JP2001320323A - Method for updating software of data-receiving terminal utilizing multi-address communication - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem in the conventional method that the software for each device has to be updated at the installation place of the device or individually through a two-way terrestrial channel, because data communication equipment utilizing a satellite circuit such as a satellite Internet router has to hold a setting which is proper to each network environment. SOLUTION: A satellite operation center 1040 transmits software 1150 via satellite circuits 1131 and 1132, when updating the software 1150 to 1n50 of a plurality of satellite routers 1101 to 1n01. The satellite router 1101 that receives the software 1150 updates the software 1150 into received new software 1150, after saving the set file 1160 in a set file saving part 1170. After update completion, the set file 1160 is read from the part 1170 and is reset in the satellite router 1101.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a method for updating software and setting files of a plurality of data receiving stations from a data transmitting station via a broadcast line.

[0002]

2. Description of the Related Art Conventionally, when software of a satellite receiver such as a set-top box is simultaneously updated via a satellite line, a data transmitting station broadcasts the software and updates the software at each satellite receiver. I was In such a software updating method, the software of each receiving station is limited to a common one.

[0003] Data communication devices such as satellite Internet routers and home gateways are different from broadcast devices such as set-top boxes in that IP addresses and Internet connection accounts are individually set according to the environment of the communication network in which the devices are installed. In order to make the setting, it is necessary to hold a unique setting for each receiving station in addition to the software common to the receiving devices. Software common to each receiving station can be updated all at once via a broadcast line such as a satellite line.
It has to be set at the installation location of each receiving device or individually set one by one via a ground line between the data transmitting station and the receiving device.

[0004]

SUMMARY OF THE INVENTION The present invention relates to a data receiving station utilizing a broadcast communication line such as a satellite line, and a software which differs for each data receiving station is transmitted from the data transmitting station via the broadcast communication line. The purpose is to provide a method for updating.

[0005]

In order to achieve the above object, the present invention has the following configuration and features.

A first invention is a communication system comprising a data transmitting station, a plurality of data receiving stations, and a communication line capable of broadcasting data from the data transmitting station to the plurality of data receiving stations. The software of the data receiving station is composed of software A common to a plurality of data receiving stations and a setting file B for storing settings unique to each data receiving station. A is broadcast via a communication line capable of broadcasting data, and each data receiving station receiving software A
Copying the setting file B from the memory area holding the setting file B to the save memory area, updating the software A of the data receiving station by the received software A, reading the set file B copied to the save memory area, and resetting the setting file B. How to update software.

According to a second invention, the data receiving station has a data receiving station identifier capable of identifying each data receiving station, and the data transmitting station stores the data receiving station identifier in the setting file B of each data receiving station. , The setting file B is transmitted over a communication line capable of distributing broadcast data, and the data receiving station that has received the plurality of setting files B identifies its own data receiving station identifier from the plurality of setting files B. 2. The software updating method according to claim 1, wherein only the setting file B to which a data receiving station identifier matching with the above is added is selected to update the software setting.

According to a third aspect of the present invention, the same data receiving station identifier is assigned to one group including a plurality of data receiving stations, and the data transmitting station is provided with a setting file for the plurality of data receiving stations. 3. The software updating method according to claim 2, wherein when updating B, a data receiving station identifier of the group is added to the setting file B, and the setting file B is transmitted on a communication line capable of distributing broadcast data.

A fourth invention is a data transmission station, a plurality of data reception stations, a communication line capable of broadcasting data from the data transmission station to the plurality of data reception stations, a data transmission station and each data reception station. A communication system comprising a bidirectional line between stations, wherein the data transmitting station has a database management device, and the database management device manages a setting file B holding settings unique to each data receiving station. When the setting file B set in each data receiving station is changed, each data receiving station transmits a setting change notification to the data transmitting station via the bidirectional line and receives the setting change notification. A software updating method, wherein the device updates the setting files B of a plurality of data receiving stations in the management database device based on the notified setting change.

According to a fifth aspect of the present invention, the data receiving station has a storage device for storing a plurality of setting files B in a directory structure and a processing device for setting the data receiving station based on the setting file B in the storage device. The data transmitting station, from among the plurality of setting files B held by the data receiving station,
A command specifying a specific setting file B is transmitted to a communication line capable of distributing broadcast data, and the processing device of each data receiving station that has received the command reads the setting file B specified by the command and sends it to the data receiving station. 2. The software updating method according to claim 1, wherein the setting is performed.

