed control method , Each step from the first step to the seventh step is periodically performed Transmission speed control method .
[0029]
Said ( 5 )of Transmission speed control method Is the above ( 2 ) Light of Data transmission network In How to control the transmission rate Example A transmission rate suitable for the path of the optical path from the transmission / reception processing means for transmitting the communication data to the transmission / reception processing means for receiving the communication data by performing the first step to the seventh step. Therefore, it is possible to easily control the work. Therefore, for example, even when the transmission / reception processing means used by the terminal is dynamically changed and the path of the optical path changes greatly after the change, it is possible to prevent a decrease in stability (accuracy) of data transmission.
[0030]
Also , Said ( 5 )of Transmission speed control method As described above, it is possible to reduce the time until the optimum transmission speed is obtained by obtaining the transmission path information matched with the transmission path of the optical path from the optical path management means and estimating the optimum transmission speed. it can.
[0031]
At this time, the above ( 6 )of Transmission speed control method Like the above ( 5 )of Transmission control method By periodically performing these steps, for example, even when the transmission / reception processing means used by the terminal is dynamically changed, the time during which the stability of data transmission is lowered due to the change can be shortened.
[0032]
Hereinafter, the present invention will be described in detail together with embodiments (examples) with reference to the drawings.
In all the drawings for explaining the embodiments, parts having the same function are given the same reference numerals and their repeated explanation is omitted.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Example 1
1 to 3 are schematic diagrams showing a schematic configuration of an optical data transmission network according to a first embodiment of the present invention. FIG. 1 is a block diagram showing a configuration example of the entire network. FIG. 2 is a transmission processing means of FIG. FIG. 3 is a block diagram showing the configuration of the reception processing means and the O / E conversion means of FIG.
[0034]
In FIG. 1, 1A and 1B are terminals, 2 is transmission processing means, 3 is E / O conversion means, 4 is an optical path, 401 is an optical fiber, 402 is an optical amplifier, 403 is an optical switch, and 5 is O / E conversion means. , 6 is a reception processing means, 7 is a control signal communication means, Z1 is a first ground, and Z2 is a second ground. In FIG. 2, 201 is a data conversion unit, 202 is a communication data transfer unit, 203 is a transmission speed control unit, 301 is a communication data storage unit, 302 is an LD (laser diode), and 303 is a CLK (clock pulse generation unit). It is. 3, 501 is a PD (photodiode), 502 is a bit synchronization circuit, 503 is a reproduction communication data check means, 504 is CLK, 601 is communication data reception means, 602 is data conversion means, and 603 is reception speed control. Means.
[0035]
For example, as shown in FIG. 1, the optical data transmission network of the first embodiment includes transmission processing means 2 for converting data of the terminal 1A into communication data for network transmission, and communication data converted by the transmission processing means 2. An E / O conversion means 3 for converting an electrical signal into an optical signal, an optical path 4 for transmitting communication data converted into an optical signal by the E / O conversion means 3, and a communication data transmitted through the optical path 4 O / E conversion means 5 for converting an optical signal into an electrical signal, and reception processing means 6 for restoring the communication data converted into the electrical signal by the O / E conversion means 5 to the original data and transferring it to the terminal 1B. The transmission processing means 2 and the reception processing means 6 comprise control signal communication means 7 for communicating a transmission rate control signal.
[0036]
At this time, the optical path 4 includes, for example, as shown in FIG. 1, an optical fiber 401 for transmitting the optical signal (communication data), an optical amplifier 402 for optically amplifying an optical signal attenuated by a transmission process, It comprises an optical switch 403 for transmitting an optical signal to the reception processing means 6 used (connected) by the target terminal 1B.
[0037]
Further, in the optical data transmission network of the first embodiment, for example, the terminal 1B connected to the reception processing means 6 can be moved, and the reception of the first ground Z1 as shown in FIG. The data transmitted from the transmission processing means 2 can be received using the processing means 6, and the reception processing means 6 for the second ground Z2 that is geographically separated from the first ground Z1 is provided. It is also assumed that data transmitted from the transmission processing means 2 can be received.
[0038]
In the optical data transmission network of the first embodiment, the transmission processing unit 2 includes a data conversion unit 201 that converts the data of the terminal 1A into the communication data, and the data conversion unit 201, as shown in FIG. The communication data transfer means 202 for transferring the communication data converted in step 1 to the E / O conversion means 3 and the transfer speed control means 203 for controlling the transfer speed of the communication data transferred from the communication data transfer means 202. . Further, as shown in FIG. 2, the E / O conversion unit 3 includes a communication data storage unit 301 for storing communication data (electrical signal) transferred from the communication data transfer unit 202 of the transmission processing unit 2, It comprises an LD (laser diode) 302 that converts communication data (electrical signal) stored in the communication data storage means 301 into an optical signal, and a CLK 303 that gives a period for converting the optical data into an optical signal by the LD 302.
[0039]
When transmitting the communication data using the transmission processing unit 2 and the E / O conversion unit 3, first, the data transferred from the terminal 1A is converted into communication data by the data conversion unit 201, and the communication data is transmitted. The data transfer unit 202 transfers the data to the E / O conversion unit 3. The E / O conversion unit 3 stores the transferred communication data (electrical signal) in the communication data storage unit 301. The communication data stored in the communication data storage unit 301 is sequentially read bit by bit in synchronization with the period given from the CLK 303 and converted from an electric signal to an optical signal by the LD 302. Communication data converted into an optical signal by the LD 302 is input to the optical fiber 401 and transmitted to the O / E conversion means 5 provided in the immediate vicinity of the target terminal 1B via the optical path 4.
[0040]
At this time, the transfer rate by the communication data transfer unit 202 and the period given by the CLK 203 are controlled by the transmission rate control unit 203 provided in the transmission processing unit 2. The transmission speed control means 203 is connected to the control signal communication means 7, and uses the control signal communication means 7 to communicate with the reception processing means 6 that is the transmission destination of the communication data. Data for controlling the transfer rate and the period given by the CLK 303 is transmitted and received.
