JP3925268B2 - Gateway device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gateway device that is connected to a wired LAN (abbreviation of Local Area Network) and forms a network with devices in a home by wireless communication.
[0002]
[Prior art]
FIG. 6 is a schematic configuration diagram of a home bus control device using a conventional gateway device disclosed in Japanese Patent Laid-Open No. 5-35842.
In the figure, 11 is a home bus, 12 is a controller, 13 and 14 are gateway devices, 15 and 16 are remote control devices, and 17 to 20 are control terminals.
[0003]
In the figure, the alphanumeric characters described in each block indicate the address of each device. Specifically, A50, A51, A52, and A53 are addresses indicating the gateway device 13, the remote control device 15, and the control terminals 17 and 19, respectively. A60, A61, A62, and A63 are the gateway device 14, the remote control device 16, and the control terminal 18, respectively. And 20.
[0004]
Next, the operation will be described.
When a data signal is transmitted from the remote control device 15 toward the control terminal 19, the data signal propagates through the space and reaches the control terminal 17 and the gateway device 13.
The control terminal 17 receives the signal when the destination address described in the received data signal matches the self address, and discards the signal when the address does not match.
[0005]
The gateway device 13 compares the address of the received data signal with the address of the remote control device and control terminal that it manages, and if it matches either, the remote control device or control terminal having the matching address processes it. And discard this signal.
Further, when it is confirmed as a result of the collation that the data does not coincide with each other, the gateway device 13 searches the registered table for the gateway device that manages the device having the address of the received data signal. . Then, the contents of the data signal are transmitted to the searched gateway device.
[0006]
For example, when data is transmitted from the remote control device 15 to the device at the address A62, and this is received by the gateway device 13 at the address A50, and it is confirmed that it does not correspond to any of the remote control device managed by itself or the control terminal, The gateway device 14 (address A60) that manages the device having the address A62 is searched from the registered table, and is transmitted to that location.
[0007]
At this time, the data signal is transmitted without being processed, encapsulated with the destination of the gateway device 14 added as overhead. Upon receiving this, the gateway device 14 transmits the data signal to the device that manages the data signal except for the overhead portion. The transmission data is accepted only by the control terminal 18 whose address is A62, and the other control terminals are discarded for the reason of address mismatch.
[0008]
As described above, the control terminal is registered and managed in the gateway device, and exchanges data bidirectionally with the control terminal managed by another gateway device.
[0009]
[Problems to be solved by the invention]
Since the conventional gateway device is configured as described above, there are the following problems.
[0010]
When the control terminal is a mobile terminal, the gateway device managed with the movement frequently changes, and each time, the address has to be registered in the new gateway device of the movement destination. Also, if an address is left in the gateway device that has been managing the control terminal until immediately before, it will be accessed simultaneously by mistake, so the gateway device will be requested to delete or confirm the address. There was a need. Thus, when the control terminal is a mobile terminal, the user has been forced to perform complicated work.
[0011]
The present invention has been made to solve such a problem, and even when the control terminal is a mobile terminal, the user registers an address with the gateway device one by one or with respect to the gateway device that has been registered until immediately before. It is an object of the present invention to provide a gateway device that does not require a request for address deletion or confirmation and eliminates a complicated operation.
[0012]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is provided a gateway device for exchanging data bidirectionally with a home network device by wireless communication and for exchanging data bidirectionally with a device connected to a wired LAN. And a short distance wireless communication means, while the human body detecting means detects the human body, the polling signal is transmitted by the short distance wireless communication means, and based on the response signal by the polling signal at this time Create a management table that includes device types and device addresses of home network devices under the control of the device, and when the human body detection means shifts from the state of detecting a human body to the state of not detecting it, the state is not detected the polling signal is sent when the migrated as a starting point, Ho with a response signal according to the polling signal at this time under the control of its own based on Characterized by being configured to create a management table including the device type and the device address of the network device.