In a sixth aspect, a data receiving station has a storage device for storing a setting file B, and a processing device for setting the data receiving station based on the setting file B in the storage device. The file C describing the procedure for rewriting the setting file B is transmitted to a communication line capable of distributing broadcast data, and the processing device of each data receiving station that has received the file C reads the setting file B from the storage device, 2. The method for updating software according to claim 1, wherein the setting file B is rewritten according to the procedure described in (1).

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to FIGS.

<< Embodiment 1 >> An embodiment of the present invention will be described with reference to FIG.

FIG. 1 shows a system configuration diagram of a satellite Internet system and a functional block diagram of a satellite router. In FIG.
01 is an Ethernet (registered trademark) 1110 and IS
Conventional ISD for relaying IP packets between DN1020
This router has a function of relaying an IP packet received from the satellite line 1032 to the Ethernet 1110 in addition to the N router function. Ethernet 1110
An IP data request from the PCs 1111 to 111k connected to the Internet 1010 to the Internet 1010 uses an ISDN 1020 which is a bidirectional terrestrial line. An IP data response from the Internet 1010 is transmitted via a satellite operation center 1040 to a satellite line 10
This is a system transmitted to the satellite router 1101 via 31 and 1032.

The control unit 1120 of the satellite router 1101
Controls relaying of IP packets from the satellite receiving unit 1130 to the Ethernet transmitting / receiving unit 1132 and relaying of IP packets between the ISDN transmitting / receiving unit 1131 and the Ethernet transmitting / receiving unit 1132. The main storage unit 1140 is
The software stores a software 1150 that is a control program for the satellite router 1101 and a setting file 1160 that holds settings unique to the satellite router 1101.
0 controls the relay process according to the setting file 1160.

The operation of the software updating method for the communication system configured as described above will be described below.

Each of the satellite routers 1101 to 1n01 has:
Parameters such as an IP address and an Internet connection account are set according to the installed network environment. The unique settings for each of the satellite routers 1101 to 1n01 are held in setting files 1160 to 1n60, respectively. The software 1150 to 1n50 is common to the plurality of satellite routers 1101 to 1n01.

The software 11 of the satellite router 1101
When updating 50 via the satellite lines 1031 and 1032, the satellite operation center 1040 broadcasts the software 1150 to the plurality of satellite routers 1101 to 1n01 via the satellite lines 1031 and 1032. The control unit 1120 of the satellite router 1101 that has received the software 1150
0 setting file 1160 to the setting file saving unit 117
0 and the software 1150 in the main storage 1140
New software 1 received from satellite line 1132
Update to 150. After the update of the software 1150 is completed, the control unit 1120 reads the saved configuration file 1160 from the configuration file saving unit 1170, and sets it again in the main storage unit 1140, so that the satellite router 1
Without having to save the unique settings of the 101, a plurality of satellite routers 11 from the satellite operations center 1040.
01-1n01 software 1150-1n50,
It can be updated via satellite links 1031 and 1032.

<< Embodiment 2 >> Embodiments 2 and 3 of the present invention will be described with reference to FIG.

FIG. 2 shows a system configuration diagram of a satellite Internet system, a functional block diagram of a satellite router, and a functional block diagram of a satellite operation center. In FIG.
Is a router having a function of relaying an IP packet received from the satellite line 2032 to the Ethernet 2110 in addition to a conventional ISDN router function of relaying an IP packet between the Ethernet 2110 and the ISDN 2020. PC connected to Ethernet 2110
An IP data request from the Internet 2111 to 211k to the Internet 2010 includes an I-line
The SDN 2020 is used, and an IP data response from the Internet 2010 is transmitted via the satellite operation center 2040 to the satellite lines 2031 and 203.
2 is a system that is transmitted to the satellite router 2101 via the Internet.

The control unit 2120 of the satellite router 2101
Controls relay of an IP packet from the satellite receiving unit 2130 to the Ethernet transmitting / receiving unit 2132, and relay of an IP packet between the ISDN transmitting / receiving unit 2131 and the Ethernet transmitting / receiving unit 2132. The main storage unit 2140
The control unit 212 stores software 2150 which is a control program of the satellite router 2101 and a setting file 2160 which holds the unique settings of the satellite router 2101.
0 controls the relay processing according to the setting file 2160. The identifier 2170 is an identifier for which uniqueness is guaranteed, and may be, for example, an Ethernet MAC address.