[0041]
In the optical data transmission network of the first embodiment, the O / E conversion means 5 receives (receives light) communication data (optical signal) transmitted via the optical path 4, as shown in FIG. PD (photodiode) 501 that converts the electrical signal into an electrical signal, bit synchronization circuit 502 that reproduces the electrical signal converted by PD 501 as communication data, and the normality of the communication data reproduced by the bit synchronization circuit is checked A reproduction communication data check means 503 and a CLK 504 for giving a period when data is reproduced by the bit synchronization circuit 502 are constituted. Further, as shown in FIG. 3, the reception processing means 6 includes a communication data receiving means 601 for receiving communication data from the reproduction communication data checking means 503, and the communication data received by the communication data receiving means 601. The data conversion means 602 restores the data that can be handled by the terminal 1B, and the reception speed control means 603 for controlling the period given by the CLK 504 of the O / E conversion means 5 and the reception speed of the communication data reception means 601. Yes.
[0042]
When the communication data transmitted from the transmission processing means 2 is received using the O / E conversion means 5 and the reception processing means 6, first, the communication data (optical signal) transmitted through the optical path 4 is described. Light is received by the PD 501 of the O / E conversion means 5 and converted into an electrical signal. The communication data converted into an electric signal by the PD 501 is reproduced as communication data synchronized with the period given from the CLK 504 in the bit synchronization circuit 502. The communication data reproduced in the bit synchronization circuit 502 is checked for data normality by the reproduction communication data check means 503. The reproduction communication data check unit 503 transfers the communication data to the reception processing unit 6 when the communication data to be checked is normal data. In the reception processing unit 6, the transferred communication data is received by the communication data receiving unit 601, and the data conversion unit 602 restores the communication data to data that can be handled by the terminal receiving the communication data. The data restored by the data converter 602 is transferred to the receiving terminal 1B.
[0043]
At this time, the period given by the CLK 504 and the reception speed by the communication data reception means 601 are controlled by the reception speed control means 603 provided in the reception processing means 6. The reception speed control means 603 is connected to the control signal communication means 7, and uses the control signal communication means 7 to transmit the communication data from the transmission processing means 2. Data for controlling the period given by the CLK 504 and the reception speed is transmitted and received.
[0044]
In the optical data transmission network of the first embodiment, a plurality of transmission processing means 2 and reception processing means 6 are usually provided. At this time, depending on the combination of the transmission processing means 2 and the reception processing means 6, the transmission path of the optical path 4, that is, the length of the optical fiber 401 through which the communication data passes and the number of the optical amplifiers 402 and the optical switches 403 are different. The optimum transmission speed is also different. Therefore, for example, as shown in FIG. 1, the transmission processing unit 2 transmits the communication data to the reception processing unit 6 of the first ground Z1, and the transmission processing unit 2 transmits the communication data to the second ground Z2. In the case of transmitting communication data to the reception processing means 6, the appropriate transmission speed is different.
[0045]
Hereinafter, a method for controlling the transmission speed of communication data in the optical data transmission network of the first embodiment will be described.
[0046]
FIG. 4 is a sequence diagram illustrating a method for controlling the transmission rate of communication data in the optical data transmission network according to the first embodiment.
[0047]
When controlling the transmission rate of the communication data, first, as shown in FIG. 4, the transmission rate of the reception processing unit 6 is transmitted from the transmission rate control unit 203 of the transmission processing unit 2 via the control signal communication unit 7. An initial value R1 of the transmission rate is set for the control means 603. At this time, the initial value R1 of the transmission rate is set to a value lower than a general transmission rate, for example. At this time, it is assumed that the reception processing means 6 is at the first ground Z1.
[0048]
Further, the transmission speed control means 203 makes the cycle given by the CLK 303 of the E / O conversion means 3 and the setting of the transfer speed of the communication data transfer means 202 coincide with the initial value R1 of the transmission speed. Similarly, the reception speed control means 603 that has received the data for setting the transmission speed transmitted from the transmission speed control means 203 to the initial value R1 receives the cycle of the CLK 504 of the O / E conversion means 5 and the communication. The setting of the reception speed of the data receiving means 601 is made to coincide with the initial value R1 of the transmission speed.
[0049]
After the setting of each means is completed, communication data for confirmation (confirmation data) is transmitted from the transmission processing means 2. The confirmation data is transmitted after being converted into an optical signal by the E / O conversion means 3 (LD 302) and transmitted through the optical path 4. The confirmation data transmitted through the optical path 4 is converted into an electrical signal by the O / E conversion means 5 (PD 501) of the first ground Z1, and then received by the reception processing means 6. The procedure for transmitting the confirmation data from the transmission processing unit 2 and the procedure for receiving the confirmation data by the reception processing unit 6 may be the same as the communication data, and thus detailed description thereof is omitted. To do.
[0050]
When the communication data reception unit 601 of the reception processing unit 6 has successfully received the confirmation data, as shown in FIG. 4, the reception speed control unit 603, via the control signal communication unit 7, Data indicating successful reception is transmitted to the transmission speed control means 203 of the transmission processing means 2.
[0051]
When the transmission rate control means 203 receives the data indicating the successful reception, the transmission speed control means 203 sends the data indicating that the transmission speed is increased from the initial value R1 to the speed R2 via the control signal communication means 7 and the reception speed control means 603. Send to.
[0052]
Thereafter, in the same procedure as when the transmission rate is the initial value R1, the period given by the CLK 303 of the E / O conversion unit 3, the transfer rate of the communication data transfer unit 202, and the CLK 504 of the O / E conversion unit 5 The given period and the setting of the reception speed of the communication data receiving means 601 are made to coincide with the transmission speed R2, and the confirmation data is transmitted from the transmission processing means 2. At this time, if the confirmation data can be received even at the transmission rate R 2, data indicating successful reception is transmitted from the reception rate control unit 603 to the transmission rate control unit 203.
[0053]
Thereafter, the transmission rate is further increased from the rate R2 to the rate R3, and the same procedure is repeated. For example, as shown in FIG. 4, at the rate R3, the transmission rate is within a predetermined timeout value. Suppose that the confirmation data could not be received. In this case, as shown in FIG. 4, the reception speed control means 603 transmits data indicating that reception has failed to the transmission speed control means 203.
