JP2006211113A - Information collecting system and base station used therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain an information collecting system which enables in an information collecting system in an internet connectivity and which transmits data, such as the amount of electric power used, without lack to an information collecting server without relation to the amount of the traffics of the access data to the internet. <P>SOLUTION: Information collecting communication terminals 41 and 42 to which metering meters 51 and 52 are connected, and information terminals 81 and 82 accessing to an Internet 6, are connected to an EPON, and the internet 6 and the intranet 21 are connected to this EPON through an EPON base station 3. In the intranet 21, an information collecting server 1 which collects the data 51 and 52 is connected. The EPON base station 3 has a VLAN definitions table part 304 which defined a VLAN-ID which classifies the data of the information collecting communication terminals 41 and 42 and the data of the information terminals 81 and 82, and transmits by the transmission band assured by the band control processor 305 in response to the VLAN-ID. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an information collection system that collects information of a meter such as a usage amount of electric power from a plurality of consumers via a network and a base station used for the information collection system.

  In a conventional information collection system, information collection communication terminals of a plurality of customers are installed in an intranet that is an access line, and data such as power consumption is transmitted through the information collection communication terminal. That is, in this information collection system, an intranet is used for an access line, and data such as power consumption transmitted from a plurality of consumers is transmitted to the information collection server via this access line.

The intranet is a closed network such as a corporate network, and an information collection communication terminal that transmits data such as a power consumption amount such as a value of a meter to an information collection server is connected to the intranet.
In the information collection system, an information collection server collects data such as a power consumption such as a metering meter from an information collection communication terminal via an intranet by a polling method or the like.

  In Patent Document 1, data of a meter reading meter is transmitted from an information terminal device connected to a meter reading meter to a meter reading host connected to the intranet via an intranet and a switching hub, and also connected to the information terminal device. Data output from the terminal is output to the Internet via a switching hub, and the amount of communication between the computer connected to the Internet and the communication terminal is restricted by a firewall arranged on the Internet side of the switching hub, thereby communicating meter reading data. An information gathering system is shown that ensures bandwidth allocation.

JP 2002-325144 A (pages 4-7, FIG. 1)

  In the information collection system of Patent Document 1, the meter reading meter data from the information terminal device and the data from the communication terminal are separated by a switching hub, and the computer and the communication terminal connected to the Internet by a firewall disposed on the Internet side of the switching hub Even though the communication bandwidth of the meter reading data is allocated by restricting the amount of communication with the meter, the restriction of the traffic amount is a process of limiting the number of accesses from the network, and the meter reading data collected by the meter reading host Was not a priority process.

  The present invention has been made in order to solve the above-described problems, and enables an information connection system to connect to the Internet. The information collection server can be connected to the information collection server without any loss regardless of the traffic volume of access data to the Internet. An object of the present invention is to obtain an information collection system for transmitting data such as usage amount and a base station used for the information collection system.

 In the information collecting system according to the present invention, the information collecting communication terminal to which the meter is connected, the information terminal for transmitting and receiving data between the devices connected to the Internet, and the information collecting communication terminal connected to the intranet. Connected to the Internet and Intranet, which relays data between the information collection server that collects transmitted meter data, the information collection communication terminal and the information collection server, and between the information terminal and the device connected to the Internet A base station and a VLAN access line for allocating different communication bands for communication between the base station and the information collecting communication terminal and between the base station and the information terminal. VLAN that distinguishes data sent to and received from a collection terminal and data sent to and received from an information terminal Those having a defined portion, and a bandwidth control processing section for controlling in accordance with the communication bandwidth of the VLAN access line used by referring to the VLAN definition portion to the classification of the data.

