JP5072722B2 - Monitoring system and master station - Google Patents

Description

  The present invention relates to a monitoring system and a master station that collect monitoring data of existing slave stations and new slave stations with different communication specifications, and is used, for example, in a monitoring system between a base station and a repeater in a train radio system Is possible.

FIG. 6 is a block diagram showing a conventional monitoring system.
In the example of FIG. 6, N slave stations n (n = 1, 2, 3,..., N) are multidrop-connected to the communication line, and one master station includes N slave stations. n monitoring data are collected.
The N slave stations n are all configured by the same circuit, and the communication specifications for the master station are all the same.
When the master station collects the monitoring data of the N slave stations n, the master station transmits the monitoring data of the N slave stations n to the central monitoring device.

FIG. 7 is a sequence diagram showing exchanges between the central monitoring apparatus, the master station, and the slave stations.
The master station sequentially transmits polling signals to the slave stations 1, 2, 3,..., N in order to collect monitoring data from the N slave stations n. Transmission of the polling signal of the master station to the N slave stations n is repeatedly performed at a polling period T.
Upon receiving the polling signal transmitted from the master station, the slave stations 1, 2, 3,..., N transmit, for example, monitoring data indicating monitoring video or monitoring audio to the master station as a response.
When the master station receives the monitoring data transmitted from the slave stations 1, 2, 3,..., N, it aggregates the monitoring data, and aggregates the monitoring data when it receives a monitoring data transmission request from the central monitoring device. Send monitoring data to the central monitoring device.

6 and 7, the communication specifications of the N slave stations n are the same as the communication specifications of the master station, but the existing slave station is replaced with a new slave station, The communication specifications of the new slave station may be different from the communication specifications of the existing slave station.
Thus, a monitoring system that enables the master station to collect monitoring data from all the slave stations even when slave stations with different communication specifications coexist is disclosed in Patent Document 1 below. .
FIG. 8 is a flowchart showing the processing contents of the monitoring system disclosed in Patent Document 1 below.

When the master station sequentially transmits the polling signal to the N slave stations n, the communication attribute (communication) is transmitted to the slave station that has not sent back a response signal to the polling signal even though the polling signal was transmitted last time. (Specification) is transmitted (step ST301). However, N slave stations n can respond to communication attribute inquiries.
When the master station receives a response to a communication attribute inquiry from a slave station that has not returned a response signal to the polling signal, the slave station communication attribute is another slave station (a child that has returned a response signal to the polling signal). It is determined whether or not it matches the communication attribute of the station (step ST302).

When the communication attributes match, the master station sends a polling signal to the slave station that has not returned a response signal to the polling signal, and sends a response signal to the polling signal, as with other slave stations. The received communication process is continued (step ST303).
If the communication attributes do not match, the master station searches for an optimum communication attribute communicable with the N slave stations n (step ST304), and notifies the optimum communication attributes to the N slave stations n.
Upon receiving notification of the optimum communication attribute from the parent station, the N slave stations n sets its own communication attribute to the optimum communication attribute (step ST305).
Thereafter, the master station transmits a polling signal to the N slave stations n with the optimum communication attribute.

JP-A-6-334667 (paragraph numbers [0006] to [0008], FIG. 1)

  Since the conventional monitoring system is configured as described above, the attribute notification function that the slave station notifies the communication attribute in response to the request of the master station, the attribute setting function that sets its own communication attribute as the optimum communication attribute, etc. If the slave station has different communication attributes, the communication attributes of the slave stations can be unified and monitoring data can be collected from all the slave stations. However, there is a problem in that monitoring data cannot be collected from all the slave stations unless the slave station has a special function such as an attribute notification function or an attribute setting function.

  The present invention has been made to solve the above-described problems. Even if the slave station does not have a special function such as an attribute notification function or an attribute setting function, it can be used from all the slave stations having different communication specifications. It is an object to obtain a monitoring system and a master station that can collect monitoring data.

  The monitoring system according to the present invention is a new slave station data that collects monitoring data of a new slave station that has the same communication specifications as a new slave station exchanged with an existing slave station among a plurality of slave stations. Collection means, connection target switching means for alternately connecting existing master stations and new slave station data collection means whose communication specifications match those of the existing slave stations to the communication line, and existing data collected by the existing master stations Monitoring data transmission means for aggregating monitoring data of slave stations and monitoring data of new slave stations collected by the new slave station data collection means, and transmitting the monitoring data of existing and new slave stations to the central monitoring device; A new master station equipped with the above is provided.

