JP5091819B2 - Data collection system - Google Patents

Description

The present invention relates to a data acquisition system using the server equipment performing a process of aggregating data transmitted from multiple communication terminal station.

  Using a communication system consisting of an aggregation device such as a data collection server and a terminal station connected to the aggregation device so that wireless or wired communication is possible, various data acquired at the terminal station side is collected by the aggregation device. It is known to do. For example, Patent Document 1 discloses that such a communication system is applied to an automatic meter reading system that periodically collects meter reading data of a water meter. In addition, application of the communication system to an automatic meter reading system for collecting power consumption data of electric power consumers is also under consideration.

  In communication systems such as the above automatic meter reading system, there is often a demand for system expansion. For this expansion, not only system expansion corresponding to an increase in the number of communication terminal stations but also system expansion in which functions having processing characteristics different from existing functions (functions having different interfaces) are added. For example, a case where another existing communication system having a different communication method is connected to the existing communication system can be exemplified. Specifically, when there is an automatic meter reading system that includes a collection server that collects meter reading data in a PHS (Personal Handy phone System) communication system and a management server connected to the collection server, the PLC ( A case where another collection server that collects meter reading data in a communication system of (Power Line Communications) system is additionally introduced into the automatic meter reading system can be exemplified.

In this case, since the existing PHS communication system and the newly introduced PLC communication system have different interfaces, an interface function for the PLC communication system is added to the automatic meter reading system when the system is expanded. A need arises. For this reason, it is necessary to modify the system, but in this case, it is inevitable that the system is stopped. However, in a system that collects data regularly, there is a request to avoid the system operation stop as much as possible. For example, meter reading of power usage is collected every 30 minutes, so if the system is stopped for a long time, the meter reading value in real time cannot be confirmed. For this reason, there has been a problem that the system cannot be flexibly expanded.
JP 2002-92776 A

  As described above, in the conventional communication system, if a system expansion is performed to add a function having different processing characteristics to the existing communication system, the operation of the communication system is forced to stop, thereby increasing the operation cost of the system. There is.

The present invention is to solve such problems, the process characteristics and to provide a data collection system using the server equipment that can smoothly system extension that adds a different function.

A data collection system according to an aspect of the present invention includes a plurality of communication terminal stations capable of acquiring data and a data processing function area, and is connected to the communication terminal station via a network and is acquired by each communication terminal station. A data collection system comprising: a server device that collects data; and a control device that is connected to the server device and controls data collection, wherein the server device uses a part of the data processing function area A first address is assigned for data communication, and the collection server function unit for receiving data transmitted from the communication terminal station and another part of the data processing function area are used for data communication. Is assigned a second address different from the first address, and a processing server function unit having a processing function of processing to be executed by the data collection system, and the collection server function Alternatively, the processing server function unit or an external interface unit for connecting an external server device having a server function different from these, the collection server function unit, the processing server function unit, and the external interface unit are connected. a common interface unit to enable data communication between the external server device that, you comprising a.

  According to this configuration, the collection server function unit and the processing server function unit are provided in one server device, and these have the first address and the second address for data communication, and the data is transmitted via the common interface unit. Communication is possible. In addition, the collection server function unit and the processing server function unit are capable of data communication with the external server device via the external interface unit and the common interface unit. That is, the collection server function unit and the processing server function unit are not connected via a local interface, but are connected so that data communication is possible using a common interface unit that can also handle external server devices. Therefore, even when adding external server devices with functions with different processing characteristics, or when adding or distributing function of the collection server function unit or processing server function unit, system modification is required by intermediation of the common interface unit. It can respond without.

In the above configuration, the communication terminal station performs data communication based on a first communication terminal group that performs data communication based on the first communication system and a second communication system that differs from the first communication system. A communication terminal station group, wherein the collection server function unit receives data transmitted from a communication terminal station belonging to the first communication terminal group, and the second communication terminal station A second collection server function unit that receives data transmitted from a communication terminal belonging to a group, and the first collection server function unit and the second collection server function unit are assigned different addresses. it is not the desirable you are.