[0054]
The transmission speed control means 203 that has received the data that the reception has failed receives a speed that is lower than the speed R3 that has failed to be received and that is the highest speed among the successful reception speeds. Is adopted as an optimum transmission rate when communication data is transmitted to the reception processing means 6. In this case, the speed R2 immediately before the speed R3 that failed to be received is adopted as the transmission speed when the communication data is transmitted from the transmission processing means 2 to the reception processing means 6 of the first ground Z1, The data is transmitted to the reception speed control means 603. Thereafter, the period given by the CLK 303 of the E / O conversion means 3, the transfer speed of the communication data transfer means 202, the period given by the CLK 504 of the O / E conversion means 5, and the reception speed of the communication data receiving means 601 are set. Can be made to coincide with the transmission rate R2, the transmission rate when the communication data is transmitted from the transmission processing unit 2 to the reception processing unit 6 can be optimized. Therefore, when the terminal 1B is connected to the reception processing means 6 of the first ground Z1 and the communication data transmitted from the transmission processing means 2 is received, it can be received at an optimum transmission rate, Transmission stability (accuracy) is improved.
[0055]
Thereafter, for example, when the terminal 1B (user) moves and receives the communication data transmitted from the transmission processing unit 2 using the reception processing unit 6 of the second ground Z2, In the same procedure as shown in FIG. 4, an optimum transmission rate is obtained when the communication data is transmitted from the transmission processing means 2 to the reception processing means 6 of the second ground Z2, and the setting may be changed. .
[0056]
Further, for example, by periodically performing the procedure shown in FIG. 4, the reception processing means 6 used (connected) by the terminal 1B is dynamically changed, and the path of the optical path 4 becomes large after the change. Even if it changes, the transmission speed of the communication data (optical signal) can be easily optimized, and the stability (accuracy) of data transmission can be improved.
[0057]
As described above, according to the optical data transmission network and the transmission speed setting method of the first embodiment, the reception processing means 6 used (connected) by the terminal 1B according to the procedure shown in FIG. The transmission speed can be easily optimized according to the transmission path of the optical path 4 from the transmission processing means 2 to the reception processing means 6. Therefore, for example, as shown in FIG. 1, even when the reception processing means 6 used by the terminal 1B is dynamically changed and the configuration of the transmission path changes greatly with the change, the transmission speed is reset. And accurate data transfer can be performed.
[0058]
(Example 2)
5 and 6 are schematic diagrams showing a schematic configuration of the optical data transmission network according to the second embodiment of the present invention. FIG. 5 is a block diagram showing the overall configuration of the network. FIG. 6 is a transmission / reception processing means and an E / OO. It is a block diagram which shows the structure of / E conversion means.
[0059]
In FIG. 5, 1A and 1B are terminals, 4 is an optical path, 7 is control signal communication means, 8A and 8B are transmission / reception processing means, 9A and 9B are E / OO / E conversion means, Z1 is the first ground, Z2 Is the second ground. In FIG. 6, reference numeral 801 denotes a transmission / reception speed control means, and reference numeral 901 denotes a CLK (clock pulse generation means).
[0060]
Similar to the transmission network described in the first embodiment, the optical data transmission network according to the second embodiment converts data held electrically or magnetically by terminals on the network into optical signals and transmits them. It is a network. However, the transmission network of the second embodiment is different from the transmission network of the first embodiment in that data can be transmitted bidirectionally between terminals.
[0061]
As shown in FIG. 5, the transmission network of the second embodiment converts the data of the terminals 1A and 1B into communication data for network transmission, and receives and transmits the communication data, and the transmission / reception processing means 8A and 8B. E / OO / E conversion means 9A, which converts the communication data converted by the processing means 8A, 8B from an electric signal to an optical signal, and converts the communication data received by the transmission / reception processing means from an optical signal to an electric signal. 9B, and an optical path 4 for transmitting the communication data converted into the optical signal.
[0062]
In the second embodiment, as shown in FIG. 5, the first terminal 1A uses transmission / reception processing means and E / OO / E conversion means used for data transmission / reception, and the second terminal 1B uses data for transmission. In order to distinguish between transmission / reception processing means and E / OO / E conversion means, the one used by (connected to) the first terminal 1A is referred to as first transmission / reception processing means 8A and first E / OO / E conversion means 9A. Those used (connected) by the second terminal 1B are referred to as second transmission / reception processing means 8B and second E / OO / E conversion means 9B.
[0063]
Further, for example, as shown in FIG. 5, the optical path 4 includes an optical fiber 401 for transmitting the optical signal (communication data), an optical amplifier 402 for optically amplifying an optical signal attenuated by a transmission process, and the optical signal. An optical switch 403 and the like for transferring a signal to a target terminal.
[0064]
In the optical data transmission network of the second embodiment, for example, the second transmission / reception processing unit 9B used by the second terminal 1B may be dynamically changed. At this time, as shown in FIG. 5, for example, the second transmission / reception processing means 9B used by the second terminal 1B is changed from the transmission / reception processing means of the first ground Z1 to the transmission / reception processing means of the second ground Z2. When changed, the transmission path of the optical path 4 between the first transmission / reception processing unit 9A and the second transmission / reception processing unit 9B, that is, the length of the optical fiber 401 and the number of the optical amplifiers 402 and the optical switches 403 greatly change. Suppose that there is something.
[0065]
Further, the transmission / reception processing means 8A and 8B are configured by combining the transmission processing means 2 and the reception processing means 6 described in the first embodiment. As shown in FIG. 6, the data of the terminals 1A and 1B are stored. Data conversion means 201 for converting into communication data, communication data transfer means 202 for transferring the communication data to E / OO / E conversion means 9A, 9B, and E / OO / E conversion means 9A, 9B Communication data receiving means 601 for receiving communication data converted into electrical signals, data conversion means 602 for converting communication data received by the communication data receiving means 601 into original data that can be handled by the terminals 1A and 1B, and the communication A transmission / reception speed control means 801 for controlling the transfer speed of communication data transferred by the data transfer means 202 and the reception speed of communication data received by the communication data receiving means 601; It is configured.
