JP2007274173A - Equipment control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To narrow equipment which a user desires to use among a plurality of equipment. <P>SOLUTION: The user directs a remote controller (1) to equipment (3-1) among the equipment (3-1 to 3-n). The remote controller (1) receiving a searching instruction by the user transmits a searching signal to the equipment (3-1) via a directivity antenna by means of a radio wave (2). A candidate equipment group (3-1, 3-2) among the plurality of equipment (3-1 to 3-n) transmits a response signal via an omnidirectional antenna in response to the searching signal by means of a radio wave (2). The remote controller (1) displays an equipment selection menu on a display section for the user to determine communication between the remote controller (1) and the one equipment (3-1) in the candidate equipment group (3-1, 3-2) in response to the response signal from the candidate equipment group (3-1, 3-2). <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a device control system for controlling a device by a remote control terminal (hereinafter referred to as a remote controller).

  A system has been developed in which one remote controller controls one of a plurality of devices using radio waves.

  For example, in the system described in Patent Document 1, a plurality of devices transmit signals by radio waves, and a remote controller receives signals from the plurality of devices. The remote controller measures a received radio wave intensity value representing the radio wave intensity when signals from a plurality of devices are received. The remote controller recognizes a device having the highest received radio wave intensity value as a device having the shortest distance from the remote controller among the plurality of devices. The plurality of devices are of the same model, and the remote controller communicates with the device closest to the remote controller as a control device. However, depending on the environment in which a plurality of devices are installed, the device with the highest received radio wave intensity value is not necessarily the device with the shortest distance from the remote controller. As a result, it is difficult to use for a plurality of devices of different models.

  In the system described in Patent Document 2, a plurality of devices transmit signals by radio waves, and a remote controller receives signals from the plurality of devices. The remote controller measures a received radio wave intensity value representing the radio wave intensity when signals from a plurality of devices are received. The remote controller presents a map (physical topology map) in which a plurality of pieces of device information representing each of a plurality of devices are arranged in descending order of received radio wave intensity values. This map represents the distance from the remote control to a plurality of devices. For example, a plurality of device information and remote control information representing a remote controller are arranged on a map, and a received radio wave intensity value at a first device among the plurality of devices is higher than a received radio wave intensity value at a second device. To do. In this case, when the first and second device information corresponding to the first and second devices is arranged on the map, the first device information is arranged at a position closer to the remote device information than the second device information. . However, the user can grasp the arrangement relationship of a plurality of pieces of device information on the map, but does not use all of the plurality of devices as control devices. As a result, the user searches for device information corresponding to one device as a control device from a plurality of device information.

  A system that can narrow down a device that a user wants to use from a plurality of devices is desired.

  The above Patent Documents 1 and 2 will be introduced.

  Japanese Patent Application Laid-Open No. 2003-284169 describes a remote control device for home appliances. This remote control device is a device that bidirectionally exchanges data signals with a plurality of home appliances of the same model via radio waves. A request signal for requesting that the remote control device send back a data signal including an ID code having information on the dwelling unit to which it belongs and its use to all household electrical appliances of the same model located in the vicinity at the time of initial setting The ID code included in the selected data signal is registered as the ID code of the communication partner based on the averaging process for a predetermined time for the radio field intensity of each data signal sent back. It is characterized by that.

  Patent Document 2 (Japanese Patent Laid-Open No. 2003-284168) describes a controlled device selection system. This controlled device selection system is a system for designating a device to be controlled in advance by a user with an integrated remote controller (hereinafter referred to as a remote controller) configured to control a plurality of devices via a network. . In the controlled device selection system, the remote controller includes a memory having a physical topology map describing a physical relative arrangement relationship of the plurality of devices, and a direction selection button for selecting a direction such as up, down, left, and right When the user designates a direction with the direction selection button of the remote controller, the remote controller refers to the physical topology map so as to select a device that is in a relatively specified direction from the currently selected device. It is characterized by that.

JP 2003-284169 A (Claim 1) JP 2003-284168 A (Claim 1)

The subject of this invention is providing the apparatus control system which can narrow down the apparatus which a user wants to use among several apparatuses.
Another object of the present invention is to provide a device control system capable of realizing space saving.
Still another object of the present invention is to provide a device control system with improved search accuracy.
Still another object of the present invention is to provide a device control system with improved operability.
Still another object of the present invention is to provide a device control system with improved usability.

  Hereinafter, means for solving the problem will be described using the numbers and symbols used in [Best Mode for Carrying Out the Invention]. These numbers and symbols are added to clarify the correspondence between the description of [Claims] and the description of [Best Mode for Carrying Out the Invention]. It should not be used to interpret the technical scope of the invention described in “

The device control system according to the first aspect of the present invention includes a plurality of devices (3-1 to 3-n) (n is an integer of 2 or more) and a remote control terminal (hereinafter referred to as a remote controller) (1). ing.
The plurality of devices (3-1 to 3-n) includes an omnidirectional antenna (30) and a wireless unit (31).
The remote controller (1) includes a directional antenna (10), a radio unit (11), a control unit (12), and a display unit (17).
The user points the remote controller (1) toward one device (3-1) among the plurality of devices (3-1 to 3-n).
In this case, the radio unit (11) of the remote control (1) transmits the search signal (21) by the radio wave (2) via the directional antenna (10) of the remote control (1) according to the search instruction from the user. To the one device (3-1).
In response to the search signal (21), the wireless unit (31) of the candidate device group (3-1, 3-2) among the plurality of devices (3-1 to 3-n) responds to the response signal ( 22) is transmitted by radio wave (2) via the omnidirectional antenna (30) of the candidate device group (3-1, 3-2).
The candidate device group (3-1, 3-2) includes the one device (3-1).
In response to the response signal (22) from the candidate device group (3-1, 3-2), the control unit (12) of the remote controller (1) and the remote controller (1) and the candidate device group (3) -1, 3-2), a device selection screen (60) for the user to determine communication with the one device (3-1) is displayed on the display unit (17) of the remote controller (1). To do.

According to the device control system of the first aspect of the present invention, when a user wants to use one device (3-1) of a plurality of devices (3-1 to 3-n) as a control device. The remote control (1) is directed to the one device (3-1). In response to a search instruction from the user, the remote controller (1) transmits a search signal (21) by radio waves (2) to the one device (3-1) via the directional antenna (10). To do. At this time, the candidate device group (3-1, 3-2) among the plurality of devices (3-1 to 3-n) has a range in which the search signal (21) is radiated from the directional antenna (10). When included in the radio wave reachable range (20) to be represented, the candidate device group (3-1, 3-2) can receive the search signal (21) by the omnidirectional antenna 30. In this case, in response to the search signal (21), the candidate device group (3-1, 3-2) sends the response signal (22) to the radio wave (2) via its omnidirectional antenna (30). Send.
When the antenna of the remote controller (1) is an omnidirectional antenna, all of the plurality of devices (3-1 to 3-n) receive the search signal (21) from the remote controller (1). Since the antenna of (1) is the directional antenna (10), the candidate device group (3-1, 3-2) among the plurality of devices (3-1 to 3-n) is transmitted from the remote controller (1). The search signal (21) is received. For this reason, it narrows down to said candidate apparatus group (3-1, 3-2) from several apparatus (3-1 to 3-n) as an apparatus (3-1) which a user wants to use.
In addition, when the remote controller (1) considers the received radio wave intensity value indicating the radio wave intensity when receiving the response signals (22) from the plurality of devices (3-1 to 3-n), the received radio wave intensity value is The highest device is not necessarily the device closest to the remote control (1). Therefore, the remote controller (1) displays the device selection screen (60) on the display unit (17) in response to the response signal (22) from the candidate device group (3-1, 3-2). . In this case, the user refers to the device selection screen (60), selects the one device (3-1) from the candidate device group (3-1, 3-2), and then selects the remote controller (1 ) And the one device (3-1).
As described above, according to the device control system according to the first aspect of the present invention, the remote controller (1) has a plurality of devices (3-1 to 3-n) as the device (3-1) that the user wants to use. The candidate device group (3-1, 3-2) described above can be narrowed down.

The device control system according to the first aspect of the present invention includes a server (5).
The server (5) includes an execution storage unit (54) in which a plurality of software (40-1 to 40-n) corresponding to each of the plurality of devices (3-1 to 3-n) is stored; A device storage unit (55) storing a plurality of device identifiers (35-1 ′ to 35-n ′) for identifying each of the plurality of devices (3-1 to 3-n), and a communication path (4 ) Connected to the execution unit (51).
The plurality of devices (3-1 to 3-n) includes a device storage unit (35) in which device identifiers (35-j ′) (j = 1, 2,..., N) for identifying themselves are stored. And a control unit (32) connected to the communication path (4) and an output unit (37).
The remote controller (1) further includes a device storage unit (15) in which the plurality of device identifiers (35-1 ′ to 35-n ′) are stored.
The first device (3-1) is selected by the user as the one device.
In this case, the wireless unit (11) of the remote controller (1) is the first of the plurality of device identifiers (35-1 ′ to 35-n ′) stored in the device storage unit (15). A command (23) including a first device identifier (35-1 ′) corresponding to one device (3-1) is transmitted by radio wave (2) via the directional antenna (10) of the remote control (1). Transmit to one device (3-1).
The control unit (32) of the first device (3-1) uses the first device identifier (35-1 ′) included in the command (23) and the device of the first device (3-1). If the device identifier (35-1 ′) stored in the storage unit (35) matches, the command (23) is output to the server (5) via the communication path (4).
In response to the command (23) from the first device (3-1), the execution unit (51) of the server (5), among the plurality of software (40-1 to 40-n), The first software (40-1) corresponding to the first device (3-1) is executed, and the execution result is output to the output unit (37) of the first device (3-1) as output data (70). Output via the communication path (4).

