JP5560478B2 - Sensor information system for mobile devices - Google Patents

Description

  The present invention relates to a sensor information system for mobile terminals using a sensor network.

  Conventionally, various types of sensors have been used to detect changes in the environment and provide information about the detected changes to the user. As an example of this, for example, when a gas leak occurs, there is an operation in which the gas detector warns the user that gas is leaking.

Patent Document 1
Conventionally, information detected by a sensor is transmitted to a computer via a network, and the information is managed by the computer. As an apparatus for performing such an operation, for example, Patent Document 1 below discloses predetermined information on measurement result information between a sensor, a measurement result processing unit that processes information measured by the sensor, and an external service providing unit. An information terminal device provided with a communication unit that transmits and receives data is disclosed.

Patent Document 2
In recent years, with the popularization of mobile phones and RFID (Radio Frequency IDentification) tags, ubiquitous services combining these and sensors have been actively studied. As an example of a system that performs such a ubiquitous service, Patent Literature 2 below discloses a system that supports a commercial transaction including a sensor network and a mobile device.

Patent Document 3
Furthermore, a system has been developed that can select information desired by the user from information detected by the sensor and provide it to the user. As an example of such a system, in Patent Document 3 below, information on opening / closing, vibration, etc. of a vending machine detected by a sensor is sent from the sensor to a module dedicated server, and the module dedicated server is subjected to predetermined conditions. A communication system that selects information based on the information and transmits the selected information to a mobile terminal is disclosed.

JP 2001-119449 A JP 2007-122728 A JP 2006-345144 A

  As disclosed in Patent Documents 1 and 2 exemplified above, conventionally, detection information can be provided to a user by a system including a sensor and a processing device that processes detection information from the sensor. Has been done. According to these conventional systems, the user can obtain necessary detection information in real time.

  On the other hand, many pieces of information detected by sensors change with time. In particular, there are cases where it is desired to refer to the history of various information used by the user later.

  However, in the conventional system, an effective means for managing the history has not been known.

  In addition to the acquired information, it is desirable to be able to provide various services (for example, advice and the like) based on the information. However, an effective method for providing a service based on such information is not yet known.

  The present invention has been made based on the above problems, and an object of the present invention is to provide a system that can provide not only information obtained from a sensor network but also various services based on the information.

   (1) In order to solve the above problems, the present invention is provided from a sensor gateway that acquires sensor information from a sensor network, a mobile information terminal that receives the sensor information from the sensor gateway, and the mobile information terminal An application server that generates service information based on the sensor information; a first communication unit that connects the sensor gateway and the mobile information terminal; and a second communication that connects the mobile information terminal and the application server. A mobile terminal sensor information system, wherein the mobile information terminal acquires the sensor information from the sensor gateway and transmits the acquired sensor information to the application server; and A mobile terminal sensor information system, wherein the application means receives the service information generated by the application server, and the display means displays the received service information. .

  (2) Further, the present invention provides the mobile terminal sensor information system according to (1) above, wherein the sensor network includes a real-time sensor that continuously generates the sensor information. Sensor information system.

  (3) Further, the present invention provides the mobile terminal sensor information system according to (1), wherein the sensor network includes a non-real-time sensor that intermittently generates the sensor information. This is a sensor information system for terminals.

  (4) Moreover, the present invention provides the mobile terminal sensor information system according to any one of (1) to (3), wherein the second communication means is a mobile information terminal included in the mobile information terminal. Side tunnel communication means and application server side tunnel communication means included in the application server, and when the sensor information is transmitted and received between the application server and the mobile information terminal, communication in the tunnel mode is performed A sensor information system for a mobile terminal, which is performed between an application server and the mobile information terminal.

  (5) Further, in order to solve the above-described problem, the present invention allows a mobile terminal to construct a communication tunnel for connecting a sensor cell and an application server on the network in real time to transfer sensor information. This is a real-time authentication system that enables communication only when a mobile terminal exists at the location.

  As described above, according to the present invention, a user of a mobile information terminal can efficiently receive a predetermined service based on desired sensor information.

It is a conceptual diagram which shows the collection and provision image of the information in the sensor information system for mobile terminals. It is explanatory drawing which shows the relationship between a sensor cell and a mobile information terminal. It is a block diagram of the configuration of the sensor gateway. It is a block diagram of the configuration of the mobile information terminal. It is a block diagram of the configuration of the application server. It is a timing chart which shows the order of operation | movement of the sensor information system for mobile terminals. It is a timing chart in the case of providing a plurality of services.

  A sensor network in which a plurality of sensors capable of communicating with each other is arranged in a predetermined environment is known. According to the sensor network, it is said that various information in the so-called ubiquitous environment can be collected.