[0066]
The E / OO / E conversion means 9A and 9B are also configured by combining the E / O conversion means 3 and the O / E conversion means 5 described in the first embodiment, and as shown in FIG. Communication data storage means 301 for storing the communication data transferred from the communication data transfer means 202, and the communication data stored in the communication data storage means 301 are converted into an optical signal having a predetermined period and input to the optical path 4 LD 302 that transmits (transmits), PD 501 that receives (receives light) communication data (optical signal) transmitted through the optical path 4 and converts it into an electrical signal, and the electrical signal converted by the PD 501 at a predetermined cycle. The bit synchronization circuit 502 to be reproduced, the reproduction communication data check means 503 for checking the normality of the communication data reproduced by the bit synchronization circuit 502, and the period and electric signal for converting the electric signal into the optical signal are reproduced. Give the period constituted by the CLK901. The CLK 901 is connected to the transmission / reception speed control means 801, and the period given by the CLK 901 is controlled by the transmission / reception speed control means 801.
[0067]
For example, when communication data is transmitted (transmitted) from the first terminal 1A to the second terminal 1B using the optical data transmission network of the second embodiment, the first transmission / reception processing unit 8A and the first E / E After converting the data of the first terminal 1A into communication data using the OO / E conversion means 9A, the electrical signal is converted into an optical signal and input to the optical path 4. The communication data (optical signal) transmitted through the optical path 4 is converted from the optical signal to the electrical signal by using the second E / OO / E conversion unit 9B and the second transmission / reception processing unit 8B. The communication data is restored to the original data and transferred to the second terminal 1B.
[0068]
Conversely, when communication data is transmitted (transmitted) from the second terminal 1B to the first terminal 1A, the second transmission / reception processing means 8B and the second E / OO / E conversion means 9B are used to After the data of the two terminals 1B is converted into communication data, the electrical signal is converted into an optical signal and input to the optical path 4. The communication data (optical signal) transmitted through the optical path 4 is converted from the optical signal to the electric signal by using the first E / OO / E conversion unit 9A and the first transmission / reception processing unit 8A. The communication data is restored to the original data and transferred to the first terminal 1A.
[0069]
In the optical data transmission network of the second embodiment, a plurality of transmission / reception processing means 8A and 8B are usually provided. At this time, the transmission path of the optical path 4, that is, the length of the optical fiber 401 through which the communication data passes and the number of the optical amplifiers 402 and the optical switches 403 differ depending on the combination of the transmission / reception processing means 8A and 8B. The speed is also different. Therefore, for example, as shown in FIG. 5, when the communication data is transmitted from the first transmission / reception processing means 8A to the second transmission / reception processing means 8B of the first ground Z1, the first transmission processing means 8A In the case of transmitting communication data to the second ground Z2 second transmission / reception processing means 8B, it is assumed that an appropriate transmission rate is different.
[0070]
Hereinafter, a method for controlling the transmission rate of communication data in the optical data transmission network of the second embodiment will be described.
[0071]
FIG. 7 is a sequence diagram for explaining a method for controlling the transfer rate of communication data in the optical data transmission network according to the second embodiment.
[0072]
When controlling the transmission rate of the communication data, first, for example, as shown in FIG. 7, the second transmission / reception is performed from the transmission / reception rate control unit 801 of the first transmission / reception processing unit 8A via the control signal communication unit 7. An initial value R1 of the transmission speed is set for the transmission / reception speed control means 801 of the processing means 8B. At this time, the initial value R1 of the transmission rate is set to a value lower than a general transmission rate, for example. At this time, it is assumed that the second transmission / reception processing means 8B is located at the first ground Z1.
[0073]
Each transmission / reception speed control means 801 can set the period given by the CLK 901 of the E / OO / E conversion means 9A and 9B, the transfer speed of the communication data transfer means 202, the reception speed of the data reception means 601 and the like. The transmission rate is controlled to coincide with the initial value R1.
[0074]
When the speed R1 of each means is set, confirmation data is transmitted from the first transmission / reception processing means 8A. The confirmation data is converted into an optical signal by the LD 302 of the first E / OO / E conversion means 9A and transmitted, and transmitted through the optical path 4. The confirmation data transmitted through the optical path 4 is converted into an electrical signal by the PD 501 of the second E / OO / E conversion means 9B of the first ground Z1, and then received by the second transmission / reception processing means 8B. . The procedure for transmitting the confirmation data from the first transmission / reception processing unit 8A and the procedure for receiving the confirmation data by the second transmission / reception processing unit 8B may be the same as the communication data. Detailed explanation is omitted.
[0075]
When the communication data receiving unit 601 of the second transmission / reception processing unit 8B succeeds in receiving the confirmation data, as shown in FIG. 7, this time, the second transmission / reception processing unit 8B sends the first transmission / reception processing to the first transmission / reception processing unit 8B. The confirmation data is transmitted to the means 8A at the speed R1. The procedure at this time is the same as when the confirmation data is transmitted from the first transmission / reception processing means 8A.
[0076]
When the first transmission / reception processing unit 8A succeeds in receiving the confirmation data transmitted from the second transmission / reception processing unit 8B, the first transmission / reception processing unit 8A transmits data indicating that the transmission rate is increased from the initial value R1 to the rate R2. The data is transmitted to the transmission / reception speed control means 801 of the second transmission / reception processing means 8B via the means 7.
[0077]
Thereafter, in the same procedure as when the transmission rate is the initial value R1, the period given by the CLK 901 of the E / OO / E conversion units 9A and 9B, the transfer rate of the communication data transfer unit 202, the communication data reception unit 601 Is set to coincide with the transmission speed R2, and the confirmation data is transmitted from the first transmission / reception processing means 8A. At this time, it is assumed that the second transmission / reception processing unit 8B cannot receive the confirmation data within the time-out value determined in advance at the speed R2, for example, as shown in FIG. In this case, as shown in FIG. 7, the transmission / reception speed control unit 801 of the second transmission / reception processing unit 8B transmits data indicating that reception has failed to the first transmission / reception processing unit 8A.