  According to the device control system of the first aspect of the present invention, when communication between the remote controller (1) and the first device (3-1) is determined (confirmed / established), the remote controller (1) It is preferable to transmit a command (23) including the first device identifier (35-1 ′) corresponding to (3-1). According to the command (23), the first device (3-1) is used as an output device, and the execution result of the first software (40-1) corresponding thereto is output data (70) as the first device (3-1). ) To the output unit (37). The first software (40-1) is used as a function of the device (3-1) that the user wants to use. Examples of the software (40-j) (j = 1, 2,..., N) include computer functions such as watching TV / music, using the Internet / e-mail, editing moving images / still images. By storing such software (40-j) in the server (5), the user installs only the device (3-j) as an output device in the user's favorite space in the building. Just keep it. For example, when the device (3-j) is a flat display and the device (3-j) is provided in the space, space saving can be realized as compared with the case where the computer is provided in the space. .

In the device control system according to the first aspect of the present invention, the user points the remote controller (1) toward the one device (3-1).
In this case, the wireless unit (11) of the remote control (1) uses the search signal (21) to transmit the directional antenna (10) of the remote control (1) by radio waves (2) in response to a search instruction from the user. To the one device (3-1).
The control unit (12) of the remote control (1) has a radio wave intensity value representing the radio wave intensity when the radio unit (11) of the remote control (1) transmits the search signal (21) by radio wave (2), N radio wave intensity values E _{1 to} E _N that increase in this order from the first to the Nth (N is an integer of 2 or more) are periodically changed in this order.
The wireless unit (31) of the candidate device group (3-1, 3-2) sends the search signal (21) from the remote controller (1) to the no-see device group (3-1, 3-2). Received by a directional antenna (30).
The control unit (32) of the candidate device group (3-1, 3-2) receives the search signal (21) from the wireless unit (31) of the candidate device group (3-1, 3-2). The reception date and time and the received radio wave intensity value E _J representing the radio wave intensity at that time are measured.
Radio unit (31) of the candidate device group (3-1, 3-2), the said candidate device group (3-1, 3-2) the reception date in and said RSSI value _{E J} equipment identifier The response signal (22) including (35-1 ′, 35-2 ′) is transmitted by radio wave (2) via the omnidirectional antenna (30) of the candidate device group (3-1, 3-2). To send.
The wireless unit (11) of the remote controller (1) receives the response signal (22) from the candidate device group (3-1, 3-2) by the directional antenna (10) of the remote controller (1). .
The device selection screen (60) includes a most likely candidate device column (61).
The control unit (12) of the remote control (1) displays the device selection screen (60) on the display unit (17) of the remote control (1).
Next, the control unit (12) of the remote controller (1) performs the above-mentioned reception date and time in the same time zone included in the response signal (22) in the candidate device group (3-1, 3-2). the device identifier (35-1 ', 35-2') the received radio wave intensity value E _J is sorted in descending order or ascending order of the referred to leading candidate device column (61).
Of the device identifiers (35-1 ′, 35-2 ′) in the candidate device group (3-1, 3-2), the first device identifier (35-1 ′) is the first device (3- It is selected by the user as 1).
In this case, the radio unit (11) of the remote controller (1) uses the radio wave intensity value E _I to send the command (23) including the first device identifier (35-1 ′) to the radio wave (2). Then, the data is transmitted to the first device (3-1) via the directional antenna (10) of the remote controller (1).

According to the device control system of the first aspect of the present invention, the remote controller (1) can periodically change the radio wave intensity value representing the radio wave intensity when the search signal (21) is transmitted by the radio wave (2). preferable. For example, if the radio wave intensity value is too low and the candidate device group (3-1, 3-2) is not included in the radio wave reachable range (20), the candidate device group (3-1, 3-2) The signal (21) cannot be received. In this case, the remote controller (1) cannot narrow down to the candidate device group (3-1, 3-2) from among the plurality of devices (3-1 to 3-n). In addition, when the radio wave intensity value is too high and all of the plurality of devices (3-1 to 3-n) are included in the radio wave reachable range (20), the plurality of devices (3-1 to 3-n) The search signal (21) is received. Even in this case, the remote controller (1) cannot narrow down to the candidate device group (3-1, 3-2) from the plurality of devices (3-1 to 3-n).
According to the device control system of the first aspect of the present invention, the remote controller (1) periodically changes the radio wave intensity value representing the radio wave intensity when the search signal (21) is transmitted by the radio wave (2). The candidate device group (3-1, 3-2) can be narrowed down from the plurality of devices (3-1 to 3-n) as the device (3-1) that the user wants to use. Thus, the search accuracy when the remote controller (1) searches for the candidate device group (3-1, 3-2) is improved.

により、前記リモコン（１）の無線部（１１）が前記検索信号（２１）を電波（２）により送信するときの電波強度を表す電波強度値を周期的に変える。
時間ｔ（ｙ）〜時間ｔ（（１／４）×ｙ）は、前記Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_Ｎ／２〜Ｅ_Ｎに対応する。
時間ｔ（（１／４）×ｙ）〜時間ｔ（（１／２）×ｙ）は、前記Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_Ｎ〜Ｅ_Ｎ／２に対応する。
時間ｔ（（１／２）×ｙ）〜時間ｔ（（３／４）×ｙ）は、前記Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_Ｎ／２〜Ｅ_１に対応する。
時間ｔ（（３／４）×ｙ）〜時間ｔ（ｙ）は、前記Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_１〜Ｅ_Ｎ／２に対応する。 In the device control system according to the first aspect of the present invention, time is set to {t (x) | t (x) = t (1), t (2),..., T (y)} (y is a multiple of 4). And the period is T (T = t (y)), the radio field intensity value E _N among the _N radio field intensity values E _{1 to} E _N is the maximum value, and the function of the time {t (x)} Is f (x).
In this case, the controller (12) of the remote controller (1)

Thus, the radio unit (11) of the remote controller (1) periodically changes the radio wave intensity value representing the radio wave intensity when the search signal (21) is transmitted by the radio wave (2).
Time t (y) ~ time t ((1/4) × y) corresponds to the radio wave intensity value _{E N} / _2~E N of the N radio intensity values _E 1 to E _N.
From time t ((1/4) × y) to time t ((1/2) × y), the radio field intensity values E _{N to} E _N / 2 among the _N radio field intensity values E _{1 to} E _N. Corresponding to
Time t ((1/2) × y) ~ time t ((3/4) × y) is the radio wave strength value _E N / _{2~E 1} among the N radio intensity values _E 1 to E _N Corresponding to
Time t ((3/4) × y) ~ time t (y) corresponds to the radio wave intensity value _E 1 _{to E} N / 2 of the N radio intensity values _E 1 to E _N.

In the device control system according to the first aspect of the present invention, the radio unit (11) of the remote controller (1) has a radio field intensity value E _I (I = 1) among the _N radio field intensity values E _{1 to} E _N. ,..., N) (E _J ≦ E _I ≦ E _N ), and when the search signal (21) is transmitted by the radio wave (2), the candidate device group (3-1, 3-2) The response signal (22) from the remote control (1) is received by the directional antenna (10).
Of the device identifiers (35-1 ′, 35-2 ′) in the candidate device group (3-1, 3-2), the first device identifier (35-1 ′) is the first device (3- It is selected by the user as 1).
In this case, the control unit (12) of the remote controller (1) adjusts the radio wave intensity value representing the radio wave intensity when the search signal (21) is transmitted by the radio wave (2) to the radio wave intensity value E _I. .
The radio unit (11) of the remote control (1) uses the radio wave intensity value E _I to send the command (23) including the first device identifier (35-1 ′) to the remote control using the radio wave (2). It transmits toward the said 1st apparatus (3-1) via the directional antenna (10) of (1).

According to the device control system of the first aspect of the present invention, when communication between the remote controller (1) and the first device (3-1) is determined (determined / established), the remote controller (1) transmits a search signal ( the radio wave intensity value representing the radio field intensity when sending 21) via radio waves (2) and thus to adjust the radio wave intensity value E _N of the maximum value, thereby unnecessarily consuming power by a radio wave strength value E _N . In this case, it is preferable that the remote controller (1) adjusts the radio wave intensity value representing the radio wave intensity when the search signal (21) is transmitted by the radio wave (2) to the radio wave intensity value E _I described above.

In the device control system according to the second aspect of the present invention, the remote controller (1) further includes an omnidirectional antenna (19) with respect to the first aspect.
The first device (3-1) is selected by the user.
In this case, the wireless unit (11) of the remote control (1) uses the omnidirectional antenna of the remote control (1) as the antenna used by the remote control (1) from the directional antenna (10) of the remote control (1). Switch to antenna (19).
The wireless unit (11) of the remote control (1) transmits the command (23) by radio waves (2) via the omnidirectional antenna (19) of the remote control (1).

  According to the device control system of the second aspect of the present invention, when communication between the remote controller (1) and the first device (3-1) is determined (determined / established), the remote controller (1) uses the antenna to be used. Is switched from the directional antenna (10) to the omnidirectional antenna (19). For this reason, when the user wants to transmit the command (23), the remote controller (1) does not need to be directed to the first device (3-1), and the operability for the user is improved.

In the device control system according to the first and second aspects of the present invention, the remote control (1) and the server (5) are a plurality of software executed by each of the plurality of software (40-1 to 40-n). Processing storage unit (16) (56) in which a plurality of processing identifiers (41-1 ′ to 41-m ′) for identifying the processing (41-1 to 41-m) (m is an integer of 1 or more) are stored Is further provided.
The control unit (12) of the remote control (1) stores the processing memory of the remote control (1) when the radio unit (11) of the remote control (1) transmits the command (23) by radio waves (2). The plurality of processing identifiers (41-1 ′ to 41-m ′) for the first software (40-1) are selected with reference to the unit (16).
Next, the control unit (12) of the remote controller (1) selects one processing identifier from among the plurality of processing identifiers (41-1 ′ to 41-m ′) for the first software (40-1). A process selection screen (65) for the user to select is displayed on the display unit (17) of the remote controller (1).
A first process identifier (40-i ′) (i = 1, 2,..., M) is selected by the user as the one process identifier for the first software (40-1).
At this time, the wireless unit (11) of the remote controller (1) includes the first device identifier (35-1 ′) and the first process identifier (40-i ′) as the command (23). Command (24) is transmitted by radio wave (2).
The control unit (32) of the first device (3-1) includes the first device identifier (35-1 ′) included in the execution command (24) and the device of the first device (3-1). When the device identifier (35-1 ′) stored in the storage unit (35) matches, the execution command (24) is output to the server (5) via the communication path (4).
The execution unit (51) of the server (5) receives the execution command (24) from the first device (3-1) and receives the plurality of processes (41) in the first software (40-1). -1 to 41-m), the first process (41-i) corresponding to the first process identifier (40-i ') included in the execution instruction (24) is executed, and the execution result is obtained. The output data (70) is output to the output unit (37) of the first device (3-1) via the communication path (4).