  According to the present invention, the new slave station data collecting means for collecting the monitoring data of the new slave station that has the same communication specifications as the new slave station exchanged with the existing slave station among the plurality of slave stations. A connection target switching means for alternately connecting an existing master station and a new slave station data collection means whose communication specifications match those of the existing slave station to the communication line, and an existing slave collected by the existing master station. Monitoring data transmission means for aggregating the monitoring data of the stations and the monitoring data of the new slave stations collected by the new slave station data collection means and transmitting the monitoring data of the existing and new slave stations to the central monitoring device Since the new master station is provided, monitoring data is collected from all slave stations with different communication specifications even if the slave station does not have a special function such as the attribute notification function or attribute setting function. There is an effect that can.

Embodiment 1 FIG.
1 is a block diagram showing a monitoring system according to Embodiment 1 of the present invention.
In FIG. 1, N slave stations n (n = 1, 2, 3,..., N) are multidrop-connected to the communication line, and two master stations (existing master station 11, new master station) are connected. 12) shows an example of collecting monitoring data of N slave stations n.
Further, among the N slave stations n, particularly, the slave station (1) and the slave station (N) are the existing slave stations 1, and the slave station (2) is the new slave station 2.
However, the number of existing master stations 11 and new master stations 12 and the number of existing slave stations 1 and new slave stations 2 are merely examples.
Note that the existing master station 11 has the same communication specifications as the existing slave station 1 and can communicate, but the new slave station 2 does not have the same communication specifications and cannot communicate.
The new master station 12 has the same communication specifications as the new slave station 2 and can communicate, but the communication specifications do not match the existing slave station 1 and cannot communicate.

The connection target switching unit 21 of the new master station 12 performs processing for alternately connecting the existing master station 11 and the new slave station data collection unit 22 to the communication line.
When the new slave station data collection unit 22 has the same communication specifications as the new slave station 2 and is connected to the communication line by the connection target switching unit 21, the new slave station data collection unit 22 performs processing to collect monitoring data of the new slave station 2.
The new slave station data collection unit 22 constitutes new slave station data collection means.

The existing slave station data collection unit 23 performs a process of collecting the monitoring data of the existing slave station 1 collected by the existing master station 11.
The slave station monitoring data aggregation unit 24 aggregates the monitoring data of the new slave station 2 collected by the new slave station data collection unit 22 and the monitoring data of the existing slave station 1 collected by the existing slave station data collection unit 23, A process of transmitting the monitoring data of the existing slave station 1 and the new slave station 2 to the central monitoring device 13 is performed.
The existing slave station data collection unit 23 and the slave station monitoring data aggregation unit 24 constitute monitoring data transmission means.

The slave station information setting unit 25 manages the number of existing slave stations 1 and new slave stations 2 connected to the communication line, and a new slave station data collection unit 22 for the communication line according to the number of the new slave stations 2. The connection time of the new slave station data collection unit 22 for the communication line is set from the connection time of the new slave station data collection unit 22 and the polling cycle of the existing master station 11.
The connection target switching unit 21 and the slave station information setting unit 25 constitute connection target switching means.
The central monitoring device 13 receives the monitoring data of the existing slave station 1 and the new slave station 2 transmitted from the new master station 12, and performs analysis and display of the monitor data, for example.

FIG. 2 is a sequence diagram showing exchanges between the slave station monitoring data aggregation unit 24, the new slave station data collection unit 22, and the new slave station 2.
FIG. 3 is a sequence diagram showing exchanges between the existing slave station data collection unit 23, the existing master station 11, and the existing slave station 1 and the new slave station 2.
FIG. 4 is an explanatory diagram of a table showing the correspondence between slave station numbers and types.

Next, the operation will be described.
The slave station information setting unit 25 of the new master station 12 manages the number of existing slave stations 1 and new slave stations 2 connected to the communication line.
That is, the slave station information setting unit 25 has a table (see FIG. 4) showing the correspondence between the slave station number and the type, and the slave station connected to the communication line is specified in the table. A slave station number and type information for identifying whether the slave station is an existing slave station 1 or a new slave station 2 are recorded.

