JP6519260B2 - Outgoing information utilization system - Google Patents

Description

  Embodiments of the present invention relate to a transmission information utilization system.

  BACKGROUND ART Conventionally, there are known techniques for providing various services to users based on transmission information transmitted from a transmitter such as a beacon.

Unexamined-Japanese-Patent No. 2011-124968

  However, in the technology as described above, there is a problem that it is difficult to set appropriate transmission information according to the situation of the arrangement location.

  An object of the present invention is to provide a transmission information utilization system which can be set to appropriate transmission information according to the situation of the arrangement place of a transmitter.

The transmission information utilization system of this embodiment comprises a lighting device and a transmitter. The lighting apparatus includes a light source, a lighting circuit, a storage battery, and a determination unit that determines a power feeding method . Transmitter is information for use in the processing of the receiving side, the transmission information of a plurality assigned information is changed depending on the feeding electrostatic system. The storage battery supplies power to the lighting circuit and the transmitter when it is determined by the determination unit that power supply from the commercial power supply has been stopped.

  According to the present invention, it is possible to set appropriate transmission information according to the situation of the location of the transmitter.

FIG. 1 is a diagram showing a schematic configuration of a transmission information utilization system according to the first embodiment. FIG. 2 is a block diagram showing the configuration of the transmitter according to the first embodiment. FIG. 3 is a diagram showing an example of information stored in the storage unit of the transmitter according to the first embodiment. FIG. 4 is a circuit block diagram showing the configuration of the illumination device according to the first embodiment. FIG. 5 is a circuit block diagram showing the configuration of the illumination device according to the first embodiment. FIG. 6 is a block diagram showing the configuration of the server according to the first embodiment. FIG. 7 is a diagram illustrating an example of information stored in the content information storage unit according to the first embodiment. FIG. 8 is a block diagram showing the configuration of the mobile terminal according to the first embodiment. FIG. 9 is a sequence diagram showing a procedure of transmission information utilization processing in the transmission information utilization system according to the first embodiment. FIG. 10 is a diagram showing a schematic configuration of a transmission information utilization system according to the second embodiment. FIG. 11 is a block diagram showing the configuration of a server according to the second embodiment. FIG. 12 is a diagram illustrating an example of information stored in the application information storage unit according to the second embodiment. FIG. 13 is a block diagram showing the configuration of the portable terminal according to the second embodiment. FIG. 14 is a sequence diagram showing a procedure of transmission information utilization processing in the transmission information utilization system according to the second embodiment. FIG. 15 is a diagram showing a schematic configuration of a transmission information utilization system according to the third embodiment. FIG. 16 is a block diagram showing the configuration of a server according to the third embodiment. FIG. 17 is a diagram of an example of information stored in a group information storage unit according to the third embodiment. FIG. 18 is a sequence diagram illustrating a procedure of transmission information utilization processing in the transmission information utilization system according to the third embodiment.

  The transmission information utilization systems 1 to 3 according to the first to third embodiments described below are a determination mechanism that determines a power feeding method to a predetermined device, and information used for processing on the reception side, and a plurality of allocations are made And a transmitter configured to change transmission information, which is information, according to a power feeding method determined by the determination mechanism.

  In addition, the transmission information utilization systems 1 to 3 according to the first to third embodiments described below further include the portable terminals 10, 10A, 10B and the servers 100, 100A, 100B, and the portable terminals 10, 10A, 10B transmits the terminal information for identifying the portable terminals 10, 10A, 10B and the transmission information received from the transmitter 40 to the servers 100, 100A, 100B. The servers 100, 100A, 100B transmit the portable terminals 10, 10A, 100B. When the transmission information and the terminal information for identifying the portable terminals 10, 10A, and 10B are received from 10B, predetermined processing based on the received transmission information is performed.

  In addition, the transmission information utilization systems 1 to 3 according to the first to third embodiments described below further include the portable terminals 10, 10A, 10B and the servers 100, 100A, 100B, and the portable terminals 10, 10A, 10B transmits terminal information identifying the portable terminals 10, 10A, 10B to the transmitter 40, and the servers 100, 100A, 100B transmit information from the transmitter 40 and terminal information identifying the portable terminals 10, 10A, 10B. , And performs predetermined processing based on the received transmission information.

  In addition, in the transmission information utilization systems 1 to 3 according to the first to third embodiments described below, when the servers 100, 100A, and 100B receive the transmission information and the terminal information, the mobile terminal 10 identified by the terminal information , 10A, 10B or the other portable terminal 10C associated with the portable terminals 10, 10A, 10B, the processing based on the transmission information is performed.

  In the transmission information utilization systems 1 to 3 according to the first to third embodiments described below, the servers 100, 100A, and 100B are mobile terminals 10, 10A, and 10B identified by the terminal information as processing based on the transmission information. Alternatively, the content based on the transmission information is provided to the other portable terminal 10C associated with the portable terminals 10, 10A, 10B.

  In the transmission information utilization systems 1 to 3 according to the first to third embodiments described below, the servers 100, 100A, and 100B are mobile terminals 10, 10A, and 10B identified by the terminal information as processing based on the transmission information. Alternatively, it instructs other mobile terminals 10C associated with the mobile terminals 10, 10A, 10B to perform processing related to the application based on the transmission information.

  In the transmission information utilization systems 1 to 3 according to the first to third embodiments described below, when the transmission information transmitted by the transmitter 40 is received, the mobile terminals 10 and 10A that perform processing related to the application based on the transmission information , 10B.

  The transmission information utilization systems 1 to 3 according to the first to third embodiments described below further include the storage battery 53. The determination mechanism determines whether the power supply by the commercial power source CP or the power supply by the storage battery 53 is performed as a power supply method.

  Moreover, the transmission information utilization systems 1-3 which concern on Embodiment 1-3 demonstrated below comprise the illuminating device 50 as a predetermined | prescribed apparatus. The lighting device 50 includes the light source 51, the determination unit 52 as a determination mechanism, and the storage battery 53. When the determination unit 52 determines that the power supply by the commercial power CP is stopped, the storage device 53 is a transmitter. Supply power to 40.

Embodiment 1
First, a transmission information utilization system 1 according to a first embodiment of the present invention will be described based on the drawings. FIG. 1 is a diagram showing a schematic configuration of a transmission information utilization system according to the first embodiment. In the example shown in FIG. 1, the transmission information utilization system 1 includes the illumination device 50 including the storage battery 53 (see FIG. 4) as a predetermined device, and the determination unit 52 of the illumination device 50 determines the supply system. Do.

  The transmission information utilization system 1 according to the first embodiment includes a portable terminal 10, a transmitter 40, a lighting device 50, and a server 100. For example, the server 100 is communicably connected to the portable terminal 10 via a predetermined network. The transmission information utilization system 1 shown in FIG. 1 may include a plurality of mobile terminals 10, a plurality of transmitters 40, a plurality of lighting devices 50, and a plurality of servers 100.