 As described above, the present invention includes an information collection communication terminal to which a weighing meter is connected, an information terminal that transmits and receives data between a device connected to the Internet, and an information collection communication terminal that is connected to an intranet. Connected to the Internet and Intranet, which relays data between the information collection server that collects transmitted meter data, the information collection communication terminal and the information collection server, and between the information terminal and the device connected to the Internet A base station and a VLAN access line for allocating different communication bands for communication between the base station and the information collecting communication terminal and between the base station and the information terminal. A VLAN definition section that separates data transmitted to and received from the collection terminal and data transmitted to and received from the information terminal; Since it has a bandwidth control processing unit for controlling the communication bandwidth of the VLAN access line used by referring to the AN definition unit according to the data classification, an access line for connecting a general Internet user to the Internet, and information from the meter Shares the access line for collection and secures the transmission bandwidth required by the metering meter data, so that the metering data is sent to the information collection server without data loss regardless of the amount of Internet access data traffic. Can be sent.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of an information collection system according to Embodiment 1 of the present invention.
In FIG. 1, the information collection server 1 collects data such as power consumption from the information collection communication terminals 41 and 42. The intranet 21 is a closed network such as a corporate network, and the information collection server 1 and an EPON (Ethernet (registered trademark) Passive Optical Network) base station 3 (base station) are connected via the intranet 21. . The EPON base station 3 has a VLAN (Virtual Local Area Network: LAN for setting a virtual group of terminals independently of a physical connection form) function, a band control function, and a priority control function, and an EPON system. A communication interface with a plurality of information collecting communication terminals is collectively accommodated in a 1: N star network (VLAN access line). The EPON base station 3 is also connected to the Internet 6.
When the information collection communication terminals 41 and 42 are connected to the EPON line, have the EPON terminal station function, and receive a request message from the information collection server 1, they collect data such as power consumption from the metering meters 51 and 52. The data is transmitted to the information collection server 1.
The EPON terminal stations 71 and 72 are connected to the EPON line, convert an optical signal and an electric signal, and have an EPON line termination function. Information terminals 81, 82 such as personal computers are connected to EPON terminal stations 71, 72 and installed in a general Internet user's house for the purpose of accessing the Internet 6. It is assumed that the EPON base station 3 has a tag VLAN function for managing the EPON line to the information collecting communication terminals 41 and 42 and the EPON line to the EPON terminal stations 71 and 72 as separate groups.

The request message 11 is transmitted from the information collection server 1 to the metering meters 51 and 52. The response message 12 is transmitted from the metering meters 51 and 52 toward the information collection server 1. The Internet transmission data 13 is transmitted from the information terminals 81 and 82 toward the Internet 6. The Internet reception data 14 is transmitted from the Internet 6 to the information terminals 81 and 82.
The request message 15 with VLAN-ID is obtained by inserting the VLAN ID into the request message 11 in the EPON base station 3. The response message 16 with VLAN-ID is obtained by inserting the VLAN ID into the response message 12 in the EPON base station 3.
The VLAN-ID-added Internet transmission data 17 is obtained by inserting the VLAN ID into the Internet transmission data 13 in the EPON base station 3, and the VLAN-ID-added Internet reception data 18 is stored in the EPON base station 3 as the Internet reception data 14. A VLAN ID is inserted.

Next, the configuration of the EPON base station 3 will be described.
The VLAN-ID insertion / deletion unit (upper intranet side) 301 inserts the VLAN-ID into the request message 11 and deletes the VLAN-ID from the response message 16 with VLAN-ID. The VLAN-ID insertion / deletion unit (upper Internet side) 302 inserts the VLAN-ID into the Internet reception data 14 and deletes the VLAN-ID from the VLAN-ID-added Internet transmission data 17.
The VLAN-ID insertion / deletion unit (low-order side) 303 inserts the VLAN-ID into the response message 12 or the Internet transmission data 13, and creates the VLAN-ID from the VLAN-ID request message 15 and the VLAN-ID-added Internet reception data 18. Is deleted.
As shown in FIG. 2, the VLAN definition table unit 304 (VLAN definition unit) includes a VLAN-ID insertion / deletion unit (upper intranet side) 301 and a VLAN-ID insertion / deletion unit (upper Internet side) 302 and a VLAN-ID insertion. The deletion unit (lower side) 303 stores a table that defines the ID value and priority value of the VLAN assigned to the data type, which is referred to when assigning the VLAN-ID.
The bandwidth control processing unit 305 has a bandwidth control function, and identifies a transmission destination from destination address information, VLAN ID, and the like. Specifically, control is performed so that different bands are used for transmission / reception between the information collection communication terminals 41 and 42 and transmission / reception between the EPON terminal stations 71 and 72.

Next, the configuration of the information collection communication terminal will be described.
The EPON terminal station unit 411 converts an optical signal and an electric signal and has an EPON line termination function. The meter interface unit 412 interfaces with the measurement meters 51 and 52. The EPON compatible data processing unit 413 performs mutual conversion between the EPON side data format and the meter side data format.