In the device control system according to the first and second aspects of the present invention, the first software (40-1) is software for a user to view a television program.
The server (5) is connected to a television antenna (201).
When the first software (40-1) is executed, the execution unit (51) of the server (5) receives the television program by the television antenna (201).
The output data (70) is program data representing the television program.
The output unit (37) of the first device (3-1) includes a display unit, and the program data is displayed on the display unit of the first device (3-1).

In the device control system according to the first and second aspects of the present invention, the first software (40-1) is software for a user to listen to music.
A recording medium storing music data representing the music is provided in the server (5).
In this case, when the first software (40-1) is executed, the execution unit (51) of the server (5) reproduces the music data stored in the recording medium.
The output data (70) is the music data.
The output unit (37) of the first device (3-1) includes a speaker, and the music data is output to the speaker of the first device (3-1).

In the device control system according to the third aspect of the present invention, in the first and second aspects, the server (5) provides a provider (71) that provides related data (71) related to the output data (70). 6) via a network (7).
The first process (41-i) in the first software (40-1) includes a download process for the server (5) to acquire the related data (71) from the provider (6). .

In the device control system according to the third aspect of the present invention, the radio unit (11) of the remote control (1), in response to a related data request instruction from a user, further includes the execution command (24 ) Is transmitted by radio wave (2).
The control unit (32) of the first device (3-1) includes the first device identifier (35-1 ′) included in the execution command (24) and the device of the first device (3-1). If the device identifier stored in the storage unit (35) matches, the execution command (24) is output to the server (5) via the communication path (4).
The execution unit (51) of the server (5) receives the execution command (24) from the first device (3-1), and displays the execution result of the first process (41-i) as the output data. (70) is output to the output unit (37) of the first device (3-1).
At the same time, the execution unit (51) of the server (5) downloads the related data (71) related to the output data (70) from the provider (6) and sends it to the first device (3-1). Output via the communication path (4).
The wireless unit (31) of the first device (3-1) acquires the related data (71) from the server (5) and the device identifier in the first device (3-1). (28) is transmitted by radio wave (2).
The control unit (12) of the remote control (1) includes the device identifier included in the acquisition signal (28) and the first device identifier (15) stored in the device storage unit (15) of the remote control (1). 35-1 ′), the related data (71) included in the acquisition signal (28) is displayed on the display unit (17) of the remote controller (1).

  According to the device control system of the third aspect of the present invention, when communication between the remote controller (1) and the first device (3-1) is determined (confirmed / established), the remote controller (1) The related data (71) associated with (3-1) is automatically acquired from the server (5). For this reason, when the user wants to acquire the related data (71), it is only necessary to operate the remote controller (1), and the usability is improved for the user.

In the device control system according to the third aspect of the present invention, the first software (40-1) is software for a user to view a television program.
The server (5) is connected to a television antenna (201).
When the first software (40-1) is executed, the execution unit (51) of the server (5) receives the television program by the television antenna (201).
The output data (70) is program data representing the television program.
The output unit (37) of the first device (3-1) includes a display unit, and the program data is displayed on the display unit of the first device (3-1).
The related data (71) is an EPG (Electric Program Guide) related to the television program.
When the first process (41-i) in the first software (40-1) is executed, the execution unit (51) of the server (5) downloads the EPG from the provider (101). Transmit to the first device (3-1).

In the device control system according to the third aspect of the present invention, the first software (40-1) is software for a user to listen to music.
A recording medium storing music data representing the music is provided in the server (5).
In this case, when the first software (40-1) is executed, the execution unit (51) of the server (5) reproduces the music data stored in the recording medium.
The output data (70) is the music data.
The output unit (37) of the first device (3-1) includes a speaker, and the music data is output to the speaker of the first device (3-1).
The related data (71) is music information related to the music.
When the first process (41-i) in the first software (40-1) is executed, the execution unit (51) of the server (5) downloads the music information from the provider (6). To the first device (3-1).

A remote control terminal (hereinafter also referred to as a remote controller) (1) of the present invention is applied to a plurality of devices (3-1 to 3-n) (n is an integer of 2 or more). The plurality of devices (3-1 to 3-n) include omnidirectional antennas (30) and hold device identifiers (35-1 ′ to 35-n ′) for identifying themselves.
The remote controller (1) includes a directional antenna (10), a wireless unit (11), a control unit (12), and a display unit (17).
The user points the remote controller (1) toward one device (3-1) among the plurality of devices (3-1 to 3-n).
In this case, the wireless unit (11) sends the search signal (21) to the one device (3-1) via the directional antenna (10) by radio waves (2) in response to a search instruction from the user. Send to.
The control unit (12) is a first to Nth (N is 2 or more) as a radio wave intensity value indicating a radio wave intensity when the radio unit (11) transmits the search signal (21) by a radio wave (2). N radio field intensity values E _{1 to} E _N that increase in this order until (integer integer) are periodically changed in this order.
The candidate device group (3-1, 3-2) receives the search signal (21) from the remote controller (1) by the omnidirectional antenna (30) and receives the search signal (21). The reception date and time and the received radio wave intensity value E _J representing the radio wave intensity at that time are measured. The candidate device group (3-1, 3-2) includes the reception date and time, the received radio wave intensity value E _J, and the device identifier (35-1 ′, 3-2) in the candidate device group (3-1, 3-2). 35-2 ′) is transmitted by radio wave (2) via its omnidirectional antenna (30).
The wireless unit (11) receives the response signal (22) from the candidate device group (3-1, 3-2) by the directional antenna (10).
In this case, the control unit (12) displays the device selection screen (60) including the most probable candidate device column (61) on the display unit (17). The control unit (12), for the reception date and time in the same time zone included in the response signal (22), the device identifier (35-1 ′) in the candidate device group (3-1, 3-2). , 35-2 ′) are rearranged in descending order of the received radio wave intensity value E _{J and} listed in the most probable candidate device column (61).
Of the device identifiers (35-1 ′, 35-2 ′) in the candidate device group (3-1, 3-2), the first device identifier (35-1 ′) is the one device (3- It is selected by the user as 1).
In this case, the radio unit (11) uses the radio wave intensity value E _I to send a command (23) including the first device identifier (35-1 ′) to the directional antenna (2) using the radio wave (2). 10) to the one device (3-1).

As described above, according to the device control system of the present invention, the remote controller (1) can be used as a device (3-1) that the user wants to use from among a plurality of devices (3-1 to 3-n). The candidate device group (3-1, 3-2) can be narrowed down.
Further, according to the device control system of the present invention, the device (3-j) is used as an output device, and the corresponding software (40-j) is stored in the server (5), thereby saving space. Can be realized.
Further, according to the device control system of the present invention, the search accuracy when the remote controller (1) searches for the candidate device group (3-1, 3-2) is improved.
According to the device control system of the present invention, when communication between the remote controller (1) and the device (3-1) is determined (determined / established), the user replaces the remote controller (1) with the device (3-1). There is no need to turn it, and the operability is improved for the user.
According to the device control system of the present invention, when communication between the remote controller (1) and the device (3-1) is determined (determined / established), the user can obtain the related data (71) by using the remote control (71). It is only necessary to operate 1), which improves usability for the user.

  Hereinafter, an apparatus control system of the present invention will be described in detail with reference to the accompanying drawings.

(First embodiment)
FIG. 1 shows the configuration of a device control system according to the first embodiment of the present invention. The device control system according to the first embodiment includes a remote control terminal (hereinafter referred to as a remote controller) 1, a plurality of devices 3-1 to 3-n (n is an integer of 2 or more), and a server 5. For example, the remote controller 1, the plurality of devices 3-1 to 3-n, and the server 5 are provided in a building such as a house or a building. The remote controller 1 and the plurality of devices 3-1 to 3-n communicate with each other by the radio wave 2. The plurality of devices 3-1 to 3-n and the server 5 are connected to a LAN (Local Area Network) as the communication path 4 and communicate using the LAN 4. The plurality of devices 3-1 to 3-n are used as output devices for the server 5.
The server 5 is connected to a computer 101 including a provider, a terminal, and a server via the network 100, and can communicate with the computer 101 via the Internet. Further, the server 5 is connected to the television antenna 201 via the antenna cable 200 and can receive a program by the television antenna 201.

FIG. 2 shows the configuration of the device 3-j (j = 1, 2,..., N). The remote controller 1 includes an omnidirectional antenna 30, a radio unit 31, a control unit 32, a storage unit 33, and an output unit 37.
The control unit 31 is realized by hardware (example: circuit) and software (example: computer program). The control unit 31 is connected to the communication path 4 described above.
The storage unit 33 includes a device storage unit 35 described later.
The output unit 37 includes a display unit and a speaker.

  FIG. 3 shows the device storage unit 35. The device storage unit 35 stores the name of its own device 3-j (j = 1, 2,..., N) and a device identifier 35-j ′ for identifying itself.

FIG. 4 shows the configuration of the server 5. The server 5 includes an execution unit 51 and a storage unit 53.
The execution unit 51 is realized by hardware (example: circuit) and software (example: computer program). The execution unit 51 is connected to the communication path 4, the network 100, and the antenna cable 200 described above.
The storage unit 53 includes an execution storage unit 54, a device storage unit 55, and a processing storage unit 56, which will be described later.

FIG. 5 shows the execution storage unit 54. The execution storage unit 54 stores a plurality of software 40-1 to 40-n. Each of the plurality of softwares 40-1 to 40-n executes a plurality of processes 41-1 to 41-m (m is an integer of 1 or more).
For example, the software 40-1 is assumed to be television software. In this case, the process 41-1 in the software 40-1 represents a program viewing process for the user to view a television program, and the process 41-2 represents a program recording process for recording the television program. It shall be.
For example, the software 40-2 is assumed to be music software. In this case, the process 41-1 in the software 40-2 represents a music playback process for the user to listen to music, and the process 41-2 represents a music recording process for recording music. To do.
As for the software 40-3 to 40-n, software for users to communicate via the Internet, software for users to communicate via electronic mail, software for users to edit moving images and still images Is exemplified.