  In the present embodiment, an example will be described in which this sensor network collects various information and a sensor gateway for providing the information to the outside is provided.

  The sensor network provides various information to the mobile information terminal via the sensor gateway. The user can use various information by receiving various information from the sensor gateway that can carry and use the mobile information terminal.

  In the present embodiment, a system capable of extracting information necessary for a user from sensor information from a sensor gateway and providing the user with various advices will be described.

(1) Overview of Sensor Information System for Mobile Terminals According to this Embodiment FIG. 1 shows a conceptual diagram for collecting and providing information in the sensor information system for mobile terminals according to a preferred embodiment of the present invention. Yes.

  The mobile information terminal 14 in the ubiquitous service usage environment of the present embodiment is a sensor that detects real-time information of surrounding sounds / images, environment / neighboring information, and personal information such as face information, voice information, motion information, body information, and the like. Information is acquired while the person is moving. The mobile information terminal 14 transmits the filtered information to (one or more) a plurality of service providing organizations (organizations including the application server 16) while filtering sensor information necessary for a predetermined service. The service providing organization performs information classification / analysis in accordance with the suitability of the user of the mobile information terminal 14 in a CSG (Community Service Gateway) (referred to as an application server 16) that provides the application, thereby providing the user with the application. Appropriate information can be provided in real time.

  As described above, this embodiment can realize a service environment concept capable of bidirectional information provision and information collection in a situation where a plurality of mobile information terminals 14 and a plurality of service providing organizations exist. is there.

  This concept has the same meaning as the definition of a so-called multi-access environment when the CSG (application server 16) is viewed from the mobile information terminal 14. On the other hand, considering the service providing operation from the CSG (application server 16) to the mobile information terminal 14, this is equivalent to the definition of a multi-service environment.

  Thus, providing the sensor network service by preparing a multi-service & multi-access environment is one of the most characteristic matters in the present embodiment. Hereinafter, each configuration and operation will be described with reference to FIG.

  First, (a) in FIG. 1 represents the concept of collecting sensor information, and (b) in FIG. 1 represents the concept of providing a service to a mobile information terminal.

As shown in FIG. 1A, the sensor information system for mobile terminals according to the present embodiment includes a sensor group 10, a sensor gateway 12, a mobile information terminal 14, and an application server group 16. Consists of

(1-1) Sensor group (sensor network)
The sensor group 10 includes one or more sensors. Each sensor 10 includes a communication means, and preferably constitutes a so-called sensor network. In the present embodiment, the sensor 10 is divided into a real-time sensor and a non-real-time sensor.

Real-time type sensor A real-time type sensor is one in which it is significant that the obtained information is acquired essentially continuously. For example, a sensor that detects video, audio, or the like is preferable. Specific examples of the real-time sensor include a CCD camera and a microphone. Information transmitted by the real-time sensor is hereinafter referred to as “real-time information”.

Non-real-time type sensor A non-real-time type sensor is a sensor that obtains information that can be regarded as sufficient information by discretely detecting the change rate of obtained information. Therefore, this sensor often has an information detection time interval of 100 ms (milliseconds) or more. Examples of non-real-time sensors include temperature sensors, humidity sensors, pressure gauges, distance meters, density meters, other various measuring instruments, and sensors that detect object presence information such as optical sensors. . The information transmitted by this non-real-time sensor is hereinafter referred to as “environment / neighbor information”.

  In the present embodiment, it is also preferable that the real-time sensor and the non-real-time sensor described above detect information about the user of the mobile information terminal 14 and transmit the information to the sensor gateway 12. Examples of the real-time sensor that detects information about the user include a CCD camera that reflects the user's face and the whole body's appearance and movement, and a microphone that detects the user's voice. Further, as a non-real-time sensor that detects information about the user, for example, a reader that reads an RFID tag that records the user's physical information (for example, the name of the disease that the user suffers from) is a preferable example. In the present embodiment, the information that the real-time sensor and the non-real-time sensor detect and transmit information about the user is particularly referred to as “personal information”.

Sensor Information In this embodiment, “real time information”, “environment / neighboring information”, and “person information” are collectively referred to as “sensor information”.

  Sensor information acquired by the real-time sensor and the non-real-time sensor is transmitted to the sensor gateway 12 via a predetermined so-called sensor network. As the communication means for connecting the sensor group 10 and the sensor gateway 12, conventionally used various communication means and network communication means are used.

(1-2) Filtering Operation Next, the sensor gateway 12 receives various sensor information from a sensor network including the real-time sensor 10 and the non-real-time sensor 10. The sensor gateway 12 transmits the received sensor information to the mobile information terminal 14 located in a range in which communication with the sensor gateway 12 is possible (referred to as a sensor cell).

