JP2022036708A - Information processing system, lighting system, lighting device, and control method of information processing system - Google Patents

Abstract

To provide an information processing system, a lighting system, a lighting device, and a control method of an information processing system that can easily pass information for setting up a network to a user and suppress an increase in the cost for setting up the network.SOLUTION: Each of a plurality of lighting devices 20 includes a first storage unit 24 for which a free space is set, and a first communication unit 25 that communicates with a terminal device 10 for registering each of the plurality of lighting devices 20 in a network. The terminal device 10 includes a second communication unit 13 that communicates with each of the plurality of lighting devices 20, and a second processing unit 11 that respectively distributes a plurality of pieces of divided information which are pieces of information obtained by dividing second information into a plurality of pieces to two or more lighting devices 20 from among the plurality of lighting devices 20 via the second communication unit 13. Then, the first storage units 24 of the two or more lighting devices 20 respectively store the plurality of pieces of divided information acquired via the first communication unit 25.SELECTED DRAWING: Figure 5

Description

The present disclosure relates to an information processing system, a lighting system, a lighting device, and a control method of the information processing system.

Conventionally, a network system for caching information from a resource-constrained device has been known. The network system in Patent Document 1 is a controllable device having a cache memory for storing data received from a resource-constrained device, and a resource for transmitting data to the controllable device to control the operation of the controllable device. Equipped with a constrained device.

Japanese Patent No. 699720

In the information processing system used as the network system described in Patent Document 1, the cost may be higher than the case where the network is configured only by the device having the source limitation.

Therefore, in the present disclosure, an information processing system, a lighting system, a lighting device, and information processing capable of easily passing information for setting in a network to a user and suppressing an increase in cost for setting the network. The purpose is to provide a method of controlling the system.

In order to achieve the above object, the information processing system according to one aspect of the present disclosure is an information processing system including a plurality of devices and a terminal device capable of communicating with the plurality of devices, and the information processing system of the plurality of devices. Each of the storage unit stores the first information and registers the free capacity, which is the remaining capacity obtained by subtracting the information amount of the first information from the total capacity, and the plurality of devices in the network. It has a first communication unit that communicates with the terminal device for the purpose, and the terminal device has a second communication unit that communicates with each of the plurality of devices, and information regarding network settings of the plurality of devices. It has a processing unit that distributes a plurality of divided information, which is information obtained by dividing the information into a plurality of pieces, to each of two or more of the plurality of devices via the second communication unit. The storage unit of each of the two or more devices stores the plurality of division information acquired via the first communication unit.

Further, as a lighting system according to one aspect of the present disclosure, the information processing system includes a lighting system, each of the plurality of devices is a plurality of lighting devices, and each of the plurality of lighting devices emits light. Each of the light emitting module, the storage unit in which the first information is stored and the free capacity which is the remaining capacity obtained by subtracting the information amount of the first information from the total capacity is set, and the plurality of lighting devices in the network. The storage unit has a first communication unit that communicates with the terminal device for registering, and the storage unit contains division information of one of the plurality of division information acquired via the first communication unit. It will be remembered.

Further, the lighting device according to one aspect of the present disclosure is a lighting device capable of communicating with a terminal device, and a light emitting module that emits light and first information are stored, and the amount of information of the first information is calculated from the total capacity. The terminal device includes a storage unit in which a free capacity, which is the remaining capacity after removal, is set, and a first communication unit that communicates with the terminal device for registering each of the lighting devices in the network. The divided information of one of the plurality of divided information, which is the information obtained by dividing the second information, which is the information related to the network setting of the lighting device, into a plurality of divided information is distributed to the lighting device, and is stored in the storage unit. , One of the plurality of divided information acquired via the first communication unit is stored.

Further, in the control method of the information processing system according to one aspect of the present disclosure, the information processing system includes a plurality of devices having a storage unit in which the first information is stored and a free capacity is set, and the plurality of devices. The control method includes a communicable terminal device, and the control method relates to communication between the terminal device for registering each of the plurality of devices in the network and the plurality of devices, and network setting of the plurality of devices. Distributing a plurality of divided information, which is information obtained by dividing the second information which is information into a plurality of pieces, to each of two or more of the plurality of devices, and of the two or more devices. It includes storing the plurality of divided information acquired by each storage unit.