  FIG. 6 shows the device storage unit 55. In the device storage unit 55, names of the plurality of devices 3-1 to 3-n and a plurality of device identifiers 35-1 ′ to 35-n ′ for identifying each of the plurality of devices 3-1 to 3-n. And names of the plurality of software 40-1 to 40-n and a plurality of software identifiers 40-1 ′ to 40-n ′ for identifying each of the plurality of software 40-1 to 40-n are stored. . Thereby, a plurality of software 40-1 to 40-n is associated with each of the plurality of devices 3-1 to 3-n.

  FIG. 7 shows the processing storage unit 56. The processing storage unit 56 includes the names of the plurality of software 40-1 to 40-n, the plurality of software identifiers 40-1 ′ to 40-n ′, and the plurality of processes 41-1 to 41-1. The name 41-m and a plurality of process identifiers 41-1 ′ to 41-m ′ for identifying each of the plurality of processes 41-1 to 41-m are stored.

FIG. 8 shows the configuration of the remote controller 1. The remote controller 1 includes a directional antenna 10, a radio unit 11, a control unit 12, a storage unit 13, a display unit 17, and an input unit 18.
The control unit 11 is realized by hardware (example: circuit) and software (example: computer program).
The storage unit 13 includes a device storage unit 15 and a processing storage unit 16 which will be described later.
The input unit 18 includes a search button 18-1, a scroll button 18-2, an enter button 18-3, and various operation buttons 18-4.

  FIG. 9 shows the device storage unit 15. The device storage unit 15 stores the same information as the device storage unit 55. That is, the device storage unit 15 stores the names of the plurality of devices 3-1 to 3-n and the plurality of device identifiers 35-1 'to 35-n'. The device storage unit 15 further stores communication establishment information 14 in association with one of the plurality of device identifiers 35-1 'to 35-n'. The communication establishment information 14 is used as a flag.

  FIG. 10 shows the processing storage unit 16. The processing storage unit 16 stores the same information as the processing storage unit 56. That is, the processing storage unit 16 includes the names of the plurality of software 40-1 to 40-n, the plurality of software identifiers 40-1 ′ to 40-n ′, and the plurality of processing 41- 1 to 41-m and the above-described process identifiers 41-1 ′ to 41-m ′ are stored.

  FIG. 11 is a flowchart showing a device control process that is an operation of the device control system according to the first embodiment of the present invention.

  When the user wants to use the device 3-1 as a control device, the user points the remote controller 1 toward the device 3-1 as one of the plurality of devices 3-1 to 3-n. In this case, it is assumed that the device 3-2 is provided near the device 3-1. The user issues a search instruction by pressing the search button 18-1 of the input unit 18 of the remote controller 1 (step S1).

  At this time, the control unit 12 of the remote controller 1 outputs a search signal 21 to the radio unit 11 in response to the search instruction. The wireless unit 11 transmits the search signal 21 by the radio wave 2 to the device 3-1 via the directional antenna 10 (step S2; search process). Details of the search process will be described later.

  As shown in FIG. 12, the radiation angle representing the angle when the search signal 21 is transmitted (radiated) from the directional antenna 10 is, for example, 20 degrees. The radio wave reachable range 20 representing the range in which the search signal 21 is radiated from the directional antenna 10 is 10 meters at the maximum from the directional antenna 10 in the direction from the directional antenna 10 to the device 3-1. For example, the devices 3-1 and 3-2 are included in the radio wave reachable range 20. In this case, the radio units 31 of the devices 3-1 and 3-2 can receive the search signal 21 through the omnidirectional antenna 30. On the other hand, the devices 3-3 to 3-m are not included in the radio wave reachable range 20. In this case, the radio units 31 of the devices 3-3 to 3-m cannot receive the search signal 21 by the omnidirectional antenna 30. Here, a device group including the devices 3-1 and 3-2 is referred to as a candidate device group.

  Each of the radio units 31 of the candidate device groups 3-1 and 3-2 receives the search signal 21 through the omnidirectional antenna 30. In this case, the radio units 31 of the candidate device groups 3-1 and 3-2 each output the search signal 21 to the control unit 32. The control units 32 of the candidate device groups 3-1 and 3-2 output the response signal 22 to the radio unit 31 in response to the search signal 21. The radio units 31 of the candidate device groups 3-1 and 3-2 each transmit the response signal 22 using the radio wave 2 via the omnidirectional antenna 30. The response signals 22 from the candidate device groups 3-1 and 3-2 are the device identifiers 35-1 ′ and 35-2 ′ stored in the device storage unit 35 of the candidate device groups 3-1 and 3-2, respectively. (Step S3; response process). Details of the response process will be described later.

  The wireless unit 11 of the remote controller 1 receives the response signal 22 from the candidate device groups 3-1 and 3-2 by the directional antenna 10 and outputs the response signal 22 to the control unit 12. In response to the response signal 22, the control unit 12 displays a device selection screen 60 as shown in FIG. 13 on the display unit 17. The device selection screen 60 includes a most likely candidate device column 61 for the user to determine communication between the remote controller 1 and one of the candidate device groups 3-1 and 3-2. In the most probable candidate device column 61, device identifiers 35-1 'and 35-2' included in the response signal 22 are written (step S4; device selection screen display process). Details of the device selection screen display processing will be described later.

  For example, the user operates the scroll button 18-2 of the input unit 18 of the remote controller 1 to select the device identifier 35-1 'described in the most probable candidate device column 61 of the device selection screen 60. That is, the device 3-1 is selected (step S5-YES). Next, the user presses the enter button 18-3 of the input unit 18 (step S6-YES). At this time, the control unit 12 stores the communication establishment information 14 in the device storage unit 15 in association with the device identifier 35-1 '. Thereby, the user establishes communication between the remote controller 1 and the device 3-1 (step S7; communication establishment process). Details of the communication establishment process will be described later.

  Next, the remote controller 1 executes an output command process to be described later (step S8). Thereafter, when the user has not pressed the search button 18-1 of the input unit 18 again (step S9-NO), the remote controller 1 executes the above-described search process (step S2). When the user presses the search button 18-1 (second press) (step S9-NO), the control unit 12 of the remote controller 1 erases the communication establishment information 14 stored in the device storage unit 15, The remote controller 1 ends the operation (device control process) of this system.

According to the device control system according to the first embodiment of the present invention, as described above, when the user wants to use the device 3-1 among the plurality of devices 3-1 to 3-n as a control device, The remote control 1 is pointed at the device 3-1. In response to a search instruction from the user, the remote controller 1 transmits a search signal 21 to the device 3-1 via the directional antenna 10 using the radio wave 2. At this time, candidate device groups 3-1 and 3-2 among the plurality of devices 3-1 to 3-n are included in the radio wave reachable range 20 representing the range in which the search signal 21 is radiated from the directional antenna 10. In this case, the candidate device groups 3-1 and 3-2 can receive the search signal 21 through the omnidirectional antenna 30. In this case, the candidate device groups 3-1 and 3-2 transmit the response signal 22 using the radio wave 2 via the omnidirectional antenna 30 in response to the search signal 21.
When the antenna of the remote controller 1 is an omnidirectional antenna, all of the plurality of devices 3-1 to 3-n receive the search signal 21 from the remote controller 1, but the antenna of the remote controller 1 is the directional antenna 10. Therefore, candidate device groups 3-1 and 3-2 of the plurality of devices 3-1 to 3-n receive the search signal 21 from the remote controller 1. For this reason, as the device 3-1 that the user wants to use, the candidate devices 3-1 and 3-2 are narrowed down from the plurality of devices 3-1 to 3-n.

  In addition, when considering the received radio wave intensity value representing the radio wave intensity when receiving the response signals 22 from the plurality of devices 3-1 to 3-n, the remote controller 1 determines that the device with the highest received radio wave intensity value is the remote controller. It is not always the device that is the closest to 1. For this reason, the remote controller 1 displays the device selection screen 60 on the display unit 17 in response to the response signal 22 from the candidate device groups 3-1 and 3-2. In this case, the user selects the device 3-1 from the candidate device groups 3-1 and 3-2 with reference to the device selection screen 60 and determines the communication between the remote controller 1 and the device 3-1. can do.

  As described above, according to the device control system according to the first embodiment of the present invention, the remote controller 1 can select one of the devices 3-1 to 3-n as the device 3-1 that the user wants to use. Candidate device groups 3-1 and 3-2 can be narrowed down.

  FIG. 14 is a flowchart showing the output command process (step S8).

  When the device identifier 35-1 ′ (device 3-1) described in the most probable candidate device column 61 on the device selection screen 60 is selected, the control unit 12 of the remote controller 1 refers to the device storage unit 15. The command 23 including the device identifier 35-1 ′ corresponding to the communication establishment information 14 is generated and output to the wireless unit 11. The wireless unit 11 transmits the command 23 using the radio wave 2 via the directional antenna 10 (step S11).

  The wireless unit 31 of the device 3-1 receives the command 23 through the omnidirectional antenna 30 and outputs the command 23 to the control unit 32. The control unit 32 of the device 3-1 collates the device identifier 35-1 'included in the command 23 with the device identifier 35-1' stored in the device storage unit 35 (step S12). If they match as a result of the collation (step S12—YES), the control unit 32 of the device 3-1 outputs the command 23 to the server 5 via the communication path 4 (step S13).

  The execution unit 51 of the server 5 receives the command 23 from the device 3-1. The execution unit 51 refers to the device storage unit 55 and selects the software identifier 40-corresponding to the device identifier 35-1 ′ included in the instruction 23 from among the plurality of software identifiers 40-1 ′ to 40 -n ′. Search for 1 '. The execution unit 51 refers to the execution storage unit 54 and executes the software 40-1 corresponding to the software identifier 40-1 'among the plurality of softwares 40-1 to 40-n. At this time, the execution unit 51 outputs the execution result of the software 40-1 as output data 70 to the output unit 37 of the device 3-1 via the communication path 4 (step S14).