  The mobile information terminal 14 located within the sensor cell of the predetermined sensor gateway 12 selects (filters) the sensor information received from the sensor gateway 12 using a predetermined user advice application, and only the selected sensor information is selected. Is requested to the sensor gateway 12.

  As a result, the sensor gateway 12 transmits only the requested (ie, filtered) sensor information to the mobile information terminal 14.

  Therefore, the user carrying the mobile information terminal 14 acquires only the sensor information necessary for a predetermined application while moving, and transmits the sensor information to the application server 16 to obtain the predetermined application service. Can receive.

(1-3) Provision of Service In the present embodiment, provision of service means that the application server group 16 provides advice information or the like to the mobile information terminal 14. This conceptual diagram is shown in FIG. 1 (b9).

  The mobile information terminal 14 performs the above-described filtering by operating a user advice application corresponding to advice information to be provided by the user in the mobile information terminal 14.

  That is, the filtering is executed by the “user advice application” for each service. Only the sensor information filtered in this way is sent to the application server 16. Only desired advice information can be obtained from the application server group 16.

  When there are a plurality of services that the user wants to receive, a “user advice application” for each of the plurality of services is activated to filter necessary sensor information.

  Now, the application server 16 that has acquired the sensor information from the mobile information terminal 14 classifies and analyzes the acquired sensor information according to the suitability of the user of the mobile information terminal 14, and according to the suitability of the user of the mobile information terminal 14. Advice information is generated. This operation is executed by the service application included in each application server 16a, 16b, 16c, 16d with reference to information stored in the user information database in each application server 16a, 16b, 16c, 16d. Then, each application server 16a, 16b, 16c, 16d transmits the generated advice information to the mobile information terminal 14. Note that the application server is sometimes called CSG (Community Service Gateway).

  Note that the application server 16 to be used is selected by the user and may be one or plural. A “user advice application” corresponding to the application server 16 of the service selected by the user is activated, and transmits necessary sensor information to the corresponding application server 16.

(1-4) Communication environment In the present embodiment, sensor information for mobile terminals including a plurality of mobile information terminals and an application server group 16 provided for each service in order to provide a plurality of services. Explains the system.

  This sensor information system for mobile terminals has a feature that bidirectional information provision and information collection are performed between a plurality of mobile information terminals and a plurality of application servers. Such a service environment concept is a multi-access environment when an application server is viewed from a mobile information terminal. On the other hand, when viewed from the aspect of providing services from the application server group to each mobile information terminal, this is a multi-service environment.

  One of the features of the sensor information system for mobile terminals according to the present embodiment is that a good service is provided by preparing two environments, such as a multi-access environment and a multi-service environment.

(1-5) Sensor Cell A region covered by one sensor gateway 12 is called a sensor cell (see FIG. 2). Within this sensor cell, information communication can be performed between the sensor gateway 12 and the mobile information terminal 14. The sensor gateway periodically transmits a sensor cell notification message in the area of the sensor cell. This sensor cell notification message is a signal indicating to each mobile information terminal that the mobile information terminal is located in the sensor cell. In one sensor cell, various types of sensors housed in the sensor cell can be used. FIG. 2 shows a mobile terminal sensor information system 20 in which four sensor cells 18a, 18b, 18c, and 18d are distributed. In addition, the sensor information system for mobile terminals may be referred to as a sensor information mobile advice system or simply a mobile system.

Overview of Sensor Cell Used by Sensor Information Mobile Advice System As shown in FIG. 2, the sensor gateway 12 (Sensor GW) forms a sensor cell that can accommodate various types of sensors 10 (Sensor). . When the mobile information terminal 14 that has moved to a predetermined sensor cell (sensor cell) receives a sensor cell notification message periodically transmitted from the sensor gateway 12 (sensor GW), the sensor gateway 12 (sensor GW). ) To obtain the list information of the sensor 10 (Sensor) accommodated in the sensor cell.

  The user who owns the mobile information terminal 14 accesses the application server 16 of the advice service he wants to receive, and acquires the type of sensor information (Sensor information) necessary for the service. Here, it is also preferable to activate the above-described user advice application from the application server 16 and select (filter) the type of necessary sensor information.

  The mobile information terminal 14 can send the sensor information received from the Sensor GW to the advice service after notifying the sensor gateway 12 (Sensor GW) of the sensor information necessary for the service. The user can receive a plurality of advice services in real time as shown above by moving while collecting various sensor information from the Sensor GW.