  The portable terminal 10 is an information processing apparatus owned by a user. The mobile terminal 10 may be any information processing apparatus as long as it is an information processing apparatus that can be carried by the user. For example, a smart phone, a tablet type terminal, a laptop PC (Personal Computer), a mobile phone, , PDA (Personal Digital Assistant) or the like. In the example shown in FIG. 1, the case where a smart phone is used as the portable terminal 10 will be described. In the following, the mobile terminal 10 may be referred to as a user. That is, in the following, the user can be replaced with the mobile terminal 10. For example, the portable terminal 10 receives the information transmitted from the transmitter 40. Specifically, the portable terminal 10 receives the transmission ID transmitted from the transmitter 40. In addition, the portable terminal 10 transmits the transmission ID received from the transmitter 40 to the server 100.

  The transmitter 40 is, for example, a device that periodically transmits radio waves (information) such as a beacon. Further, the transmitter 40 transmits a transmission ID as transmission information which is information to be used for processing on the reception side and which is a plurality of pieces of information to be allocated. Moreover, although the transmitter 40 changes transmission ID according to the electric power feeding system determined by the determination part 52 of the illuminating device 50, the detail is mentioned later. Although one transmitter 40 is shown in the example shown in FIG. 1, the transmitter 40 may be installed in multiple numbers.

  The illumination device 50 includes a light source 51 such as, for example, a fluorescent lamp or a light emitting diode (LED). Further, the lighting device 50 is supplied with power from the commercial power supply CP. Further, in the example shown in FIG. 1, the lighting device 50 supplies power to the transmitter 40. For example, the lighting device 50 normally supplies the power supplied from the commercial power source CP to the transmitter 40, and supplies power from the storage battery 53 in the lighting device 50 to the transmitter 40 at the time of a power failure. Although one lighting device 50 is shown in the example shown in FIG. 1, the lighting devices 50 may be installed in plural.

  The server 100 is an information processing apparatus that performs predetermined processing based on the received transmission ID when receiving the transmission ID and a terminal ID that is terminal information that identifies the portable terminal 10. In the example illustrated in FIG. 1, the server 100 receives the transmission ID and the terminal ID from the portable terminal 10. Further, in the example illustrated in FIG. 1, the server 100 provides the content based on the received transmission ID to the portable terminal 10 identified by the received terminal ID as processing based on the transmission ID.

  As shown on the left side of FIG. 1, when the power supply system supplies power from the commercial power source CP (hereinafter referred to as “normal”), the portable terminal 10 of the user transmits a signal transmitted by the transmitter 40. An ID is received (step S11). In the example illustrated in FIG. 1, the portable terminal 10 receives the transmission ID “B11” that the transmitter 40 normally transmits. Then, the portable terminal 10 transmits the transmission ID received from the transmitter 40 and the terminal ID of the portable terminal 10 to the server 100, for example, according to the user's operation (step S12). In the example illustrated in FIG. 1, the portable terminal 10 transmits the transmission ID “B11” received from the transmitter 40 and the terminal ID of the portable terminal 10 to the server 100.

  When the server 100 receives the transmission ID and the terminal ID from the portable terminal 10, the server 100 distributes the content corresponding to the received transmission ID to the portable terminal 10 (step S13). In the example illustrated in FIG. 1, the server 100 distributes the content “content A” corresponding to the transmission ID “B11” received from the portable terminal 10 to the portable terminal 10. For example, the server 100 distributes, as content “content A”, map information or the like of an area in which the transmitter 40 used at normal times is installed. Also, for example, the server 100 may deliver maintenance information such as information on the battery of the transmitter 40 to the portable terminal 10 as the content “content A”. The maintenance information as described above may be provided by the transmitter 40 to an external device such as the portable terminal 10 according to an instruction from the external device such as the portable terminal 10 or the like.

  Next, when the supply of power from the commercial power source CP shown on the right side of FIG. 1 is stopped, and the transmitter 40 is a power supply method in which power is supplied by the storage battery 53 of the lighting device 50 (hereinafter referred to as "power failure" Will be described. As shown on the right side of FIG. 1, the supply of power from the commercial power source CP is stopped, and a power failure state occurs (step S21). In this case, the lighting device 50 switches from the power supply system using the commercial power source CP to the power supply system using the storage battery 53, and performs storage battery driving (step S22). Here, the power supply method to the transmitter 40 is also switched from the power supply method by the commercial power source CP to the power supply method by the storage battery 53.

  If the power supply method has been switched, the transmitter 40 changes the transmission ID (step S23). In the example illustrated in FIG. 1, the transmitter 40 changes the transmission ID from the transmission ID “B11” that is normally transmitted to a transmission ID “B12” that is transmitted when a power failure occurs. Thereafter, the portable terminal 10 of the user receives the transmission ID transmitted by the transmitter 40 (step S24). In the example shown in FIG. 1, the portable terminal 10 receives the transmission ID “B12” transmitted by the transmitter 40 at the time of a power failure. Then, the portable terminal 10 transmits the transmission ID received from the transmitter 40 and the terminal ID of the portable terminal 10 to the server 100, for example, according to the user's operation (step S25). In the example illustrated in FIG. 1, the portable terminal 10 transmits the transmission ID “B12” received from the transmitter 40 and the terminal ID of the portable terminal 10 to the server 100.

  When the server 100 receives the transmission ID and the terminal ID from the portable terminal 10, the server 100 distributes the content corresponding to the received transmission ID to the portable terminal 10 (step S26). In the example illustrated in FIG. 1, the server 100 distributes the content “content B” corresponding to the transmission ID “B12” received from the portable terminal 10 to the portable terminal 10. For example, the server 100 distributes, as content “content B”, evacuation route information or the like of an area where the transmitter 40 used at the time of a power failure is installed. As a result, the transmission information utilization system 1 can set appropriate transmission information according to the situation of the location of the transmitter 40. Therefore, the transmission information utilization system 1 can distribute the appropriate content according to the situation around the user.

[Structure of transmitter]
The configuration of the transmitter 40 will be described with reference to FIG. FIG. 2 is a block diagram showing the configuration of the transmitter according to the first embodiment. A transmitter 40 shown below transmits a transmission ID. As shown in FIG. 2, the transmitter 40 includes a transmitting unit 41, a communication unit 42, a storage unit 43, and a control unit 44. The processes of these units will be described below.

  The transmitting unit 41 is realized by, for example, a predetermined transmitting circuit or the like, and has a function of transmitting a radio wave (for example, a microwave or the like). Also, the transmission unit 41 periodically transmits radio waves (information).

  The communication unit 42 is realized by, for example, a predetermined communication circuit or the like. The communication unit 42 is connected to a predetermined network (not shown) in a wired or wireless manner. Then, the communication unit 42 may transmit and receive information with the server 100 and other transmitters 40 via a predetermined network (not shown). Also, the communication unit 42 may be integrated with the transmission unit 41. Further, the communication unit 42 may perform communication by a wireless communication technology such as Bluetooth (registered trademark) or BLE (Bluetooth Low Energy).