[0013]
The invention according to claim 2 is a gateway device for exchanging data bidirectionally with a home network device by wireless communication, and exchanging data bidirectionally with a device connected to a wired LAN. Means and a short-range wireless communication means, the polling signal is transmitted by the short-range wireless communication means only during the period when the human body detecting means detects the human body, and under the control of itself based on the response signal by the polling signal. Creates a management table including the device type and device address of the home network device in the network, distributes the management table to other gateway devices connected to the wired LAN, and from other gateway devices connected to the wired LAN. When the management table including the device type and device address is distributed, the management table and its own By matching management table, if there is a matching home network device information is characterized by being configured to delete this information.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is an overall configuration diagram of a gateway device according to Embodiment 1 of the present invention. In the figure, 1 is a gateway device, 2 to 5 are various home network devices, and 6 is a wired LAN. More specifically, 2 and 4 are portable terminals (hereinafter referred to as Personal Digital Assistant, abbreviated as PDA) (1) and (2), and 3 and 5 are TV and air conditioner, respectively.
[0015]
7 is a polling signal for confirming the presence of a home network device periodically transmitted from the gateway device 1, and 8 is a polling response signal for the polling signal 7 transmitted from the home network device. Reference numeral 9 denotes a communication area of the gateway device 1, which means that communication with a home network device outside the communication area 9 is impossible. Reference numeral 10 denotes a human sensor.
[0016]
Next, the operation will be described with reference to the drawings.
When the human sensor is detected by the human sensor 10, the gateway device 1 transmits the polling signal 7 at a constant time interval, for example, once every 6 seconds. Then, output power and the like are set in advance so that the reach range (communication area) of the polling signal substantially matches the detection area of the human sensor 10. As a method for realizing such short-distance wireless communication, Bluetooth or the like is known.
[0017]
When the power is turned on, the PDA (1) 2 and the TV 3 return a polling response signal 8 to the polling signal 7 transmitted from the gateway device 1, but when the power is off, the polling response signal 8 Are not returned, the home network devices are recognized by the gateway device 1 as not existing. Similarly, the PDA (2) 4 existing outside the communication range of the gateway device 1 is recognized as not existing.
[0018]
Here, FIGS. 2A and 2B show the format of the polling signal and the polling response signal, respectively. FIG. 2C shows a communication sequence of a polling signal and a polling response signal.
In FIGS. 4A and 4B, both the polling signal and the polling response signal are a self-address (hereinafter abbreviated as “Source Address”, abbreviated as “SA”) part and a destination address (hereinafter abbreviated as “Destination Address”). ) Section, a control code (hereinafter abbreviated as Control Code, referred to as CC) section, and a data (DATA) section.
[0019]
For example, in the case of the polling signal 7, the self-address SA part is “01h” of the gateway device 1, the destination address DA part is the broadcast address “FFh” to all devices, and the control code CC part is “01h” indicating the polling signal 7. ", The DATA part is set to" none ".
In the case of the polling response signal 8, the self-address SA unit is “02h” of the own device, the destination address DA unit is “01h” of the gateway device, and the control code CC unit is “02h” indicating the polling response signal 8. , DATA section is set to “none”.
[0020]
Further, in the communication sequence of FIG. 5C, solid arrows indicate that communication has been established, that is, that the polling signal 7 has arrived from the gateway device 1 to the home network device, and the home network device polls the gateway device 1. Indicates that a response signal has been returned. Conversely, the dotted arrow indicates that communication has not been established, that is, the polling signal 7 has not reached the PDA (2) 4, and the polling response signal has not returned from the PDA (2) 4. .
[0021]
3 is a table showing the correspondence between each device and the address, FIG. 4 is a table showing the correspondence between the device name and the JIS code, and FIG. 5 shows the correspondence between the device address and the device type. It is a table.
Since each home network device has an address as shown in FIG. 3, in the case of FIG. 2C, the gateway device 1 receives a polling response from a home network device other than the PDA (2) 4. Thus, the addresses “1”, “2”, and “3” are acquired. Then, each home network device is set to transmit a polling response signal with a JIS code having a device name as shown in FIG.