FIG. 2 is a diagram showing an example of the definition contents of the VLAN definition table part described in the information collection system according to Embodiment 1 of the present invention.
In FIG. 2, the ID value of VLAN-ID for each data type and its priority are stored.
3 is a diagram showing a data frame configuration of the information collecting system according to the first embodiment of the present invention. FIG. 3 (a) shows data frames of data 15 and 16, and FIG. 3 (b) shows data frames. It is a figure which shows the data frame of 17 and 18. Each includes a VLAN-ID, a transmission source address, a destination address, and data. The VLAN-ID is 2 in FIG. 3A and the VLAN-ID is 3 in FIG.

Next, the operation will be described.
The information collection server 1 transmits a request message 11 for requesting data such as power consumption to the EPON base station 3 via the intranet 21 by a polling method or the like. In the EPON base station 3, when the received data is the request message 11 from the information collection server 1, the VLAN-ID insertion / deletion unit (upper intranet side) 301 refers to the definition content of the VLAN definition table unit 304, and FIG. The VLAN ID (ID value = “2”, priority = “high” in the example of FIG. 2) is assigned to the request message 11 and converted into the request message 15 with VLAN-ID, and the bandwidth control processing unit To 305.
The bandwidth control processing unit 305 identifies the destination information collection communication terminal from the destination address information in the VLAN-ID-added request message 15 and the VLAN ID, and transmits the information via the VLAN-ID insertion / deletion unit (lower side) 303. The base station request message 111 is transmitted to the collection communication terminal 41 or the information collection communication terminal 42. At this time, since the VLAN ID is “2”, the bandwidth control processing unit 305 determines that the data is for the information collection communication terminals 41 and 42 and determines from the destination address information among the plurality of information collection communication terminals. To select a specific information collection communication terminal.
Then, the VLAN-ID insertion / deletion unit (lower side) 303 removes the VLAN ID from the request message 15 with VLAN-ID and converts it into the request message 111 via the base station, and the information collection communication terminal 41 or the information collection communication terminal 42.

  In the information collection communication terminals 41 and 42, the EPON terminal station 411 receives data from the EPON line, the data processing unit 413 converts the format of the request message 111 via the base station, and the meter interface unit 412 converts the meter 51, 52.

  The metering meters 51 and 52 return data such as power consumption to the information collection communication terminals 41 and 42. In the information collection communication terminals 41 and 42, the meter interface unit 412 receives the data from the weighing meters 51 and 52, the data processing unit 413 converts the format of the received data, and the EPON terminal station unit 411 sends a response message. 12 is returned to the EPON base station 3.

In the EPON base station 3, when the received data is the response message 12 from the information collection communication terminals 41 and 42, the VLAN-ID insertion / deletion unit (lower side) 303 refers to the definition content of the VLAN definition table unit 304, A VLAN ID (ID value = “2”, priority = “high” in the example of FIG. 2) is assigned to the response message 12, converted into a response message 16 with VLAN-ID, and transmitted to the bandwidth control processing unit 305. .
The bandwidth control processing unit 305 identifies the transmission destination from the destination address information in the VLAN-ID response message 16 and the VLAN ID, and sends information via the VLAN-ID insertion / deletion unit (upper intranet side) 301 and the intranet 21. The base station response message 121 is transmitted to the collection server 1. At this time, the VLAN-ID insertion / deletion unit (upper intranet side) 301 removes the VLAN ID from the VLAN-ID-attached response message 16 and converts it into a response message 121 via the base station.

A general Internet user transmits Internet transmission data 13 for Internet access from the information terminals 81 and 82 to the EPON base station 3 via the EPON terminal stations 71 and 72 which are line termination devices. In the EPON base station 3, when the received data is the Internet transmission data 13 from the information terminals 81 and 82, the VLAN-ID insertion / deletion unit (lower side) 303 refers to the definition content of the VLAN definition table unit 304, and the Internet The VLAN ID (ID value = “3”, priority = “low” in the example of FIG. 2) is assigned to the transmission data 13, converted to the VLAN-ID-added Internet transmission data 17, and transmitted to the bandwidth control processing unit 305. To do.
The bandwidth control processing unit 305 specifies the transmission destination from the destination address information in the VLAN-ID-added Internet transmission data 17 and the VLAN ID, and sends it to the Internet 6 via the VLAN-ID insertion / deletion unit (upper Internet side) 302. Internet transmission data 131 via the base station is transmitted. At this time, the VLAN-ID insertion / deletion unit (upper Internet side) 302 removes the VLAN ID from the VLAN-ID-added Internet transmission data 17 and converts it into the Internet transmission data 131 via the base station.