  Now, in FIG. 2, when the mobile information terminal 14 moves from position 0 to position A and enters the sensor cell 18a, the mobile information terminal 14 receives a sensor cell notification message from the sensor gateway 22a. The mobile information terminal 14 that has received the sensor cell notification message requests sensor list information from the sensor gateway 22a. The sensor list information is information indicating the types of sensors managed by the sensor gateway 22a. The mobile information terminal 14 can know the types of sensors available in the sensor cell 18a where the mobile information terminal 14 is located by acquiring the sensor list information from the sensor gateway 22a.

  Each time the mobile information terminal 14 moves from one sensor cell 18 to another sensor cell 18, the mobile information terminal 14 can collect various types of sensor information accommodated in the destination sensor cell 18. That is, in FIG. 2, when the mobile information terminal 14 is in the sensor cell 18a (when in the position A), the sensor information can be acquired from the sensor gateway 22a, and the mobile information terminal 14 When in the cell 18b (when in the position B), desired sensor information can be acquired from the sensor gateway 22b. As a result, the mobile information terminal 14 acquires sensor information of the sensor group managed by each of the sensor gateways 22a and 22b.

  The service that the mobile information terminal 14 can receive naturally depends on the type of sensor information obtained at that location. In the example of FIG. 2, for example, at position A, the advice service 1 can be received, but other services cannot be received. At position B, all advice services 1, 2, and 3 can be received. At position C, only advice service 3 can be received.

(2) Configuration of Sensor Information System for Mobile Terminal According to this Embodiment Hereinafter, the configuration of the sensor information system for mobile terminal according to this embodiment will be described based on FIG. 3, FIG. 4, and FIG.

(2-1) Sensor Gateway FIG. 3 shows a configuration block diagram of the sensor gateway 12.

Overview of Sensor Gateway 12 The sensor gateway 12 (Sensor GW) can manage a plurality of sensors 10 collectively, and sensor control applications 36 and 42 corresponding to the various sensors 10 are operating.

  The sensor gateway 12 acquires sensor information required by the mobile information terminal 14 from the mobile information terminal 14 through a sensor gateway (Sensor GW) session. After acquisition, the control session application 26 of the sensor gateway 12 sets transmission conditions for the sensor control applications 36 and 42.

  Regarding acquisition of real-time sensor information, the following operations are performed.

  In other words, the sensor gateway (Sensor GW) 12 executes packet switch transfer at the IP / bridge level. This is executed by the packet transfer unit 38. Thereby, the sensor information is transmitted to the mobile information terminal 14 in real time.

  The mobile information terminal 14 establishes a sensor gateway (Sensor GW) control session connection to the sensor gateway 12, and sends its own (mobile information terminal 14) address information and the port number to be used to the sensor gateway (Sensor GW) 12. Notify

  Regarding acquisition of non-real-time sensor information, the following operations are performed.

  That is, the sensor gateway (Sensor GW) 12 accumulates information from the sensor 10 in the internal buffer for a certain period of time. This is executed by the buffer accumulation transfer unit 44. The mobile information terminal 14 establishes a sensor gateway (Sensor GW) control session connection, and the sensor information that the mobile information terminal 14 wants to acquire, the address information of the mobile information terminal 14, the port number to be used, and the like are displayed in the sensor gateway (Sensor GW). 12 is notified. The sensor gateway (Sensor GW) 12 transmits non-real-time sensor information (data) to the mobile information terminal at regular time intervals.

  Further, the sensor gateway 12 performs QoS processing on the real-time sensor data (sensor information) and the non-real-time sensor data (sensor information), and transmits the data to the mobile information terminal 14 so that the real-time data is not lost. . This QoS processing is executed by the QoS compatible transmission module.

Details of Configuration of Sensor Gateway 12 As shown in FIG. 3, the sensor gateway 12 includes a sensor management application 24, a control session application 26, and a sensor control unit 28.

Sensor control application The sensor management application 24 is an application used by a sensor cell administrator to manage the sensor gateway 12.

The control session application The control session application 26 is an application program that performs an operation of acquiring necessary sensor information types from the mobile information terminal 14 in the sensor gateway control session. At the same time, the control session application 26 is an application program for setting transmission conditions for the sensor control unit 28.

Sensor control unit The sensor control unit 28 includes a real-time sensor control unit 30, a non-real-time sensor control unit 32, and a QoS-compatible transmission module 34. Each of the real-time sensor control unit 30 and the non-real-time sensor control unit 32 can manage a plurality of sensors collectively, and sensor control applications 36 and 42 corresponding to various sensors 10 are running. .

Real-Time Sensor Control Unit The real-time sensor control unit 30 includes a sensor control application 36 and a packet transfer unit 38. When the real-time sensor control unit 30 receives a transmission condition setting signal from the control session application 26, the real-time sensor control unit 30 executes a control session with the real-time sensor 40. When the real-time sensor control unit 30 receives sensor information (also referred to as real-time information or sensor data) from the real-time sensor 40, the real-time sensor control unit 30 executes header rewriting and packet switch transfer at the IP / bridge level to obtain sensor information (real-time information). Is also transmitted to the mobile information terminal 14.

