JP4033652B2 - Wireless operation system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless operation system that wirelessly operates various operation targets and the mobile communication terminal itself in a situation where a user carries the mobile communication terminal.
[0002]
[Prior art]
In recent years, mobile phones (mobile communication terminals) have exploded in popularity, and the majority of people have mobile phones. In the situation where mobile phones are widely used by many people, mobile phones can be made more convenient by making it possible to use the mobile phones to perform various things other than calls.
[0003]
At present, cellular phones are not limited to mere communication devices, but are multi-function devices capable of executing various processes. It is conceivable to operate other devices by utilizing this processing capability. For example, it is conceivable to use a mobile phone to lock the door, to replace the mobile phone with a ticket, to pay a fee with the mobile phone, and to monitor the state with the mobile phone.
[0004]
[Problems to be solved by the invention]
However, a conventional mobile phone is connected to the outside via a mobile communication network and operates other devices, and therefore, a usage fee (communication cost) of the mobile communication network is incurred for performing the operation. become. For example, communication costs are required even for daily activities such as unlocking a house using a mobile phone. In addition, operations using the mobile phone cannot be performed in places where the radio wave of the mobile communication network does not reach or where use of the mobile phone is prohibited.
[0005]
In order to solve such a problem, it is conceivable that a short-distance wireless communication function is built in the mobile phone and an operation is performed using this communication function. As a result, it is possible to eliminate the inconvenience that the daily operation as described above requires communication costs. For example, considering the operation of purchasing canned beverages with a vending machine using a mobile phone, the operation through the mobile communication network must bear the communication fee of the mobile phone in addition to the price of the canned beverage. However, such a communication fee does not have to be borne by an operation using the short-range wireless communication function.
[0006]
However, operations using a mobile phone with a built-in short-range wireless function are limited to users who have purchased such mobile phones, and users who use ordinary mobile phones perform such operations. There is a problem that can not be.
[0007]
This leads to a situation in which most mobile phone users cannot use the service with their mobile phones at the start of the service for operating the device using the mobile phone. In addition, the service provider cannot expand the business of the service using the short-range wireless function until many of the users of the mobile phone replace the mobile phone with a built-in short-range wireless function. Alternatively, in order to improve such a situation, it becomes necessary to make an additional investment that promotes replacement of mobile phones.
[0008]
Furthermore, at the start of a service for operating a device using a mobile phone, the operation target often does not have a short-range wireless function, and the operation target that can be operated is limited.
[0009]
The present invention has been made in view of the above problems, and an object thereof is a wireless operation system that wirelessly operates various operation targets and the mobile communication terminal itself in a situation where the user is carrying the mobile communication terminal. By providing the service, convenience is provided to the user who uses the mobile communication terminal.
[0010]
[Means for Solving the Problems]
A wireless operation system according to the present invention is a wireless operation system that is used together with a mobile communication terminal to wirelessly operate an operation target, and operation information necessary for operation of the operation target to solve the above-described problem Receiving side comprising: a transmission side device comprising a transmission means for transmitting the information by short-range radio; a reception means for receiving the operation information; and an operation means for operating an operation object based on the operation information received by the reception means A communication means capable of directly communicating with the portable communication terminal by being carried with the portable communication terminal, and a portable communication terminal obtained from the portable communication terminal via the communication means An operation information generating unit that generates operation information based on the information is provided.
[0011]
At present, the portable communication terminal is not limited to a communication device but is a multi-function device capable of executing various processes. It is conceivable to operate other devices by utilizing this processing capability. However, the mobile communication terminal is basically connected to the outside through the mobile communication network, and when another device is operated through the mobile communication network, a usage fee for the mobile communication network is generated. Further, even if the mobile communication terminal is connected to the outside via the mobile communication network, an operation target that cannot be connected to the mobile communication network cannot be operated.
[0012]
In the above configuration, a communication unit capable of directly communicating with the mobile communication terminal, and an operation information generating unit that generates operation information based on the mobile communication terminal information acquired from the mobile communication terminal via the communication unit. And transmission means for transmitting operation information by short-range radio. In addition, the receiving device includes a receiving unit that receives operation information and an operation unit that operates an operation target based on the received operation information. Thereby, the operation information using the function of the mobile communication terminal can be transmitted to the operation target side without going through the mobile communication terminal, and the operation target can be operated based on the operation information. Therefore, the operation target can be operated without using the mobile communication network, and the generation of a usage fee for the mobile communication network can be avoided. In addition, by providing an operation unit that is an operation target in the reception-side device, it is possible to operate an operation target that has not been able to perform near field communication. Furthermore, even in a mobile communication terminal that does not have a short-range wireless communication function, the operation of the operation target can be performed by enabling direct communication by connecting a transmission side device or the like.
[0013]
As a result, in the situation where the user is carrying the mobile communication terminal, various operation objects can be wirelessly operated more easily, so that the user using the mobile communication terminal can be provided with convenience. become.
[0014]
A wireless operation system according to the present invention includes: the above In the wireless operation system, the mobile communication terminal information is unique identification information of the mobile communication terminal, the operation information includes the identification information, and the receiving side device stores the identification information. Storage means, and discrimination means for discriminating whether or not the identification information received by the receiving means matches the identification information stored in the storage means, wherein the operating means is the discrimination result by the discrimination means It is preferable to operate the operation target based on the above.
[0015]
Since the mobile communication terminal is normally used by an individual or a limited person, the identification information of the mobile communication terminal can be regarded as indicating the user who uses the mobile communication terminal. In the above configuration, the identification information is acquired and transmitted by the transmission side device, and the determination unit determines whether or not the identification information received by the reception side device matches the identification information stored in the storage unit. Then, based on the result, the operating means operates the operation target. Here, since the transmitting device transmits identification information to the receiving device by short-range wireless communication, the operation target is operated only when the user carrying the mobile communication terminal and the transmitting device approaches the receiving device. It will be. That is, it is possible to perform control such that the operation target is operated only when a specific person approaches the receiving device.
[0016]
A wireless operation system according to the present invention includes: the above In the wireless operation system, it is preferable that the transmission unit automatically transmits the operation information when communication with the reception unit is enabled.
[0017]
In the above configuration, the user can operate the operation target only by approaching the reception side device without operating the portable communication terminal or the transmission side device carried by the user.
[0018]
A wireless operation system according to the present invention includes: the above In the wireless operation system, the portable communication terminal or the transmission side device further includes an input unit that receives an input for operating the operation target, and the transmission unit waits for an input to the input unit and operates information Is preferably transmitted.
[0019]
In the above configuration, the operation target is operated only when the user intends to operate the operation target, and unnecessary operations can be prevented.
[0020]
A wireless operation system according to the present invention includes: the above In the wireless operation system, the transmission side device further includes transmission side device storage means for storing transmission side device identification information unique to the transmission side device, and the operation information further includes the transmission side device identification information. The storage device of the receiving device further stores the transmitting device identification information, and the determining device stores the identification information and the transmitting device identification information received by the receiving device, and the storage device. It is preferable to determine whether or not the identification information and the transmitting apparatus identification information match, and the operation means operates the operation target based on the determination result by the determination means.
[0021]
In the above configuration, in addition to the identification information of the mobile communication terminal, it is also determined whether or not the transmission side device identification information of the transmission side device matches, and the operation target is operated based on the determination result. Thereby, for example, even when one of the mobile communication terminal and the transmission side device is stolen, the operation of the operation target due to their unauthorized use can be prevented.
[0022]
A wireless operation system according to the present invention includes: the above In the wireless operation system, it is preferable that the direct communication between the portable communication terminal and the transmission side device is wireless communication.
[0023]
In the above configuration, the mobile communication terminal and the transmission side device can be stored and carried separately. Thereby, it is possible to prevent the portable communication terminal and the transmission side device from being stolen at the same time and being used illegally and operating the operation target.
[0024]
A wireless operation system according to the present invention includes: the above The wireless operation system further includes a portable communication terminal and a center device capable of communicating with the portable communication terminal via a communication network, and the portable communication terminal transmits the identification information to the center device. A communication terminal transmitting means, wherein the center device includes a center device receiving means for receiving the identification information, and a center device transmitting means for transmitting the received identification information via a communication network. It is preferable to include a registration unit that receives the identification information transmitted from the center device and stores the identification information in the storage unit.