[0078]
The transmission / reception speed control means 801 of the first transmission / reception processing means 8A that has received the data indicating that the reception has failed is a speed that is lower than the speed R2 that has failed to be received and is the highest speed among the speeds that have been successfully received. Is adopted as an optimum transmission rate when the communication data is transmitted between the first transmission / reception processing means 8A and the second transmission / reception processing means 8B. In this case, when the communication data is transmitted between the first transmission / reception processing means 8A and the second transmission / reception processing means 8B of the first ground Z1, the speed R1 immediately before the speed R2 that has failed to be received is transmitted. The transmission speed is adopted and transmitted to the transmission / reception speed control means 801 of the second transmission / reception processing means 8B. Thereafter, the settings such as the period given by the CLK 901 of the E / OO / E conversion means 9A, 9B, the transfer speed of the communication data transfer means 202, the reception speed of the communication data receiving means 601 are made to coincide with the transmission speed R1. Then, it is possible to optimize the transmission speed when communication data is transmitted between the first transmission / reception processing means 8A and the second transmission / reception processing means 8B.
[0079]
Thereafter, the second transmission / reception processing means, for example, the second transmission / reception processing means 8B used (connected) by the second terminal 1B, transmits / receives the second ground Z2 from the transmission / reception processing means of the first ground Z1. If it is dynamically changed to the means, the communication data is transferred between the first transmission / reception processing means 8A and the second transmission / reception processing means 8B of the second ground Z2 in the same procedure as shown in FIG. What is necessary is just to obtain | require the optimal transmission speed at the time of transmission and to change a setting.
[0080]
Further, for example, by periodically performing the procedure shown in FIG. 7, the second transmission / reception processing means 8B used (connected) by the second terminal 1B is dynamically changed, and the optical path 4 is changed after the change. Even when the path of the communication data changes greatly, the transmission speed of the communication data (optical signal) can be easily optimized, and the stability (accuracy) of data transmission can be improved.
[0081]
As described above, according to the optical data transmission network and the transmission speed setting method of the second embodiment, the second transmission / reception process used (connected) by the second terminal 1B according to the procedure shown in FIG. The transmission speed can be easily optimized according to the means 8B and the transmission path of the optical path between the first transmission / reception processing means 8A and the second transmission / reception processing means 8B. Therefore, for example, even when the transmission / reception processing means 8A and 8B used by the terminals 1A and 1B are dynamically changed and the configuration of the transmission path changes greatly due to the change in ground, it is easy to reset the transmission speed. Therefore, accurate data transfer can be performed.
[0082]
In the second embodiment, the transmission rate to be set and the data such as success or failure of reception of the confirmation data have been described as being transmitted / received via the control signal communication unit 7, but the present invention is not limited thereto. , It may be transmitted and received by other methods.
[0083]
(Example 3)
8 to 10 are schematic diagrams showing a schematic configuration of an optical data transmission network according to a third embodiment of the present invention. FIG. 8 is a block diagram showing the configuration of the entire network. FIG. 9 is a transmission processing unit and an E / O. FIG. 10 is a block diagram showing the configuration of the reception processing means and the O / E conversion means.
[0084]
In FIG. 8, 10 is an optical path management means. 9 and 10, 204 and 604 are speed estimation tables, respectively.
[0085]
As shown in FIG. 8, the optical data transmission network of the third embodiment includes transmission processing means 2 for converting data of the terminal 1A into communication data for network transmission, and communication data converted by the transmission processing means 2 as electrical data. E / O conversion means 3 for converting a signal into an optical signal, an optical path 4 for transmitting communication data converted into an optical signal by the E / O conversion means 3, and an optical signal for communication data transmitted through the optical path 4 O / E conversion means 5 for converting the signal into an electric signal, reception processing means 6 for restoring the communication data converted into the electric signal by the O / E conversion means 5 to the original data and transferring it to the terminal 1B; A control signal communication means 7 for communicating a control signal between the transmission processing means 2 and the reception processing means 6 is constituted.
[0086]
At this time, for example, as shown in FIG. 8, the optical path 4 includes an optical fiber 401 for transmitting the optical signal (communication data), an optical amplifier 402 for optically amplifying an optical signal attenuated by a transmission process, An optical switch 403 and the like for transferring an optical signal to a target terminal.
[0087]
In the optical data transmission network of the third embodiment, the reception processing means 6 used (connected) by the terminal 1B is dynamically changed. At this time, when the reception processing means 6 used by the terminal 1B is changed from the reception processing means of the first ground Z1 to the reception processing means of the second ground Z2, the transmission processing means 2 and the It is assumed that the transmission path of the optical path 4 between the reception processing means 6, that is, the length of the optical fiber 401 and the number of optical amplifiers 402 and optical switches 403 may change greatly.
[0088]
Further, in the optical data transmission network of the third embodiment, as shown in FIG. 8, an optical path management means 10 is connected to the control signal communication means 7. The optical path management means 10 is means for managing information such as the length of the optical fiber 401 and the number of optical amplifiers 402 and optical switches 403 in the optical path 4 of the network.
[0089]
In the optical data transmission network of the third embodiment, the transmission processing means 2 includes a data conversion means 201 for converting the data of the terminal 1A into the communication data, and the data conversion means 201 as shown in FIG. Communication data transfer means 202 for transferring the communication data converted in step E2 to the E / O conversion means 3, a transmission speed control means 203 for controlling the transfer speed of communication data transferred from the communication data transfer means 202, and the optical path management. It comprises a speed estimation table 204 for acquiring route information of the optical path 4 from the means 10 and estimating an optimum transmission speed (transmission speed). Further, as shown in FIG. 9, the E / O conversion means 3 includes communication data storage means 301 for storing communication data (electrical signals) transferred from the communication data transfer means 202 of the transmission processing means 2, It comprises an LD (laser diode) 302 that converts communication data (electrical signal) stored in the communication data storage means 301 into an optical signal, and a CLK 303 that gives a period for converting the optical data into an optical signal by the LD 302.
[0090]
When the communication data is transmitted using the transmission processing unit 2 and the E / O conversion unit 3, the same procedure as that described in the first embodiment may be performed, and thus detailed description thereof is omitted.