The information processing system and the like according to the present disclosure can easily pass information for setting in the network to the user, and can suppress an increase in the cost for setting the network.

FIG. 1 is a block diagram illustrating an illumination system according to an embodiment. FIG. 2A is a diagram illustrating a table to which a device ID and a group ID are assigned. FIG. 2B is a diagram illustrating division information to which a device ID and a group ID are assigned. FIG. 2C is a diagram illustrating division information to which a device ID is assigned. FIG. 3 is a sequence diagram illustrating initial settings in the processing of the lighting system according to the embodiment. FIG. 4 is a schematic diagram illustrating how the setter sets the lighting. FIG. 5 is a sequence diagram illustrating a case where a plurality of division information in the processing of the lighting system according to the embodiment is transmitted to each of two or more lighting devices to be distributed. FIG. 6 is a diagram illustrating another division information to which the device ID and the group ID are assigned. FIG. 7 is a schematic diagram illustrating how the user's lighting controller acquires a plurality of division information. FIG. 8 is a sequence diagram illustrating the processing when the lighting controller acquires a plurality of division information in the processing of the lighting system according to the embodiment. FIG. 9 is a schematic diagram illustrating a state in which a plurality of division information is acquired from one group among the plurality of groups when the plurality of lighting devices are divided into a plurality of groups.

(Knowledge that led to the invention)
The conventional information processing system can be used for a network system including home appliances such as a lighting device and an IoT (Internet of Things) device. For example, when an information processing system is applied to a lighting system, after a contractor or the like installs a plurality of lighting devices in a facility, a user can control the plurality of lighting devices by registering a network using a dedicated terminal device. Etc. are set in advance. Normally, after the lighting setting is made by the contractor, the information of the lighting setting is passed to the user who uses the facility by the contractor. As a result, the user can perform operations such as turning on and off the lighting device by using the lighting controller and the like. However, when there are a plurality of lighting controllers, it is necessary to establish a network of all the lighting controllers and the plurality of lighting devices.

In order to avoid such a situation, it is conceivable that the information set by the contractor may be handed over to the user.

However, since there is usually no contact between the contractor and the user, the information set by the lighting is not directly exchanged from the contractor. Further, since the storage unit of the lighting device has a small storage capacity, it is difficult to store the information set for lighting.

Therefore, the contractor saves the lighting setting information in a gateway capable of communicating with a plurality of lighting devices and hands it over, or the operation terminal in which the lighting setting is made (the operation terminal in which the lighting setting information is saved) is used as it is. It is conceivable to hand over to the user, or to hand over the information with the lighting set via the server and cloud provided by the company. It is also conceivable that the contractor sets only a network of a plurality of lighting devices, and the user obtains identification information from all the lighting devices in the set network.

In passing information on lighting settings from the contractor to the user, these methods involve some kind of device, which may increase the cost. In the above, the lighting device has been described as an example, but the same applies to other IoT devices and the like.

Therefore, in the present disclosure, the information for setting in the network can be easily passed to the user, and the increase in the cost for setting the network can be suppressed.

Hereinafter, embodiments will be specifically described with reference to the drawings. It should be noted that all of the embodiments described below are comprehensive or specific examples. The numerical values, shapes, materials, components, arrangement positions and connection forms of the components, steps, the order of steps, etc. shown in the following embodiments are examples, and are not intended to limit the present invention. Further, among the components in the following embodiments, the components not described in the independent claims are described as arbitrary components.

It should be noted that each figure is a schematic view and is not necessarily exactly shown. Further, in each figure, the same reference numerals may be given to substantially the same configurations, and duplicate explanations may be omitted or simplified.

(Embodiment)
<Configuration: Lighting system 1>
First, the configuration of the information processing system, the lighting system 1, the lighting device 20, and the control method of the information processing system according to the present embodiment will be described.