  According to the device control system according to the first embodiment of the present invention, when communication between the remote controller 1 and the device 3-1 is determined (determined / established), the remote controller 1 recognizes the device identifier 35- corresponding to the device 3-1. It is preferable to send a command 23 containing 1 ′. According to the instruction 23, the device 3-1 is used as an output device, and the execution result of the corresponding software 40-1 is output as output data 70 to the output unit 37 of the device 3-1. The software 40-1 is used as a function of the device 3-1 that the user wants to use. Examples of the software 40-j (j = 1, 2,..., N) include computer functions such as television / music appreciation, use of the Internet / e-mail, and editing of moving images / still images. By storing such software 40-j in the server 5, the user only has to provide only the device 3-j as an output device in a space desired by the user in the building. For example, when the device 3-j is a flat display and the device 3-j is provided in the space, space saving can be realized as compared with a case where a computer is provided in the space.

  The output data 70 is a screen representing that the software 40-1 is activated. When this screen is displayed on the display unit of the output unit 37 of the device 3-1, the user performs the process designated by the user among the processes 41-1 to 41-m of the software 40-1 on the server 5. Can be executed. When the above-described step S11 is executed, that is, when the wireless unit 11 of the remote controller 1 transmits the command 23 by the radio wave 2, the control unit 12 refers to the processing storage unit 16 in the software 40-1. A plurality of process identifiers 41-1 ′ to 41-m ′ for identifying the processes 41-1 to 41-m are selected. At this time, the control unit 12 displays a processing selection screen 65 as shown in FIG. 15 on the display unit 17 instead of the device selection screen 60 described above. The process selection screen 65 includes a process selection field 66 for the user to select one process identifier among the plurality of process identifiers 41-1 'to 41-m' for the software 40-1. The control unit 12 describes the plurality of process identifiers 41-1 'to 41-m' in the process selection column 66 (step S15).

For example, the user operates the scroll button 18-2 of the input unit 18 of the remote controller 1 to process the process identifier 41-i ′ (i = 1, 2,...) Written in the process selection field 66 of the process selection screen 65. , M). That is, the process 41-i in the software 40-1 is selected. Next, the user presses various operation buttons 18-4 of the input unit 18 (steps S16-NO, S17-YES).
In this case, the control unit 12 refers to the device storage unit 15, selects the device identifier 35-1 ′ corresponding to the communication establishment information 14, and sets the device identifier 35-1 ′ and the process identifier 41-i ′. An execution instruction 24 including the same is generated and output to the wireless unit 11. The wireless unit 11 transmits the execution command 24 by the radio wave 2 through the directional antenna 10 as the command 23 (step S11).

  The wireless unit 31 of the device 3-1 receives the execution command 24 by the omnidirectional antenna 30 and outputs it to the control unit 32. The control unit 32 of the device 3-1 collates the device identifier 35-1 'included in the execution command 24 with the device identifier 35-1' stored in the device storage unit 35 (step S12). If they match as a result of the collation (step S12—YES), the control unit 32 of the device 3-1 outputs the execution command 24 to the server 5 via the communication path 4 (step S13).

  The execution unit 51 of the server 5 receives the execution command 24 from the device 3-1. The execution unit 51 refers to the device storage unit 55 and selects the software identifier 40 corresponding to the device identifier 35-1 ′ included in the execution command 24 from the plurality of software identifiers 40-1 ′ to 40-n ′. Search for -1 '. The execution unit 51 refers to the processing storage unit 56 and selects the process identifier 41 included in the execution instruction 24 from among the plurality of process identifiers 41-1 ′ to 41-m ′ corresponding to the software identifier 40-1 ′. Search for a process identifier that matches -i '. The execution unit 51 refers to the execution storage unit 54, and the process 41-i corresponding to the searched process identifier 40-i ′ among the plurality of processes 41-1 to 41-m in the software 40-1. Execute. At this time, the execution unit 51 outputs the execution result of the process 41-i in the software 40-1 as output data 70 to the output unit 37 of the device 3-1 via the communication path 4 (step S14).

The software 40-1 is television software. For example, when the process 41-i is the process 41-1 (program viewing process), the user can view a television program using the device 3-1.
That is, when the process 41-1 in the software 40-1 is executed, the execution unit 51 of the server 5 receives the television program by the television antenna 201 and outputs it to the output unit 37 of the device 3-1. In this case, the output data 70 is program data representing a television program. The program data includes video data and audio data. The video data is displayed on the display unit of the output unit 37 of the device 3-1, and the audio data is output to the speaker of the output unit 37 of the device 3-1.

In step S5 described above, the user may select the device identifier 35-2 ′ described in the most probable candidate device column 61 of the device selection screen 60. That is, the device 3-2 may be selected. In this case, the software 40-2 is executed. The software 40-2 is music software. When the process 41-i is the process 41-1 (music reproduction process), the user can listen to music using the device 3-2.
For example, the server 5 is provided with a recording medium in which music data is stored. Alternatively, a part of the storage area of the storage unit 53 corresponds to the recording medium. In this case, when the process 41-1 in the software 40-2 is executed, the execution unit 51 of the server 5 reproduces the music data stored in the recording medium and outputs it to the output unit 37 of the device 3-2. In this case, the output data 70 is music data. The music data is output to the speaker of the output unit 37 of the device 3-2.

  When the user presses the enter button 18-3 of the input unit 18 of the remote control 1 (second press) (step S16-YES), the control unit 12 of the remote control 1 refers to the device storage unit 15. The end instruction 25 including the device identifier 35-1 ′ corresponding to the communication establishment information 14 is generated and output to the wireless unit 11. The wireless unit 11 transmits the end command 25 by the radio wave 2 via the directional antenna 10 (step S18). Thereby, the remote controller 1 ends the output command process (step S8), and executes the above-described step S9.

  The radio unit 31 of the device 3-1 outputs the end command 25 to the control unit 32 when the end command 25 is received by the non-directional antenna 30 (step S <b> 19 -YES). The control unit 32 of the device 3-1 collates the device identifier 35-1 'included in the end command 25 with the device identifier 35-1' stored in the device storage unit 35 (step S20). If they match as a result of the collation (step S20—YES), the control unit 32 of the device 3-1 outputs an end command 25 to the server 5 via the communication path 4 (step S21).

  The execution unit 51 of the server 5 receives the end command 25 from the device 3-1. The execution unit 51 refers to the device storage unit 55 and selects the software identifier 40 corresponding to the device identifier 35-1 ′ included in the end instruction 25 from among the plurality of software identifiers 40-1 ′ to 40-n ′. Search for -1 '. The execution unit 51 refers to the execution storage unit 54 and ends the execution of the software 40-1 corresponding to the software identifier 40-1 '(step S22).

As described above, according to the device control system according to the first embodiment of the present invention, the remote controller 1 is the device 3-1 that the user wants to use, among the plurality of devices 3-1 to 3-n. The candidate device groups 3-1 and 3-2 can be narrowed down. Further, since the device 3-j is used as an output device and the software 40-j corresponding to the device 3-j is stored in the server 5, space saving can be realized.
In addition, in the search process (step S2), the search accuracy when the remote controller 1 searches for the candidate device groups 3-1, 3-2 is improved. This will be described in detail.

In the search process (step S2), when the user points the remote control 1 toward the device 3-1, the control unit 12 of the remote control 1 outputs a search signal 21 to the radio unit 11 in response to the search instruction. The wireless unit 11 transmits the search signal 21 by the radio wave 2 to the device 3-1 via the directional antenna 10. At this time, the control unit 12 increases in this order from the first to the Nth (N is an integer of 2 or more) as a radio wave intensity value representing the radio wave intensity when the radio unit 11 transmits the search signal 21 by the radio wave 2. N radio field intensity values E _{1 to} E _N are periodically changed in this order.

As shown in FIG. 16, for example, the wireless unit 11 of the remote controller 1 uses the radio field intensity values E ₁ , E ₂ , and E ₃ to search the search signal 21 by the radio wave 2 via the directional antenna 10. It is assumed that the message is transmitted toward 1. In this case, the radio wave reachable ranges 20 ₁ , 20 ₂ , and 20 ₃ that are the radio wave reachable range 20 described above increase in proportion to the radio wave intensity values E ₁ , E ₂ , and E ₃ , respectively.

により、無線部１１が検索信号２１を電波２により送信するときの電波強度を表す電波強度値を周期的に変える。
ここで、時間ｔ（ｙ）〜時間ｔ（（１／４）×ｙ）は、Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_Ｎ／２〜Ｅ_Ｎに対応する。
時間ｔ（（１／４）×ｙ）〜時間ｔ（（１／２）×ｙ）は、Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_Ｎ〜Ｅ_Ｎ／２に対応する。
時間ｔ（（１／２）×ｙ）〜時間ｔ（（３／４）×ｙ）は、Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_Ｎ／２〜Ｅ_１に対応する。
時間ｔ（（３／４）×ｙ）〜時間ｔ（ｙ）は、Ｎ個の電波強度値Ｅ_１〜Ｅ_Ｎのうちの電波強度値Ｅ_１〜Ｅ_Ｎ／２に対応する。 As shown in FIG. 17, for example, the time is {t (x) | t (x) = t (1), t (2),..., T (y)} (y is a multiple of 4), and the period Is T (T = t (y)), the radio field intensity value EN among the _N radio field intensity values E _{1 to} E _N is the maximum value, and the function of time {t (x)} is f (x) And The time {t (x)} is assumed to be equally spaced. In this case, the control unit 12 of the remote controller 1

Thus, the radio field intensity value representing the radio field intensity when the wireless unit 11 transmits the search signal 21 by the radio wave 2 is periodically changed.
Here, the time t (y) ~ time t ((1/4) × y) corresponds to the radio wave intensity value _{E N} / _2~E N of the N radio field intensity values _E 1 to E _N.
From time t ((1/4) × y) to time t ((1/2) × y), radio wave intensity values E _{N to} E _N / 2 among _N radio wave intensity values E _{1 to} E _N Correspond.
Time t ((1/2) × y) ~ time t ((3/4) × y) is the radio field strength value _E N / _{2~E 1} of the N radio intensity values _E 1 to E _N Correspond.
Time t ((3/4) × y) ~ time t (y) corresponds to the radio wave intensity value _E 1 _{to E} N / 2 of the N radio wave intensity values _E 1 to E _N.