[0091]
In the optical data transmission network of the third embodiment, the O / E conversion means 5 receives (receives light) communication data (optical signal) transmitted through the optical path 4 as shown in FIG. PD (photodiode) 501 that converts the electrical signal into an electrical signal, a bit synchronization circuit 502 that reproduces the electrical signal converted by the PD 501 as communication data, and the normality of the communication data that is reproduced by the bit synchronization circuit 502 The reproduction communication data check means 503 for performing the above and a CLK 504 for giving a period when data is reproduced by the bit synchronization circuit 502 are constituted. Further, as shown in FIG. 10, the reception processing means 6 includes a communication data receiving means 601 for receiving communication data from the reproduction communication data checking means 503, and the communication data received by the communication data receiving means 601. Data conversion means 602 for restoring data that can be handled by the terminal 1B, reception speed control means 603 for controlling the period given by the CLK 504 of the O / E conversion means 5, the reception speed of the communication data reception means 601, etc., and the optical path It comprises a speed estimation table 604 for acquiring optical path route information from the management means 10 and estimating an optimum transmission speed (reception speed).
[0092]
When the communication data transmitted from the transmission processing unit 2 is received using the O / E conversion unit 5 and the reception processing unit 6, the same procedure as that described in the first embodiment may be used. Detailed description will be omitted.
[0093]
Also, in the optical data transmission network of the third embodiment, a plurality of transmission processing means 2 and reception processing means 6 are usually provided. At this time, depending on the combination of the transmission processing means 2 and the reception processing means 6, the transmission path of the optical path, that is, the length of the optical fiber 401 through which the communication data passes and the number of the optical amplifiers 402 and the optical switches 403 are different. The optimum transmission speed is also different. Therefore, for example, as shown in FIG. 8, when the communication data is transmitted from the transmission processing means 2 to the reception processing means 6 of the first ground Z1, the transmission processing means 2 and the second ground Z2 In the case of transmitting communication data to the reception processing means 6, the appropriate transmission speed is different.
[0094]
Hereinafter, a method for controlling the transmission speed of communication data in the optical data transmission network of the third embodiment will be described.
[0095]
FIG. 11 is a sequence diagram for explaining a method for controlling the transmission rate of communication data in the optical data transmission network according to the third embodiment.
[0096]
When controlling the transmission rate of the communication data, first, as shown in FIG. 11, the length of the optical fiber 401 in the optical path 4 from the optical path management means 10 to the transmission processing means 2 to the reception processing means 6 Information such as the number of optical amplifiers 402 and optical switches 403 is acquired. Then, the transmission processing means 2 compares the path information acquired from the optical path management means 10 with the value of the speed estimation table 204 in the transmission speed control means 203, and receives the reception processing from the transmission processing means 2. When communication data is transmitted to the means 6, the transmission speed at which the reception processing means 6 can normally receive is estimated. Similarly, the reception processing means 6 compares the route information acquired from the optical path management means 10 with the value of the speed estimation table 604 in the reception speed control means 603 and transmits it from the transmission processing means 2. When the received communication data is received, the speed that can be normally received is estimated.
[0097]
When the estimated transmission speed is, for example, the speed R1, the reception speed control means 603 of the reception processing means 6 from the transmission speed control means 203 of the transmission processing means 2 via the control signal communication means 7. In addition, control data for setting the initial value of the transmission rate to R1 is transmitted. The transmission speed control means 203 makes the period given by the CLK of the E / O conversion means 3 and the setting of the transfer speed of the communication data transfer means 203 coincide with the initial value R1 of the transmission speed. Similarly, the reception speed control means 603 that has received the data that the transmission speed transmitted from the transmission speed control means 203 is set to the initial value R1, the period given by the CLK 504 of the O / E conversion means 5, The setting of the communication data receiving means 601 is matched with the initial value R1 of the transmission rate.
[0098]
When the speed of each means is set, confirmation communication data (confirmation data) is transmitted from the transmission processing means 2. The confirmation data is transmitted after being converted into an optical signal by the LD 302 of the E / O conversion means 3 and transmitted through the optical path 4. The confirmation data transmitted through the optical path 4 is converted into an electrical signal by the PD 501 of the O / E conversion means 5 of the first ground Z1, and then received by the reception processing means 6. The procedure for transmitting the confirmation data from the transmission processing unit 2 and the procedure for receiving the confirmation data by the reception processing unit 6 may be the same as the communication data, and thus detailed description thereof is omitted. To do.
[0099]
When the communication data receiving unit 601 of the reception processing unit 6 has successfully received the confirmation data, it is received from the reception rate control unit 603 via the control signal communication unit 7 to the transmission rate control unit 203. Send success data.
[0100]
When the transmission rate control means 203 receives the data indicating the successful reception, the transmission speed control means 203 sends the data indicating that the transmission speed is increased from the initial value R1 to the speed R2 via the control signal communication means 7 and the reception speed control means 603. Send to.
[0101]
Thereafter, in the same procedure as when the transmission rate is the initial value R1, the cycle given by the CLK 303 of the E / O converter 3 and the cycle given by the transfer rate of the communication data transfer unit 202 are set to the transmission rate R2. And confirming data is transmitted from the transmission processing means 2. At this time, for example, as shown in FIG. 11, it is assumed that the confirmation data could not be received within the time-out time determined in advance at the speed R2. In this case, as shown in FIG. 11, the reception speed control means 603 transmits data indicating that reception has failed to the transmission speed control means 203.
[0102]
The transmission speed control means 203 that has received the data that the reception has failed receives a speed that is lower than the speed R2 that has failed to be received and that is the highest speed among the successful reception speeds. Is adopted as an optimum transmission rate when the communication data is transmitted to the reception processing means 6. In this case, the speed R1 immediately before the speed R2 that failed to be received is adopted as the transmission speed when the communication data is transmitted from the transmission processing means 2 to the reception processing means 6 of the first ground Z1, The data is transmitted to the reception speed control means 603. Thereafter, the period given by the CLK 303 of the E / O conversion means 3, the transfer speed of the communication data transfer means 202, the CLK 501 of the O / E conversion means 5 and the settings of the communication data reception means 601 are set as the transmission speed R1. If they match, the transmission speed when transmitting communication data from the transmission processing unit 201 to the reception processing unit 3 can be optimized.