  According to this configuration, it is possible to construct a data collection system that can correspond to the first communication terminal group and the second communication terminal group having different communication methods. In addition, either or both of the first and second collection server function units can be relocated to the external server device due to a local function stop of the system.

In this case, the first communication scheme is PHS communication system, said second communication system is PLC communication method, Ru one der preferred embodiment.

In the above configuration, connected to said external interface section, said collecting server function unit or the processing server function unit, or these and not to want further comprise an external server apparatus having a different server functionality. According to this configuration, the collection server function unit or the processing server function unit can be added or another server function can be added via the external interface unit, and an expanded system can be constructed.

In the above configuration, it is planned to use another part of the data processing function area, and a third address different from the first and second addresses is scheduled to be assigned for data communication. it is not to demand, further comprising a server partition portion free.

  According to this configuration, it becomes possible to add a server function different from the first or second server function later in one server device. For example, a collection server function unit corresponding to a third communication method different from the first and second communication methods can be added to an empty server partition unit afterwards. At this time, the addition can be performed without stopping the operation of the system.

In the above configuration, the communication terminal station is capable of acquiring meter reading data from a watt-hour meter, and the data transmitted from the communication terminal station to the collection server function unit is acquired at each communication terminal station. a meter reading data that is Ru one der preferred embodiment.

According to the present invention, when the process characteristics existing communication system performs system extension that adds different functions, can suppress operation stop of the communication system, Lud chromatography data collection can be performed smoothly system expansion A system can be provided.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a block diagram showing an overall configuration of a data collection system S according to an embodiment of the present invention. This data collection system S is applied to an automatic meter reading system that automatically collects meter reading data of power usage from a large number of electric power consumers, and includes a monitoring control server 10 (control device), meter reading server 20 ( Server device), a PHS terminal group 30 and a PLC terminal group 40 (a plurality of communication terminals). The monitoring control server 10 constituting the monitoring control system layer of the data collection system S is an upper layer, and the meter reading server 20 as a meter reading collection system layer controlled by this monitoring control system layer exists in the lower layer, and further the meter reading collection system layer The PHS terminal group 30 (first communication terminal group) and the PLC terminal group 40 (second communication terminal group) exist in the communication device system layer that transmits meter-reading data in the lower layer.

  The monitoring control server 10 is installed, for example, at a management base of an electric power company, and has an overall system monitoring function, a metering data collection control function by the meter reading server 20, another server in the monitoring control system layer, and another server in the upper layer It is a server that has a business linkage function.

  The meter-reading server 20 is a server that is installed at, for example, a power company sales office, and has a function of collecting the meter-reading data from each terminal station and storing the meter-reading data in order to calculate the power charges of each power consumer. is there. As will be described in detail later, in this embodiment, the meter reading server 20 is functionally provided with a common interface unit (common I / F) 25 (see FIG. 4).

  The PHS terminal group 30 is a group that collects meter reading data from power consumers via a PHS communication network, and includes a PHS gateway 31 and a number of PHS terminal units 32, 32. Yes. FIG. 2 is a block diagram showing the configuration of one PHS terminal unit 32. Each PHS terminal unit 32 includes a PHS terminal station 33, a watt-hour meter 34, and a switch 35, and is installed in each power consumer.

  The PHS terminal station 33 is a wireless communication terminal station that is capable of wireless communication with the PHS gateway 31 and other PHS terminal stations (or PHS relay stations), and includes data that includes meter reading data on the amount of power used by power consumers. Is periodically transmitted to the PHS gateway 31. In the present embodiment, each PHS terminal station 33 performs wireless communication in the PHS transceiver mode. Although not shown, many of the PHS terminal stations 33 are network-connected in a tree shape having a plurality of hierarchies.

  The watt-hour meter 34 measures the amount of power used by a power consumer in which the PHS terminal station 33 is arranged. The switch 35 switches ON / OFF of power supply from the commercial power transmission system to the power consumer. The watt-hour meter 34 and the switch 35 are connected to the PHS terminal station 33 so that data communication is possible. The PHS terminal station 33 acquires meter reading data of the watt hour meter 34, for example, every 30 minutes, and gives control data such as an open / close control signal to the switch 35 as necessary.