Therefore, the slave station information setting unit 25 can grasp the number of existing slave stations 1 and new slave stations 2 connected to the communication line by referring to the table.
The slave station information setting unit 25 sets the connection time of the new slave station data collection unit 22 for the communication line according to the number of new slave stations 2 connected to the communication line.
In other words, the slave station information setting unit 25 is a period from when the new slave station data collection unit 22 transmits a polling signal to a certain new slave station 2 until the monitoring data is returned from the certain new slave station 2. If the time required is “t”, if the number of new slave stations 2 is A, the connection time of the new slave station data collection unit 22 to the communication line is set to “t × A”.

When the slave station information setting unit 25 sets the connection time t × A of the new slave station data collection unit 22 to the communication line, as shown in FIG. 2, the connection period Ts ( The polling cycle of the new slave station 12) is equal to or longer than the total time of the connection time t × A of the new slave station data collection unit 22 to the communication line and the polling period T (polling cycle) of the existing master station 11. The connection cycle Ts of the new slave station data collection unit 22 for the communication line is set.
Ts ≧ T + t × A

The connection target switching unit 21 of the new master station 12 is configured such that the slave station information setting unit 25 has a connection time t × A of the new slave station data collection unit 22 for the communication line and a connection cycle of the new slave station data collection unit 22 for the communication line. When Ts is set, as shown in FIG. 2, after connecting the new slave station data collection unit 22 to the communication line for the connection time t × A, the existing master station 11 is connected to the connection time T (the polling period T of the existing master station 11). ) Only connect to the communication line.
The connection target switching unit 21 alternately connects the new slave station data collection unit 22 and the existing master station 11 to the communication line, but the connection cycle of the new slave station data collection unit 22 with respect to the communication line is “Ts”. The new slave station data collection unit 22 is connected to the communication line every connection cycle Ts.

The connection cycle Ts of the new slave station data collection unit 22 for the communication line is the connection time t × A of the new slave station data collection unit 22 for the communication line and the polling period T (polling cycle) of the existing parent station 11. Since the slave station information setting unit 25 sets the connection cycle Ts of the new slave station data collection unit 22 to the communication line so that the total time is longer than the total time, the existing master station 11 must make sure that all the existing slave stations 1 It is possible to poll for one period.
The switching timing of the connection target switching unit 21 is irrelevant to the polling timing of the existing master station 11.

  Here, the slave station information setting unit 25 sets the connection cycle Ts and the like of the new slave station data collection unit 22 for the communication line. However, the slave station information setting unit 25 has a new connection unit connected to the communication line. Only the number of the slave stations 2 is notified to the connection target switching unit 21, and the connection target switching unit 21 determines the new slave station for the communication line according to the number of new slave stations 2 notified from the slave station information setting unit 25. The connection cycle Ts of the data collection unit 22 and the connection cycle Ts of the new slave station data collection unit 22 for the communication line may be set.

The new slave station data collection unit 22 of the new master station 12 has previously received notification of which slave station is the new slave station 2 from the slave station information setting unit 25, and the connection target switching unit 21 establishes a communication line. When connected, the monitoring data of the new slave station 2 is collected by sequentially transmitting a polling signal to the new slave station 2 as shown in FIG.
In other words, the communication specifications of the new slave station data collection unit 22 match the communication specifications of the new slave station 2, and the new slave station data collection unit 22 and the new slave station 2 can communicate with each other. When the station data collection unit 22 transmits a polling signal to the new slave station 2, the new slave station 2 transmits monitoring data to the new slave station data collection unit 22 as a response to the polling signal.
The new slave station data collection unit 22 repeatedly collects monitoring data of the new slave station 2 at the connection cycle Ts.

The existing master station 11 repeats the same polling sequence as in FIG. 7 regardless of the switching timing of the connection target switching unit 21.
Therefore, if the polling signal transmission process is performed during the period in which the existing parent station 11 is connected to the communication line by the connection target switching unit 21, the existing child station 1 is connected to the existing parent station 11 as shown in FIG. Since the transmitted polling signal can be received, the monitoring data of the existing slave station 1 is transmitted to the existing master station 11 as a response to the polling signal.
However, since the new slave station 2 has a communication specification different from that of the existing master station 11 and cannot communicate with the existing master station 11, the new slave station 2 cannot receive the polling signal transmitted from the existing master station 11. The polling signal response is not returned to the existing master station 11.
In this case, the existing master station 11 considers that the new slave station 2 is experiencing a communication failure.