FIG. 1 is a block diagram illustrating the lighting system 1 according to the embodiment.

As shown in FIG. 1, the lighting system 1 is a system for controlling a plurality of lighting devices 20 arranged in each indoor space such as each floor, each room, etc. in a facility such as a building. The control of the plurality of lighting devices 20 is, for example, a schedule related to lighting, a change in luminosity and chromaticity, and the like. In the present embodiment, an indoor space of one of the indoor spaces will be illustrated and described. A case where a plurality of lighting devices 20 are arranged in one interior space is illustrated, but unless otherwise specified, one of the plurality of lighting devices 20 will be described.

The lighting system 1 includes a terminal device 10 and a plurality of lighting devices 20 arranged in each interior space. The lighting system 1 is an example of an information processing system. That is, the information processing system is not limited to the lighting system 1, and includes a network system including an IoT device.

[Terminal device 10]
The terminal device 10 can communicate with a plurality of lighting devices 20. The terminal device 10 can register a plurality of lighting devices 20 in the network by accepting an operation of a setter such as a contractor who performs a work of registering in the network. A network is a communication network capable of communicating according to a specified communication standard. In the present embodiment, since the terminal device 10 is a device owned by the setter, it is a lighting controller that controls a plurality of network-registered lighting devices 20 (hereinafter, a plurality of registered lighting devices 20). Is a different device. The terminal device 10 may be able to control a plurality of registered lighting devices 20 like the lighting controller. Further, after registering the plurality of lighting devices 20 in the network, the lighting controller stores the control information by receiving the user's operation to generate control information or acquiring the control information from the external device. The lighting device 20 is controlled according to the stored control information.

The terminal device 10 has a second processing unit 11, a second storage unit 12, a second communication unit 13, an operation input unit 14, and a display unit 15.

The second processing unit 11 is a control circuit that controls each unit of the terminal device 10. The second processing unit 11 has a processor and the like, and the processor executes various controls stored in the second storage unit 12. The processor is configured by an MPU (Micro Processing Unit), a CPU (Central Processing Unit), a DSP (Digital Signal Processor), a GPU (Graphical Processing Unit), a SOC (System on a Chip), or the like. The second processing unit 11 is an example of a processing unit.

Further, when the second processing unit 11 registers the plurality of lighting devices 20 in the network by accepting the user's operation via the operation input unit 14, the second processing unit 11 makes a request for registering the plurality of lighting devices 20. 2 Transmission is performed to a plurality of lighting devices 20 via the communication unit 13. Specifically, the second processing unit 11 changes from the normal operation mode of the terminal device 10 to the setting registration mode for registering the plurality of lighting devices 20 in the network by receiving the user's operation by the operation input unit 14. Transition.

Further, the second processing unit 11 divides the second information into a plurality of pieces, so that the plurality of divided information, which is the information obtained by dividing the second information into a plurality of pieces, is illuminated by a plurality of lights via the second communication unit 13. Distribute, that is, distribute and transmit to each of two or more lighting devices 20 (hereinafter, two or more lighting devices 20 serving as distribution destinations) among the devices 20. Specifically, the second processing unit 11 divides the second information into a plurality of pieces so as to have a one-to-one correspondence with the number of two or more lighting devices 20 as distribution destinations. The second processing unit 11 stores a plurality of divided information, which is information obtained by dividing the second information into a plurality of pieces according to the number of two or more lighting devices 20 to be distributed, in the second storage unit 12. The second processing unit 11 distributes the plurality of division information to each of the two or more lighting devices 20 to be distribution destinations via the second communication unit 13. The second information is information related to the network settings of the plurality of lighting devices 20, such as a device ID and a group ID, but may include a network ID, a password, information related to the network settings of the lighting device 20, and the like. .. The device ID is a unique ID for identifying the lighting device 20. The group ID is a unique ID for identifying the group to which the lighting device 20 belongs.