  The PHS gateway 31 is connected to the meter reading server 20 via a communication network NT such as an optical fiber network, and a PHS wireless communication network configured by a number of PHS terminal stations 33 and a communication network to which the meter reading server 20 is connected. It is a device that interconnects NT. The PHS gateway 31 is installed for each group of a certain number of PHS terminal stations 33, and the PHS terminal stations 33 are arranged in a tree structure below one PHS gateway 31 according to a predetermined route table. Is formed.

  The PLC terminal group 40 is a group that collects meter-reading data from power consumers who have introduced power line communication, and includes a PLC master station 41 and a PLC network 42. One PLC master station 41 is normally installed in one power consumer, and the PLC network 42 is a communication network using a power line wired in the premises of the power consumer. The PLC master station 41 has a modem function for superimposing or separating a communication signal on a power line, and is connected to a communication network NT that is drawn into the power consumer. The PLC master station 41 is capable of data communication with the meter-reading server 20 via the communication network NT.

  FIG. 3 is a block diagram showing the configuration of the PLC terminal unit 40A in one power consumer. The PLC terminal station unit 40A includes a PLC master station 41 and a plurality of PLC slave stations 43 (PLC network 42) connected thereto. The PLC slave station 43 is installed in units of outlets, and has a modem function for separating the communication signal from the power line and superimposing the communication signal on the power line. A watt-hour meter 34 and a switch 35 similar to the above are connected to one PLC slave station 43 in the PLC network 42 so that data communication is possible. The PLC master station 41 acquires meter reading data of the watt-hour meter 34, for example, every 30 minutes via the PLC slave station 43, and gives control data such as an opening / closing control signal to the switch 35 as necessary. Such PLC terminal unit 40A is provided for each electric power consumer, and these are connected in parallel to the meter reading server 20 through the communication network NT.

  Next, the meter reading server 20 will be described in detail. FIG. 4 is a block diagram showing a configuration of the meter reading server 20. The meter-reading server 20 is a server device (physical server) that has a data processing function area 200 and is physically separated. The meter reading server 20 includes a CPU (Central Processing Unit) 211, a memory device 212, and an input / output unit (I / O) 213 (external interface unit) as hardware.

  The CPU is composed of a microprocessor or the like, and controls each part of the meter-reading server 20 by executing a processing program and performs various arithmetic processes. The memory device 212 is a physical memory including a ROM that stores a control program, a flash memory that temporarily stores calculation data, and the like. The input / output unit 213 is an input / output port for physically connecting the meter-reading server 20 and external devices (PHS gateway 31, PLC master station 41, and external server 50).

  While having such a hardware configuration, the meter-reading server 20 includes, in the data processing function area 200, a collection management server unit 22 (first server partition unit), a PHS collection server unit 23 (second server partition unit / first collection server). Functional unit), a PLC collection server unit 24 (second collection server function unit), and a common interface unit (common I / F) 25. These partition units are configured as logical servers created by dividing or combining hardware resources of the meter-reading server 20 spatially or temporally. The data processing function area 200 includes an empty server partition unit 26 (third server partition unit) that has not been used yet.

  The collection management server unit 22 is a server unit on which functions to be realized by the automatic meter reading system are implemented. For example, the collection management server unit 22 collects meter reading data (data including meter ID, meter reading time, instruction value, abnormality information, etc.) from each watt-hour meter 34, and controls data (instrument ID) for each switch 35. , Data including control information, abnormality information, etc.), management process of watt hour meter 34 and switch 35 (management of instrument ID, installation date / time, device information, position information, software version, etc.), each communication end Station management processing (management of equipment ID, IP address, software version, etc.) is executed. Furthermore, a data distribution function for controlling the data transmission destination of the communication terminal station, a transmission amount control function for load control, and the like can be executed so as to cope with system expansion.