[0103]
Thereafter, when the reception processing means 6 used (connected) by the terminal 1B is changed from the reception processing means of the first ground Z1 to the reception processing means of the second ground Z2, for example, FIG. In the same procedure as shown, an optimum transmission rate for transmitting communication data from the transmission processing means 2 to the reception processing means 6 of the second ground Z2 may be obtained and the setting may be changed.
[0104]
In addition, when the procedure shown in FIG. 11 is periodically performed, the reception processing means 6 used by the terminal (user) 1B is dynamically changed, and the optical path path is significantly changed after the change. However, the transmission speed of the communication data (optical signal) can be easily optimized, and the stability (accuracy) of data transmission can be improved.
[0105]
As described above, according to the optical data transmission network and the transmission rate control method of the third embodiment, the reception processing means 3 and the transmission processing means are connected to each other by the procedure as shown in FIG. The transmission speed can be easily optimized according to the transmission path of the optical path to the reception processing means. Therefore, for example, as shown in FIG. 8, even when the reception processing means 6 used by the terminal 1B is dynamically changed and the configuration of the transmission path changes greatly with the change, the transmission rate is reset. And accurate data transfer can be performed.
[0106]
Further, as in the transmission rate control method of the third embodiment, the reception processing used by the terminal 1B is obtained by acquiring route information from the optical path management unit 10 in advance and estimating the transmission possible rate. When the means 6 is changed, it is possible to shorten the time required for changing and optimizing the transmission speed. Therefore, even when the reception processing means 2 used by the terminal 1B is dynamically changed, the period during which the stability of data transfer is reduced can be shortened.
[0107]
Although not described in detail, even in a transmission network provided with transmission / reception processing means 8A and 8B and E / OO / E conversion means 9A and 9B, such as the optical data transmission network described in the second embodiment, As in the transmission rate control method of the third embodiment, the reception processing unit 6 used by the terminal 1B is obtained by acquiring route information from the optical path management unit 10 in advance and estimating the transmission rate. Can be reduced when the transmission speed is changed and optimized.
[0108]
The present invention has been specifically described above based on the above-described embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. is there.
[0109]
【The invention's effect】
Of the inventions disclosed in the present application, effects obtained by typical ones will be briefly described as follows.
[0110]
(1) In an optical data transmission network that performs data transmission between terminals via an optical path composed of an optical fiber, an optical amplifier, an optical switch, and the like, the ground such as transmission processing means and reception processing means connected to the optical path is dynamic. Even if it is changed, accurate data transmission can be performed.
[0111]
(2) The transmission speed of communication data can be easily controlled in an optical data transmission network that performs data transmission between terminals via an optical path including an optical fiber, an optical amplifier, an optical switch, and the like.
[Brief description of the drawings]
FIG. 1 is a schematic diagram illustrating a schematic configuration of an optical data transmission network according to a first embodiment of the present invention, and is a block diagram illustrating a configuration example of the entire network.
2 is a schematic diagram illustrating a schematic configuration of the optical data transmission network according to the first embodiment of the present invention, and is a block diagram illustrating a configuration of a transmission processing unit and an E / O conversion unit of FIG. 1;
3 is a schematic diagram illustrating a schematic configuration of the optical data transmission network according to the first embodiment of the present invention, and is a block diagram illustrating configurations of a reception processing unit and an O / E conversion unit illustrated in FIG. 1. FIG.
FIG. 4 is a sequence diagram for explaining a method for controlling a transmission rate of communication data in the optical data transmission network according to the first embodiment.
FIG. 5 is a schematic diagram showing a schematic configuration of an optical data transmission network according to a second embodiment of the present invention, and is a block diagram showing a configuration example of the entire network.
FIG. 6 is a schematic diagram showing a schematic configuration of an optical data transmission network according to a second embodiment of the present invention, and is a block diagram showing configurations of transmission / reception processing means and E / OO / E conversion means.
FIG. 7 is a sequence diagram for explaining a method for controlling a transmission rate of communication data in the optical data transmission network according to the second embodiment.
FIG. 8 is a schematic diagram showing a schematic configuration of an optical data transmission network according to a third embodiment of the present invention, and is a block diagram showing a configuration example of the entire network.
FIG. 9 is a schematic diagram showing a schematic configuration of an optical data transmission network according to a third embodiment of the present invention, and is a block diagram showing configurations of transmission processing means and E / O conversion means.
FIG. 10 is a schematic diagram showing a schematic configuration of an optical data transmission network according to a third embodiment of the present invention, and is a block diagram showing configurations of reception processing means and O / E conversion means.
FIG. 11 is a sequence diagram illustrating a method for controlling the transmission rate of communication data in the optical data transmission network according to the third embodiment.
FIG. 12 is a schematic diagram showing a schematic configuration of a conventional optical data transmission network, and is a block diagram showing a configuration example of the entire network.
FIG. 13 is a schematic diagram showing a schematic configuration of a conventional optical data transmission network, and is a block diagram showing a configuration of transmission processing means and E / O conversion means.
FIG. 14 is a schematic diagram showing a schematic configuration of a conventional optical data transmission network, and is a block diagram showing a configuration of reception processing means and O / E conversion means.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1A, 1B ... Terminal, 2 ... Transmission processing means, 201 ... Data conversion means, 202 ... Communication data transfer means, 203 ... Transmission speed control means, 204 ... Speed estimation table (speed estimation means), 205 ... Transmission speed setting means DESCRIPTION OF SYMBOLS 3 ... E / O conversion means 301 ... Communication data storage means 302 ... LD (laser diode) 303 ... CLK (clock pulse generation means) 4 ... Optical path 401 ... Optical fiber 402 ... Optical amplifier 403 ... Optical switch, 5 ... O / E conversion means, 501 ... PD (photodiode), 502 ... bit synchronization circuit, 503 ... reproduction communication data check means, 504 ... CLK, 6 ... reception processing means, 601 ... communication data reception means, 602 ... Data conversion means, 603 ... Reception speed control means, 604 ... Speed estimation table (speed estimation means), 7 ... Control signal communication means, 8A, 8B ... Transmission Reception processing means, 801 ... transmission / reception speed control means, 9A, 9B ... E / OO / E conversion means, 901 ... transmission / reception speed control means, 10 ... optical path management means.