When the EPON base station 3 receives the Internet reception data 14 that is downlink data from the Internet 6, the EPON base station 3 inserts a VLAN-ID when the received data is the Internet transmission data 14 received from the Internet 6 side. The deletion unit (upper Internet side) 302 refers to the definition contents of the VLAN definition table unit 304 and assigns the VLAN ID (ID value = “3”, priority = “low” in the example of FIG. 2) to the Internet reception data 14. The data is allocated, converted to the VLAN-ID-added Internet reception data 18, and transmitted to the bandwidth control processing unit 305.
The bandwidth control processing unit 305 identifies the destination information terminal from the destination address information in the VLAN-ID-added Internet reception data 18 and the VLAN ID, and passes the information through the VLAN-ID insertion / deletion unit (lower side) 303. The Internet reception data 141 via the base station is transmitted to the terminal 81 or the information terminal 82. At this time, since the VLAN ID is “3”, the bandwidth control processing unit 305 determines that the data is for the information terminals 81 and 82, and specifies specific information from a plurality of information terminals based on the destination address information. Select a terminal.
Then, the VLAN-ID insertion / deletion unit (lower side) 303 removes the VLAN ID from the Internet-received data 18 with VLAN-ID, converts it into the Internet-received data 141 via the base station, and sends it to the information terminal 81 or the information terminal 82. Send.

  The bandwidth control processing unit 305 implements a bandwidth control function and reserves a necessary transmission bandwidth in advance by using the ID value = “2” of the VLAN-ID-added request message 15 and the VLAN-ID response message 16 as an index, Even if the request message 15 with VLAN-ID and the response message 16 with VLAN-ID are insignificant with respect to the traffic volume of the Internet transmission data 17 with VLAN-ID and the Internet reception data 18 with VLAN-ID, there is an effect on the transmission band. Do not receive.

  According to the first embodiment, by constructing a VLAN by the above method and performing bandwidth control and priority control based on the VLAN ID, the traffic volume of the Internet transmission data 13 and the Internet reception data 14 is increased. It is possible to prevent occurrence and omission of extra delays in the request message 11 and the response message 12 that are expected to occur, and a plurality of information collecting communication on an EPON-type access line constituted by one EPON base station. In addition to the terminals 41 and 42, a plurality of general Internet user information terminals 81 and 82 can be connected.

  In the above description, the VLAN-ID is deleted by the VLAN-ID insertion / deletion unit (upper intranet side) 301, the VLAN-ID insertion / deletion unit (upper Internet side) 302, and the VLAN-ID insertion / deletion unit (lower side) 303. However, in the VLAN-ID insertion / deletion unit (upper intranet side) 301, the VLAN-ID insertion / deletion unit (upper Internet side) 302, and the VLAN-ID insertion / deletion unit (lower side) 303, the VLAN-ID is deleted. If the intranet 21 side, the Internet 6 side, the information collection terminals 41 and 42 side, and the information terminals 81 and 82 side have a function of deleting the VLAN-ID, the same effect can be obtained.

Further, the VLAN-ID insertion / deletion unit (lower side) 303 is provided in the EPON base station 3, but the VLAN-ID insertion / deletion unit (lower side) 303 is provided in the information collection communication terminals 41 and 42, and the VLAN-ID is provided. The same effect can be obtained even if insertion and deletion are performed.
In the first embodiment, the tag VLAN function is used to control transmission / reception with the information collection communication terminal and transmission / reception with the information terminal to use different bands. However, another method may be used. .

Embodiment 2. FIG.
FIG. 4 is a block diagram showing a configuration of an information collection system according to Embodiment 2 of the present invention.
In FIG. 4, 1, 3, 6, 21, 301 to 304, 41, 42, 411 to 413, 51, 52, 71, 72, 81, 82, and each data 11 to 18, 111, 121, 131, 141 are , The same as in FIG. In FIG. 4, a priority control processing unit 306 is provided instead of the bandwidth control processing unit 305 of FIG.