  FIG. 18 is a flowchart showing the search process (step S2) and the response process (step S3).

In the search process (step S2), first, the control unit 12 of the remote controller 1 outputs the first radio wave intensity value and the search signal 21 to the radio unit 11 in response to the search instruction (step S31—YES). . For example, it is assumed that the first radio wave intensity value is the radio wave intensity value E _{1/2 at} time t (y). The wireless unit 11 transmits the search signal 21 by the radio wave 2 to the device 3-1 through the directional antenna 10 using the first radio wave intensity value (step S32). At this time, the control unit 12 starts counting.

Next, the user does not select the device identifier written in the most probable candidate device column 61 of the device selection screen 60 by the input unit 18 and does not press the search button 18-1 of the input unit 18 again (step S5). -NO, S9-NO) (steps S5-YES, S6-NO, S9-NO), the count value when the control unit 12 counts passes the set time (steps S31-NO, S33). In this case, the control unit 12 changes the radio wave intensity value to the next radio wave intensity value, and outputs the next radio wave intensity value and the search signal 21 to the radio unit 11 (step S34).
For example, radio wave strength value, when a radio wave intensity value E _1/2 at time t (y), time setting represents the time from the time t (y) to time t (1). In this case, in step S34, the control unit 12 changes the radio wave intensity value E _{1/2 at} time t (y) to the radio wave intensity value at time t (1) as the next radio wave intensity value, and the next radio wave intensity. The value and the search signal 21 are output to the radio unit 11.
The wireless unit 11 transmits the search signal 21 to the device 3-1 via the directional antenna 10 using the radio wave 2 using the next radio wave intensity value (step S <b> 35). At this time, the control unit 12 starts counting.

In the response process (step S3), the radio units 31 of the candidate device groups 3-1 and 3-2 each receive the search signal 21 through the omnidirectional antenna 30. In this case, the radio units 31 of the candidate device groups 3-1 and 3-2 each output the search signal 21 to the control unit 32 (step S36).
Here, the control unit 32 of each of the candidate device groups 3-1 and 3-2 receives the reception date and time when the wireless unit 31 receives the search signal 21 and the received radio wave intensity value E representing the radio wave intensity at that time. _J is measured (step S37).
The control units 32 of the candidate device groups 3-1 and 3-2 respectively include the device identifiers 35-1 ′ and 35-2 ′ stored in the device storage unit 35 and the candidate device groups 3-1 and 3-3. The response signal 22 including the reception date and time and the received radio wave intensity value E _J in 2 is generated and output to the radio unit 31. The radio units 31 of the candidate device groups 3-1 and 3-2 each transmit the response signal 22 by the radio wave 2 via the omnidirectional antenna 30 (step S38).

  FIG. 19 is a flowchart showing the device selection screen display process (step S4) and the communication establishment process (step S7).

In the device selection screen display process (step S4), the wireless unit 11 of the remote controller 1 performs radio field intensity values E _I (I = 1, 2,..., N) out of _N radio field intensity values E _{1 to} E _N ( E _J ≦ E _I ≦ E _N ), when the search signal 21 is transmitted via the directional antenna 10 by the radio wave 2, the response signals 22 from the candidate device groups 3-1 and 3-2 are directional. Received by the antenna 10. In this case, the radio unit 11 outputs the radio field intensity value E _{I at} that time and the response signals 22 from the candidate device groups 3-1 and 3-2 to the control unit 12 (step S 41).

At this time, the control unit 12 of the remote controller 1 stores the radio wave intensity value E _I in the storage unit 13 (step S42). This radio wave intensity value E _I is stored in the storage unit 13 until the remote controller 1 executes the search process (step S2) again.

At the same time, the control unit 12 of the remote controller 1 displays the device selection screen 60 on the display unit 17 (step S43).
At this time, the control unit 12 sorts the device identifiers 35-1 ′ and 35-2 ′ in descending order of the received radio wave intensity value E _J with respect to the reception date and time in the same time period included in the response signal 22, This is described in the most probable candidate device column 61 of the selection screen 60 (step S44). The same time zone corresponds to the set time for comparison with the count value. Alternatively, since the user points the remote controller 1 toward the device 3-1, the control unit 12 describes the device identifier for the device that may be closest to the remote controller 1 at the bottom of the most likely candidate device column 61. As described above, the device identifiers 35-1 ′ and 35-2 ′ may be rearranged in ascending order of the received radio wave intensity value E _J with respect to the reception date and time in the same time zone.

For example, the received radio wave intensity value E _J corresponding to the device identifier 35-1 ′ is higher than the received radio wave intensity value E _J corresponding to the device identifier 35-2 ′. In this case, the device 3-1 in the candidate device groups 3-1 and 3-2 is the most likely candidate device when the user determines communication with the remote controller 1. Therefore, the user operates the scroll button 18-2 of the input unit 18 of the remote controller 1 to select the device identifier 35-1 ′ described in the most probable candidate device column 61 of the device selection screen 60. That is, the device 3-1 is selected (step S5-YES). Next, the user presses the enter button 18-3 of the input unit 18 (step S6-YES).

In this case, in the communication establishment process (step S7), the control unit 12 of the remote controller 1 stores the communication establishment information 14 in the device storage unit 15 in association with the device identifier 35-1 ′. Thus, the user establishes communication between the remote controller 1 and the device 3-1 (step S45).
Further, the control unit 12 adjusts / fixes the radio wave intensity value representing the radio wave intensity when the radio unit 11 transmits the search signal 21 by the radio wave 2 to the radio wave intensity value E _I (step S46).
Thereafter, the output command process (step S8) is executed.

According to the device control system according to the first embodiment of the present invention, it is preferable that the remote controller 1 periodically changes the radio wave intensity value representing the radio wave intensity when the search signal 21 is transmitted by the radio wave 2. For example, when the radio wave intensity value is too low and the candidate device groups 3-1 and 3-2 are not included in the radio wave reachable range 20, the candidate device groups 3-1 and 3-2 cannot receive the search signal 21. In this case, the remote controller 1 cannot narrow down to the candidate device groups 3-1 and 3-2 among the plurality of devices 3-1 to 3-n. If the radio wave intensity value is too high and all of the plurality of devices 3-1 to 3-n are included in the radio wave reachable range 20, the plurality of devices 3-1 to 3-n receive the search signal 21. End up. Even in this case, the remote controller 1 cannot narrow down to the candidate device groups 3-1 and 3-2 from among the plurality of devices 3-1 to 3-n.
According to the device control system according to the first embodiment of the present invention, the remote controller 1 periodically changes the radio wave intensity value representing the radio wave intensity when the search signal 21 is transmitted by the radio wave 2, so that the user wants to use the device. The candidate device groups 3-1 and 3-2 can be narrowed down from among the plurality of devices 3-1 to 3-n as 3-1. Thus, the search accuracy when the remote controller 1 searches for the candidate device groups 3-1 and 3-2 is improved.

According to the device control system according to the first embodiment of the present invention, when communication between the remote controller 1 and the device 3-1 is determined (determined / established), the remote controller 1 transmits the search signal 21 using the radio wave 2. the radio wave intensity value representing the radio wave intensity, the thus adjusted in the radio wave intensity value E _N of the maximum value, thereby unnecessarily consuming power by a radio wave strength value E _N. In this case, it is preferable that the remote controller 1 adjusts the radio wave intensity value indicating the radio wave intensity when the search signal 21 is transmitted by the radio wave 2 to the radio wave intensity value E _I described above.

From the above description, according to the device control system according to the first embodiment of the present invention, the remote control 1 can be used as the device 3-1 that the user wants to use from among a plurality of devices 3-1 to 3-n. The candidate device groups 3-1 and 3-2 can be narrowed down.
Further, according to the device control system according to the first embodiment of the present invention, the device 3-j is used as an output device, and the corresponding software 40-j is stored in the server 5, thereby saving space. Can be realized.
In addition, according to the device control system according to the first embodiment of the present invention, the search accuracy when the remote controller 1 searches the candidate device groups 3-1 and 3-2 is improved.

(Second Embodiment)
In the device control system according to the second embodiment of the present invention, only differences from the first embodiment will be described.
FIG. 20 shows the configuration of the remote controller 1. The remote controller 1 further includes an omnidirectional antenna 19.

  FIG. 21 is a flowchart showing the device selection screen display process (step S4) and the communication establishment process (step S7).

In this case, when the above steps S45 and S46 are executed in the communication establishment process (step S7), the radio unit 11 of the remote controller 1 changes the antenna to be used from the directional antenna 10 to the omnidirectional antenna 19. Switching (step S51).
Thereafter, when the output command process (step S8) is executed, the wireless unit 11 transmits the command 23 and the execution command 24 via the omnidirectional antenna 19 by the radio wave 2.

According to the device control system according to the second embodiment of the present invention, when communication between the remote controller 1 and the device 3-1 is determined (determined / established), the remote controller 1 uses the directional antenna 10 as an omnidirectional antenna. Switch to the directional antenna 19. For this reason, when the user wants to transmit the command 23, the remote controller 1 does not need to point the device 3-1.
Thus, according to the apparatus control system by 2nd Embodiment of this invention, in addition to the effect in 1st Embodiment, operativity for a user improves.

(Third embodiment)
In the device control system according to the third embodiment of the present invention, only differences from the first embodiment and the second embodiment will be described.
When the server 5 is connected to the provider as the computer 101 described above via the network 100, the provider 101 provides related data 71 related to the output data 70 described above. At least one of the plurality of processes 41-1 to 41-m in each of the plurality of software 40-1 to 40-n includes a download process for the server 5 to acquire the related data 71 from the provider 6. It is out. For example, the download process is referred to as process 41-m.

  In this case, in the execution process (step S14) of the output command process (step S8), the execution unit 51 of the server 5 responds to the execution command 24 from the device 3-1, for example, the process 41-i in the software 40-1. Execute. At this time, the execution unit 51 outputs the execution result of the process 41-i in the software 40-1 as output data 70 to the output unit 37 of the device 3-1 via the communication path 4.