  The storage unit 43 stores data and programs necessary for various processes performed by the control unit 44. In addition, the storage unit 43 stores various information such as a transmission ID transmitted by the transmission unit 41, for example. The storage unit 43 may be a storage device such as a semiconductor memory element such as a random access memory (RAM), a read only memory (ROM), or a flash memory. FIG. 3 is a diagram showing an example of information stored in the storage unit of the transmitter according to the first embodiment. As shown in FIG. 3, a plurality of transmission IDs transmitted by the transmitter 40 are stored in the storage unit 43 according to the first embodiment. As illustrated in FIG. 3, the storage unit 43 stores “B11”, “B12”, and the like as transmission IDs transmitted by the transmitter 40.

  The control unit 44 has a program defining various processing procedures and the like, and an internal memory for storing required data, and executes various processings by these, and particularly as closely related to the present invention, An instruction unit 45, a reception unit 46, and a change unit 47 are included.

  The instructing unit 45 instructs the transmitting unit 41 to transmit predetermined information. For example, the instruction unit 45 instructs the transmission unit 41 to transmit the transmission ID stored in the storage unit 43. Specifically, the instruction unit 45 instructs the transmission unit 41 to transmit the transmission ID which is the transmission ID transmitted by the change unit 47 among the transmission IDs stored in the storage unit 43. Further, the instruction unit 45 may instruct the communication unit 42 to transmit predetermined information.

  The receiving unit 46 receives information on the power feeding method from the lighting device 50. For example, the reception unit 46 receives, from the lighting device 50 via the communication unit 42 or a connection line (not shown), information on whether the power supply method is power supply by the commercial power CP or power supply by the storage battery 53. Further, the receiving unit 46 receives, for example, various types of information from a predetermined external device via the communication unit 42.

  When the receiving unit 46 receives the information on the power feeding method, the changing unit 47 changes the transmission ID to be sent according to the received power feeding method. For example, when the receiving unit 46 receives the information indicating that the power feeding method is the power supply by the storage battery, the changing unit 47 transmits a transmission ID to be transmitted at the time of a power failure among the transmission IDs stored in the storage unit 43 Change the outgoing ID. Specifically, when the receiving unit 46 receives the information indicating that the power feeding method is the power supply by the storage battery, the changing unit 47 transmits a transmission ID at the time of a power failure among the transmission IDs stored in the storage unit 43. Change the outgoing call ID sent to ID "B12".

[Configuration of lighting device]
Then, the structure of the illuminating device 50 is demonstrated using FIG.4 and FIG.5. FIG.4 and FIG.5 is a circuit block diagram which shows the structure of the illuminating device based on Embodiment 1. FIG. Specifically, FIG. 4 is a circuit block diagram showing the configuration of the lighting device in a normal state. More specifically, FIG. 5 is a circuit block diagram showing the configuration of the lighting device at the time of a power failure. As shown in FIGS. 4 and 5, the lighting device 50 includes a light source 51, a determination unit 52, a storage battery 53, a lighting circuit 54, and an emergency lighting circuit 55. The processes of these units will be described below.

  As described above, the light source 51 is, for example, a fluorescent lamp or an LED. In addition, the determination unit 52 determines whether the power supply by the commercial power source CP or the power supply by the storage battery 53 is performed as a power feeding method. Note that the determination unit 52 in the present embodiment may have various configurations, such as a power failure detection circuit, as long as it can determine whether power is supplied from the commercial power source CP or from the storage battery 53. Further, the determination unit 52 transmits information on the power feeding method to the transmitter 40. For example, the determination unit 52 transmits information on whether the power supply method is the power supply by the commercial power CP or the power supply by the storage battery 53 to the transmitter 40 via a communication circuit, a connection line, and the like (not shown). The storage battery 53 supplies power to the transmitter 40 when the determination unit 52 determines that the power supply by the commercial power source CP is stopped. In addition, various types of storage batteries may be used as the storage battery 53 according to the purpose. In addition, various lighting circuits are appropriately used as the lighting circuit 54 and the emergency lighting circuit 55 according to the type of the light source 51.

  Here, the determination unit 52 switches the connection of the switches SW11 and SW12 in the lighting device 50 according to the power feeding method. This point will be described below.

  FIG. 4 shows the states of the switches SW11, SW12, and SW13 in the lighting device 50 at normal times. In a normal state, the switch SW11 is connected to the node N11, the switch SW12 is not connected to the node N13, and the switch SW13 is connected to the node N14. Therefore, power is supplied to the light source 51 from the commercial power supply CP, and the light source 51 is lit by the lighting circuit 54. At this time, power is also supplied from the commercial power supply CP to the storage battery 53, and in normal times, the storage battery 53 is charged by the commercial power supply CP. Also, power is supplied to the transmitter 40 from the commercial power supply CP. In the case where the lighting device 50 is a lighting device such as an emergency light which lights up only at the time of emergency such as a power failure, the switch SW11 may not be connected to either of the nodes N11 and N12 in a normal time.

  Moreover, FIG. 5 shows the state of switch SW11, SW12 in the illuminating device 50 at the time of a power failure. At the time of power failure, the switch SW11 is connected to the node N12, the switch SW12 is connected to the node N13, and the switch SW13 is not connected to the node N14. Therefore, power is supplied to the light source 51 from the storage battery 53, and the light source 51 is lit by the emergency lighting circuit 55. At this time, power is also supplied from the storage battery 53 to the transmitter 40.

[Server configuration example]
Next, the configuration of the server 100 according to the first embodiment will be described using FIG. FIG. 6 is a block diagram showing the configuration of the server according to the first embodiment. As shown in FIG. 6, the server 100 includes a communication unit 110, a storage unit 120, and a control unit 130. The server 100 may have an input unit (for example, a keyboard or a mouse) that receives various operations from the administrator of the server 100 or the like, and a display unit (for example, a liquid crystal display or the like) for displaying various information. Good.

  The communication unit 110 is realized by, for example, a network interface card (NIC). The communication unit 110 is connected to a predetermined network (not shown) in a wired or wireless manner. Then, the communication unit 110 transmits and receives information to and from the portable terminal 10 or the like via a predetermined network (not shown).

  The storage unit 120 is implemented by, for example, a semiconductor memory device such as a RAM or a flash memory, or a storage device such as a hard disk or an optical disk. The storage unit 120 according to the first embodiment has a content information storage unit 121 as shown in FIG.

  The content information storage unit 121 stores content information. FIG. 7 is a diagram illustrating an example of information stored in the content information storage unit according to the first embodiment. As shown in FIG. 7, the content information storage unit 121 has items such as “transmission ID” and “content” as content information.

  "Transmission ID" indicates a transmission ID corresponding to the content. "Content" indicates the content associated with the transmission ID. Although FIG. 7 shows an example where conceptual information such as “content A” is stored in “content”, still images, moving images, text data, URLs, file path names indicating storage locations of these, etc. are stored. It may be done. In the example illustrated in FIG. 7, the content “content A” is associated with the transmission ID “B11”. Also, the content “content B” is associated with the transmission ID “B12”, and the content “content C” is associated with the transmission ID “B13”.