  As described above, the mobile information terminal 14 performs a sensor gateway control session with the control session application 26 and notifies the address information of the mobile information terminal 14, the port number to be used, and the like. The control session application 36 notifies the address information and the like to the real-time sensor control unit 30 and the non-real-time sensor control unit 32.

Non-real-time type sensor control unit Unlike the real-time type sensor control unit 30, the non-real-time type sensor control unit 32 includes a buffer accumulation transfer unit 44 instead of the packet transfer unit 38. The non-real-time sensor control unit 32 accumulates the sensor information acquired by the non-real-time sensor 46 in the buffer accumulation / transfer unit 44 for a certain period of time, and transmits the sensor information accumulated at certain time intervals to the mobile information terminal 14.

QoS-compatible transmission module The QoS-compatible transmission module 34 performs QoS processing according to the type of sensor (real-time sensor, non-real-time sensor), and transmits the sensor information to the mobile information terminal 14. As a result, it is possible to execute communication that prevents the loss of real-time information.

  The control session application 26 and the QoS corresponding module 34 correspond to a suitable example of the communication means described in the claims.

  As this communication means, for example, a so-called wireless LAN communication means is preferably adopted, but various other wireless means such as Zigbee can also be adopted. In the future, there may be a wireless system that does not exist now.

(2-2) Configuration of Mobile Information Terminal FIG. 4 shows a configuration block diagram of the mobile information terminal 14.

Overview of Mobile Information Terminal 14 The mobile information terminal 14 notifies the application server 16 of the sensor information list acquired from the sensor gateway (Sensor GW) 12 through a CSG service control session. Thereafter, the mobile information terminal 14 acquires sensor information necessary for the service from the application server 16.

  The application server 16 is also referred to as CSG (Community Service Gateway).

  Thereafter, the mobile information terminal 14 notifies the sensor gateway (Sensor GW) 12 of sensor information necessary for the service through the sensor gateway (Sensor GW) control session.

  Upon receiving the notification, the sensor gateway (Sensor GW) 12 collects information from the sensor 10 and transmits the data to the mobile information terminal 14 using a transfer method according to the “communication type” for each sensor type. Here, there are two types of communication types, real-time systems such as camera moving images and voices, and non-real-time systems such as status data.

  The sensor gateway (Sensor GW) 12 classifies sensor information into these two systems. Based on this classification, the sensor gateway (Sensor GW) 12 transmits sensor information to the mobile information terminal.

  The mobile information terminal 14 that has received the sensor information from the sensor gateway (Sensor GW) 12 transfers the sensor information to the application server 16 that needs the sensor information. In this sense, it can be said that the mobile information terminal 14 has a service communication gateway function (see FIG. 4).

  The packet transfer mode of the service communication gateway function of the mobile information terminal 14 employs a tunnel mode. Between the mobile terminal and the application server 16 (also referred to as CSG), packet transfer is performed by tunnel communication means corresponding to the network between them.

  On the other hand, in the present embodiment, advice communication from the application server 16 (CSG) to the mobile information terminal is performed.

  When performing this advice communication, first, the user advice application 50 corresponding to the application server 16 is activated in the mobile information terminal 14 designated by the application server 16 by the CSG service control session. Then, communication is executed by tunnel communication between the user advice application 50 and the application server 16 (CSG) in the same manner as service information communication.

  Here, the service information communication is communication between the service communication gateway 52 and the application server 16, as shown in FIG.

Role as a gateway One of the characteristic points in this embodiment is that the mobile information terminal 14 has two types of communication means, that is, communication means on the sensor network side and communication means on the application server side. It is a point. As a result, the mobile information terminal 14 functions as a gateway for connecting the sensor network and the application server.

  As a result, the application server 16 located on the Internet or the like can acquire sensor information on the sensor network via the mobile information terminal 14, and based on this sensor information, a predetermined service such as advice can be obtained. It is possible to provide.

  The advice information in the present embodiment corresponds to a preferred example of the service information in the claims.

Details of Configuration of Mobile Information Terminal 14 As shown in FIG. 4, the mobile information terminal 14 includes a service session control module 48, one or more user advice application groups 50, and a service communication gateway 52. FIG. 4 shows an example in which the mobile information terminal 14 includes N user advice applications. Here, N is an integer of 1 or more.

  As shown in FIG. 4, first, the service session control module 48 manages a sensor gateway control session between the sensor gateway 12 and the mobile information terminal 14. The service session control module 48 manages an application server service control session between the application server 16 and the mobile information terminal 14. That is, the service session control module 48 performs an operation of inquiring of the application server about sensor information necessary for receiving the service. This operation will be described in detail in (3) below.