  FIG. 22 is a flowchart showing the execution process (step S14).

  For example, the process 41-i is a process 41-m (download process) (step S61-YES). In this case, the execution unit 51 of the server 5 downloads the related data 71 related to the output data 70 from the provider 6 (step S62) and outputs it to the device 3-1 via the communication path 4 (step S63). .

  The control unit 32 of the device 3-1 receives the related data 71 from the server 5. The control unit 32 generates the acquisition signal 28 including the related data 71 and the device identifier 35-1 ′ stored in the device storage unit 35. The wireless unit 31 transmits the acquisition signal 28 by the radio wave 2 via the omnidirectional antenna 30 (step S64).

The wireless unit 11 of the remote controller 1 receives the acquisition signal 28 by the omnidirectional antenna 19 and outputs it to the control unit 12. The control unit 12 collates the device identifier 35-1 ′ included in the acquired signal 28 with the device identifier 35-1 ′ stored in the device storage unit 15 (step S65). If they match as a result of the collation (step S65—YES), the control unit 12 displays the related data 71 included in the acquisition signal 28 on the display unit 17 (step S66).
For example, the control unit 12 recognizes the display size (display area) of the display unit 17, and adjusts the screen representing the related data 71 to the display size of the display unit 17 in step S <b> 66. indicate.

According to the device control system according to the third embodiment of the present invention, when communication between the remote controller 1 and the device 3-1 is determined (determined / established), the remote controller 1 stores related data 71 associated with the device 3-1. Is automatically acquired from the server 5. For this reason, the user only has to operate the remote controller 1 to obtain the related data 71.
Thus, according to the apparatus control system by 3rd Embodiment of this invention, in addition to the effect in 1st Embodiment, 2nd Embodiment, usability improves.

The software 40-1 is television software. For example, when the process 41-i is the process 41-m (program viewing process and download process), the user can view the TV program with the device 3-1, and the remote controller 1 can switch to the TV program. You can see the related EPG (Electric Program Guide).
That is, when the process 41-m in the software 40-1 is executed, the execution unit 51 of the server 5 receives the television program by the television antenna 201 and outputs it to the output unit 37 of the device 3-1. In this case, the output data 70 is program data representing a television program. The program data includes video data and audio data. The video data is displayed on the display unit of the output unit 37 of the device 3-1, and the audio data is output to the speaker of the output unit 37 of the device 3-1.
Further, the execution unit 51 downloads an EPG from the provider 101 and transmits it to the remote controller 1 via the device 3-1. In this case, the related data 71 is an EPG. The EPG is displayed on the display unit 17 of the remote controller 1.

In step S5 described above, the user may select the device identifier 35-2 ′ described in the most probable candidate device column 61 of the device selection screen 60. That is, the device 3-2 may be selected. In this case, the software 40-2 is executed. The software 40-2 is music software. When the process 41-i is the process 41-m (music playback process and download process), the user can listen to music with the device 3-2, and the remote controller 1 can store music information related to the music. Can see.
For example, the server 5 is provided with a recording medium in which music data is stored. Alternatively, a part of the storage area of the storage unit 53 corresponds to the recording medium. In this case, when the process 41-m in the software 40-2 is executed, the execution unit 51 of the server 5 reproduces the music data stored in the recording medium and outputs it to the output unit 37 of the device 3-2. In this case, the output data 70 is music data. The music data is output to the speaker of the output unit 37 of the device 3-2.
Further, the execution unit 51 downloads music information from the provider 101 and transmits it to the remote controller 1 via the device 3-2. In this case, the related data 71 is music information. The music information is displayed on the display unit 17 of the remote controller 1.

As described above, according to the device control system of the present invention, the remote controller 1 can select the above-described candidate device group 3 from among the devices 3-1 to 3-n as the device 3-1 that the user wants to use. -1, 3-2 can be narrowed down.
Further, according to the device control system of the present invention, space saving can be realized by using the device 3-j as an output device and storing the corresponding software 40-j in the server 5. .
Further, according to the device control system of the present invention, the search accuracy when the remote controller 1 searches for the candidate device groups 3-1 and 3-2 is improved.
According to the device control system of the present invention, when communication between the remote controller 1 and the device 3-1 is determined (determined / established), the user does not need to point the remote controller 1 at the device 3-1. Operability is improved.
According to the device control system of the present invention, when communication between the remote controller 1 and the device 3-1 is determined (determined / established), the user only has to operate the remote controller 1 to obtain the related data 71. , The usability is improved for the user.

  In the device control system of the present invention, device 3- (n + 1) and software 40- (n + 1) can be added as new devices and software, respectively. Here, when the user purchases the software 40- (n + 1), the name of the software 40- (n + 1), the software identifier 40- (n + 1) ′ for identifying the software 40- (n + 1), and the software 40- The names of the plurality of processes 41-1 to 41-m in (n + 1) and the plurality of process identifiers 41-1 ′ to 41-m ′ for identifying each of the plurality of processes 41-1 to 41-m are described. Manuals shall be provided.

  In this case, the user operates the device 3- (n + 1) to store the name of the device 3- (n + 1) and the device identifier 35- identifying the device 3- (n + 1) in the device storage unit 35. (N + 1) ′ is stored, and the user operates the server 5 to store the software 40- (n + 1) in the execution storage unit 54. At this time, a plurality of processes 41-1 to 41-m in the software 40- (n + 1) are also stored. The user operates the server 5 and the remote controller 1 to store the name of the device 3- (n + 1), the device identifier 35- (n + 1) ′, and the software 40− in the device storage units 55 and 15, respectively. The name of (n + 1) and the software identifier 40- (n + 1) ′ are stored, and the name of the software 40- (n + 1) and the software identifier 40- (n + 1) ′ are stored in the processing storage units 56 and 16. The names of the plurality of processes 41-1 to 41-m in the software 40- (n + 1) and the plurality of process identifiers 41-1 ′ to 41-m ′ may be stored.

FIG. 1 shows the configuration of the device control system of the present invention. (First to third embodiments) FIG. 2 shows the configuration of the device 3-j (j = 1, 2,..., N). (First to third embodiments) FIG. 3 shows the device storage unit 35 of the device 3-j. (First to third embodiments) FIG. 4 shows the configuration of the server 5. (First to third embodiments) FIG. 5 shows the execution storage unit 54 of the server 5. (First to third embodiments) FIG. 6 shows the device storage unit 55 of the server 5. (First to third embodiments) FIG. 7 shows the processing storage unit 56 of the server 5. (First to third embodiments) FIG. 8 shows the configuration of the remote controller 1. (1st Embodiment, 3rd Embodiment) FIG. 9 shows the device storage unit 15 of the remote controller 1. (First to third embodiments) FIG. 10 shows the processing storage unit 16 of the remote controller 1. (First to third embodiments) FIG. 11 is a flowchart showing a device control process that is an operation of the device control system of the present invention. (First to third embodiments) FIG. 12 is a diagram for explaining the operation of the device control system of the present invention. (First to third embodiments) FIG. 13 shows the device selection screen 60. (First to third embodiments) FIG. 14 is a flowchart showing output command processing (step S8) in the operation of the device control system of the present invention. (First to third embodiments) FIG. 15 shows a process selection screen 65. (First to third embodiments) FIG. 16 is a diagram for explaining search processing (step S2) in the operation of the device control system of the present invention. (First to third embodiments) FIG. 17 is a diagram for explaining search processing (step S2) in the operation of the device control system of the present invention. (First to third embodiments) FIG. 18 is a flowchart showing search processing (step S2) and response processing (step S3) in the operation of the device control system of the present invention. (First to third embodiments) FIG. 19 is a flowchart showing device selection screen display processing (step S4) and communication establishment processing (step S7) in the operation of the device control system of the present invention. (1st Embodiment, 3rd Embodiment) FIG. 20 shows the configuration of the remote controller 1. (2nd Embodiment, 3rd Embodiment) FIG. 21 is a flowchart showing a device selection screen display process (step S4) and a communication establishment process (step S7) in the operation of the device control system of the present invention. (2nd Embodiment, 3rd Embodiment) FIG. 22 is a flowchart showing an execution process (step S14) in the operation of the device control system of the present invention. (Third embodiment)

Explanation of symbols

1 Remote control terminal (remote control)
2 Radio wave 3-1 to 3-n, 3-j (j = 1, 2,..., N) Device 4 Communication path 5 Server 10 Directional antenna 11 Radio unit 12 Control unit 13 Storage unit 15 Device storage unit 14 Communication Establishment information (communication flag)
DESCRIPTION OF SYMBOLS 16 Processing memory | storage part 17 Display part 18 Input part 18-1 Search button 18-2 Scroll button 18-3 Determination button 18-4 Various operation buttons 19 Omnidirectional antenna 20 Radio wave reach 21 Search signal 22 Response signal 23 Command 24 Execution command 25 End command 28 Acquisition signal 30 Omnidirectional antenna 31 Radio unit 32 Control unit 33 Storage unit 35 Device storage unit 35-1 ′ to 35-n ′, 35-j ′ (j = 1, 2,... n) Device identifier 37 Output unit (display unit, speaker)
40-1 to 40-n, 40-j (j = 1, 2,..., N) Software 40-1 ′ to 40-n ′, 40-j ′ (j = 1, 2,..., N) Software identifier 41-1 to 41-m, 40-i (i = 1, 2,..., M) Process 41-1 ′ to 41-m ′, 40-i ′ (i = 1, 2,..., M) Process identifier 51 execution unit 53 storage unit 54 execution storage unit 55 device storage unit 56 processing storage unit 60 device selection screen 61 most probable candidate device column 65 processing selection screen 66 processing selection column 70 output data 71 related data 100 network 101 provider 200 Antenna cable 201 TV antenna E _{1 to} E _N radio wave intensity value

Claims (14)