Claims (6)

Transmission processing means for converting terminal data into communication data for network transmission, and electrical / optical conversion means (hereinafter referred to as E / O conversion means) for converting communication data converted by the transmission processing means from an electrical signal to an optical signal An optical path for transmitting the communication data converted into the optical signal, and an optical / electrical conversion means (hereinafter referred to as O / E conversion means) for converting the communication data transmitted through the optical path from an optical signal into an electrical signal. And receiving processing means for receiving communication data converted into an electric signal by the O / E conversion means and transferring it to a terminal, and optical path management means having transmission path information inside the optical path An optical data transmission network,
The transmission processing means includes means for acquiring transmission path information of an optical path between the transmission processing means and a reception processing means that is a reception destination of the communication data from the optical path management means, and the acquired transmission path information. A speed estimation means for estimating an appropriate speed as the transmission speed based on the transmission speed control means for controlling the transmission speed of communication data converted into an optical signal by the E / O conversion means,
The reception processing means is based on the acquired transmission path information, means for acquiring transmission path information of an optical path between the transmission processing means of the transmission source of the communication data and the reception processing means from the optical path management means. Speed estimation means for estimating an appropriate speed as the reception speed, and a reception speed control means for controlling the reception speed of communication data received by the O / E conversion means,
An optical system comprising: transmitting and receiving speed control data for changing the transmission speed and the reception speed between the transmission speed control means and the reception speed control means, and determining a transmission speed of the communication data. Data transmission network. The terminal data is converted into communication data for network transmission, the transmission / reception processing means for receiving the communication data, the communication data converted by the transmission / reception processing means is converted from an electric signal to an optical signal, and the transmission / reception processing is performed. An electrical / optical-optical / electrical conversion means (hereinafter referred to as E / OO / E conversion means) for converting the communication data received by the means from an optical signal into an electrical signal; and the communication data converted into the optical signal. An optical data transmission network comprising an optical path for transmission and optical path management means having transmission path information inside the optical path ,
The transmission / reception processing means obtains optical path transmission path information between the transmission / reception processing means of the communication data transmission source and the transmission / reception processing means of the communication data reception destination from the optical path management means; Speed estimation means for estimating an appropriate transmission speed as the transmission speed and reception speed of the communication data based on the acquired transmission path information, and communication data to be converted into an optical signal and transmitted by the E / OO / E conversion means A transmission speed control means for controlling a transmission speed and a reception speed of communication data received by the E / OO / E conversion means and converted into an electrical signal;
When the transmission / reception processing means of the transmission source of the communication data is different from the transmission / reception processing means of the reception destination of the communication data, the transmission / reception speed control means provided in the transmission / reception processing means of the transmission source and the transmission / reception processing means of the reception destination are provided. An optical data transmission network, wherein transmission / reception speed control means performs transmission / reception of speed control data for changing the transmission speed and reception speed of the communication data to control the transmission speed of the communication data. Transmission processing means for converting terminal data into communication data for network transmission, E / O conversion means for converting communication data converted by the transmission processing means from an electric signal to an optical signal, and communication converted to the optical signal An optical path for transmitting data, O / E conversion means for converting communication data transmitted through the optical path from an optical signal to an electrical signal, and communication data converted into an electrical signal by the O / E conversion means A transmission rate control method for controlling a transmission rate of communication data transmitted from the transmission processing unit to the reception processing unit on an optical data transmission network including a reception processing unit to be transferred to a terminal;
A first step of setting the transmission rate;
A second step of transmitting confirmation data from the transmission processing means to the reception processing means at the transmission rate set in the first step;
In the reception processing means, a third step for attempting to receive the confirmation data at the transmission rate set in the first step;
In the third step, when the confirmation data is successfully received, the transmission rate set in the first step is increased, and the third step is repeated from the first step to the third step. When,
In the third step, when the reception of the confirmation data has failed, the transmission process sets the maximum speed among transmission speeds lower than the set transmission speed and successfully received the confirmation data. possess a fifth step of the transmission speed when transmitting the communication data to the receiving processing unit from the means,
The first step includes acquiring optical path transmission path information from the transmission processing means to the reception processing means from an optical path management means having transmission path information, and based on the acquired transmission path information. , transmission rate control method characterized by chromatic and estimating the transmission rate. 4. The transmission rate control method according to claim 3 , wherein each step from the first step to the fifth step is performed periodically. The terminal data is converted into communication data for network transmission, the transmission / reception processing means for receiving the communication data, the communication data converted by the transmission / reception processing means is converted from an electric signal to an optical signal, and the transmission / reception processing is performed. An optical data transmission network comprising: an E / OO / E conversion means for converting the communication data received by the means from an optical signal into an electrical signal; and an optical path for transmitting the communication data converted into the optical signal. A transmission rate control method for controlling a transmission rate of communication data transmitted between one transmission / reception processing unit and another second transmission / reception processing unit,
A first step of setting the transmission rate;
A second step of transmitting confirmation data from the first transmission / reception processing means to the second transmission / reception processing means at the transmission rate set in the first step;
In the second transmission / reception processing means, a third step of trying to receive the confirmation data at the transmission rate set in the first step;
In the third step, when the confirmation data is successfully received, the confirmation data is transmitted from the second transmission / reception processing means to the first transmission / reception processing means at the transmission rate set in the first step. A fourth step to:
In the first transmission / reception processing means, a fifth step of attempting to receive the confirmation data at the transmission rate set in the first step;
In the fifth step, when the confirmation data is successfully received, the transmission rate set in the first step is increased, and the fifth step is repeated from the first step to the fifth step. When,
In the third step or the fifth step, when the reception of the confirmation data fails, the maximum transmission speed that is lower than the set transmission speed and that has successfully received the confirmation data is the maximum. the speed possess a seventh step of the transmission speed when transmitting the communication data between the first reception processing means and the second transmission and reception processing unit,
The first step includes acquiring optical path transmission path information from the transmission processing means to the reception processing means from an optical path management means having transmission path information, and based on the acquired transmission path information. , transmission rate control method characterized by chromatic and estimating the transmission rate. 6. The transmission rate control method according to claim 5 , wherein each step from the first step to the seventh step is performed periodically.

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