[0025]
In the above configuration, the user transmits the identification information of the mobile communication terminal to the center apparatus using the communication function of the mobile communication terminal, and the center apparatus transmits the identification information to the reception side apparatus. Identification information can be registered. Thereby, for example, when the operation target is public, the user can register the identification information using the mobile communication terminal. Further, through the center device, for example, registration of identification information can be permitted only when a predetermined condition is satisfied in the center device, and management of a user who operates an operation target becomes possible. .
[0026]
A wireless operation system according to the present invention is a wireless operation system for wirelessly operating a mobile communication terminal. In order to solve the above-described problem, a detection unit that detects a state of a monitoring target, and the detection unit Based on the transmission side device provided with a transmission means for transmitting the monitoring information representing the detected state of the monitoring object by short-range wireless, the reception means for receiving the monitoring information, and the monitoring information received by the reception means Operation information generating means for generating operation information for operating the mobile communication terminal, and communication means for communicating directly with the mobile communication terminal by being carried with the mobile communication terminal and transmitting the operation information to the mobile communication terminal And a receiving side device including
[0027]
In the above configuration, the mobile communication terminal can be operated according to the state of the monitoring target by sending operation information according to the state of the monitoring target to the mobile communication terminal. At this time, above Similar to the wireless operation system, it is possible to avoid the usage fee of the mobile communication network, and it is also possible to monitor a monitoring target that has not been able to perform conventional short-range wireless communication. Even in a mobile communication terminal that does not have a mobile communication terminal, it is possible to operate the mobile communication terminal by enabling direct communication by connecting a receiving device.
[0028]
As a result, in a situation where the user is carrying the mobile communication terminal, the mobile communication terminal can be operated wirelessly more easily, and the user using the mobile communication terminal can be provided with convenience. Become.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1
The following describes the first embodiment of the present invention with reference to FIGS.
(System configuration)
FIG. 1 is a conceptual diagram showing a configuration of a wireless operation system in the present embodiment. This wireless operation system is for operating the operation target 5, and basically includes a mobile phone 1, an adapter 2, a short-range wireless unit 3, and an operation target control unit 4. In addition to the basic configuration, the mobile phone communication network 6, the network 7 such as the Internet, and the center device 8 may be included.
[0030]
The mobile phone 1 is connected to the mobile phone communication network 6 and can perform data communication via the mobile phone communication network 6. The mobile phone communication network 6 is also connected to the network 7. The short-range wireless unit 3 may be connected to the cellular phone communication network 6 or the network 7 to enable data communication. The center device 8 is connected to the network 7 and can perform data communication via the network 7.
[0031]
Here, the cellular phone 1 and the adapter 2 are carried by the user of the wireless operation system. In this wireless operation system, a user can operate an operation target with the mobile phone 1 and the adapter 2. At this time, the adapter 2 and the short-range wireless unit 3 communicate by short-range wireless. The short-range wireless unit 3 receives the wireless signal transmitted from the adapter 2 and transmits a control signal to the operation target control unit 4. The operation target control unit 4 controls the operation target 5 based on the control signal.
[0032]
A service provider using this wireless operation system normally provides the adapter 2, the short-range wireless unit 3, and the operation target control unit 4 to the user, and installs the center device 8 as necessary. The user connects the adapter 2 to the mobile phone 1 originally used by the user and attaches the operation target control unit 4 to the operation target 5 for use. If the operation target 5 is public, the operation target control unit 4 may be installed by a service provider.
[0033]
The method of providing the adapter 2 and the like from the service provider to the user may be any of sales as a product, paid or free lending, or indirect provision via a third party.
[0034]
The service provider may be one company or a plurality of companies. As the service provider, for example, a mobile phone service provider can be considered.
[0035]
The service to the user is the operation of the operation target 5 by the cooperation (which may include the center device 8) of the mobile phone 1, the adapter 2, the short-range wireless unit 3, and the operation target control unit 4.
[0036]
In addition to humans, users can also consider animals, plants, machines, computer systems, robots, and the like, and the wireless operation system has an intention that causes the operation target 5 to be operated by switch operation, movement, movement, state change, etc. Anything that can be given to.
(Configuration of mobile phone / adapter)
2A and 2B show the external appearance of the mobile phone 1 and the adapter 2 in this embodiment. FIG. 2A is a front view and FIG. 2B is a perspective view.
[0037]
The mobile phone 1 in FIG. 2 has both a call function and a data communication function, and includes a connector 18 for connecting to the adapter 2, an input key 16 including various button keys such as a numeric keypad and a cross key, and An LCD (Liquid Crystal Display) 17 is provided. The adapter 2 in FIG. 2 includes a connector 28 for connecting to the connector 18 of the mobile phone 1 and an operation unit 26. The adapter 2 may not include the operation unit 26.
[0038]
Note that the mobile phone 1 and the adapter 2 in the present embodiment may be those shown in FIG. FIG. 3 shows the external appearance of the card-type mobile phone 101 and the card-type mobile phone adapter 102 according to this embodiment. FIG. 3 (a) is a front view and FIG. 3 (b) is a perspective view.
[0039]
The card type mobile phone 101 of FIG. 3 has only a data communication function without a call function, and includes a connector 118 such as a PCMCIA (Personal Computer Memory Card International Association) interface for connection with the adapter 102. . The card-type mobile phone adapter 102 includes a card slot 102a for inserting the card-type mobile phone 101, a connector 128 for connecting to the connector 118 of the card-type mobile phone 101 inside the card slot 102a, and an operation unit. 126 is provided.
[0040]
Further, the mobile phone 1 and the adapter 2 in the present embodiment may be those shown in FIG. FIG. 4A shows a board type mobile phone 201 and a board type mobile phone adapter 202. The back cover 202a of the board type mobile phone adapter 202 is opened and the board type mobile phone 201 is used for the board type mobile phone. The adapter 202 can be built in. FIG. 4B shows a difference from the mobile phone 1 and the adapter 2 of FIG. 2 only in that the mobile phone 301 and the adapter 302 can perform wireless communication. FIG. 4C shows a mobile phone 401 including a pen-type mobile phone main body 401 a and a headset 401 b, and an adapter 402 capable of wireless communication with the mobile phone 401.
[0041]
In the following description, the cellular phone 1 and the adapter 2 in FIG. 2 are assumed unless otherwise specified. However, other types of cellular phones and adapters may be used.
[0042]
FIG. 5 is a block diagram showing an internal configuration of the mobile phone 1. The cellular phone 1 includes a CPU (Central Processing Unit) 12, a memory 13, an adapter interface circuit 14, a packet communication circuit 15, an input key 16, and an LCD (Liquid Crystal Display) 17 via a bus 11. It is a connected configuration. A connector 18 is connected to the adapter interface circuit 14.
[0043]
The CPU 12 is constituted by, for example, a microcomputer, and performs various controls of the mobile phone 1 in accordance with user instructions received with the input keys 16 and instructions from various telephone base stations.
[0044]
The memory 13 includes a known memory represented by a RAM (Random Access Memory) and a ROM (Read Only Memory), and stores various programs and data used by the CPU 12 in addition to a telephone number database.
[0045]
The adapter interface circuit 14 is an interface for performing data communication with the adapter 2 in a state where the connector 28 of the adapter 2 is connected to the connector 18.
[0046]
The packet communication circuit 15 is a known communication circuit that performs packet-type wireless telephone communication using the antenna 15 a under the control of the CPU 12.
[0047]
The input key 16 includes various button keys such as a numeric keypad and a cross key, and is a known interface for the user to input a telephone number and various information.
[0048]
The LCD 17 is a display unit that visually displays various messages to the user under the control of the CPU 12. The LCD 17 can also display call destination telephone number information and time information.
[0049]
Although omitted in FIG. 5, since the mobile phone 1 has a general telephone function, it is also provided with a microphone for capturing the voice of the speaker and a speaker for outputting the voice of the call.
[0050]
FIG. 6 is a block diagram showing the internal configuration of the adapter 2. The adapter 2 has a configuration in which a CPU 22, a memory 23, a mobile phone interface circuit 24, a short-range wireless communication circuit 25, and an operation unit 26 are connected via a bus 21. A connector 28 is connected to the mobile phone interface circuit 24. The operation unit 26 may not be provided.
[0051]
The CPU 22 is constituted by, for example, a microcomputer, and various types of adapters 2 can be selected according to signals received from the mobile phone 1 via the connector 28 and the mobile phone interface circuit 24 and user instructions received at the operation unit 26. Control is performed.
[0052]
The memory 23 is configured by a known memory represented by RAM and ROM, and stores various programs and data used by the CPU 22.