In the second embodiment, the priority control processing unit 306 stores transmission / reception data between the information collection communication terminals 41 and 42 and transmission / reception data between the EPON terminal stations 71 and 72 in separate queues, Processing is performed with priority on transmission / reception data between the information collection communication terminals 41 and 42.
The priority control processing unit 306 uses the ID value = “2” as an index to set the priority to the VLAN-ID-added request message 15 and the VLAN-ID-added response message 16, the VLAN-ID-added Internet transmission data 17 and the VLAN-ID. The priority is set higher than the priority of the Internet reception data 18 with ID. As a result, even if the traffic volume of the VLAN-ID-added Internet transmission data 17 and the VLAN-ID-added Internet reception data 18 increases, the VLAN-ID-added request message 15 and the VLAN-ID-added response message 16 are given priority first. Allows processing and communication without delay.

  According to the second embodiment, the priority control processing unit 306 processes transmission / reception data between the information collection communication terminals 41 and 42 with higher priority than transmission / reception data between the EPON terminal stations 71 and 72. It is possible to prevent the occurrence of a delay or a loss of the request message 11 and the response message 12 that are expected to occur due to an increase in the traffic volume of the Internet transmission data 13 and the Internet reception data 14, and one EPON base station A plurality of information collecting communication terminals 41 and 42 as well as a plurality of general Internet user information terminals 81 and 82 can be connected to the configured EPON access line.

Embodiment 3 FIG.
FIG. 5 is a block diagram showing a configuration of an information collecting system according to Embodiment 3 of the present invention.
In FIG. 5, reference numerals 1, 6, 21, 301 to 305, 412, 51, 52, 81, and 82, and data 11 to 18, 111, 121, 131, and 141 are the same as those in FIG. In FIG. 5, a 1: N star network (VLAN access line) using a wireless system is used as an access line, and the base station is a radio base station 32. The wireless base station 32 communicates with the information collecting communication terminals 43 and 44 to which the metering meters 51 and 52 are connected and the wireless terminal stations 73 and 74 to which the information terminals 81 and 82 are connected via a wireless line. Therefore, the information collecting communication terminals 43 and 44 have a wireless terminal station function on the access line side, a wireless terminal station unit 431 performs a wireless line termination function, and a meter interface unit 412 interfaces with the measurement meters 51 and 52. The wireless compatible data processing unit 433 performs mutual conversion between the wireless side data format and the meter side data format.

In the first embodiment, the case where the star network using the EPON method is used for the access line has been described, but in the third embodiment, as shown in FIG. 5, the 1: N star network using the wireless method is used for the access line. Was used.
Thereby, even in a place where an optical fiber cannot be installed, if the radio wave condition is good, an access line can be constructed, and not only a plurality of information collecting communication terminals 43 and 44 installed in a customer premises, but also in general A plurality of information terminals 81 and 82 installed in the Internet user's home can be accommodated together in the same access line constituted by one radio base station 32.

  The operation of the third embodiment is the same as that of the first embodiment except for the difference in whether the access line is an EPON system or a wireless system, such as data flow and processing at the base station.

According to the third embodiment, it is possible to construct an access line infrastructure even in a customer's house where a wired line cannot be connected by using the wireless access line by the above method.
In addition, the information access communication terminals 43 and 44 and the information terminals 81 and 82 can share the same access line.

The same effect can be obtained even in a 1: N configuration network other than the wireless system.
The same effect can be obtained by configuring a base station having a priority control function with a wireless system or a 1: N network other than the wireless system.