I of the satellite operation center 2040
The IP packet received from the P transmission / reception device 2051 is route-controlled by the route control device 2052,
3 from the satellite transmitter 2050 to the satellite line 2031
Sent to The database management device 2060 holds the unique settings of each of the satellite routers 2101 to 2n01 as setting files 2070 to 207n, respectively.
Identifiers 2170- of each satellite router 2101-2n01
2n70 are stored as identifiers 2080 to 208n, respectively. Here, description will be made assuming that the identifier 2080 matches the identifier 2170 of the satellite router 2101.

The operation of the software updating method of the communication system configured as described above will be described below.

When the setting files 2160 to 2n60 of the satellite routers 2101 to 2n01 are updated via the satellite lines 2031 and 2032, the satellite operation center 2040 sets the setting files 2070 of the satellite routers 2101 to 2n01 held in the database management device 2060. To 207n have identifiers 2080 to 20 respectively.
8n, and transmits to the satellite routers 2101 to 2n01 via the satellite lines 2031 and 2032. Satellite router 2 that received configuration files 2070-207n
The control unit 2120 of 101 receives the received setting file 20
Identifiers 2080-208n assigned to 70-207n
Is compared with its own identifier 2170. If they do not match, the setting files 2070 to 207n are discarded. If it matches the identifier 2170, the control unit 2120
Updates the setting file 2160 in the main storage unit 2140 to the setting file 2070 to which the matching identifier is assigned. By such a software update method, the unique setting for each of the satellite routers 2101 to 2n01 can be updated from the satellite operation center 2040 via the satellite lines 2031 and 2032.

Third Embodiment A third embodiment of the present invention will be described with reference to FIG.

FIG. 3 shows a system configuration diagram of a satellite Internet system, a functional block diagram of a satellite router, and a functional block diagram of a satellite operation system. In FIG.
In addition to the conventional ISDN router function of relaying IP packets between the 3110 and the ISDN 3020, the satellite line 30
IP packet received from Ethernet 32
10 is a router having a function of relaying to the router 10. Ether
An IP data request from the PCs 3111 to 311k connected to the net 3110 to the Internet 3010 uses an ISDN 3020 which is a two-way terrestrial line. An IP data response from the Internet 3010 is transmitted via the satellite operation center 3040 to the satellite This is a system transmitted to the satellite router 3101 via the lines 3031 and 3032.

Control unit 3120 of satellite router 3101
Controls the relay of IP packets from the satellite receiver 3130 to the Ethernet transceiver 3132 and the relay of IP packets between the ISDN transceiver 3131 and the Ethernet transceiver 3132. The main storage unit 3140 is
The control unit 312 stores software 3150 which is a control program of the satellite router 3101 and a setting file 3160 which holds settings unique to the satellite router 3101.
0 controls the relay processing according to the setting file 3160. The identifier 3170 is an identifier for which uniqueness is guaranteed, and may be, for example, an Ethernet MAC address.

I of the satellite operation center 3040
The IP packet received from the P transmitting / receiving device 3051 is route-controlled by the route control device 3052,
3 from the satellite transmitter 3050 to the satellite link 3031
Sent to The database management device 3060 holds unique settings for each of the satellite routers 3101 to 3n01 as setting files 3070 to 307n, respectively.
Identifiers 3170- of each satellite router 3101-3n01
3n70 are stored as identifiers 3080 to 3n80, respectively. Here, description will be made assuming that the identifier 3080 matches the identifier 3160 of the satellite router 3101.

The operation of the software updating method for the communication system configured as described above will be described below.

PC 311 on Ethernet 3110
If you change the settings of satellite router 3101 from 1,
The changed setting is reflected in the setting file 3160. The processing unit 3120 gives the identifier 3170 to the setting file 3160, and when the setting is changed, or
When the SDN 3020 becomes available, or at regular intervals, or at the satellite operations center 304
At the time when 0 requests, it transmits to the satellite operations center 3040 via the ISDN 3020 and the Internet 3010. Satellite Operation Center 30
The forty database management device 3060 reads the identifier 3170 given to the received setting file 3160, and replaces the identifier 3170 with the identifiers 3080 to 308n.
Compare with If they do not match, the received configuration file 3
160 is discarded. If they match, the matching identifier 3
The setting file 3070 assigned 080 is updated to the received setting file 3060. According to such a software management method, each of the satellite routers 3101 to 3n0
The settings individually changed for one can be collectively managed by the satellite operation center 3040.