  Returning to the explanation of FIG. 6, the control unit 130 has an internal memory for storing a program defining various processing procedures and the like and required data, and executes various processings by these, but in the present invention, in particular, The components closely related to each other include a receiver 131, an extractor 132, and a transmitter 133.

  The receiving unit 131 receives the calling ID and the terminal ID. Further, the receiving unit 131 delivers the received transmission ID to the extracting unit 132.

  The extraction unit 132 extracts the content corresponding to the transmission ID received from the content information storage unit 121 when the transmission ID is received by the reception unit 131. For example, when the extraction unit 132 receives the transmission ID “B13”, the extraction unit 132 extracts the content “content C” corresponding to the transmission ID “B13” from the content information storage unit 121.

  The transmission unit 133 distributes the content extracted by the extraction unit 132 to the portable terminal 10 identified by the terminal ID. For example, when the extraction unit 132 extracts the content “content B” corresponding to the transmission ID “B12”, the transmission unit 133 distributes the content “content B” to the portable terminal 10 identified by the terminal ID.

[Configuration of mobile terminal]
Subsequently, the configuration of the portable terminal 10 will be described with reference to FIG. FIG. 8 is a block diagram showing the configuration of the mobile terminal according to the first embodiment. The portable terminal 10 described below receives a transmission ID transmitted from the transmitter 40, and transmits the received transmission ID to the server 100. As shown in FIG. 8, the mobile terminal 10 includes a communication unit 11, a storage unit 12, an input unit 13, an output unit 14, and a control unit 15. The processes of these units will be described below.

  The communication unit 11 is realized by, for example, a communication circuit or the like. Then, the communication unit 11 transmits and receives information to and from an external information processing apparatus. For example, the communication unit 11 transmits and receives information to and from the transmitter 40 and the server 100. The communication unit 11 may perform communication by wireless communication technology such as Bluetooth (registered trademark) or BLE, for example.

  The storage unit 12 stores data and programs necessary for various processes performed by the control unit 15. The storage unit 12 also stores various information such as the received transmission ID. The storage unit 12 is a semiconductor memory device such as a RAM, a ROM, or a flash memory, or a storage device such as a hard disk or an optical disk.

  The input unit 13 receives an operation of the user. For example, when the mobile terminal 10 has a touch panel function, the input unit 13 receives various operations from the user via the display screen of the mobile terminal 10. Further, the input unit 13 may receive various operations from the user via the microphone of the portable terminal 10 by the function of voice recognition.

  The output unit 14 includes a display screen of the portable terminal 10 realized by, for example, a liquid crystal display or an organic EL (Electro-Luminescence) display, and displays various information. For example, the output unit 14 outputs a screen for confirming whether the transmission ID received from the transmitter 40 is to be transmitted to the server 100.

  The control unit 15 has a program defining various processing procedures and the like, and an internal memory for storing required data, and executes various processings by these, but particularly as closely related to the present invention, The receiver 16 and the transmitter 17 are provided.

  The receiving unit 16 receives the transmission ID transmitted from the transmitter 40. The transmission unit 17 transmits the transmission ID received from the transmitter 40 and the terminal ID for identifying the portable terminal 10 to the server 100. The transmission unit 17 may transmit the transmission ID and the terminal ID to the server 100 when the user's operation is performed.

  The mobile terminal 10 may be a smartphone, a tablet terminal, or the like in which the transmission information utilization application is installed. For example, in the case where the mobile terminal 10 is a smart phone in which the transmission information utilization application is installed, the control unit 15 and the storage unit 12 may be the function of the transmission information utilization application installed in the mobile terminal 10.

[Processing by the transmission information utilization system]
Next, the transmission information utilization processing by the transmission information utilization system 1 according to the first embodiment will be described using FIG. 9. FIG. 9 is a sequence diagram showing a procedure of transmission information utilization processing in the transmission information utilization system according to the first embodiment.

  As shown in FIG. 9, the mobile terminal 10 receives the transmission ID from the transmitter 40 at normal time (step S101). For example, the portable terminal 10 receives the transmission ID “B11” from the transmitter 40. Then, the portable terminal 10 having received the transmission ID from the transmitter 40 transmits the received transmission ID and a terminal ID for identifying the portable terminal 10 to the server 100 (step S102). For example, the portable terminal 10 that has received the transmission ID from the transmitter 40 transmits the received transmission ID “B11” and the terminal ID to the server 100.

  Then, when receiving the transmission ID and the terminal ID, the server 100 extracts the content corresponding to the transmission ID (step S103). For example, when the server 100 receives the transmission ID “B11” from the mobile terminal 10, the server 100 extracts the content “content A” corresponding to the transmission ID “B11”.

  Thereafter, the server 100 distributes the extracted content “content A” to the mobile terminal 10 (step S104). For example, the server 100 distributes the extracted content "content A" to the portable terminal 10 identified by the terminal ID received in step S102.

  Thereafter, when it is determined that the supply of power from the commercial power source CP has stopped, the lighting device 50 switches the power supply method to the storage battery drive (step S105). Then, the lighting device 50 notifies the transmitter 40 that the power supply system has been changed to the storage battery drive (step S106).

  The transmitter 40 that has received the change of the power supply method from the lighting device 50 changes the transmission ID to be transmitted according to the received power supply method (step S107). For example, when the transmitter 40 receives a notification that the power supply system has been changed from commercial power drive to storage battery drive from the lighting device 50, the transmitter ID for transmission is changed from the transmission ID "B11" to the transmission ID "B12". Do. Thereafter, at the time of the power failure, the portable terminal 10 receives the transmission ID from the transmitter 40 (step S108). For example, the portable terminal 10 receives the transmission ID “B12” from the transmitter 40. Then, the portable terminal 10 having received the transmission ID from the transmitter 40 transmits the received transmission ID and a terminal ID for identifying the portable terminal 10 to the server 100 (step S109). For example, the portable terminal 10 that has received the transmission ID from the transmitter 40 transmits the received transmission ID “B12” and the terminal ID to the server 100.

  Then, when receiving the transmission ID and the terminal ID, the server 100 extracts the content corresponding to the transmission ID (step S110). For example, when the server 100 receives the transmission ID “B12” from the portable terminal 10, the server 100 extracts the content “content B” corresponding to the transmission ID “B12”.

  Thereafter, the server 100 distributes the extracted content “content B” to the portable terminal 10 (step S111). For example, the server 100 distributes the extracted content “content B” to the portable terminal 10 identified by the terminal ID received in step S109.

[Effect of Embodiment 1]
As described above, the transmission information utilization system 1 according to the first embodiment includes the determination mechanism and the transmitter 40. The determination mechanism determines a power feeding method to a predetermined device. The transmitter 40 is information used for processing on the reception side, and is a power supply method in which transmission information (in the embodiment, “transmission ID”; the same applies to the following), which is information to be allocated plurally, is determined by a determination mechanism. Change according to.

  As a result, the transmission information utilization system 1 can set appropriate transmission information according to the situation of the location of the transmitter 40.