[0053]
The cellular phone interface circuit 24 is an interface for performing data communication with the cellular phone 1 in a state where the connector 18 of the cellular phone 1 is connected to the connector 28.
[0054]
The near field communication circuit 25 is a known communication circuit that performs near field communication using the antenna 25 a under the control of the CPU 22. As the short-range wireless communication system, a 2.4 GHz 11 Mbps LAN (Local Area Network) standard, a blue-Tooth (registered trademark) standard using weak radio waves, or a system using infrared rays can be used. The standard communicable distance of these short-range wireless communication standards is about several tens to several hundreds of meters indoors.
[0055]
The operation unit 26 may be anything that can transmit the user's operation intention, such as an operation switch, for example, and the user's operation intention can be input to the adapter 2 by operating the user. It is like that. The operation switch may have a sensor function such as a photoelectric switch in addition to a mechanical operation.
[0056]
In addition to the operation switch, the operation unit 26 may be as follows. For example, the user can indicate his / her intention to operate the adapter 2 by attaching a voice detecting means and a voice recognition means such as a microphone as the operation unit 26 and inputting the voice. In addition, by attaching a means for detecting an impact or vibration and a means for detecting a specific impact or vibration to the adapter 2 as the operation unit 26, the user indicates an intention to operate by applying the shock or vibration to the adapter 2. Can do. Moreover, the adapter 2 is equipped with a short-distance wireless means that operates separately from the short-distance wireless communication circuit 25 for performing communication with the operation target control unit 4 as the operation unit 26, and is combined with a remote controller that uses the short-distance wireless. Thus, the operation intention can be shown by remote control operation. The adapter 2 may be provided with means for acquiring image information such as a CCD camera as the operation unit 26 and judging based on the contents of the image, and the intention of operation can be shown using the image. For example, the user can indicate his / her intention to operate by holding his / her hand in front of the CCD camera or recognizing personal features such as a face, fingerprint, palm print, animal hair pattern, and the like. It is also possible to indicate the intention of operation by photographing paper with a CCD camera and writing characters and figures on the paper. Furthermore, information that can be input as an image, such as a barcode that can be identified by the system, can be printed on the plate and presented to the CCD camera.
[0057]
By providing such an operation unit 26, even a user such as a pet, an elderly person, or a robot who cannot learn complicated operations can easily operate.
(Adapter to operation target configuration)
FIG. 7 is a block diagram illustrating a relationship among the adapter 2, the short-range wireless unit 3, the operation target control unit 4, and the operation target 5.
[0058]
As described above, the adapter 2 and the short-range wireless unit 3 perform data communication by short-range wireless, and a wireless signal is transmitted from the adapter 2 to the short-range wireless unit 3. The short-range wireless unit 3 and the operation target control unit 4 are normally connected by a cable or a connector to perform data communication, and a control signal is sent from the short-range wireless unit 3 to the operation target control unit 4. The operation target control unit 4 and the operation target 5 are connected in different forms depending on the operation target 5 as described later.
[0059]
Note that the short-range wireless unit 3 and the operation target control unit 4 may be configured integrally. Further, the control signal may be a light or wireless signal other than the electrical signal.
[0060]
The adapter 2 transmits a wireless signal, and the short-range wireless unit 3 receives the wireless signal. The radio signal includes information (operation information) for operating the operation target 5. The short-range wireless unit 3 converts the received wireless signal into a control signal and sends it to the operation target control unit 4. The operation target control unit 4 performs control for each operation target 5 based on a control signal sent from the short-range wireless unit 3.
[0061]
FIG. 8 is a block diagram showing the internal configuration of the short-range wireless unit 3. The short-range wireless unit 3 has a configuration in which a CPU 32, a memory 33, an operation target control unit interface circuit 34, and a network communication circuit 36 are connected via a bus 31. The network communication circuit 36 may not be necessary.
[0062]
The CPU 32 is constituted by, for example, a microcomputer, and performs various controls of the short-range wireless unit 3 according to a radio signal received from the adapter 2 via the antenna 35a and the short-range wireless communication circuit 35, and an operation target control unit. A control signal is sent to the operation target control unit 4 via the interface circuit 34.
[0063]
The memory 33 is configured by a known memory represented by a RAM and a ROM, and stores various programs and data used by the CPU 32.
[0064]
The operation target control unit interface circuit 34 is an interface for sending a control signal to the operation target control unit 4.
[0065]
The near field communication circuit 35 is a known communication circuit that performs near field communication using the antenna 25a under the control of the CPU 32.
[0066]
The network communication circuit 36 is a known communication circuit that performs data communication via the network 7 under the control of the CPU 32. Instead of the network communication circuit 36, a packet communication circuit that performs communication via the mobile phone communication network 6 may be provided.
[0067]
FIG. 9 is a block diagram showing an internal configuration of the operation target control unit 4. The operation target control unit 4 has a configuration in which a short-range wireless unit interface circuit 44 and an operation target operation unit 45 are connected via a CPU 42.
[0068]
The CPU 32 is constituted by a microcomputer, for example, and controls the operation target operation unit 45 in accordance with a control signal received from the short-range wireless unit 3 via the short-range wireless unit interface circuit 44.
[0069]
The operation target operation unit 45 is configured differently depending on the operation target 5. For example, when the operation target 5 is controlled by a mechanical switch, button, lever, or the like, the operation target operation unit 45 mechanically moves the switch, button, lever, or the like with a configuration including an actuator, a solenoid, or the like. Become a thing.
[0070]
When the operation target 5 is electrically controlled, the operation target operation unit 45 controls the operation target 5 by supplying a predetermined voltage or current to a predetermined circuit of the operation target 5. For example, setting / releasing of a door lock of an automobile, opening / closing of a window, opening of a trunk, etc. can be considered.
[0071]
In a case where the operation target 5 is controlled by a signal sent via a network such as a LAN, the operation target operation unit 45 can be connected to such a network and controls the operation target 5 via the network. It will be the one that sends the signal. For example, when the content constructed on the Web server is the operation target 5, the updating of the content is controlled by this method.
[0072]
When the operation target 5 is controlled by receiving a signal by weak radio waves, infrared rays, or the like, the operation target operation unit 45 transmits such a signal.
[0073]
When the operation target 5 has no means for directly controlling the operation target 5 and can be controlled by an action of a person or animal that can receive an instruction, the operation target operation unit 45 gives such an instruction. Become a thing. For example, if the operation target 5 is such that it operates by detecting a fingerprint for security management, an operation is performed by instructing an available person with a screen display or voice and requesting the operation. The operation of the target 5 is performed. Alternatively, in the case of an operation target 5 that is operated by a pet, such as opening and closing a pet-only entrance, an instruction may be given to the animal with a sound or the like to open the entrance.
As described above, the operation target operation unit 45 has a configuration corresponding to the operation target 5.
[0074]
FIG. 10 is a block diagram showing an internal configuration of the center device 8. The center device 8 has a configuration in which a CPU 82, a network communication circuit 85, a memory 83, a CRT (Cathode Ray Tube) 87, and a keyboard 86 are connected via a bus 81.
[0075]
The CPU 82 is constituted by a microcomputer, for example, and controls the center device 8.
[0076]
The network communication circuit 85 is configured to perform communication with the mobile phone 1 and the short-range wireless unit 3 under the control of the CPU 82, and functions as an interface with the outside.
[0077]
The memory 83 is configured by a known memory represented by RAM or ROM, or a known recording device represented by a magnetic disk drive or optical disk drive, and stores various information under the control of the CPU 82. .
[0078]
The CRT 87 and the keyboard 86 are publicly known user interfaces, and are used by the administrator of the center device 8 to give various instructions to the center device 8 or to confirm and correct the recorded contents in the memory 83.
[0079]
As described above, the wireless operation system is used together with the mobile phone 1 (mobile communication terminal) and is used for operating the operation target 5 wirelessly, and mainly has the following characteristics. That is, the wireless operation system includes a short-range wireless communication circuit 25 that transmits operation information necessary for operation of the operation target 5 by short-range wireless and an adapter 2 (transmission side device) including an antenna 25a (transmission means); An antenna 35a and a short-range wireless communication circuit 35 (reception unit) that receive the operation information, and an operation target operation unit 45 (operation unit) that operates the operation target 5 based on the operation information received by the short-range wireless communication circuit 35 ), And an operation target control unit 4 (receiving device). The adapter 2 is carried along with the cellular phone 1 so that it can be directly communicated with the cellular phone 1 and can be directly communicated with the cellular phone interface circuit 24 and the connector 28 (communication means). A CPU 22 (operation information generation means) that generates operation information based on mobile communication terminal information acquired from the telephone 1 is provided. The “direct communication” between the adapter 2 and the mobile phone 1 refers to communication performed between the adapter 2 and the mobile phone 1 without using a public line.