  The PHS collection server unit 23 is a server function unit that executes data collection processing unique to the PHS communication network. The PHS collection server unit 23 holds a route table indicating how the PHS gateway 31 and a large number of PHS terminal units 32 (PHS terminal stations 33) are arranged, and is connected to the input / output unit 213. Data communication with each of the PHS gateway 31 and the PHS terminal station 33 is possible. Meter reading data is periodically transmitted from the PHS terminal station 33 side to the PHS collection server unit 23 as described above. On the other hand, a request signal for backup meter reading data and control data for the switch 35 are transmitted from the PHS collection server unit 23 toward the PHS terminal station 33 side.

  The PLC collection server unit 24 is a server function unit that executes a specific data collection process for the PLC terminal group 40. The PLC collection server unit 24 can individually perform data communication with each PLC master station 41 connected to the input / output unit 213. Meter reading data is periodically transmitted from each PLC master station 41 side to the PLC collection server unit 24. On the other hand, a request signal for backup meter reading data and control data for the switch 35 are transmitted from the PLC collection server unit 24 to the PLC master station 41 side.

  The common interface unit 25 is a functional unit for enabling data communication between the collection management server unit 22, the PHS collection server unit 23, the PLC collection server unit 24, and the external server 50 connected to the input / output unit 213. . Specifically, the data generated in the collection management server unit 22 is converted into a communication signal according to the communication protocol of the PHS collection server unit 23, the PLC collection server unit 24, and the external server 50, and the PHS collection server unit 23 The communication signals input from the PLC collection server unit 24 and the external server 50 are converted into data in a format that can be processed by the collection management server unit 22. The common interface unit 25 and the collection management server unit 22 may be configured by one logical server, and the collection management server unit 22 may provide a common interface.

  The empty server partition unit 26 is a space of a new logical server that is virtually provided for the addition of a new function in the future. The external server 50 is a physical server that is separate from the meter-reading server 20, and is a server device having a function related to the meter-reading collection system layer. The external server 50 is physically connected to the input / output unit 213 of the meter-reading server 20 and can communicate data with at least the collection management server unit 22 via the common interface unit 25.

  Each of the server function units as described above is assigned an address for data communication, and functions as an independent server. This point will be described with reference to FIG. FIG. 5 is a diagram schematically illustrating the configuration of each server function unit.

  The meter reading server 20 is provided with a predetermined basic software OS. The collection management server unit 22 includes application-1, which is application software for performing collection management processing, a data area for storing various data, a communication unit that performs a communication function, and the collection management server. A logical IP address −1 for specifying the unit 22 on the communication network is allocated.

  Similarly, the PHS collection server unit 23 has an application-2 for PHS data communication, and is assigned a logical IP address-2. The PLC collection server unit 24 has an application-3 for data communication according to the PLC system, and a logical IP address-3 is allocated. Furthermore, it is possible to allocate another logical IP address-4 to the empty server partition unit 26 as well.

  Therefore, the collection management server unit 22, the PHS collection server unit 23, and the PLC collection server unit 24 perform TCP / IP communication using a logical IP address through the common interface unit 25 by the communication units included therein. Can do. For example, when function linkage within the same server is performed using API (Application Program Interface), etc., there is no other way to expand the system than adding physical servers with the same function and linkage between the functions. Lack of expansion flexibility. In addition, when adding a new function, it is necessary to stop the system operation and repair the system. However, as in this embodiment, by assigning a logical IP address to each server function unit and enabling data communication between the server function units via the common interface unit 25, it is possible to flexibly cope with system expansion. Become.

  For example, when a new server function is added to the empty server partition unit 26, for example, when a server function corresponding to a new communication terminal station medium is added, the server function is matched with the specifications in the common interface unit 25. There is no need to renovate the existing data collection system S. In addition, since a server function is added by allocating a new logical IP address and mediating the common interface unit 25, there is an advantage that it is not necessary to stop the operation of the system when the server function is added.