  In addition, the transmission information utilization system 1 according to the first embodiment further includes the mobile terminal 10 and the server 100. The portable terminal 10 transmits, to the server 100, terminal information (in the embodiment, “terminal ID”; the same applies in the following) identifying the portable terminal 10 and transmission information received from the transmitter 40. When the server 100 receives the transmission information and the terminal information for identifying the portable terminal 10 from the portable terminal 10, the server 100 performs a predetermined process based on the received transmission information.

  Thus, the transmission information utilization system 1 can cause the server 100 to perform appropriate processing in accordance with the situation around the user.

  Further, in the transmission information utilization system 1 according to the first embodiment, when the server 100 receives the transmission information and the terminal information, the portable terminal 10 identified by the terminal information or another portable terminal associated with the portable terminal 10 is used. Process based on the transmission information.

  Thus, the transmission information utilization system 1 can cause the server 100 to perform appropriate processing on the portable terminal 10 of the user or the portable terminal 10 of another user, according to the situation around the user.

  Further, in the transmission information utilization system 1 according to the first embodiment, the server 100 performs processing for the portable terminal 10 identified by the terminal information or another portable terminal associated with the portable terminal 10 as processing based on the transmission information. Provide content based on outgoing information.

  Thereby, the transmission information utilization system 1 can distribute the appropriate content according to the situation around the user.

  Moreover, in the transmission information utilization system 1 which concerns on Embodiment 1, the storage battery 53 is further comprised. The determination mechanism determines whether the power supply by the commercial power source CP or the power supply by the storage battery 53 is performed as a power supply method.

  Thus, the transmission information utilization system 1 can transmit appropriate transmission information according to the determination as to whether the power supply by the commercial power source CP is supplied or the power supply by the storage battery 53.

  Moreover, in the transmission information utilization system 1 which concerns on Embodiment 1, the illuminating device 50 is comprised as a predetermined | prescribed apparatus. The illumination device 50 includes a light source 51, a determination unit 52 as a determination mechanism, and a storage battery 53. The storage battery 53 supplies power to the transmitter 40 when the determination unit 52 determines that the power supply by the commercial power source CP is stopped.

  Thereby, the transmission information utilization system 1 can operate the transmitter 40 even at the time of a power failure.

Second Embodiment
In the transmission information utilization system 1 according to the first embodiment, an example in which the portable terminal 10 transmits the transmission ID of the transmitter 40 and the terminal ID to the server 100 has been described. On the other hand, in the transmission information utilization system 2 according to the second embodiment, the transmitter 40 receives the terminal ID from the portable terminal 10A and transmits the received terminal ID and the transmission ID to the server 100A. Do. This point will be described based on FIGS. 10 to 14. The same parts as those of the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  FIG. 10 is a diagram showing a schematic configuration of a transmission information utilization system according to the second embodiment. FIG. 10 shows an example in which the server 100A receives the transmission ID and the terminal ID, and instructs the mobile terminal 10A to perform processing related to an application based on the transmission ID (hereinafter sometimes referred to simply as "application"). . In the following description, although an example in which the mobile terminal 10A is instructed to perform processing related to an application will be described, the content may be presented as in the second embodiment. Also, in the first embodiment, processing of an application may be instructed in place of presentation of content as in the present embodiment.

  As shown on the left side in FIG. 10, at normal times, the portable terminal 10A of the user transmits a terminal ID for identifying the portable terminal 10A to the transmitter 40 (step S31). Then, the transmitter 40 that has received the terminal ID from the portable terminal 10A transmits the received terminal ID and the transmission ID of the transmitter 40 to the server 100A (step S32). In the example shown in FIG. 10, the transmitter 40 transmits the terminal ID received from the portable terminal 10A and the transmission ID "B21" to the server 100A. At this time, when the distance between the transmitter 40 that has received the terminal ID and the server 100A exceeds the communication distance of the transmitter 40, the transmitter 40 that has received the terminal ID is not limited to the plurality of others disposed between the server 100A and the other. The terminal ID and the transmission ID “B21” received from the portable terminal 10A may be transmitted to the server 100A by sequentially transferring the terminal ID and the transmission ID “B21”.

  When the server 100A receives the transmission ID and the terminal ID from the transmitter 40, the server 100A instructs the portable terminal 10A to start an application corresponding to the received transmission ID (step S33). In the example shown in FIG. 10, the server 100A instructs the portable terminal 10A identified by the terminal ID received from the transmitter 40 to activate the application “application A” corresponding to the received transmission ID “B21”. Do. For example, the server 100A instructs the portable terminal 10A to start an application that displays map information and the like of an area in which the transmitter 40 used at normal times is installed as the application "application A".

  Next, a power failure shown on the right side of FIG. 10 will be described. As shown on the right side of FIG. 10, the supply of the power from the commercial power source CP is stopped and the power is cut off (step S41). In this case, the lighting apparatus 50 switches from the power supply system using the commercial power source CP to the power supply system using the storage battery 53, and performs storage battery driving (step S42). Here, the power supply method to the transmitter 40 is also switched from the power supply method by the commercial power source CP to the power supply method by the storage battery 53.

  If the power supply method has been switched, the transmitter 40 changes the transmission ID (step S43). In the example shown in FIG. 10, the transmitter 40 changes the transmission ID from the transmission ID "B21" transmitted at normal times to the transmission ID "B22" transmitted at the time of a power failure. Thereafter, the portable terminal 10A of the user transmits a terminal ID for identifying the portable terminal 10A to the transmitter 40 (step S44). Then, the transmitter 40 having received the terminal ID from the portable terminal 10A transmits the received terminal ID and the transmission ID of the transmitter 40 to the server 100A (step S45). In the example shown in FIG. 10, the mobile terminal 10A transmits the transmission ID “B22” received from the transmitter 40 and the terminal ID of the mobile terminal 10A to the server 100A.

  When the server 100A receives the transmission ID and the terminal ID from the transmitter 40, the server 100A instructs the portable terminal 10A to start an application corresponding to the received transmission ID (step S46). In the example shown in FIG. 10, the server 100A instructs the portable terminal 10A identified by the terminal ID received from the transmitter 40 to activate the application "application B" corresponding to the received transmission ID "B22". Do. For example, the server 100A instructs the mobile terminal 10A to start an application that displays evacuation route information and the like of the area where the transmitter 40 used at the time of a power failure is installed as the application "application B". As a result, the transmission information utilization system 2 can set appropriate transmission information according to the situation of the location of the transmitter 40. Therefore, the transmission information utilization system 2 can instruct the portable terminal 10A of the user to perform processing relating to an appropriate application according to the situation around the user.

  In the example illustrated in FIG. 10, the server 100A that has received the transmission ID from the transmitter 40 indicates an application to be activated by the portable terminal 10A. However, the transmitter 40 transmits the transmission ID to the portable terminal 10A. It may be sent. The portable terminal 10A having received the transmission ID activates an application corresponding to the received transmission ID. In this case, the transmission information utilization system 2 may not have the server 100A.