  Further, the service communication gateway 52 transfers the sensor information received from the sensor gateway 12 to the application server 16 that performs a service using the sensor information. At this time, the tunnel mode is applied as the packet transfer mode of the service communication gateway 52. Thus, packet transfer is performed between the mobile information terminal 14 and each application server 16a, 16b, 16c, 16d by tunnel communication means according to the network environment.

  When communication (advice communication) is performed from each application server 16a, 16b, 16c, 16d to the mobile information terminal 14, any one of the user advice applications in the user advice application group 50 included in the mobile information terminal 14 is to start. The activated user advice application 50 performs communication using the set tunnel communication described above with each of the application servers 16a, 16b, 16c, and 16d. In this way, communication is performed between the mobile information terminal 14 and the application server 16 using tunnel communication of the same setting.

  The user advice application 50 to be activated is specified by each application server 16a, 16b, 16c, 16d through the application server service control session. Two or more user advice applications 50 may be operating at the same time. That is, two types of advice services may be provided at the same time.

  The service session control module 48 is an example of a suitable means constituting the communication means described in the claims. The service communication gateway 52 corresponds to an example of a suitable means that constitutes the communication means described in the claims.

(2-3) Configuration of Application Server FIG. 5 shows a block diagram of the configuration of the application server 16. As shown in FIG. 5, the application server 16 includes a terminal connection authentication unit 54, a control session application 56, a service application unit 58, and a public information filter 60.

Overview of Application Server 16 The application server 16 (also referred to as CSG) establishes a CSG service control session with the mobile information terminal 14 and then generates a communication tunnel with the mobile information terminal 14.

  Terminal connection authentication is performed through this communication tunnel, the mobile information terminal 14 which is the other party is identified, and the user is specified. Then, the acquired sensor information is written in the user information database 2 corresponding to the user. The user management unit in FIG. 5 constantly monitors user preferences and user status, and notifies the service application (also in FIG. 5) of information if necessary. Based on this notification, the service application in FIG. 5 sends advice information to the user of the mobile information terminal 14.

  In addition, as shown in FIG. 5, a public information filter 60 is provided, and if the information is not identifiable to a specific user, the public information filter is passed and sensor information is accumulated in the public service server 66. be able to. In addition, in the case of information that can identify an individual, the information cannot pass through the public information filter 60 and is not used for public services.

Service Based on History One of the characteristic features of the present embodiment is that the user information database 62 stores a history of sensor information for each user. As a result. It is possible to provide a service based on the history of sensor information.

Details of Configuration of Application Server 16 As shown in FIG. 5, the application server 16 includes a control session application 56. The control session application 56 establishes an application service control session with the mobile information terminal 14 and generates a communication tunnel with the mobile information terminal 14 using the session. Using this communication tunnel, the terminal connection authentication unit 54 performs an authentication operation of the mobile information terminal 14. By this authentication operation, the mobile information terminal 14 can be specified and authenticated, that is, the user of the mobile information terminal 14 can be specified and the user can be authenticated.

  The service application unit 58 writes the sensor information transferred from the mobile information terminal 14 in the corresponding user information database 62 based on user authentication. Further, if necessary, the service application unit 64 generates advice information and transmits the generated advice information to the mobile information terminal 14.

  The service application unit 58 includes a service application 64a and a user management unit 64b. The servo application 64a acquires sensor information and transfers the acquired sensor information to the user management unit 64b. The service application unit 64a generates the advice information based on the sensor information and transmits it to the mobile information terminal 14.

  The user management unit 64 b stores the transferred sensor information in the user information database 62. This storage is performed for the user information database 62 corresponding to the user authenticated by the above-described user authentication. Further, the user management unit 64b supplies the stored sensor information history to the service application 64a, and the service application 64a may generate predetermined advice information based on the history.

  The advice information may be generated based on one sensor information, or may be generated based on a plurality of sensor information. The operation for generating the advice information will be described in detail in (3) below.

  The terminal connection authentication unit 54 and the service application unit 58 described above correspond to a suitable example of the application server side tunnel communication unit described in the claims.

  As this communication means, for example, a so-called wireless LAN communication means is preferably adopted, but various other wireless means such as Zigbee can also be adopted. In the future, there may be a wireless system that does not exist now.

Handling of highly public information Some sensor information includes information that does not specify a user who uses the sensor information and highly public information. Examples of highly public information include temperature information of a specific area. The public information filter 60 shown in FIG. 5 is an application for filtering information that is not specified by the user or highly public information from the sensor information received by the application server 16. Here, filtering means an operation of selecting information that is not specified by the user or highly public information.