Embodiment 4 Embodiments 5 and 6 of the present invention will be described with reference to FIG.

FIG. 4 shows a system configuration diagram of a satellite Internet system, a functional block diagram of a satellite router, and a functional block diagram of a satellite operation center. In FIG. 4, the satellite router 4101 is connected to the Ethernet.
In addition to the conventional ISDN router function of relaying IP packets between the 4110 and the ISDN 4020, the satellite line 40
The IP packet received from Ethernet 32
10 is a router having a function of relaying to the router 10. Ether
An IP data request from the PCs 4111 to 411k connected to the net 4110 to the Internet 4010 uses an ISDN 4020 which is a two-way terrestrial line. An IP data response from the Internet 4010 is transmitted via the satellite operation center 4040 to the satellite This system is transmitted to the satellite router 4101 via the lines 4031 and 4032.

Control unit 4120 of satellite router 4101
Controls the relay of IP packets from the satellite receiver 4130 to the Ethernet transceiver 4132 and the relay of IP packets between the ISDN transceiver 4131 and the Ethernet transceiver 4132. The main storage unit 4140,
It has a directory structure, software 4150 which is a control program of the satellite router 4101, and a setting file 416 which holds a unique setting of the satellite router 4101.
The control unit 4120 selects one setting file from the setting files 4160 to 416m and controls the relay process. The identifier 4170 is an identifier whose uniqueness is guaranteed, and may be, for example, an Ethernet MAC address.

I of the satellite operation center 4040
The IP packet received from the P transmitting / receiving device 4051 is route-controlled by the route control device 4052,
3 from the satellite transmitter 4050 to the satellite line 4031
Sent to The database management device 4060 includes identifiers 4170 to 4170 of the respective satellite routers 4101 to 4n01.
n70 are held as identifiers 4080 to 408n, respectively. The operation storage unit 4090 has a setting file 416 for each of the satellite routers 4101 to 4n01.
A command 4091 for controlling 0 to 4n6m or a setting file rewriting program 4092 is held. Here, it is assumed that the identifier 4080 matches the identifier 4070 of the satellite router 4101 and the satellite router 4101
Has a setting file 4160 set therein.

The operation of the software updating method for the communication system configured as described above will be described below.

From the satellite operation center 4040, the setting files 4160 to 4160 of the satellite router 4101
When changing 16 m, the database management device 406
0 is the command 40 from the operation storage unit 4090.
And reads the identifier 417 of the satellite router 4101.
0 is assigned to the satellite transmitting device 4
050 to the satellite line 4031. The control unit 4120 of the satellite router 4101 determines the identifier 4080 assigned to the command 4091 received from the satellite reception unit 4130.
Is compared with its own identifier 4170. If they match, the control unit 4020 changes the setting file 4160 from the setting file 4160 according to the content of the command 4091, for example.
The setting is changed to 161. If it does not match the identifier 4170, the received command 4091 is discarded. According to such a software updating method, each of the satellite routers 4101 to 4n is transmitted from the satellite operation center 4040.
01 respectively stores a plurality of setting files 4160 to 4n6m which are uniquely held by the satellite routers 4101 to 4n0.
Each can be changed individually.

From the satellite operation center 4040, the setting files 4160-4 of the satellite router 4101 are set.
When rewriting 16m, the database management device 40
60 reads out the setting file rewriting program 4092 from the operation storage unit 4090 and
An identifier 4080 that matches the identifier 4170 of 101 is given, and transmitted from the satellite transmission device 4050 to the satellite line 4031. The control unit 4120 of the satellite router 4101 compares the identifier 4080 assigned to the setting file rewriting program 4092 received from the satellite reception unit 4130 with the identifier 4170 of the own station. If they match, the control unit 41 according to the contents of the setting file rewriting program 4092
20 rewrites the setting file 4160, for example, and after the rewriting is completed, resets the setting file 4160. If it does not match the identifier 4170, the received setting file rewriting program 4092 is discarded. By such a software update method, the satellite operation center 4
040, the setting files 4160 to 4n6 respectively held by the respective satellite routers 4101 to 4n01.
m can be rewritten.