Further, even when the polling signal transmission process is performed during a period in which the existing master station 11 is not connected to the communication line by the connection target switching unit 21, the polling signal is not output on the communication line but connected to the communication line. Since this is not transmitted to the N slave stations (existing slave station 1 and new slave station 2), the response of the polling signal is not returned to the existing master station 11.
In this case, the existing master station 11 considers that N slave stations (existing slave station 1 and new slave station 2) connected to the communication line are experiencing communication failures.

The existing slave station data collection unit 23 of the new master station 12 has the same communication specification as that of the existing master station 11, and transmits a monitoring data transmission request to the existing master station 11, so Collect monitoring data.
However, the monitoring data transmission request is transmitted to the existing master station 11 before the new slave station data collection unit 22 is connected to the communication line by the connection target switching unit 21.
As a result, the existing slave station data collecting unit 23 polls N slave stations connected to the communication line for one cycle while the existing parent station 11 is connected to the communication line by the connection target switching unit 21. The monitoring data of the existing slave station 1 can be collected. For this reason, the communication failure information of the existing slave station 1 that occurs when the connection target is switched by the connection target switching unit 21 is not received from the existing master station 11.

The slave station monitoring data aggregating unit 24 of the new master station 12 receives in advance notification from the slave station information setting unit 25 which slave station is the existing slave station 1 and which slave station is the new slave station 2. The monitoring data of the existing slave station 1 is acquired from the existing slave station data collection unit 23, and the monitoring data of the new slave station 2 is acquired from the new slave station data collection unit 22 to monitor the existing slave station 1 And the monitoring data of the new slave station 2 are aggregated.
The slave station monitoring data aggregating unit 24 has the same communication specifications as the central monitoring device 13, and receives monitoring data transmission requests from the central monitoring device 13, the centralized monitoring data of the existing slave station 1 and the new slave station 2 are centralized. Transmit to the monitoring device 13.
The central monitoring device 13 receives the monitoring data of the existing slave station 1 and the new slave station 2 transmitted from the new master station 12, and analyzes and displays the monitor data, for example.

  As is apparent from the above, according to the first embodiment, the communication specifications of the plurality of slave stations are the same as those of the new slave station 2 exchanged with the existing slave station 1, and the new slave station 2 is monitored. A new slave station data collection unit 22 that collects data, and a connection target switching unit 21 that alternately connects the existing master station 11 and the new slave station data collection unit 22 whose communication specifications match those of the existing slave station 1 to the communication line. Then, the monitoring data of the existing slave station 1 collected by the existing master station 11 and the monitoring data of the new slave station 2 collected by the new slave station data collection unit 22 are aggregated, and the existing slave station 1 and the new slave station 2 Since the new master station 12 including the slave station monitoring data aggregating unit 24 for transmitting the monitoring data to the central monitoring device 13 is provided, the slave station connected to the communication line can be used for the attribute notification function and attribute setting. Even if special functions such as functions are not implemented, Specification offers an advantage of being able to collect monitoring data from all different slave station.

Embodiment 2. FIG.
In the first embodiment, the case where a part of the existing slave station 1 connected to the communication line is exchanged for the new slave station 2 is shown. However, all the existing slave stations 1 are exchanged for the new slave station 2. In this case, the connection target switching unit 21 fixes the connection target of the communication line to the new slave station data collection unit 22.
Therefore, unnecessary connection target switching operation is eliminated, and the system can be monitored at an optimal polling cycle.
In this case, the polling cycle Ts for the N new slave stations 2 connected to the communication line is t × N.

Embodiment 3 FIG.
In the first and second embodiments, the slave station information setting unit 25 manages the number of existing slave stations 1 and new slave stations 2 connected to the communication line. 25 may be provided with an interface for accepting a change from the existing slave station 1 connected to the communication line to the new slave station 2 or addition of a new new slave station 2.
The interface may be, for example, a man-machine interface such as a keyboard or a mouse, or an external input interface for inputting information indicating change or addition of the new slave station 2 from the outside.