[0080]
In this configuration, operation information using the function of the mobile phone 1 can be transmitted to the operation target side without going through the mobile phone communication network 6, and the operation target can be operated based on the operation information. .
[0081]
Below, the specific example of this radio | wireless operation system is demonstrated, referring FIG. 1, FIG. 5-FIG. The operations of the mobile phone 1, the adapter 2, the short-range wireless unit 3, the operation target control unit 4, and the center device 8 described below are controlled by CPUs provided therein.
(Specific system example 1)
Here, the case where this radio | wireless operation system is used as an automatic lock operation system is demonstrated.
[0082]
FIG. 11 is a conceptual diagram showing the concept of the automatic lock operation system. FIG. 12 is a flowchart showing the flow of processing in the automatic lock operation system.
[0083]
This automatic lock operation system is used, for example, for automatically operating a key of a front door of a house. In this case, the key of the entrance door is the operation target 5. The operation target control unit 4 is attached to the inside of the entrance door, and can be locked / unlocked by rotating a key knob by the operation target operation unit 45.
[0084]
The key of the entrance door is locked by the normal operation target control unit 4. When going out, the user carries the mobile phone 1 with the adapter 2 connected thereto. When the user returns home and approaches the entrance door, short-distance wireless communication becomes possible between the adapter 2 and the short-distance wireless unit 3, and communication is established (step S1).
[0085]
When communication with the short-range wireless unit 3 is established, the adapter 2 acquires the ID of the mobile phone 1 from the mobile phone 1 via the mobile phone interface circuit 24 (step S2).
[0086]
Here, as the ID of the mobile phone 1, the phone number of the mobile phone 1 or a mail address on the Internet can be used. The telephone number of the mobile phone 1 and the e-mail address on the Internet are set for each mobile phone 1, and the mobile phone 1 is carried only by a specific person such as an individual user or his / her family. Therefore, the telephone number of the mobile phone 1 and the mail address on the Internet are convenient to use as the ID in this case. A telephone number as an ID and a mail address on the Internet are stored in advance in the memory 13 of the mobile phone 1. The ID is not limited to a telephone number or an e-mail address on the Internet, but may be any ID that is set uniquely for each mobile phone 1.
[0087]
The adapter 2 transmits the ID acquired from the mobile phone 1 from the short-range wireless communication circuit 25 to the short-range wireless unit 3 (step 3). The short-range wireless unit 3 receives the ID transmitted from the adapter 2 by the short-range wireless communication circuit 35 (step S4).
[0088]
In the short-range wireless unit 3, the ID of the mobile phone 1 of each person who is allowed to enter the house (for example, a family living in the house) is preset and stored in the memory 33. When the short-range wireless unit 3 receives the ID from the adapter 2, the CPU 32 collates with the ID stored in the memory 33 (step S5). Then, as a result of the collation, the CPU 32 determines whether or not the received ID matches one of the IDs stored in the memory 33 (step S6).
[0089]
Here, if they match, the short-range wireless unit 3 sends a control signal for unlocking the key from the operation target control unit interface circuit 34 to the operation target control unit 4 (step S7). When the operation target control unit 4 receives the control signal from the short-range wireless unit 3 by the short-range wireless unit interface circuit 44, the operation target operation unit 45 unlocks the key and the user can open the entrance door. It is made possible (step S8). The operation target control unit 4 is provided with a timer and is locked again after a predetermined time has elapsed since unlocking.
[0090]
If the CPU 32 of the short-range wireless unit 3 determines in step S6 that the received ID does not match any of the IDs stored in the memory 33, the process ends without sending a control signal to the operation target control unit 4. To do.
[0091]
In this automatic lock operation system, the key operation itself becomes unnecessary, so that it is possible to prevent the key from being forgotten when an infant enters or exits. In addition, the user can save the trouble of operating the key of the entrance door when returning home. Further, when this automatic lock operation system is used, it is not necessary to provide a key hole on the outside of the entrance door, so that a crime caused by picking can be prevented.
[0092]
As described above, in the automatic lock operation system (wireless operation system), the unique ID (identification information) of the mobile phone 1 is acquired as information (mobile communication terminal information) acquired by the adapter 2 from the mobile phone 1. . And ID is contained in the information (operation information) which the adapter 2 transmits to the short distance wireless unit 3 as a radio signal. The short-range wireless unit 3 determines whether or not the ID stored in the memory 33 matches the ID received by the memory 33 (storage means) that stores the ID, the antenna 35a, and the short-range wireless communication circuit 35. A CPU 32 (discriminating means) for discriminating is provided. The operation target operation unit 45 of the operation target control unit 4 operates the key of the entrance door that is the operation target 5 based on the determination result by the CPU 32.
[0093]
In this configuration, since the ID is transmitted by short-range wireless communication, the operation target 5 is operated only when the user carrying the specific mobile phone 1 and adapter 2 approaches the short-range wireless unit 3. . In other words, it is possible to unlock the entrance door only when a specific person such as a family member comes home and approaches the short-range wireless unit 3.
[0094]
In the automatic lock operation system, the short-range wireless communication circuit 25 of the adapter 2 automatically receives an ID when the short-range wireless communication circuit 35 of the short-range wireless unit 3 is ready for short-range wireless communication. Send. For this reason, when the user approaches the entrance door, it is automatically unlocked. Thus, the user can unlock the key of the entrance door only by approaching the short-range wireless unit 3 without operating the cellular phone 1 or the adapter 2 that is being carried.
[0095]
On the other hand, the mobile phone 1 or the adapter 2 includes an input key 16 or an operation unit 26 (input means) for receiving an input for unlocking the key of the entrance door, and the short-range wireless communication circuit 25 is operated by the input key 16 or the operation. The ID may be transmitted after waiting for an input to the unit 26. That is, the unlocking may be performed only when the user performs an unlocking operation using the input key 16 of the mobile phone 1 or the operation unit 26 of the adapter 2. For this purpose, in step S3, the adapter 2 may transmit the ID after waiting for the above operation by the user. As described above, by operating the operation target 5 by combining a plurality of pieces of information (ID and commands generated by the user's operation), it is automatically unlocked when there is no intention to unlock it. Can be prevented.
[0096]
The automatic locking operation system manages home security, but it is desirable to set a unique ID in the adapter 2 in advance in order to further improve the security level.
[0097]
Furthermore, it is desirable that data communication between the mobile phone 1 and the adapter 2 be performed wirelessly so that the mobile phone 1 and the adapter 2 can be stored and carried separately. In this case, as shown in FIG. 4 (a) or FIG. 4 (b), a mobile phone 1 and an adapter 2 that can communicate without being mechanically connected may be used. In this configuration, the mobile phone 1 and the adapter 2 may be provided with a function for realizing wireless communication between each other.
[0098]
In this case, the ID of the adapter 2 may be stored in the memory 23 of the adapter 2. Also, the ID of the user's adapter 2 allowed to enter the house is also stored in the memory 33 of the short-range wireless unit 3. Then, in step S3, the adapter 2 transmits the IDs of the mobile phone 1 and the adapter 2 to the short-range wireless unit 3, and is unlocked only when the IDs of the mobile phone 1 and the adapter 2 match in step S5. do it.
[0099]
In this configuration, even when one of the mobile phone 1 and the adapter 2 is stolen, the operation of the operation target due to their unauthorized use can be prevented. Further, if the mobile phone 1 and the adapter 2 can be stored and carried separately, the mobile phone 1 and the adapter 2 need not be in the same place, and therefore the mobile phone 1 and the adapter 2 are stolen at the same time and illegal. It is possible to reduce the risk of being used in the house and entering the house.
[0100]
As described above, the adapter 2 includes the memory 23 (transmission-side device storage means) that stores the ID (transmission-side device identification information) unique to the adapter 2, and the adapter 2 transmits information to the short-range wireless unit 3 as a radio signal. The (operation information) further includes the ID of the adapter 2, the memory 33 of the short-range wireless unit 3 further stores the ID of the adapter 2, and the CPU 32 of the short-range wireless unit 3 receives the ID of the mobile phone 1. It is determined whether the ID of the adapter 2 matches the ID of the mobile phone 1 and the ID of the adapter 2 stored in the memory 33, and the operation target operation unit 45 of the operation target control unit 4 determines the determination result. It is preferable to operate the key of the entrance door based on this.