In the fourth embodiment, the setting file 41
Although the unique settings for each of the satellite routers 4101 to 4n01 are held in 60 to 4n6m, the communication mode of the satellite routers may be held. In this case, the satellite router 4101 to 4n01 is sent from the satellite operation center 4040.
Can be individually changed.

[0039]

As described above, according to the present invention, different software for each data receiving station is broadcast from a data transmitting station to a plurality of data receiving stations using a broadcast communication line such as a satellite line. The effect of providing a method of updating all at once via a communication line is obtained.

[Brief description of the drawings]

FIG. 1 is a system configuration diagram showing a satellite Internet system and a functional block diagram of a satellite router according to an embodiment of the present invention.

FIG. 2 is a system configuration diagram showing a satellite Internet system according to an embodiment of the present invention, a functional block diagram of a satellite router, and a functional block diagram of a satellite operation center.

FIG. 3 is a system configuration diagram showing a satellite Internet system according to an embodiment of the present invention, a functional block diagram of a satellite router, and a functional block diagram of a satellite operation center.

FIG. 4 is a system configuration diagram showing a satellite Internet system according to an embodiment of the present invention, a functional block diagram of a satellite router, and a functional block diagram of a satellite operation center.

[Explanation of symbols]

1010 Internet 1020 ISDN 1030 Communication satellite 1031 to 1032 Satellite line 1040 Satellite operation center 1100 to 1n00 n receiving bases 1101 to 1n01 Receiving base 1n00 satellite router 1110 to 1n10 receiving base 1n00 Ethernet
et 1111 to 1n1k k PCs at receiving base 1n00 1120 to 1n20 control unit of satellite router 1n01 1130 to 1n30 satellite receiving unit of satellite router 1n01 1131 to 1n31 ISDN of satellite router 1n01
Transceiver unit 1132-1n32 Ethe of satellite router 1n01
rnet transmitting / receiving unit 1140-1n40 Main storage unit of satellite router 1n01 1150-1n50 Software of satellite router 1n01 1160-1n60 Setting file of satellite router 1n01 1170-1n70 Setting file saving unit of satellite router 1n01 2010 Internet 2020 ISDN 2030 Communication satellite 2031- 2032 satellite line 2040 satellite operation center 2050 satellite transmitter 2051 IP transceiver 2052 route controller 2053 LAN 2060 database management device 2070-207n setting file of satellite router 2n01 2800-208n identifier of satellite router 2n01 2100-2n00 2101 to 2n01 Satellite router at reception base 2n00 2110 to 2n10 Ethernet of reception base 2n00
et 2111 to 2n1k k PCs at reception base 2n00 2210 to 2n20 control unit of satellite router 2n01 2130 to 2n30 satellite reception unit of satellite router 2n01 2131 to 2n31 ISDN of satellite router 2n01
Transceiver 2132-2n32 Ethe of satellite router 2n01
rnet transmitting / receiving unit 2140 to 2n40 Main storage unit of satellite router 2n01 2150 to 2n50 Software of satellite router 2n01 2160 to 2n60 Setting file of satellite router 2n01 2170 to 2n70 Identifier of satellite router 2n01 2180 to 2n80 Setting file saving unit of satellite router 2n01 3010 Internet 3020 ISDN 3030 Communication satellites 3031 to 3032 Satellite line 3040 Satellite operation center 3050 Satellite transmitter 3051 IP transceiver 3052 Route controller 3053 LAN 3060 Database manager 3070 to 307n Setting file of satellite router 3n01 3080 to 308n Identifier of satellite router 3n01 3100-3n00 n reception sites 3101-3n01 Ethern of satellite router 3110~3n10 reception centers 3n00 of Shin base 3n00
et 3111 to 3n1k k PCs at reception site 3n00 3120 to 3n20 control unit of satellite router 3n01 3130 to 3n30 satellite reception unit of satellite router 3n01 3131 to 331 ISDN of satellite router 3n01
Transceiver 3132-3n32 Ethe of satellite router 3n01
rnet transmitting / receiving section 3140-3n40 Main storage section of satellite router 3n01 3150-3n50 Software of satellite router 3n01 3160-3n60 Setting file of satellite router 3n01 3170-3n70 Identifier of satellite router 3n01 4010 Internet 4020 ISDN 4030 Communication satellite 4031-4032 Satellite line 4040 satellite operation center 4050 satellite transmitting device 4051 IP transmitting / receiving device 4052 route control device 4053 LAN 4060 database management device 4080-408n identifier of satellite router 4n01 4090 operation storage unit 4091 command 4092 setting file rewriting program 4100-4n00 n receiving bases 4101 4n01 Satellite router at reception site 4n00 110~4n10 Ethern of reception centers 4n00
et 4111-4n1k k PCs at receiving base 4n00 4120-4n20 control unit of satellite router 4n01 4130-4n30 satellite receiving unit 4131-4n31 of satellite router 4n01 ISDN of satellite router 4n01
Transmitter / receiver 4132-4n32 Ethe of satellite router 4n01
rnet transmitting / receiving unit 4140-4n40 Main storage unit of satellite router 4n01 4150-4n50 Software of satellite router 4n01 4160-4n60 Setting file of satellite router 4n01 4170-4n70 Identifier of satellite router 4n01 4180-4n80 Setting file saving unit of satellite router 4n01