  Next, the configuration of the server 100A according to the second embodiment will be described using FIG. FIG. 11 is a block diagram showing the configuration of a server according to the second embodiment. As illustrated in FIG. 11, the server 100A differs from the server 100 in that the storage unit 120A includes an application information storage unit 122.

  The storage unit 120A according to the second embodiment has an application information storage unit 122, as shown in FIG. The application information storage unit 122 stores information related to the application associated with the transmission ID. FIG. 12 is a diagram illustrating an example of information stored in the application information storage unit according to the second embodiment. As shown in FIG. 12, the application information storage unit 122 has items such as “transmission ID” and “application” as application information.

  "Transmission ID" indicates a transmission ID corresponding to the application. The “application name” indicates the name of the application associated with the transmission ID. In FIG. 12, the “application name” may store, for example, an application name such as “application A”, information for specifying another application, and the like. In the example illustrated in FIG. 12, the application name “application A” is associated with the transmission ID “B21”. Further, the application name "application B" is associated with the transmission ID "B22", and the application name "application C" is associated with the transmission ID "B23".

  The extraction unit 132 extracts an application name corresponding to the transmission ID received from the application information storage unit 122 when the transmission unit ID is received by the reception unit 131. For example, when the extraction unit 132 receives the transmission ID “B23”, the extraction unit 132 extracts the application name “application C” corresponding to the transmission ID “B23” from the application information storage unit 122.

  The transmitting unit 133 instructs the portable terminal 10A identified by the terminal ID to activate the application extracted by the extracting unit 132. For example, when the extracting unit 132 extracts the application name “application B” corresponding to the transmission ID “B22”, the transmitting unit 133 identifies the terminal ID so that the application corresponding to the application name “application B” is activated. The portable terminal 10A is instructed.

  Subsequently, the configuration of the mobile terminal 10A will be described with reference to FIG. FIG. 13 is a block diagram showing the configuration of the portable terminal according to the second embodiment. As shown in FIG. 13, the portable terminal 10A is different from the portable terminal 10 in that the control unit 15 includes an activation unit 18. When the receiving unit 16 receives an application activation instruction, the activation unit 18 activates a corresponding application. For example, when the activation unit 18 receives an activation instruction of the application with the application name “application C” by the reception unit 16, the activation unit 18 activates the application C.

[Processing by the transmission information utilization system]
Next, a transmission information utilization process by the transmission information utilization system 2 according to the second embodiment will be described using FIG. FIG. 14 is a sequence diagram showing a procedure of transmission information utilization processing in the transmission information utilization system according to the second embodiment.

  As shown in FIG. 14, the mobile terminal 10A transmits a terminal ID for identifying the mobile terminal 10A to the transmitter 40 at normal times (step S201). Then, the transmitter 40 which has received the terminal ID from the portable terminal 10A transmits the received terminal ID and the transmission ID of the transmitter 40 to the server 100A (step S202). For example, the mobile terminal 10A that has received the transmission ID from the transmitter 40 transmits the received transmission ID "B21" and the terminal ID to the server 100A.

  When the server 100A receives the transmission ID and the terminal ID, the server 100A extracts the application information corresponding to the transmission ID (step S203). For example, when the server 100A receives the transmission ID "B21" from the transmitter 40, the server 100A extracts the application name "application A" corresponding to the transmission ID "B21".

  After that, the server 100A instructs the mobile terminal 10A to activate the application of the extracted application name “application A” (step S204). For example, the server 100A instructs the portable terminal 10A identified by the terminal ID received in step S202 to activate an application having the extracted application name “application A”.

  Thereafter, when it is determined that the supply of power from the commercial power source CP is stopped, the lighting device 50 switches the power supply method to the storage battery drive (step S205). Then, the lighting device 50 notifies the transmitter 40 that the power supply system has been changed to the storage battery drive (step S206).

  The transmitter 40 that has received the change of the power supply method from the lighting device 50 changes the transmission ID to be transmitted according to the received power supply method (step S207). For example, when the transmitter 40 receives a notification that the power supply system has been changed from the commercial power drive to the storage battery drive from the lighting device 50, the transmitter ID for transmission is changed from the transmission ID "B21" to the transmission ID "B22". Do. Thereafter, at the time of a power failure, the portable terminal 10A transmits a terminal ID for identifying the portable terminal 10A to the transmitter 40 (step S208). Then, the transmitter 40 that has received the terminal ID from the portable terminal 10A transmits the received terminal ID and the transmission ID of the transmitter 40 to the server 100A (step S209). For example, the transmitter 40 which has received the terminal ID from the portable terminal 10A transmits the received transmission ID "B22" and the terminal ID to the server 100A.

  When the server 100A receives the transmission ID and the terminal ID, the server 100A extracts the application information corresponding to the transmission ID (step S210). For example, when the server 100A receives the transmission ID "B22" from the transmitter 40, the server 100A extracts the application name "application B" corresponding to the transmission ID "B22".

  Thereafter, the server 100A instructs the mobile terminal 10A to activate the application of the extracted application name “application B” (step S211). For example, the server 100A instructs the portable terminal 10A identified by the terminal ID received in step S209 to activate an application having the extracted application name “application B”.

[Effect of Second Embodiment]
As described above, the transmission information utilization system 2 according to the second embodiment includes the determination mechanism and the transmitter 40. The determination mechanism determines a power feeding method to a predetermined device. The transmitter 40 changes transmission information, which is information used for processing on the reception side and is a plurality of pieces of allocated information, according to the power supply method determined by the determination mechanism.

  As a result, the transmission information utilization system 2 can set appropriate transmission information according to the situation of the location of the transmitter 40.

  In addition, the transmission information utilization system 2 according to the second embodiment further includes the portable terminal 10A and the server 100A. The portable terminal 10A transmits, to the server 100A, the terminal information for identifying the portable terminal 10A and the transmission information received from the transmitter 40. When the server 100A receives the transmission information and the terminal information for identifying the portable terminal 10A from the portable terminal 10A, the server 100A performs predetermined processing based on the received transmission information.

  Thus, the transmission information utilization system 2 can cause the server 100A to perform appropriate processing according to the situation around the user.

  In addition, in the transmission information utilization system 2 according to the second embodiment, when the server 100A receives the transmission information and the terminal information, the portable terminal 10A identified by the terminal information or another portable terminal associated with the portable terminal 10A. Process based on the transmission information.

  Thus, the transmission information utilization system 2 can cause the server 100A to perform appropriate processing with respect to the portable terminal 10A of the user and the portable terminals 10A of other users according to the situation around the user.

  Further, in the transmission information utilization system 2 according to the second embodiment, the server 100A performs the processing based on the transmission information with respect to the portable terminal 10A identified by the terminal information or another portable terminal associated with the portable terminal 10A. Instructs to perform processing related to the application based on the transmission information.

  Thereby, the transmission information utilization system 2 can instruct | indicate to perform the process regarding an appropriate application to the portable terminal 10 according to the surrounding condition of a user.