[0101]
Furthermore, the direct communication between the mobile phone 1 and the adapter 2 is preferably wireless communication. In this case, instead of the connector 18 of the mobile phone 1 and the connector 28 of the adapter 2, a known communication means for wireless communication using weak radio waves or the like may be provided.
[0102]
Moreover, an automatic opening / closing system can be configured by adding an automatic opening / closing function of a door to the automatic locking operation system. The door is not limited to the entrance door, and the door of each room in the house and the shutter of the garage are also targeted. In order to open and close the door, the door becomes the operation target 5. In this case, the operation target operation unit 45 of the operation target control unit 4 may be provided with a mechanism that can open and close the door by a combination of a motor and a gear. In order to open and close the electric shutter, the shutter is the operation target 5. In this case, the operation target operation unit 45 of the operation target control unit 4 may be provided with a circuit for controlling power supply to the power unit of the shutter.
[0103]
In such an automatic opening / closing system, a door or the like can be automatically opened / closed without operating the mobile phone 1 or the adapter 2, so that a user such as a pet who cannot master the operation of the mobile phone 1 can also automatically open / close the door. The system can be used. In addition to pets, it can also be applied to elderly people and cleaning robots without advanced functions.
[0104]
For example, if the mobile phone 1 with the adapter 2 attached to the cat is attached, the cat can be unlocked automatically when the cat comes to the entrance for pets and the door can be opened without the owner operating it. Can be put inside. According to this, when another cat comes, the entrance door for pets does not open, so it is possible to prevent other cats from entering the house. Similarly, when entering the room where the cleaning robot is locked, it is possible to automatically unlock and enter the room for cleaning. Furthermore, when the adapter 2 and the mobile phone 1 are mounted on a vehicle, the shutter of the garage is automatically unlocked when the vehicle arrives at the house, and can be automatically opened.
(Specific system example 2)
The automatic lock operation system and the automatic opening / closing system described above are mainly installed in a user's individual house or the like. Therefore, the setting of the ID of the cellular phone 1 or the adapter 2 to the short-range wireless unit 3 can be performed by providing an input unit in the short-range wireless unit 3 and directly inputting by the user using the input unit. it can.
[0105]
On the other hand, when the operation target 5 is a public facility, for example, an entrance gate to a facility, it may not be appropriate for the user to directly input the ID of his / her mobile phone 1 to the short-range wireless unit 3. Here, a case where the wireless operation system is used as such an entrance management system will be described.
[0106]
In this admission management system, the short-range wireless unit 3 includes the center device 8 and the network communication circuit 36 (or the packet communication circuit 36) via the network 7 (or the cellular phone communication network 6 and the network 7). Data communication with the device 8 is possible.
[0107]
FIG. 13 is a flowchart showing a part of the flow of processing in the admission management system. In this admission management system, the user requests the center device 8 to register the ID, and the center device 8 sends the ID of the mobile phone 1 (the ID of the adapter 2 to the short-range wireless unit 3 via the network 7). Or the IDs of the mobile phone 1 and the adapter 2 may be registered).
[0108]
For this purpose, the user first performs a procedure for registering an ID in the short-range wireless unit 3. In this procedure, the user transmits the ID of the mobile phone 1 from the packet communication circuit 15 of the mobile phone 1 to the center device 8 via the mobile phone communication network 6 and the network 7 (step S11). Note that when the mobile phone 1 transmits the ID, other information necessary for permitting the admission by the admission management system, for example, the name of the user may be transmitted.
[0109]
In the center device 8, the network communication circuit 85 receives the ID and other information transmitted by the mobile phone 1, and temporarily stores them in the memory 83 (step S12). Here, the center device 8 needs to have conditions for allowing the user of the mobile phone 1 to enter based on the information received from the mobile phone 1 by the CPU 82, for example, the name of the user. It is also possible to confirm that the information is included and store the ID and other information in the memory 83 only when the information is ready and proceed to the next step.
[0110]
Next, the center device 8 transmits the ID temporarily stored in the memory 83 to the short-range wireless unit 3 from the network communication circuit 85 via the network 7 (step S13). In the near field wireless unit 3, the ID transmitted by the center device 8 is received by the network communication circuit 36 and registered in the memory 33 of the near field wireless unit 3 (step S14).
[0111]
In this way, when the ID of the user's mobile phone 1 is registered in the short-range wireless unit 3, then when the user approaches the entrance gate that is the operation target 5 with the adapter 2 and the mobile phone 1, The entrance gate is opened by the operation target control unit 4 through the same processing as in FIG.
[0112]
As described above, the admission management system includes the mobile phone 1, the mobile phone communication network 6, and the center device 8 that can communicate with the mobile phone 1 via the network 7 (communication network). The mobile phone 1 includes a packet communication circuit 15 that transmits an ID to the center device 8 and an antenna 15a (mobile communication terminal transmission means). The center device 8 includes a network communication circuit 85 (center device receiving means) that receives the ID and transmits the received ID via the network 7 (communication network). Further, the short-range wireless unit 3 includes a CPU 32 (registration unit) that receives the ID transmitted from the center device 8 and stores the ID in the memory 33.
[0113]
In this configuration, when the operation target 5 is public, the user can register an ID in the short-range wireless unit 3 using the mobile phone 1. Further, through the center device 8, for example, it is possible to permit registration of an ID only when a predetermined condition is satisfied in the center device 8, and management of a user who operates the operation target 5 is possible. become.
(Specific system example 3)
Each of the above systems has been described assuming that there is basically one operation target 5, but a plurality of operation targets 5 may be operated. Here, a vehicle operation system will be described as an example of operating a plurality of operation objects 5 in the wireless operation system.
[0114]
In the vehicle operation system, the operation target 5 may be a door lock, a security management system, a user-specific vehicle environment setting device, an engine start lock, or the like. Here, the security management system is used to take measures such as managing the state of the vehicle with sensors in order to prevent theft of the vehicle, raising an alarm when an abnormality is detected, and reporting to a predetermined destination. is there. The user-specific vehicle environment setting device is a device that sets the vehicle environment, for example, the position of the seat and the height of the steering wheel, in a state set in advance for each user.
[0115]
In this vehicle operation system, one short-range wireless unit 3 is provided in the vehicle, and an operation target control unit 4 is provided for each operation target 5. FIG. 14 is a perspective view showing an example of the short-range wireless unit 3. As shown in FIG. 14A, the short-range wireless unit 3 may be configured such that the wiring 4a connected to each operation target control unit 4 is connected via the connector 3a. As shown in FIG. 6, the operation target control unit 4 may be connected via the in-vehicle LAN 3b.
[0116]
When the user approaches the vehicle with the mobile phone 1 together with the adapter 2, the same processing as in FIG. 12 is performed, and the operation target control units 4 provided in the door lock, the security management system, and the engine start lock are respectively Release the door lock, security management system, and engine start lock. The operation target control unit 4 provided in the user-specific vehicle environment setting apparatus sets the vehicle environment for each user based on the ID acquired by the short-range wireless unit 3.
[0117]
The user can perform each of the above operations without operating the input key 16 of the mobile phone 1 or the operation unit 26 of the adapter 2. That is, the user connects the adapter 2 and the mobile phone 1 to the clothes pocket. Tsu It is only necessary to bring it close to the vehicle while it is in a bag or bag, and there is no need to take out and operate them. In this vehicle operation system, the operation target control unit 4 can release the door lock and perform other operations in a hands-free manner. Therefore, the user can approach the vehicle, operate the door knob, open the door, get into the vehicle, start the engine and start driving, unlock the door lock, release the security management system, Vehicle environment setting can be performed. In addition to the above, it is necessary at the start of driving, such as the start of a vehicle information system that provides information to the driver and passengers, including the navigation system, and the start of notification and service provision request to the monitoring center that monitors the vehicle. Various operations can be automatically performed.
[0118]
In the vehicle operation system, a service can be provided to the user by further operating the vehicle while the user is in the vehicle. For example, when the mobile phone 1 receives an e-mail while riding, it may be possible to display an incoming e-mail on a meter panel of the vehicle.