  This advantage can be enjoyed in the same way when additional physical servers are added. That is, a server function provided in the external server 50 may be constructed according to the specifications of the common interface unit 25, a new IP address-5 may be allocated, and connected to the input / output unit 213. Also in this case, the data collection system S is not repaired or stopped. Therefore, when the load on the meter-reading server 20 increases, there is an advantage that a new physical server can be added to easily distribute the load.

  The above advantages will be described in detail with reference to FIGS. FIGS. 6A to 6C are schematic views showing typical examples of system expansion of this type of automatic meter reading system. As shown in FIG. 6A, it is assumed that an automatic meter reading system having only a PHS collection function is constructed for an electric power consumer having a PHS terminal station at the time of initial introduction. Thereafter, as shown in FIG. 6B, it is assumed that it is necessary to add a collecting function of the PLC method in order to add the electric power consumer in which the PLC is introduced to the target of automatic meter reading. Furthermore, as shown in FIG. 6C, it is assumed that it is necessary to add a new function corresponding to the new media in order to add a power consumer having a communication terminal station of the new media to the subject of automatic meter reading. . Here, it is assumed that the PLC collection function and the additional new function have different interfaces to the existing system.

  When such a system expansion request has occurred, when the functions of the existing system and the PHS collection function are interoperated by applying a technology such as the above API at the time of initial introduction System expansion is difficult. That is, it is necessary to add an interface function to the existing system in the expansion of FIG. 6B and in the expansion of FIG. 6C. For this reason, it is necessary to modify the existing system, and to stop the system operation in order to reflect the modification. This leads to an increase in system operation costs.

  On the other hand, according to the data collection system S of the present embodiment, it is possible to easily cope with such system expansion. That is, at the initial introduction of FIG. 6A, as shown in FIG. 7A, the collection management server unit 22 and the PHS collection server unit 23 are logical servers in one physical server (meter-reading server 20). By setting and enabling both to perform data communication (TCP / IP communication) using a logical IP address via the common interface unit 25, functional linkage is achieved.

  6B, as shown in FIG. 7B, a new logical server area is set in the meter-reading server 20, and the PLC collection server unit is set in accordance with the specifications of the common interface unit 25. 24 may be constructed. Then, by using the logical IP address allocated for the PLC collection server unit 24, data communication is possible with the collection management server unit 22 and the PHS collection server unit 23 via the common interface unit 25, thereby enabling functional linkage. Try to figure it out. The same applies to the expansion in FIG.

  Further, as shown in FIG. 7C, the same is true when adding physical servers. When the number of PHS terminal stations increases and the extension of the PHS collection server function is required, the extension PHS collection server unit 511 constructed in accordance with the specifications of the common interface unit 25 is set in the first external server 51. Then, using the IP address allocated for the first external server 51 (or the additional PHS collection server unit 511 as a logical server), data communication is possible with the collection management server unit 22 and the like via the common interface unit 25. By doing so, the function linkage is intended. When a new function is incorporated into the system by adding a physical server, the new function server unit 512 constructed in accordance with the specifications of the common interface unit 25 is set in the second external server 52, and the second external server 52 Therefore, by using the IP address allocated for this purpose, data communication is possible with the collection management server unit 22 and the like via the common interface unit 25, thereby achieving functional linkage.

  Furthermore, as shown in FIG. 8, load distribution can be easily performed. As shown in FIG. 8A, a collection management server unit 22, a PHS collection server unit 23, a PLC collection server unit 24, and a common interface unit 25 are provided as logical servers in one physical server (meter reading server 20). It is assumed that it is set. For example, when the number of terminal stations in the PHS terminal station group 30 and the PLC terminal station group 40 increases and load distribution is necessary, as shown in FIG. 8B, the third external server 53 is used as an additional physical server. And the 4th external server 54 can be added and the function of the PHS collection server part 23 and the PLC collection server part 24 can be moved to each. Even in such a relocation, it is substantially unnecessary to modify the existing system, and it can be dealt with by a local system outage.