For example, the slave station information setting unit 25 is implemented with a nonvolatile memory, and records a table indicating the correspondence between the slave station number and the type in the nonvolatile memory. FIG. 5 is an explanatory diagram of a table showing the correspondence between slave station numbers and types.
The slave station information setting unit 25 is information indicating which existing slave station 1 is replaced with the new slave station 2 when a part of the existing slave station 1 connected to the communication line is replaced with the new slave station 2. To update the contents of the table.
In the example of FIG. 5, among the N existing slave stations 1 connected to the communication line, the slave station with the slave station number “2” is exchanged for the new slave station 2 and the type of the slave station is “new”. It has been changed to

Further, the slave station information setting unit 25 initially determines which slave station is added when a new slave station 2 is newly connected to the communication line when N slave stations are connected to the communication line. The information indicating is input and the contents of the table are updated.
In the example of FIG. 5, M new slave stations 2 are newly added, and the slave station numbers and types of M new slave stations 2 are added.

  As apparent from the above, according to the third embodiment, the slave station information setting unit 25 changes the existing slave station 1 connected to the communication line from the new slave station 2 and adds the new slave station 2. Since it is configured to include an interface to accept, it is possible to easily cope with a change from an existing slave station 1 connected to a communication line to a new slave station 2 or addition of a new slave station 2 Play.

It is a block diagram which shows the monitoring system by Embodiment 1 of this invention. FIG. 6 is a sequence diagram showing exchanges between a slave station monitoring data aggregation unit 24, a new slave station data collection unit 22, and a new slave station 2. It is a sequence diagram which shows the exchange between the existing slave station data collection part 23, the existing master station 11, and the existing slave station 1 and the new slave station 2. It is explanatory drawing of the table which shows the correspondence of a slave station number and a classification. It is explanatory drawing of the table which shows the correspondence of a slave station number and a classification. It is a block diagram which shows the conventional monitoring system. It is a sequence diagram which shows the exchange between a central monitoring apparatus, a master station, and a slave station. 10 is a flowchart showing processing contents of a monitoring system disclosed in Patent Document 1;

Explanation of symbols

  1 Existing slave station (existing slave station) 2 New slave station (new slave station), 11 Existing master station (existing master station), 12 New master station (new master station), 13 Central monitoring device, 21 Connection target switching unit (connection target switching unit), 22 New slave station data collection unit (new slave station data collection unit), 23 Existing slave station data collection unit (monitoring data transmission unit), 24 Slave station monitoring data aggregation unit (monitoring) Data transmission means), 25 slave station information setting section (connection object switching means).

Claims (4)

  In a monitoring system in which a master station collects monitoring data of a plurality of slave stations connected to a communication line and transmits the monitoring data to a central monitoring device, the master station is replaced with an existing slave station. A new slave station data collection means for collecting the monitoring data of the new slave station, and an existing master station whose communication specifications match the existing slave station. And connection target switching means for alternately connecting the new slave station data collecting means to the communication line, monitoring data of the existing slave stations collected by the existing master station, and the new slave station data collecting means. A new master station is provided that includes monitoring data transmission means for aggregating monitoring data of new slave stations and transmitting monitoring data of existing and new slave stations to the central monitoring device. Monitoring system.   The connection target switching means manages a new slave station connected to the communication line, sets the connection time of the new slave station data collection means for the communication line according to the number of the new slave stations, and 2. The monitoring system according to claim 1, wherein the connection period of the new slave station data collection means for the communication line is set from the connection time of the new slave station data collection means and the polling cycle of the existing master station.   The connection target switching means includes an interface for accepting a change from an existing slave station connected to a communication line to a new slave station and addition of a new slave station. 2. The monitoring system according to 2.   New slave station data that collects monitoring data of the new slave station that has the same communication specifications as the new slave station exchanged with the existing slave station among the multiple slave stations connected to the communication line A collecting means, an existing master station whose communication specifications match the existing slave station and a connection target switching means for alternately connecting the new slave station data collecting means to the communication line, and the existing master station. The collected monitoring data of the existing slave stations and the monitoring data of the new slave stations collected by the new slave station data collecting means are aggregated, and the monitoring data of the existing and new slave stations is transmitted to the central monitoring device. A master station comprising monitoring data transmission means for

Images