[0022]
As a result, the gateway device 1 can create a management table showing the relationship between the device address and the device type as shown in FIG. By holding this management table in the gateway device 1, the device type and address can be obtained as information on connected devices from other gateway devices connected to the wired LAN, and PDAs connected to other gateway devices, etc. It becomes possible to recognize the device from.
[0023]
Next, registration of address information or the like when the home network device is a mobile terminal such as a PDA and is associated with a person and moves from the detection area of the first gateway device to the detection area of the second gateway device. And deletion will be described.
[0024]
First, it is assumed that a polling signal is transmitted for several minutes from the time when the human sensor is not detected after the mobile terminal exits the detection area of the first gateway device. An appropriate relationship between the detection area of the human sensor and the communication area of the polling signal under such a premise will be described.
[0025]
First, assuming that the communication area of the polling signal is larger than the detection area of the human sensor, the time for the mobile terminal to pass through the area sandwiched between the detection area and the communication area is the time (number Longer).
In this case, the polling signal ends just before leaving the area (communication area) where the mobile terminal is sandwiched, and the first gateway device recognizes that the mobile terminal remains under its management and manages it. Create a table.
[0026]
However, the mobile terminal continues to move after that (after sending out the polling signal) and eventually leaves the communication area. As a result, the actual mobile terminal is outside the management of the first gateway device, but a problem arises in that a table with incorrect contents that it is under management is created.
[0027]
On the other hand, when the communication area of the polling signal is smaller than the detection area of the human sensor, the mobile terminal in the area sandwiched between the detection area and the communication area is not recognized by the gateway device and does not appear in the management table. The problem occurs.
For this reason, it is desirable to set the communication area for the polling signal and the detection area for the human sensor so as to substantially match.
[0028]
In this way, the communication area of the polling signal and the detection area of the human sensor are substantially matched, and after the mobile terminal exits the detection area, the polling signal is sent out for several minutes and managed based on the polling response signal at this time Since the table is created, the mobile terminal information is removed from the management table of the first gateway device.
As a result, it is not necessary to request or confirm deletion of the address of the mobile terminal, which has been performed by the user with respect to the gateway device to which it belongs immediately before.
[0029]
In the second gateway device, since the polling signal and the polling response signal are exchanged when the mobile terminal enters the detection area, the management table of the second gateway device newly relates to the mobile terminal. Information is registered.
As a result, the operation of registering the address, which has been performed by the user with respect to the gateway device of the movement destination, becomes unnecessary.
[0030]
Embodiment 2. FIG.
By the way, the human sensor detects infrared rays emitted from the human body and is line-of-sight sensing, and therefore cannot detect a human body blocked by a shield. On the other hand, the polling signal uses a weak radio wave as a medium, and can communicate without being affected by a shielding object due to diffraction, transmission or the like. For this reason, in a place blocked by a shield such as a pillar, partition, or shelf, a human sensor is not detected, but an area where a polling signal can be communicated appears. As a result, when a mobile terminal associated with a person passes through such an area for several minutes or more when a polling signal is transmitted, the actual mobile terminal manages the gateway device for the same reason as described above. There is a problem that a table with incorrect contents is created although it is outside.
[0031]
The present embodiment improves such a problem with respect to the first embodiment. Since the configuration is the same as that of the first embodiment, a description thereof will be omitted and different points will be described.
[0032]
When a mobile terminal that moves with a person enters the detection area of the second gateway device, a human sensor installed in the second gateway device is activated, and the mobile terminal and the second gateway device are activated. The polling signal and polling response signal are exchanged between the mobile terminal, the mobile terminal is newly placed under the management of the second gateway device, and the updated management table of the second gateway device is created. The same as in the first embodiment.
[0033]
In the present embodiment, the management table obtained in this way is immediately distributed to all gateway devices via the wired LAN. The received gateway device checks the distributed management table against its own management table, and if there is matching mobile terminal information, this information is immediately deleted.
[0034]
In this way, by the human sensor provided in the gateway device, the mobile terminal (home network device) that moves with the person starts to transmit a polling signal from the time when it enters a new detection area, and sets the management table. It was updated and distributed to all gateway devices connected to the wired LAN. The gateway device that has received the distributed management table checks its own management table, checks whether a matching home network device is registered, and deletes it if it is registered. I made it. Thereby, even if the mobile terminal information is erroneously left in the management table, it is deleted.