  Further, in the transmission information utilization system 2 according to the second embodiment, when the portable terminal 10A receives the transmission information transmitted by the transmitter 40, the portable terminal 10A performs a process related to the application based on the transmission information.

  Thereby, the transmission information utilization system 2 can instruct | indicate to perform the process regarding an appropriate application to the portable terminal 10 according to the surrounding condition of a user.

  Moreover, in the transmission information utilization system 2 which concerns on Embodiment 2, the storage battery 53 is further comprised. The determination mechanism determines whether the power supply by the commercial power source CP or the power supply by the storage battery 53 is performed as a power supply method.

  Thus, the transmission information utilization system 2 can transmit appropriate transmission information in accordance with the determination of whether the power supply by the commercial power supply CP or the storage battery 53 is the power supply.

  Moreover, in the transmission information utilization system 2 which concerns on Embodiment 2, the illuminating device 50 is comprised as a predetermined | prescribed apparatus. The illumination device 50 includes a light source 51, a determination unit 52 as a determination mechanism, and a storage battery 53. The storage battery 53 supplies power to the transmitter 40 when the determination unit 52 determines that the power supply by the commercial power source CP is stopped.

  Thereby, the transmission information utilization system 2 can operate the transmitter 40 also at the time of a power failure.

Third Embodiment
In the transmission information utilization systems 1 and 2 according to the first and second embodiments, an example in which the servers 100 and 100A perform predetermined processing on the mobile terminals 10 and 10A has been described. On the other hand, in the transmission information utilization system 3 according to the third embodiment, the server 100B having received the terminal ID and the transmission ID is specified for the other portable terminal 10C associated with the portable terminal 10B identified by the terminal ID. The second embodiment differs from the first and second embodiments in that processing is performed. This point will be described based on FIG. 15 to FIG. The same parts as in the first and second embodiments will be assigned the same reference numerals and descriptions thereof will be omitted.

  FIG. 15 is a diagram showing a schematic configuration of a transmission information utilization system according to the third embodiment. Further, in the example illustrated in FIG. 15, the case where the server 100B instructs the other portable terminal 10C associated with the portable terminal 10B to perform the processing related to the application is illustrated. The predetermined processing performed by the server 100B on the other portable terminal 10C associated with the portable terminal 10B is not limited to the above, and various processing may be appropriately selected according to the purpose, such as distribution of content.

  As shown in FIG. 15, when the supply of power from the commercial power source CP is stopped and the power outage state occurs (step S51), the lighting device 50 switches from the power feeding method with the commercial power source CP to the power feeding method with the storage battery 53 (Step S52). If the power supply method has been switched, the transmitter 40 changes the transmission ID (step S53). In the example shown in FIG. 15, the transmitter 40 changes the transmission ID from the transmission ID "B31" transmitted at normal times to the transmission ID "B32" transmitted at the time of a power failure. Thereafter, the portable terminal 10B of the user transmits information for identifying the portable terminal 10B to the transmitter 40 (step S54). Then, the transmitter 40 that has received the terminal ID from the portable terminal 10B transmits the received terminal ID and the transmission ID of the transmitter 40 to the server 100B (step S55). In the example shown in FIG. 15, the portable terminal 10B transmits the transmission ID "B32" received from the transmitter 40 and the terminal ID of the portable terminal 10B to the server 100B.

  When the server 100B receives the transmission ID and the terminal ID from the transmitter 40, the server 100B instructs the other portable terminal 10C associated with the portable terminal 10B to start the application corresponding to the received transmission ID (step S56). . In the example illustrated in FIG. 15, the server 100B transmits the application “application X” corresponding to the received transmission ID “B32” to the portable terminal 10C identified by the terminal ID associated with the terminal ID received from the transmitter 40. Tell them to launch. For example, the server 100B instructs the mobile terminal 10C to start an application that displays map information and the like of an area in which the transmitter 40 used during an emergency such as a power failure is installed as the application "application X". Thereby, the transmission information utilization system 3 can set to transmission information suitable according to the condition of the arrangement place of the transmitter 40 located near a user. Therefore, the transmission information utilization system 3 can perform processing appropriate for other users according to the situation around the user. For example, when the user of the portable terminal 10B can not move in an emergency such as a power failure, the portable terminal 10C owned by another user is notified of the position or the like of the user of the portable terminal 10B. The rescue of the user of 10 B can be performed.

  Next, the configuration of the server 100B according to the third embodiment will be described with reference to FIG. FIG. 16 is a block diagram showing the configuration of a server according to the third embodiment. As illustrated in FIG. 16, the server 100 </ b> B differs from the server 100 in that the storage unit 120 </ b> B includes the group information storage unit 123.

  The storage unit 120B according to the third embodiment has a group information storage unit 123, as shown in FIG. The group information storage unit 123 stores information on a group based on the association between the terminal IDs. FIG. 17 is a diagram of an example of information stored in a group information storage unit according to the third embodiment. As shown in FIG. 17, the group information storage unit 123 has items such as “group ID” and “user ID” as group information.

  "Group ID" indicates information for identifying a group. "User ID" indicates information identifying a user belonging to the corresponding group. In the example shown in FIG. 17, a terminal ID is used as the “user ID”. In the example shown in FIG. 17, the user identified by the user ID "U11" and the user identified by the user ID "U12" belong to the group ID "G11". That is, the user identified by the user ID "U11" is associated with the user identified by the user ID "U12". Note that one user may belong to a plurality of groups.

  When the receiving unit 131 receives the terminal ID, the extracting unit 132 extracts the terminal ID associated with the terminal ID received from the group information storage unit 123. For example, when receiving the terminal ID "U11", the extraction unit 132 extracts the terminal ID "U12" associated with the terminal ID "U11" from the group information storage unit 123.

  The transmitting unit 133 instructs the portable terminal 10B identified by the terminal ID extracted by the extracting unit 132 to activate the application extracted by the extracting unit 132. For example, when the extracting unit 132 extracts the application name “application X” corresponding to the transmission ID “B32” and the terminal ID “U12” is extracted, the transmitting unit 133 selects the application corresponding to the application name “application X”. To start the portable terminal 10C identified by the terminal ID "U12".

[Processing by the transmission information utilization system]
Next, the transmission information utilization processing by the transmission information utilization system 3 according to the third embodiment will be described using FIG. 18. FIG. 18 is a sequence diagram illustrating a procedure of transmission information utilization processing in the transmission information utilization system according to the third embodiment.

  As shown in FIG. 18, when it is determined that the supply of power from the commercial power source CP is stopped, the lighting device 50 switches the power supply method to the storage battery drive (step S301). Then, the lighting device 50 notifies the transmitter 40 that the power supply system has been changed to the storage battery drive (step S302).