It is a block diagram which shows the structure of the information collection system by Embodiment 1 of this invention. It is a figure which shows the example of a definition content of the VLAN definition table part described with the information collection system by Embodiment 1 of this invention. It is a figure which shows the data frame structure of the information collection system by Embodiment 1 of this invention. It is a block diagram which shows the structure of the information collection system by Embodiment 2 of this invention. It is a block diagram which shows the structure of the information collection system by Embodiment 3 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Information collection server 3 EPON base station 6 Internet 11 Request message 12 Response message 13 Internet transmission data 14 Internet reception data 15 Request message with VLAN-ID 16 Response message with VLAN-ID 17 Internet transmission data with VLAN-ID 18 VLAN-ID Internet reception data 21 Intranet 32 Wireless base station 41 Information collection communication terminal (EPON compatible)
42 Information collection communication terminal (EPON compatible)
43 Information collection communication terminal (wireless)
44 Information collection communication terminal (wireless)
51 Metering Meter 52 Metering Meter 71 EPON Terminal Station 72 EPON Terminal Station 73 Wireless Terminal Station 74 Wireless Terminal Station 81 Information Terminal 82 Information Terminal 90 Access Line for Internet 111 Request Message via Base Station 121 Response Message via Base Station 131 Internet via Base Station Transmission data 141 Internet reception data via base station 301 VLAN-ID insertion / deletion section (upper intranet side)
302 VLAN-ID insertion / deletion unit (upper Internet side)
303 VLAN-ID insertion / deletion section (lower side)
304 VLAN definition table section 305 Bandwidth control processing section 306 Priority control processing section 411 EPON terminal station section 412 Meter interface section 413 EPON compatible data processing section 431 Wireless terminal station section 433 Wireless compatible data processing section

Claims (6)

  The information collection communication terminal to which the metering meter is connected, the information terminal that transmits and receives data between the device connected to the Internet, and the data of the measurement meter that is connected to the intranet and transmitted from the information collection communication terminal. An information collection server to collect; a base station connected to the Internet and an intranet that relays data between the information collection communication terminal and the information collection server; and between the information terminal and a device connected to the Internet; A VLAN access line for allocating and communicating different communication bands between a base station and the information collecting communication terminal and between the base station and the information terminal, the base station in the previous period via the VLAN access line VL for distinguishing data transmitted / received to / from information collecting terminal and data transmitted / received to / from information terminal Information collection system comprising: the N definition part, and a bandwidth control processing section for controlling in response to the communication band of data segments of said VLAN access line used by referring to the VLAN definitions section.   The information collection communication terminal to which the metering meter is connected, the information terminal that transmits and receives data between the device connected to the Internet, and the data of the measurement meter that is connected to the intranet and transmitted from the information collection communication terminal. An information collection server to collect; a base station connected to the Internet and an intranet that relays data between the information collection communication terminal and the information collection server; and between the information terminal and a device connected to the Internet; A VLAN access line used for communication between a base station and the information collecting communication terminal and between the base station and the information terminal, and the base station in the previous period is connected to the information collecting communication terminal via the VLAN access line. A VLAN definition section that separates data transmitted to and received from the information terminal and data transmitted to and received from the information terminal; Information collection system characterized by having a priority control processing unit referring to the serial VLAN definition unit for processing with priority data transmitted to and from the information collecting communication terminal.   The information collection system according to claim 1 or 2, wherein the VLAN access line uses a 1: N star network based on an EPON system.   The information collection system according to claim 1 or 2, wherein the VLAN access line uses a 1: N star network based on a wireless system.   Data transmitted / received between the information collection communication terminal connected to the meter and the information collection server connected to the intranet for collecting the data of the meter, and transmission / reception between the device connected to the Internet and the information terminal A base station of an information collection system for relaying data to be transmitted, and using a VLAN access line by assigning different communication bands to transmit / receive data between the information collection communication terminal and the information terminal, A VLAN definition unit that classifies data transmitted / received to / from the information collection communication terminal via the access line and data transmitted / received to / from the information terminal, and data transmission / reception with reference to the VLAN definition unit A bandwidth control processing unit for controlling the communication bandwidth of the VLAN access line to be used according to the data classification. Base station information collection system according to claim.   Data transmitted / received between the information collection communication terminal connected to the meter and the information collection server connected to the intranet for collecting the data of the meter, and transmission / reception between the device connected to the Internet and the information terminal A base station of an information collection system that relays data to be transmitted, using a VLAN access line for data transmission / reception between the information collection communication terminal and the information terminal, and via the VLAN access line A VLAN definition unit that classifies data transmitted / received to / from the information collection communication terminal and data transmitted / received to / from the information terminal, and transmission / reception to / from the information collection communication terminal with reference to the VLAN definition unit A base station of an information collection system, comprising: a priority control processing unit that processes data to be processed with priority.

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