[0035]
In this way, there is no need for complicated operations such as registering an address for the destination gateway device and requesting or confirming address deletion for the gateway device to which it belongs immediately before. I can do it.
[0036]
Also in the case of the present embodiment, power consumption by the polling signal 7 can be suppressed by immediately stopping the transmission of the polling signal 7 when the human sensor 10 no longer detects the human body. Furthermore, the gateway device 1 holds the device information immediately before the transmission of the polling signal 7 is stopped.
[0037]
【The invention's effect】
The gateway device according to the present invention is configured as described above, and has the following effects.
[0038]
A human sensor is provided in the gateway device, the communication area of the polling signal and the detection area of the human sensor are substantially matched, and a polling signal is sent for a while after the human sensor is not detected. Because the management table is created based on the polling response signal, the address is registered in the destination gateway device every time it is moved, or the address is deleted from the gateway device that belonged to immediately before. This eliminates the need for complicated operations such as requesting and confirming, and avoids unnecessary polling signal transmission, thereby reducing energy consumption.
[0039]
A human sensor is installed in the gateway device, and a polling signal is transmitted only during the period when the home network device is joined by a person and enters a new management area, and a management table for the home network device under its own management is created. This table is distributed to other gateway devices, checked against the management table under each device, and if there is a matching home network device, it is deleted. Along with this, the troublesome work of the user repeating registration / deletion to the gateway device becomes unnecessary, and transmission of useless polling signals can be avoided and energy consumption can be reduced.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a system including a gateway device and a home network device according to a first embodiment of the present invention.
FIG. 2 is an explanatory diagram showing a format format of a polling signal and a polling response signal and a signal flow sequence according to the first embodiment of the present invention.
FIG. 3 is an explanatory diagram showing a relationship between a home network device and an address according to the first embodiment of the present invention.
FIG. 4 is an explanatory diagram showing a relationship between a device type of a home network device and a JIS code according to Embodiment 1 of the present invention.
FIG. 5 is an explanatory diagram showing a relationship between a device type and an address of a home network device recognized by the gateway device according to the first embodiment of the present invention.
FIG. 6 is a schematic configuration diagram of a conventional home bus control device.
[Explanation of symbols]
1 gateway device,
2 PDA (1),
3 TV,
4 PDA (2),
5 Air conditioner
6 Wired LAN,
7 Polling signal,
8 Polling response signal,
9 Communication range,
10 Human sensor,
11 Home bus,
12 controller,
13 gateway device,
14 gateway device,
15, 16 remote control device,
17-20 Control terminal

Claims (2)

A gateway device that exchanges data bidirectionally with a home network device by wireless communication, and exchanges data bidirectionally with a device connected to a wired LAN,
The gateway device
Human body detection means;
Short-range wireless communication means,
While the human body detecting means is detecting a human body, a polling signal is transmitted by the short-range wireless communication means, and a device of a home network device under its control based on a response signal by the polling signal at this time Create a management table that includes type and device address,
When the human body detection means is shifted to a state that is not detected from the state of detecting a human body, and sends the polling signal as a starting point when a transition to a state that is not detected, even if the response signal by the polling signal when the And a management table including device types and device addresses of home network devices under its own management. A gateway device that exchanges data bidirectionally with a home network device by wireless communication, and exchanges data bidirectionally with a device connected to a wired LAN,
The gateway device
Human body detection means;
Short-range wireless communication means,
During the period when the human body detecting means is detecting a human body, a polling signal is transmitted by the short-range wireless communication means,
Create a management table including the device type and device address of the home network device under its own management based on the response signal by the polling signal,
Distributing the management table to other gateway devices connected to the wired LAN;
When a management table including a device type and a device address is distributed from another gateway device connected to the wired LAN,
A gateway device characterized in that the management table and its own management table are collated, and if there is matching home network device information, this information is deleted.

Images