[0119]
FIG. 15 is a flowchart showing a flow of processing for displaying an incoming mail on the meter panel of the vehicle in the vehicle operation system. In this case, the operation target 5 is a vehicle meter panel, and this meter panel can display that there is an incoming mail.
[0120]
In this vehicle operation system, the adapter 2 uses the CPU 22 to check whether there is an incoming mail on the mobile phone 1 (step S21), and determines whether there is an incoming mail (step S22). If there is no incoming mail, step S21 is repeated at a predetermined cycle. If there is an incoming mail, the CPU 22 of the adapter 2 generates an incoming mail presence signal indicating that there is an incoming mail, and transmits the incoming mail presence signal from the short-range wireless communication circuit 25 to the short-range wireless unit 3 (step S22). The short-range wireless unit 3 receives the incoming mail presence signal by the short-range wireless communication circuit 35 (step S23), and displays that there is an incoming mail from the operation target control unit interface circuit to the meter panel of the vehicle that is the operation target 5. The control signal for making it send is sent with respect to the operation object control unit 4 (step S25). In the operation target control unit 4, the control signal is received by the short-range wireless unit interface circuit 44, and the operation target operation unit 45 displays that there is an incoming mail on the meter panel of the vehicle that is the operation target 5 (step S26).
[0121]
By using this vehicle operation system, the user can know that the mobile phone 1 has received an e-mail without speaking from the front and the meter panel even during driving of the vehicle. In addition to displaying on the meter panel, the user may be notified that the mail has been received by voice using the vehicle audio. In this case, the audio becomes the operation target 5.
(Providing services using this system)
As described above, the service provider using the wireless operation system provides the adapter 2, the short-range wireless unit 3, and the operation target control unit 4 to the user, so that the user originally uses the adapter. It is possible to receive a service that the operation target 5 can be operated by the mobile phone 1 that is being operated.
[0122]
In a conventional service using a mobile phone, the user has to operate the mobile phone. The operation is inevitably complicated compared to a mobile phone that only makes and receives calls. For this reason, in order to receive the provision of services, it was necessary to learn complicated operations of the mobile phone. This can be a major obstacle especially when used by children and the elderly. In addition, for general users, there are inconveniences that it takes time to operate the mobile phone, and it is not possible to make it in time when you are in a hurry.
[0123]
Further, in the conventional service, the operation can be performed only within the range of the function of the mobile phone. Therefore, a user who uses a mobile phone that does not have a short-range wireless communication function cannot receive a service unless he / she purchases the mobile phone again.
[0124]
The service using this wireless operation system can eliminate the inconvenience as described above. By using this wireless operation system, the convenience of operation can be provided to the user, and the service contents can be expanded and the service provision range can be expanded. Thereby, it becomes possible to develop an extremely large business that increases the added value of the mobile phone and is comparable to the business scale of the mobile phone business.
[0125]
In this wireless operation system, the operation of the operation target is performed in cooperation with the mobile phone 1, the adapter 2 having a short-range wireless communication function, the short-range wireless unit 3, and the operation target control unit 4. This makes it possible to receive services that cannot be received by a system that simply combines a mobile phone and an adapter.
[0126]
The adapter 2 is configured such that the connector 28 and the cellular phone interface circuit 24 of the adapter 2 correspond to the connector 18 and the adapter interface circuit 14 of the cellular phone 1, that is, which cellular phone 1 corresponds to the model of the cellular phone 1. It becomes possible to cope with even. Further, since the adapter 2 can be provided as a retrofitted product, it can be provided to the user after the mobile phone 1 is released. Therefore, it becomes possible to use the previously purchased mobile phone 1.
[0127]
By operating the operation target 5 by combining such an adapter 2 with the short-range wireless unit 3 and the operation target control unit 4, it is possible to provide an extremely wide range of services to the user. For example, it is possible to freely expand the contents and scope of the service simply by adding the operation target control unit 4 according to the operation target 5.
[0128]
When this wireless operation system is used, it can be used by operating the operation target 5 using a plurality of information that cannot be detected by only one of the mobile phone 1, the adapter 2, and the short-range wireless unit 3. Various conveniences can be provided to the user (convenience).
[0129]
For example, when this wireless operation system is used, the operation target 5 is automatically set on behalf of the user based on the fact that the user is approaching or leaving, that the user has come to a certain position, or that the user has not come. Operation service Can be provided. For this reason, the user can realize the operation of the operation target 5 in a hands-free manner without touching the operation target 5. At this time, if this wireless operation system is used, information that cannot be obtained only by the mobile phone 1 or the adapter 2 can be utilized, and higher convenience can be provided.
[0130]
In the case of an operation caused by the internal circumstances of the user, it is also possible to operate the operation target 5 with a single operation to convey it. With this function, when it is necessary to confirm the intention of the user, service Can provide. service Even when multiple operations are required due to the provision procedure, etc., it is possible to receive the service by performing the minimum necessary operation for the user to show his intention at that time. Become.
[0131]
When this wireless operation system is used, a new service can be provided by attaching the adapter 2 to the existing mobile phone 1 later. Therefore, a new service can be added without making a major change to the existing system. (Service extensibility).
[0132]
For example, when this wireless operation system is used, it can be used as it is without changing the shape, configuration, software, and communication method of the existing mobile phone 1. Therefore, there is an advantage that the user does not need to replace the mobile phone 1 and that the existing mobile phone 1 can be used even when a new operation target 5 is added. In addition, it is not necessary to provide a new mobile phone 1 when providing a new service to the service provider, and the existing mobile phone 1 can be used even when a new operation target 5 is added. There is an advantage that the application area of the adapter 2 can be expanded by adding the unit 4.
[0133]
Further, when this wireless operation system is used, it is only necessary that the operation target 5 can be operated from the outside. Therefore, it is not necessary to incorporate a specific circuit or device inside the operation target 5, and almost no operation target 5 is included in the operation target 5. Alternatively, a new service can be provided without any change.
[0134]
When this wireless operation system is used, the adapter 2 and the short-range wireless unit 3 with a simple configuration are combined with the mobile phone 1 so that the components can be applied to an extremely wide range of services through a high degree of cooperation. (Expansion of applicable range).
[0135]
For example, when this wireless operation system is used, the mobile phone 1 can operate the operation target 5 even if the mobile phone 1 cannot communicate with the mobile phone communication network 6 on the spot, so that the service application range is greatly expanded.
[0136]
In addition, when this wireless operation system is used, the types of operation objects 5 can be increased by adding operation object control units 4. Therefore, the space where services can be used will expand. For example, a user who has been provided with a home use service can receive the service both at home and in the vehicle by attaching the short-range wireless unit 3 and the operation target control unit 4 to the vehicle.
[0137]
Further, when the present wireless operation system is used, the object to which the user communicates the operation intention is not limited to the mobile phone 1 or the operation object 5, and therefore the operation object 5 can be operated without directly communicating the operation intention to these. it can. Therefore, the service provider cannot receive the provision of the conventional service by providing the adapter 2, the short-range wireless unit 3, and the operation target control unit 4 according to the ability of the user to convey the operation intention. In addition, the range of users can be expanded to pets, elderly people, robots, and the like. In addition, by expanding the range of users, the service business market can be dramatically expanded.
[0138]
Further, when this wireless operation system is used, the operation target 5 that can be operated is enlarged. Since the wireless operation system includes the short-range wireless unit 3 and the operation target control unit 4, the operation target 5 that cannot be operated by the conventional service can be operated. For example, in a home security service, it becomes possible to automatically perform hands-free opening and closing of a house key and a window. In addition, the vehicle door lock can be released hands-free. Furthermore, in cooperation with the home security service, it is possible to automatically perform opening and closing of the garage shutter.
[0139]
[Embodiment 2]
A second embodiment of the present invention will be described with reference to FIGS. 16 to 19 as follows. In addition, about the member which has the function and structure equivalent to the member demonstrated in Embodiment 1, it attaches | subjects the same code | symbol and abbreviate | omits the description partially.
(System configuration)
FIG. 16 is a conceptual diagram showing the configuration of the wireless operation system in the present embodiment. The wireless operation system is for operating the mobile phone 1 and includes a mobile phone 1, an adapter 2, a short-range wireless unit 3, and a monitoring unit 9.