  The sensor information filtered by the public information filter 60 is transferred to the public service server 66. The public service server 66 accumulates this highly public information and generally provides it to the outside widely.

  According to such a configuration, highly public sensor information can be used for the public benefit. For example, it becomes possible to provide the general public with the temperature of a specific area in real time.

(3) Operation of Sensor Information System for Mobile Terminal FIG. 6 shows a timing chart showing the flow of operation of the sensor information system for mobile terminal. Hereinafter, the operation of the sensor information system for mobile terminals will be described with reference to FIG. 6 with a specific example.

  As a specific example, it is assumed that the user of the mobile information terminal selects a menu at a restaurant when the user is receiving a diet for the treatment of diabetes.

  First, in step S6-1 in FIG. 6, the mobile information terminal 14 receives a sensor cell notification message from the sensor gateway 12 installed in the restaurant.

  Next, in step S6-2 in FIG. 6, the mobile information terminal 14 inquires of the sensor gateway 12 about the sensor list information.

This sensor list information is also called sensor information list.
・ Sensor ID
・ Sensor type ・ Data format ・ Other sensor information.

  Next, in step S <b> 6-3 in FIG. 6, the mobile information terminal 14 acquires sensor list information from the sensor gateway 12. More specifically, in step S6-3, the mobile information terminal 14 acquires sensor list information from the sensor gateway 12 through the application server service control session in FIG. In this example, the sensor list information is, for example, information indicating that three sensors, that is, a fire sensor, a door open / close sensor, and a sensor that detects a menu raw material (hereinafter referred to as a food sensor) can be used. To do.

  Next, in step S6-4 in FIG. 6, the sensor information necessary for the mobile information terminal 14 is the sensor information of which of the three sensors {fire sensor, door open / close sensor, food sensor}. Is inquired of the application server 16.

  Next, in step S6-5 in FIG. 6, the application server 16 determines that the sensor information of the food sensor is necessary among the three sensors {fire sensor, door open / close sensor, food sensor}. Notify Through this operation, the mobile information terminal 14 knows the type of sensor information necessary for receiving the service.

  Next, in step S <b> 6-6 in FIG. 6, the mobile information terminal 14 requests the sensor gateway 12 to acquire sensor information of the food material sensor. This acquisition request is made in the application server service control session shown in FIG.

  Next, in step S <b> 6-7 in FIG. 6, the sensor gateway 12 transmits the sensor information of the food material sensor to the mobile information terminal 14. At this time, the mobile information terminal 14 performs packet transfer of the gateway function. As a result, the sensor information of the food material sensor is transmitted to the application server. This packet transfer is executed by the service communication gateway 52.

  As a result of this operation, the service application server 16 can acquire sensor information from the food sensor. In this example, it is assumed that the sensor information of the food sensor is, for example, information indicating that “the sugar content of the target menu is 0 g”.

  Next, in step S <b> 6-8 in FIG. 6, the application server 16 writes the sensor information from the food sensor transferred from the mobile information terminal 14 in the user information database 62.

  The user management unit 64b that manages the user information database 62 constantly monitors user preference and user status based on information written in the user information database 62.

  On the other hand, the service application 64a creates predetermined advice information from the provided sensor information and transmits it to the mobile information terminal 14 using tunnel communication. The advice information is various advice.

  For example, if the ingredient has too much sugar, the advice may be “Too much sugar”. If the ingredient has little sugar, the advice may be “There is not much sugar”. What kind of advice depends on the application server 16. The user selects the application server 16 that provides the advice he desires, and the user advice application 50 (see FIG. 4) corresponding to the application server 16 is installed in the mobile information terminal 14 in advance. Thus, the user can receive a desired service (advice).

  Further, the user management unit 64b may notify the service application 64a that it is necessary to generate advice information as necessary. This is executed when it is necessary to give advice according to the past history. For example, advice based on the history so far, such as “the intake of sugar in the past week is excessive”, becomes possible. This is made possible by recording and managing sensor information for each user.

  Next, in step S6-9 in FIG. 6, the service application 64a generates advice information as described above, and transmits the generated advice information to the mobile information terminal 14. In this example, for example, it is assumed that even if the menu is eaten, there is no adverse effect on the treatment of diabetes, and thus advice information indicating that the menu may be eaten is transmitted.

  Next, in step S6-10 in FIG. 6, the display means of the mobile information terminal 14 presents the advice information received from the service application server 16 to the user. As a result, the user can enjoy a meal without worsening diabetes.

  The operations from step S6-1 to step S6-10 described above are the basic operations of the mobile terminal sensor information system according to the present embodiment.