A plurality of devices including an omnidirectional antenna and a radio unit;
A remote control terminal (hereinafter referred to as a remote control) including a directional antenna, a wireless unit, a control unit, and a display unit;
When the user points the remote control at one of the devices,
The wireless unit of the remote control transmits a search signal by radio waves to the one device via the directional antenna of the remote control in response to a search instruction by the user,
The wireless unit of the candidate device group of the plurality of devices, in response to the search signal, transmits a response signal by radio wave via the omnidirectional antenna of the candidate device group,
The candidate device group includes the one device,
The control unit of the remote controller displays a device selection screen for a user to determine communication between the remote controller and the one device of the candidate device group in response to the response signal from the candidate device group. Device control system that displays on the remote control display. The device control system according to claim 1,
Furthermore,
An execution storage unit storing a plurality of software corresponding to each of the plurality of devices, a device storage unit storing a plurality of device identifiers identifying each of the plurality of devices, and a communication path And a server provided with an execution unit,
The plurality of devices further includes a device storage unit storing a device identifier for identifying the device, a control unit connected to the communication path, and an output unit,
The remote control further includes a device storage unit in which the plurality of device identifiers are stored,
When the first device is selected as the one device by the user, the wireless unit of the remote controller selects a first one corresponding to the first device among the plurality of device identifiers stored in the device storage unit. A command including one device identifier is transmitted to the first device via radio waves via a directional antenna of the remote control;
When the first device identifier included in the command matches the device identifier stored in the device storage unit of the first device, the control unit of the first device sends the command to the server. Output via the communication path,
The execution unit of the server executes first software corresponding to the first device out of the plurality of software in response to the command from the first device, and uses the execution result as output data. A device control system for outputting to the output unit of one device via the communication path. In the apparatus control system according to claim 2,
When the user points the remote control at the one device,
The wireless unit of the remote control transmits the search signal by radio waves to the one device via the directional antenna of the remote control in response to a search instruction by a user,
The control unit of the remote controller increases in this order from the first to the Nth (N is an integer of 2 or more) as a radio wave intensity value representing a radio wave intensity when the radio unit of the remote controller transmits the search signal by radio waves. N radio wave intensity values E _{1 to} E _N are periodically changed in this order,
The wireless unit of the candidate device group receives the search signal from the remote control by the omnidirectional antenna of the candidate device group,
The control unit of the candidate device group measures a reception date and time when the wireless unit of the candidate device group receives the search signal, and a received radio wave intensity value E _J representing the radio wave intensity at that time,
Radio portion of the candidate device group, by radio the reply signal including the said reception date in the candidate device group and the received wave intensity value E _J and the device identifier, via the non-directional antenna of the candidate device group Send
The wireless unit of the remote control receives the response signal from the candidate device group by a directional antenna of the remote control,
The device selection screen includes the most likely candidate device column,
The controller of the remote control is
Display the device selection screen on the display of the remote control,
For the reception date and time in the same time zone included in the response signal, the device identifiers in the candidate device group are rearranged in descending order of the received radio wave intensity value E _{J in the} most probable candidate device column. Notation,
When the first device identifier of the device identifiers in the candidate device group is selected by the user as the first device,
The radio unit of the remote control uses the radio field intensity value E _I to transmit the command including the first device identifier to the first device via a directional antenna of the remote control using radio waves. system. In the equipment control system according to claim 3,
The time is {t (x) | t (x) = t (1), t (2),..., T (y)} (y is a multiple of 4), and the period is T (T = t (y)) And when the radio field intensity value E _N among the _N radio field intensity values E _{1 to} E _N is the maximum value and the function of the time {t (x)} is f (x),
The controller of the remote control is

By periodically changing the radio wave intensity value representing the radio wave intensity when the radio unit of the remote control transmits the search signal by radio wave,
Time t (y) ~ time t ((1/4) × y) corresponds to the radio wave intensity value _{E N} / _2~E N of the N radio intensity values _E 1 to E _N,
Time t ((1/4) × y) to time t (xy) correspond to radio field intensity values E _{N to} E _N / 2 among the _N radio field intensity values E _{1 to} E _N ,
Time t (× y) ~ time t ((3/4) × y) corresponds to the radio wave intensity value _E N / _{2~E 1} among the N radio intensity values _E 1 to E _N,
Time t ((3/4) × y) ~ time t (y) is the N radio intensity values _E 1 _{to E} N / 2 to the corresponding device control system of the radio wave intensity values _E 1 to E _N . In the equipment control system according to claim 3 or 4,
The radio unit of the remote controller uses radio field intensity values E _I (I = 1, 2,..., N) (E _J ≦ E _I ≦ E _N ) among the _N radio field intensity values E _{1 to} E _N. When the search signal is transmitted by radio waves, the response signal from the candidate device group is received by the directional antenna of the remote controller,
When the first device identifier of the device identifiers in the candidate device group is selected by the user as the first device,
The control unit of the remote control adjusts a radio field intensity value representing a radio field intensity when the search signal is transmitted by radio waves to the radio field intensity value E _I ,
The radio unit of the remote control uses the radio field intensity value E _I to transmit the command including the first device identifier to the first device via a directional antenna of the remote control using radio waves. system. In the apparatus control system according to claim 5,
The remote control further includes an omnidirectional antenna,
When the first device is selected by a user, the wireless unit of the remote control is
The antenna used by the remote control is switched from the directional antenna of the remote control to the omnidirectional antenna of the remote control,
A device control system for transmitting the command by radio waves via an omnidirectional antenna of the remote controller. In the apparatus control system in any one of Claims 2-6,
The remote controller and the server further include a processing storage unit that stores a plurality of process identifiers that identify a plurality of processes executed by each of the plurality of software.
The controller of the remote control is
When the wireless unit of the remote control transmits the command by radio waves, referring to the processing storage unit of the remote control, select the plurality of processing identifiers for the first software,
Displaying a process selection screen for a user to select one of the plurality of process identifiers for the first software on the display unit of the remote control;
When the first process identifier is selected by the user as the one process identifier for the first software, the radio unit of the remote control includes the first device identifier and the first process identifier as the instructions. Send instructions by radio wave,
When the first device identifier included in the execution command matches the device identifier stored in the device storage unit of the first device, the control unit of the first device sends the execution command to the server. Output via the communication path,
The execution unit of the server receives the execution instruction from the first device, and among the plurality of processes in the first software, a first process corresponding to the first process identifier included in the execution instruction And a device control system for outputting the execution result as the output data to the output unit of the first device via the communication path. In the apparatus control system in any one of Claims 2-7,
The first software is software for a user to watch a TV program,
The server is connected to a television antenna;
When the first software is executed, the execution unit of the server receives the TV program by the TV antenna,
The output data is program data representing the television program,
The output unit of the first device includes a display unit, and the program data is displayed on the display unit of the first device. In the apparatus control system in any one of Claims 2-7,
The first software is software for a user to listen to music,
When a recording medium storing music data representing the music is provided in the server, when the first software is executed, the execution unit of the server stores the music data stored in the recording medium. Play and
The output data is the music data,
The output unit of the first device includes a speaker, and the music data is output to the speaker of the first device. In the equipment control system according to claim 7,
The server is connected via a network to a provider that provides related data related to the output data;
The first process in the first software is a device control system including a download process for the server to acquire the related data from the provider. In the apparatus control system according to claim 10,
The wireless unit of the remote control transmits the execution command further including the related data request instruction by radio waves in response to a related data request instruction by a user,
When the first device identifier included in the execution command matches the device identifier stored in the device storage unit of the first device, the control unit of the first device sends the execution command to the server. Output via the communication path,
The execution unit of the server receives the execution command from the first device, outputs the execution result of the first process to the output unit of the first device as the output data, and relates to the output data Download related data from the provider, and output to the first device via the communication path,
The wireless unit of the first device transmits an acquisition signal including the related data from the server and the device identifier of the first device by radio waves,
When the device identifier included in the acquisition signal matches the first device identifier stored in the device storage unit of the remote control, the control unit of the remote control may store the related data included in the acquisition signal. A device control system for displaying on the display unit of the remote controller. In the apparatus control system according to claim 11,
The first software is software for a user to watch a TV program,
The server is connected to a television antenna;
When the first software is executed, the execution unit of the server receives the TV program by the TV antenna,
The output data is program data representing the television program,
The output unit of the first device includes a display unit, and the program data is displayed on the display unit of the first device,
The related data is EPG (Electric Program Guide) related to the television program,
When the first process in the first software is executed, the execution unit of the server downloads the EPG from the provider and transmits the EPG to the first device. In the apparatus control system according to claim 11,
The first software is software for a user to listen to music,
When a recording medium storing music data representing the music is provided in the server, when the first software is executed, the execution unit of the server stores the music data stored in the recording medium. Play and
The output data is the music data,
The output unit of the first device includes a speaker, and the music data is output to the speaker of the first device,
The related data is music information related to the music,
When the first process in the first software is executed, the execution unit of the server downloads the music information from the provider and transmits the music information to the first device. A remote control terminal (hereinafter also referred to as a remote controller) that is applied to a plurality of devices that include an omnidirectional antenna and that retains a device identifier that identifies the device,
A directional antenna,
When the user points the remote control to one of the plurality of devices, a search signal is transmitted to the one device via the directional antenna by radio waves in response to a search instruction from the user. A radio unit to
N radio field intensity values E ₁ to E ₁ that increase in this order from the first to the Nth (N is an integer of 2 or more) as radio field intensity values representing radio field intensity when the wireless unit transmits the search signal by radio waves. the E _N and a control unit for periodically changing in this order,
A display unit,
The candidate device group receives the search signal from the remote control by its omnidirectional antenna, receives a reception date and time when the search signal is received, and a received radio wave intensity value E _J representing the radio wave intensity at that time Measuring and transmitting a response signal including the reception date and time, the received radio wave intensity value E _J and the device identifier in the candidate device group via radio waves via the omnidirectional antenna,
The radio unit receives the response signal from the candidate device group by the directional antenna,
The controller is
Display the device selection screen including the most promising candidate device column on the display unit,
For the reception date and time in the same time zone included in the response signal, the device identifiers in the candidate device group are rearranged in descending order of the received radio wave intensity value E _{J in the} most probable candidate device column. Notation,
When the first device identifier of the device identifiers in the candidate device group is selected by the user as the one device,
The radio unit uses the radio field intensity value E _I to transmit a command including the first device identifier to the one device via the directional antenna by radio waves.

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