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Taku Matsuda 1006 Kazuma Kadoma, Kadoma City, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd. F term (reference) 5K034 AA16 BB07 EE03 FF01 HH63 JJ03 5K067 AA21 BB21 CC14 DD17 DD51 EE07 EE10 FF02 HH22 HH23 KK15 5K072 AA23 BB02 BB11 BB22 CC05 CC31 DD01 DD15 EE05

Claims (6)

[Claims] 1. A data transmitting station, a plurality of data receiving stations,
A communication system comprising a communication line capable of broadcasting data to the plurality of data receiving stations from the data transmitting station, wherein software of the data receiving station includes:
The data transmitting station comprises software A common to the plurality of data receiving stations and a setting file B for holding settings unique to each data receiving station, and the data transmitting station transmits the updated software A to the broadcast. Each of the data receiving stations that have received the software A by broadcasting through a communication line capable of data distribution, copy the setting file B from a memory area holding the setting file B to a save memory area, and Updating the software A of the data receiving station, reading the setting file B copied to the save memory area, and resetting the setting file B; 2. The data receiving station has a data receiving station identifier capable of identifying each of the data receiving stations.
The data receiving station identifier is assigned to the setting file B of each of the data receiving stations, the setting file B is transmitted on a communication line capable of distributing broadcast data, and the plurality of setting files B are received. The receiving station selects only the setting file B provided with the data receiving station identifier that matches the data receiving station identifier of the own station from among the plurality of setting files B, and updates software settings. The software update method according to claim 1, wherein: 3. The same data receiving station identifier is assigned to one group consisting of a plurality of data receiving stations, and the data transmitting station updates a setting file B of the plurality of data receiving stations. In doing so, the setting file B
Assigning the data receiving station identifier of the group to
3. The software updating method according to claim 2, wherein the transmission is performed on a communication line capable of distributing broadcast data. 4. A data transmitting station, a plurality of data receiving stations,
A communication line capable of broadcasting data from the data transmission station to the plurality of data reception stations, and a communication system including a bidirectional line between the data transmission station and each of the data reception stations, The data transmitting station has a database management device, and the database management device manages a setting file B that holds settings unique to each of the data receiving stations. When the set configuration file B is changed, the management database device that transmits a setting change notification to the data transmitting station via the bidirectional line, and receives the setting change notification, Updating the configuration file B of each of the plurality of data receiving stations in the management database device based on the change 5. The data receiving station has a storage device for storing a plurality of setting files B in a directory structure, and a processing device for setting the data receiving station based on the setting files B in the storage device. Transmitting a command specifying the specific setting file B from a plurality of the setting files B held by the data receiving station to a communication line capable of distributing broadcast data, and receiving the command. 2. The software updating method according to claim 1, wherein the processing device of each of the data receiving stations reads the setting file B specified by the command and sets the setting file B in the data receiving station. 6. The data receiving station has a storage device for storing a setting file B, and a processing device for setting the data receiving station based on the setting file B in the storage device.
The data transmitting station transmits a file C describing a procedure for rewriting the setting file B to a communication line capable of distributing broadcast data, and the processing device of each of the data receiving stations receiving the file C includes: 2. The software updating method according to claim 1, wherein the setting file B is read from the file C, and the setting file B is rewritten according to a procedure described in the file C.