  As a result, the user can eat, for example, without worrying about placing an excessive burden on the body.

  One of the characteristic features in the present embodiment is that the service application unit 58 of the application server includes a user information database 62. In step S6-9, the service application preferably generates advice information by referring to the history stored in the user information database 62. By referring to the history, for example, more appropriate advice information can be generated by distinguishing between a case where the medical condition is in a worsening tendency and a case where the medical condition is in an improving tendency.

Multiple Service Provisions In FIG. 6 described above, only the provision of a single service has been described, but it is also preferable that a plurality of services be provided simultaneously. An example of processing from step S6-4 to S6-10 in FIG. 6 in this case is shown in FIG. As shown in the timing chart of FIG. 7, sensor information can be transmitted to n (n is an integer of 2 or more) application servers 16 to receive n types of advice services. Each advice process is executed independently.

Types of Services In the present embodiment, a predetermined advice is described as an example of a provided service, but any type of service may be used. It is possible to provide various services such as providing bargain information, special price information, time sale information, weather information / weather forecast, and traffic information.

  In particular, in this embodiment, since the history of sensor information is stored, it is possible to provide a service based on the past history, and to provide a service that is more convenient for the user. .

Other related inventions The related invention is the sensor information system for mobile terminals according to any one of claims 1 to 3, wherein the first communication means is the sensor gateway. A sensor gateway side wireless LAN communication means, and a mobile information terminal side wireless LAN communication means provided in the mobile information terminal, wherein the sensor gateway uses the sensor gateway side wireless LAN communication means. When the mobile information terminal enters the sensor cell, the sensor gateway and the mobile information terminal are used by using the sensor gateway side wireless LAN communication means when the mobile information terminal enters the sensor cell. Communicating with a wireless LAN It is also preferable to the sensor information system for mobile terminals.

10 sensor group 10a, 10b, 10c, 10d sensor 12 sensor gateway 14 mobile information terminal 16 application server group 16a, 16b, 16c, 16d application server 18a, 18b, 18c, 18d sensor cell 20 sensor information system for mobile terminal 22a, 22b 22c, 22d Sensor gateway 24 Sensor management application 26 Control session application 28 Sensor control unit 30 Real-time type sensor control unit 32 Non-real-time type sensor control unit 34 QoS compatible transmission module 36 Sensor control application 38 Packet transfer unit 40 Real-time type sensor 42 Sensor Control application 44 Buffer accumulation and transfer unit 46 Non-real-time type Sensor 48 service session control module 50 user advice application group 52 service communication gateway 54 terminal connection authentication unit 56 control session application 58 service application unit 60 publicity information filter 62 user information database 64a service application 64b user management unit 66 for public service Server 0, A, B, C position

Claims (5)

A sensor gateway that acquires sensor information from the sensor network;
A mobile information terminal for receiving the sensor information from the sensor gateway;
An application server that generates service information based on the sensor information provided from the mobile information terminal;
First communication means for connecting the sensor gateway and the mobile information terminal;
Second communication means for connecting the mobile information terminal and the application server;
In the sensor information system for mobile terminals consisting of
The mobile information terminal
Application means for acquiring the sensor information from the sensor gateway and transmitting the acquired sensor information to the application server;
A user advice application for selecting the sensor information;
Display means;
With
The mobile information terminal requests only the sensor information selected by the user advice application from the sensor gateway located in a communicable range ,
The sensor gateway that has received the request transmits only the requested sensor information to the mobile information terminal located in a range in which the sensor gateway can communicate ,
The application means receives the service information generated by the application server;
The sensor information system for mobile terminals, wherein the display means displays the received service information. The mobile terminal sensor information system according to claim 1,
The sensor network is seen containing a real-time sensor generating the sensor information continuously,
A sensor information system for mobile terminals , wherein the sensor gateway transmits sensor information of the real-time sensor to the mobile information terminal in real time . The mobile terminal sensor information system according to claim 1,
The sensor network includes non-real-time sensors that intermittently generate the sensor information;
The sensor information system for mobile terminals , wherein the sensor gateway transmits sensor information of the non-real-time sensor to the mobile information terminal at regular time intervals . The sensor information system for mobile terminals according to any one of claims 1 to 3,
The second communication means includes
Mobile information terminal side tunnel communication means provided in the mobile information terminal,
Application server side tunnel communication means provided in the application server;
Consisting of
Sensor information for mobile terminals, wherein communication in tunnel mode is performed between the application server and the mobile information terminal when the sensor information is transmitted and received between the application server and the mobile information terminal system. The mobile terminal sensor information system according to claim 4,
The application server is
A terminal connection authentication unit for authenticating the mobile information terminal through the communication tunnel;
A sensor information system for mobile terminals, comprising:

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