  The transmitter 40 that has received the change of the power supply method from the lighting device 50 changes the transmission ID to be transmitted according to the received power supply method (step S303). For example, when the transmitter 40 receives a notification that the power supply method has been changed from commercial power drive to storage battery drive from the lighting device 50, the transmitter ID for transmission is changed from the transmission ID "B31" to the transmission ID "B32". Do. At the time of power failure, the portable terminal 10B transmits a terminal ID for identifying the portable terminal 10B to the transmitter 40 (step S304). Then, the transmitter 40 having received the terminal ID from the portable terminal 10B transmits the received terminal ID and the transmission ID of the transmitter 40 to the server 100B (step S305). For example, the transmitter 40 which has received the terminal ID from the portable terminal 10B transmits the received transmission ID "B32" and the terminal ID to the server 100B.

  Then, when the server 100B receives the transmission ID and the terminal ID, the server 100B extracts application information corresponding to the transmission ID (step S306). For example, when the server 100B receives the transmission ID "B32" from the transmitter 40, the server 100B extracts the application name "application X" corresponding to the transmission ID "B32". When the server 100B receives the transmission ID and the terminal ID, the server 100B extracts group information corresponding to the terminal ID (step S307). For example, when the server 100B receives the terminal ID "U11" from the transmitter 40, it identifies another user belonging to the group identified by the group ID "G11" to which the user identified by the terminal ID "U11" belongs. The terminal ID "U12" is extracted. After that, the server 100B instructs the other portable terminal 10C associated with the portable terminal 10B to activate the application of the extracted application name "application X" (step S308). For example, the server 100B instructs the portable terminal 10C identified by the terminal ID associated with the terminal ID received in step S305 to activate the application of the extracted application name “application X”.

[Effect of Third Embodiment]
As described above, the transmission information utilization system 3 according to the third embodiment includes the determination mechanism and the transmitter 40. The determination mechanism determines a power feeding method to a predetermined device. The transmitter 40 changes transmission information, which is information used for processing on the reception side and is a plurality of pieces of allocated information, according to the power supply method determined by the determination mechanism.

  As a result, the transmission information utilization system 3 can set appropriate transmission information according to the situation of the location of the transmitter 40.

  The transmission information utilization system 3 according to the third embodiment further includes the mobile terminal 10B and the server 100B. The portable terminal 10B transmits, to the server 100B, the terminal information for identifying the portable terminal 10B and the transmission information received from the transmitter 40. When the server 100B receives the transmission information and the terminal information for identifying the portable terminal 10B from the portable terminal 10B, the server 100B performs a predetermined process based on the received transmission information.

  Thus, the transmission information utilization system 3 can cause the server 100B to perform appropriate processing in accordance with the situation around the user.

  In the transmission information utilization system 3 according to the third embodiment, when the server 100B receives the transmission information and the terminal information, the portable terminal 10B identified by the terminal information or another portable terminal associated with the portable terminal 10B. A process based on the transmission information is performed on 10C.

  Thus, the transmission information utilization system 3 can cause the server 100B to perform appropriate processing on the portable terminal 10B of the user or the portable terminal 10C of another user, according to the situation around the user.

  In addition, in the transmission information utilization system 3 according to the third embodiment, the server 100B transmits the processing based on the transmission information to the portable terminal 10B identified by the terminal information or the other portable terminal 10C associated with the portable terminal 10B. , Instructs to perform processing related to the application based on the transmission information.

  Thereby, the transmission information utilization system 3 can instruct | indicate to perform the process regarding an appropriate application to 10 C of portable terminals according to the surrounding condition of a user.

  Moreover, in the transmission information utilization system 3 which concerns on Embodiment 3, the storage battery 53 is further comprised. The determination mechanism determines whether the power supply by the commercial power source CP or the power supply by the storage battery 53 is performed as a power supply method.

  Thus, the transmission information utilization system 3 can transmit appropriate transmission information in accordance with the determination of whether the power supply by the commercial power source CP or the storage battery 53 is the power supply.

  Moreover, in the transmission information utilization system 3 which concerns on Embodiment 3, the illuminating device 50 is comprised as a predetermined | prescribed apparatus. The illumination device 50 includes a light source 51, a determination unit 52 as a determination mechanism, and a storage battery 53. The storage battery 53 supplies power to the transmitter 40 when the determination unit 52 determines that the power supply by the commercial power source CP is stopped.

  Thereby, the transmission information utilization system 3 can operate the transmitter 40 even at the time of a power failure.

  While certain embodiments of the present invention have been described, these embodiments have been presented by way of example only, and are not intended to limit the scope of the invention. These embodiments can be implemented in other various forms, and various omissions, replacements, and modifications can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the invention described in the claims and the equivalents thereof as well as included in the scope and the gist of the invention. In addition, these embodiments and their modifications can be combined as appropriate as long as the processing contents do not contradict each other.

1, 2, 3 Transmission information utilization system 10, 10A to 10C Mobile terminal 40 Transmitter 41 Transmitter 42 Communication unit 43 Memory unit 44 Controller 45 Instruction unit 46 Reception unit 47 Changing unit 50 Lighting unit 51 Light source 52 Judgment unit (judging mechanism)
53 storage battery 54 lighting circuit 55 emergency lighting circuit 100, 100A, 100B server 110 communication unit 120, 120A, 120B storage unit 121 content information storage unit 122 application information storage unit 123 group information storage unit 130 control unit 131 reception unit 132 extraction unit 133 Transmitter

Claims (7)

With light source;
Lighting circuit;
Storage battery;
A determination unit that determines a feeding method;
A lighting device comprising
Commercial power supplied from the lighting device, and an information for use in the processing of the receiving side, the transmission information of a plurality assigned information transmitter to change in response to the supply electrostatic system;
Equipped with
The transmission information utilization system which supplies electric power with respect to the said lighting circuit and the said transmitter when the said storage battery determines with the electric power supply by the said commercial power supply having been stopped by the said determination part . The transmission information utilization system is
Further comprising a portable terminal; a server;
The portable terminal transmits, to the server, terminal information for identifying the portable terminal and the transmission information received from the transmitter.
When the server receives the transmission information and terminal information for identifying the portable terminal from the portable terminal, the server performs predetermined processing based on the received transmission information. Information utilization system. The transmission information utilization system is
Further comprising a portable terminal; a server;
The portable terminal transmits terminal information identifying the portable terminal to the transmitter.
When the server receives the transmission information and terminal information for identifying the mobile terminal from the transmitter, the server performs a predetermined process based on the received transmission information. Information utilization system. When the server receives the transmission information and the terminal information, the server performs processing based on the transmission information on a portable terminal identified by the terminal information or another portable terminal associated with the portable terminal. The transmission information utilization system according to claim 2 or 3 characterized by things. The server provides a content based on the transmission information to a portable terminal identified by the terminal information or another portable terminal associated with the portable terminal as a process based on the transmission information. The transmission information utilization system according to claim 4. The server instructs the portable terminal identified by the terminal information or another portable terminal associated with the portable terminal to perform processing related to an application based on the transmission information as the processing based on the transmission information. The transmission information utilization system according to claim 4, characterized in that: A portable terminal that performs processing related to an application based on the transmission information when the transmission information transmitted by the transmitter is received;
The transmission information utilization system according to claim 1, further comprising

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