[0140]
Here, the mobile phone 1, the adapter 2, and the short-range wireless unit 3 have basically the same configurations as those described in the first embodiment based on FIGS. 5, 6, and 8, respectively. Yes. However, in this wireless operation system, the direction of signal transmission is reversed, the monitoring unit 9 transmits a monitoring signal to the short-range wireless unit 3, and the short-range wireless unit 3 transmits a wireless signal to the adapter 2. The adapter 2 transmits a control signal to the mobile phone 1.
[0141]
FIG. 17 is a block diagram showing the internal configuration of the monitoring unit 9. The monitoring unit 9 has a configuration in which a short-range wireless unit interface circuit 94 and a monitoring unit 95 are connected via a CPU 92.
[0142]
The CPU 92 is configured by, for example, a microcomputer, acquires monitoring information indicating the state of the monitoring target 10 from the monitoring unit 95, and sends a monitoring signal including the monitoring information from the short-range wireless unit interface circuit 94 to the short-range wireless unit 3. Send to.
[0143]
The monitoring unit 95 has a different configuration depending on the monitoring target 10. For example, when the state of the monitoring target 10 can be determined by the position of a mechanical switch, button, lever, or the like provided in the monitoring target 10, for example, whether the monitoring target 10 is operating or not, the monitoring unit 95. Need only be able to detect the position of the mechanical switch, button, lever, or the like. When the monitoring target 10 is such that the state can be electrically detected, the monitoring unit 95 only needs to perform such electrical detection. As described above, the monitoring unit 95 has a configuration corresponding to the monitoring target 10.
[0144]
The short-range wireless unit 3 has a configuration substantially shown in FIG. 8, but as shown in FIG. 18, the operation target control unit interface circuit 34 of FIG. Further, the CPU 32 performs various controls of the short-range wireless unit 3 in accordance with the monitoring signal received from the monitoring unit 9 by the operation target control unit interface circuit 34, and the adapter is connected via the short-range wireless communication circuit 35 and the antenna 35a. 2 transmits a radio signal. The monitoring unit interface circuit is an interface for receiving a monitoring signal from the monitoring unit 9.
[0145]
The adapter 2 has the configuration shown in FIG. 6, but here, the CPU 22 performs various controls of the adapter 2 in accordance with the radio signals received by the antenna 25 a and the short-range wireless communication circuit 25, and the cellular phone interface A control signal is sent to the mobile phone 1 through the circuit 24 and the connector 28.
[0146]
As described above, this wireless operation system is for operating the mobile phone 1 (mobile communication terminal) wirelessly and mainly has the following characteristics. That is, the wireless operation system transmits a monitoring unit 95 (detecting means) for detecting the state of the monitoring target 10 and monitoring information indicating the state of the monitoring target 10 detected by the monitoring unit 95 by short-range wireless. Short-range wireless unit 3 (transmission side device) provided with short-range wireless communication circuit 35 and antenna 35a (transmission means), antenna 25a and short-range wireless communication circuit 25 (reception means) for receiving monitoring information, and this short-range A CPU 22 (operation information generating means) that generates operation information for operating the mobile phone 1 based on the monitoring information received by the wireless communication circuit 25 and the mobile phone 1 communicate directly with the mobile phone 1. And an adapter provided with a cellular phone interface circuit 24 and a connector 28 (communication means) for transmitting operation information to the cellular phone 1. And a 2 (receiving device). The “direct communication” between the adapter 2 and the mobile phone 1 refers to communication performed between the adapter 2 and the mobile phone 1 without using a public line.
[0147]
In this configuration, the mobile phone 1 can be operated according to the state of the monitoring target 10 by sending operation information according to the state of the monitoring target 10 to the mobile phone 1.
[0148]
Hereinafter, specific examples of the wireless operation system will be described with reference to FIGS. 16, 5, 6, 8, 17, and 18. Note that operations of the monitoring unit 9, the short-range wireless unit 3, the adapter 2, and the mobile phone 1 described below are controlled by CPUs provided therein.
(Specific system example)
Here, the case where this radio | wireless operation system is used as an in-vehicle operation system is demonstrated.
[0149]
FIG. 19 is a flowchart showing the flow of processing in the in-vehicle operation system. This in-vehicle operation system is used to operate the mobile phone 1 according to the state of the vehicle when the user is on the vehicle with the mobile phone 1 and the adapter 2. Here, when the vehicle engine is running, it is considered that the user is driving and the mobile phone 1 is set to a so-called hands-free call state (hands-free mode). When the vehicle engine is not running An example in which the mobile phone 1 is set to a state where a normal call can be made (normal mode) will be described.
[0150]
First, the monitoring unit 9 investigates the state of the vehicle engine, that is, whether or not the engine is running, by the monitoring unit 95 (step S31). In this case, the monitoring unit 95 can detect the state of the engine by mechanically checking the position of the ignition key, or by checking the voltage at a predetermined location of the electric system of the vehicle. Then, the CPU 92 of the monitoring unit 9 determines whether or not the engine is running (step S32). When the engine is running, the monitoring unit 9 generates an engine ON signal indicating that the engine is running and uses the engine ON signal as a monitoring signal from the short-range wireless unit interface circuit 94 to the short-range wireless unit 3. Send (step S33). In the short distance wireless unit 3, the monitoring unit interface circuit 39 receives the engine ON signal, and transmits the engine ON signal as a wireless signal from the short distance wireless communication circuit 35 to the adapter 2 (step S34). In the adapter 2, the short-range wireless communication circuit 25 receives the engine ON signal (step S35), and the CPU 22 generates a control signal for setting the mobile phone 1 to the hands-free mode based on the engine ON signal. The data is sent to the cellular phone 1 through the interface circuit 24 and the connector 28 (step S36). In the cellular phone 1, the control signal is received via the connector 18 and the adapter interface circuit 14, and the CPU 12 sets the cellular phone 1 to the hands-free mode based on the control signal (step S37).
[0151]
If it is determined in step S32 that the engine is not started, an engine OFF signal indicating that the engine is not started is sequentially transmitted from step S38 to step S40. Then, the CPU 22 of the adapter 2 generates a control signal for setting the mobile phone 1 to the normal mode based on the engine OFF signal and sends it to the mobile phone 1 via the adapter interface circuit 24 and the connector 28 (step S41). . In the cellular phone 1, the control signal is received via the connector 18 and the adapter interface circuit 14, and the CPU 12 sets the cellular phone 1 to the normal mode based on the control signal (step S42).
[0152]
By repeating the processing as described above at a predetermined cycle, the mobile phone 1 is set to the hands-free mode while the engine is running, and is set to the normal mode while the engine is not running. Become.
[0153]
【The invention's effect】
As described above, the wireless operation system according to the present invention is a wireless operation system that is used together with a mobile communication terminal to wirelessly operate an operation target, and includes a transmission unit that transmits operation information by short-range wireless communication. A transmission side device, a reception unit that receives operation information, and a reception side device that includes an operation unit that operates an operation target based on the operation information. The transmission side device can directly communicate with the mobile communication terminal. It is the structure provided with the operation information generation means which produces | generates operation information based on the communication means and the mobile communication terminal information acquired from the mobile communication terminal.
[0154]
In the above configuration, operation information using the function of the mobile communication terminal can be transmitted to the operation target side without going through the mobile communication terminal, and the operation target can be operated based on the operation information. Therefore, the operation target can be operated without using the mobile communication network, and the generation of a usage fee for the mobile communication network can be avoided. In addition, by providing an operation unit that is an operation target in the reception-side device, it is possible to operate an operation target that has not been able to perform near field communication. Furthermore, even in a mobile communication terminal that does not have a short-range wireless communication function, the operation of the operation target can be performed by enabling direct communication by connecting a transmission side device or the like.
[0155]
As a result, in the situation where the user is carrying the mobile communication terminal, various operation objects can be wirelessly operated more easily, so that the user using the mobile communication terminal can be provided with convenience. become.
[0156]
A wireless operation system according to the present invention includes: the above In the wireless operation system, the mobile communication terminal information is unique identification information possessed by the mobile communication terminal, the operation information includes the identification information, and the receiving device stores the identification information, and the reception It is preferable that a determination unit that determines whether or not the identified identification information matches the stored identification information is provided, and the operation unit operates the operation target based on the determination result.
[0157]
In the above configuration, since the transmission side device transmits identification information to the reception side device by short-range wireless communication, the operation target is operated only when the user carrying the mobile communication terminal and the transmission side device approaches the reception side device. Will be. That is, it is possible to perform control such that the operation target is operated only when a specific person approaches the receiving device.