As described above, according to the data collection system S according to the present embodiment,
(1) Since the system is a system that mediates the common interface unit 25, the common interface unit 25 absorbs the difference in the interface even when performing system expansion to add a server function having a different interface to the existing collection system. No need to repair collection system,
(2) Since a new server function is added via the common interface unit 25, it is possible to suppress the operation stop of the existing collection system.
(3) During load distribution, the server function can be easily transferred to other physical servers, and the installed servers can be used effectively.
There is a merit. Therefore, the function expansion and physical expansion of the collection system can be flexibly performed.

  As mentioned above, although embodiment was described about this invention, this invention is not limited to this. In the said embodiment, the data collection system S of this invention showed the example applied to the automatic meter-reading system which collects the meter-reading data of electric power consumption. However, the present invention is applicable to various types of data collection, such as collection of meter reading data of water meters and gas meters, or collection of various sensing data such as weather data, environmental data, traffic measurement data, and industrial measurement data. Can be applied.

It is a block diagram which shows the whole structure of the data collection system S which concerns on embodiment of this invention. It is a block diagram which shows the structure of one PHS terminal unit. It is a block diagram which shows the structure of one PLC terminal unit. It is a block diagram which shows the structure of a meter-reading server. It is a figure which shows typically the structure of each server function part. (A)-(c) is a schematic diagram which shows the typical example of the system expansion of an automatic meter-reading system. (A)-(c) is a schematic diagram for demonstrating the system structure corresponding to system expansion. (A), (b) is a schematic diagram for demonstrating the response | compatibility to load distribution.

10 Monitoring control server (control device)
20 Meter reading server (server device)
200 Data processing function area 213 Input / output unit (external interface unit)
22 Collection management server (first server partition)
23 Collection server unit (second server partition unit / first collection server function unit)
24 Collection server part (second collection server function part)
25 Common interface section 26 Empty server partition section (third server partition section)
30 PHS terminal group (first communication terminal group)
31 Gateway 32 PHS Terminal Unit 33 PHS Terminal Station (Communication Terminal Station)
34 Electricity meter 35 Switch 40 PLC terminal group (second communication terminal group)
41 PLC master station (communication terminal)
S Data collection system

Claims (6)

A plurality of communication terminals capable of acquiring data;
One server device having a data processing function area, connected to the communication terminal station via a network, and collecting data acquired by each communication terminal station;
A control device connected to the server device for controlling data collection;
A data collection system comprising: the server device,
A collection server function unit that uses a part of the data processing function area, is assigned a first address for data communication, and receives data transmitted from the communication terminal station;
A processing server that uses another part of the data processing function area, is assigned a second address different from the first address for data communication, and has a processing function of processing to be executed by the data collection system A functional part;
An external interface unit for connecting the collection server function unit or the processing server function unit, or an external server device having a server function different from these,
A common interface unit that enables data communication between the collection server function unit, the processing server function unit, and an external server device connected via the external interface unit;
A data collection system comprising: The communication terminal is
A first communication terminal group that performs data communication based on the first communication method;
A second communication terminal group that performs data communication based on a second communication method different from the first communication method,
The collection server function unit
A first collection server function unit that receives data transmitted from a communication terminal belonging to the first communication terminal group;
A second collection server function unit for receiving data transmitted from a communication terminal station belonging to the second communication terminal group,
The data collection system according to claim 1 , wherein the first collection server function unit and the second collection server function unit are assigned different addresses. The data collection system according to claim 2 , wherein the first communication method is a PHS communication method, and the second communication method is a PLC communication method. The external server device connected to the external interface unit and having a server function different from the collection server function unit or the processing server function unit, or the server function unit according to any one of claims 1 to 3 Data collection system. An empty server partition that is scheduled to use another part of the data processing function area and is assigned a third address different from the first and second addresses for data communication. The data collection system according to claim 1 , further comprising a unit. The communication terminal is capable of acquiring meter reading data from a watt-hour meter,
6. The data collection according to claim 1 , wherein the data transmitted from the communication terminal station to the collection server function unit is meter reading data acquired at each communication terminal station. system.

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