[0158]
A wireless operation system according to the present invention includes: the above In the wireless operation system, it is preferable that the transmission unit automatically transmits the operation information when communication with the reception unit is enabled.
[0159]
In the above configuration, the user can operate the operation target only by approaching the reception side device without operating the portable communication terminal or the transmission side device carried by the user.
[0160]
A wireless operation system according to the present invention includes: the above In the wireless operation system, the mobile communication terminal or the transmission side device further includes an input unit that receives an input for operating the operation target, and the transmission unit transmits operation information after waiting for an input to the input unit. Is preferred.
[0161]
In the above configuration, the operation target is operated only when the user intends to operate the operation target, and unnecessary operations can be prevented.
[0162]
A wireless operation system according to the present invention includes: the above In the wireless operation system, the transmission side device further includes transmission side device storage means for storing transmission side device identification information unique to the transmission side device, and the operation information further includes transmission side device identification information, and is received. Whether the storage unit of the side device further stores the transmission side device identification information, and whether the determination unit matches the received identification information and the transmission side device identification information with the stored identification information and the transmission side device identification information. Preferably, the operating means operates the operation target based on the determination result.
[0163]
In the above configuration, in addition to the identification information of the mobile communication terminal, it is also determined whether or not the transmission side device identification information of the transmission side device matches, and the operation target is operated based on the determination result. Thereby, for example, even when one of the mobile communication terminal and the transmission side device is stolen, the operation of the operation target due to their unauthorized use can be prevented.
[0164]
A wireless operation system according to the present invention includes: the above In the wireless operation system, it is preferable that the direct communication between the portable communication terminal and the transmission side device is wireless communication.
[0165]
In the above configuration, the mobile communication terminal and the transmission side device can be stored and carried separately. Thereby, it is possible to prevent the portable communication terminal and the transmission side device from being stolen at the same time and being used illegally and operating the operation target.
[0166]
A wireless operation system according to the present invention includes: the above The wireless operation system further includes a mobile communication terminal and a center device, the mobile communication terminal further includes mobile communication terminal transmitting means for transmitting identification information to the center device, and the center device receives the identification information. A registration means for receiving the identification information transmitted from the center apparatus and storing it in the storage means, comprising: a device receiving means; and a center apparatus transmitting means for transmitting the received identification information via a communication network. It is preferable to provide.
[0167]
With the above configuration, for example, when the operation target is public, the user can register the identification information using the mobile communication terminal.
[0168]
A wireless operation system according to the present invention is a wireless operation system for wirelessly operating a mobile communication terminal, and includes detection means for detecting a state of a monitoring target and monitoring information indicating the detected state of the monitoring target. A transmission-side apparatus including a transmission unit that transmits by short-range wireless; a reception unit that receives monitoring information; an operation information generation unit that generates operation information for operating the mobile communication terminal based on the received monitoring information; and It is a structure provided with the receiving side apparatus provided with the communication means which communicates directly with a portable communication terminal and transmits operation information to a portable communication terminal.
[0169]
In the above configuration, the mobile communication terminal can be operated according to the state of the monitoring target by sending operation information according to the state of the monitoring target to the mobile communication terminal. At this time, above Similar to the wireless operation system, it is possible to avoid the usage fee of the mobile communication network, and it is also possible to monitor a monitoring target that has not been able to perform conventional short-range wireless communication. Even in a mobile communication terminal that does not have a mobile communication terminal, it is possible to operate the mobile communication terminal by enabling direct communication by connecting a receiving device.
[0170]
As a result, in a situation where the user is carrying the mobile communication terminal, the mobile communication terminal can be operated wirelessly more easily, and the user using the mobile communication terminal can be provided with convenience. Become.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a configuration of a wireless operation system according to a first embodiment of the present invention.
2A and 2B are views showing the external appearance of a mobile phone and an adapter used in the wireless operation system of FIG. 1, wherein FIG. 2A is a front view, and FIG. 2B is a perspective view.
3A and 3B are external views of a card-type mobile phone and an adapter for a card-type mobile phone used in the wireless operation system of FIG. 1, wherein FIG. 3A is a front view, and FIG. 3B is a perspective view.
4A and 4B are diagrams showing another mobile phone and an adapter used in the wireless operation system of FIG. 1, wherein FIG. 4A is a perspective view showing a board type mobile phone and an adapter for the board type mobile phone, and FIG. FIG. 2C is a front view showing a mobile phone and an adapter that can communicate with each other, and FIG. 3C is a front view showing a mobile phone that includes a pen-type mobile phone body and a headset, and an adapter that can wirelessly communicate with the mobile phone.
5 is a block diagram showing an internal configuration of a mobile phone used in the wireless operation system of FIG.
6 is a block diagram showing an internal configuration of an adapter used in the wireless operation system of FIG. 1. FIG.
7 is a block diagram illustrating a relationship among an adapter, a short-range wireless unit, an operation target control unit, and an operation target used in the wireless operation system of FIG. 1. FIG.
8 is a block diagram showing an internal configuration of a short-range wireless unit used in the wireless operation system of FIG.
9 is a block diagram showing an internal configuration of an operation target control unit used in the wireless operation system of FIG. 1;
10 is a block diagram showing an internal configuration of a center device used in the wireless operation system of FIG.
11 is a conceptual diagram showing a concept of an automatic lock operation system as a specific example of the wireless operation system of FIG. 1;
12 is a flowchart showing a flow of processing in an automatic lock operation system as a specific example of the wireless operation system in FIG. 1;
13 is a flowchart showing a part of the flow of processing in an admission management system as a specific example of the wireless operation system of FIG. 1;
14 is a perspective view showing a specific example of a short-distance wireless unit used in the wireless operation system of FIG. 1, wherein (a) is a perspective view of what is connected to the operation target control unit by wiring, and (b) is the interior of the vehicle. It is a perspective view of what is connected to an operation object control unit by LAN.
15 is a flowchart showing a flow of processing for displaying an incoming mail on a meter panel of the vehicle in the vehicle operation system as a specific example of the wireless operation system of FIG. 1;
FIG. 16 is a conceptual diagram showing a configuration of a wireless operation system according to a second embodiment of the present invention.
17 is a block diagram showing an internal configuration of a monitoring unit used in the wireless operation system of FIG.
18 is a block diagram showing an internal configuration of a short-range wireless unit used in the wireless operation system of FIG.
FIG. 19 is a flowchart showing a flow of processing in the in-vehicle operation system as a specific example of the wireless operation system in FIG. 16;
[Explanation of symbols]
1 Mobile phone
2 Adapter
3 Short-range wireless unit
4 Operation target control unit
5 Operation target
6 Mobile phone communication network
7 network
8 Center equipment
9 Monitoring unit
10 Monitoring target

Claims (5)

In a wireless operation system used together with a mobile communication terminal for wirelessly operating an operation target,
A transmission-side apparatus comprising a transmission means for transmitting operation information necessary for operation of an operation target by short-range wireless;
A receiving unit that receives the operation information, and a receiving-side device that includes an operation unit that operates an operation target based on the operation information received by the receiving unit.
The transmission side device
A communication means capable of directly communicating with the portable communication terminal by being carried with the portable communication terminal;
Operation information generating means for generating operation information based on the mobile communication terminal information acquired from the mobile communication terminal via the communication means;
A transmission-side device storage means for storing the transmission-side device identification information unique to the transmission-side device,
The mobile communication terminal information is unique identification information of the mobile communication terminal,
The operation information includes the identification information of the mobile communication terminal and the transmission side device identification information,
The receiving device is
Storage means for storing the identification information of the mobile communication terminal and the transmission side device identification information;
It is determined whether or not the mobile communication terminal identification information and the transmitting device identification information received by the receiving means match the mobile communication terminal identification information and the transmitting device identification information stored in the storage means. Discriminating means to perform,
The wireless operation system, wherein the operation means operates an operation target based on a determination result by the determination means. The wireless operation system according to claim 1,
A wireless operation system, wherein direct communication between the portable communication terminal and the transmission side device is wireless communication. The wireless operation system according to claim 1 ,
The wireless operation system, wherein the transmitting device is an adapter connectable to the mobile communication terminal . The wireless operation system according to claim 1 ,
The wireless operation system , wherein the transmission unit automatically transmits the operation information when communication with the reception unit is enabled . The wireless operation system according to claim 1,
The mobile communication terminal or the transmission side device includes an input unit that receives an input for operating an operation target,
Radio system for operating the transmitting means, and transmits the operation information awaiting input to the input means.

Images