When the second information is divided into a plurality of pieces, the second processing unit 11 acquires information indicating the free capacity of each of the first storage units 24 of the plurality of lighting devices 20. That is, since the second processing unit 11 can acquire information indicating the free space, it is possible to grasp the free space of each of the first storage units 24 of the plurality of lighting devices 20.

FIG. 2A is a diagram illustrating a table to which a device ID (DeviceID) and a group ID (GroupID) are assigned. As shown in FIG. 2A, the second processing unit 11 corresponds to the identification information for identifying each of the plurality of lighting devices 20 and the information indicating the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20. Get the attached table. Specifically, when the second processing unit 11 acquires the information indicating the free capacity and the identification information from each of the plurality of lighting devices 20 via the second communication unit 13, the information indicating the free capacity and the information indicating the free capacity are obtained. Generate and acquire a table that has a one-to-one correspondence with the identification information.

The second processing unit 11 divides the second information into a plurality of pieces based on the acquired information indicating each free space. Specifically, the second processing unit 11 compares the information indicating each free space shown in the acquired table with the data amount of the second information, and divides the second information into a plurality of pieces. Get information. As shown in FIG. 2B, for example, the division information is composed of a header, a total number of devices (total number of a plurality of lighting devices 20), and a plurality of device IDs and group IDs.

Further, in the present embodiment, the second processing unit 11 can acquire information indicating the free capacity from each of the plurality of lighting devices 20 via the second communication unit 13, but the information is acquired. It does not have to be. For example, when a plurality of lighting devices 20 have a function of notifying only the total capacity of the first storage unit 24, the second processing unit 11 is the remaining of the total capacity excluding the amount of information of the first information stored. The free capacity as the capacity may be calculated. The first information is information related to the initial setting of the lighting device 20 such as the device ID and the group ID. The first information may further include, for example, a network ID, a password, and the like.

Further, when the second processing unit 11 cannot acquire the information indicating the free space, the second processing unit 11 has the free capacity of each of the first storage units 24 among the plurality of first storage units 24. The second information may be divided into a plurality of pieces by continuing to transmit until is filled with the divided information (there is no free space, the divided information is packed). In this case, the free capacity of the first storage unit 24 provided in some of the lighting devices 20 among the plurality of lighting devices 20 is filled, and the free capacity of the first storage unit 24 provided in the remaining lighting devices 20 is filled. It remains set.

The second processing unit 11 may divide the second information into a plurality of pieces (equal division) according to the number of the plurality of lighting devices 20, so that the free capacity of each first storage unit 24 becomes equal. In addition, the second information may be divided into a plurality of pieces, and based on the information indicating the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20, two or more lights to be distributed to the plurality of divided information. The second information may be divided into a plurality of pieces so that the free capacity of the first storage unit 24 in the device 20 is equal to or less than the specific capacity.

The method of dividing the above-mentioned second information into a plurality of pieces is merely an example, and is not limited thereto.

The second processing unit 11 divides the plurality of lighting devices 20 into a plurality of virtual groups. Specifically, the second processing unit 11 acquires information indicating the radio wave intensity between the plurality of lighting devices 20 and the terminal device 10, and based on the acquired information indicating the radio wave intensity, the plurality of lighting devices 20 Is divided into multiple virtual groups. In the present embodiment, the second processing unit 11 acquires information indicating the radio wave intensity between the plurality of lighting devices 20 and the terminal device 10 from the second communication unit 13. For example, the second processing unit 11 may set a group according to the distance from the terminal device 10 based on the information indicating the radio wave intensity.

Further, in the second processing unit 11, all of the plurality of divided information, which is information obtained by dividing one second information into a plurality of pieces, is free in each of the first storage units 24 of the two or more lighting devices 20 included in the group. The number of two or more illuminating devices 20 included in the group is adjusted so that the capacity can be stored. As a result, all of the plurality of division information can be reliably stored in the two or more lighting devices 20 included in the group. The two or more lighting devices 20 included in the group may correspond to the two or more lighting devices 20 to be the distribution destinations described above.

The second processing unit 11 may divide the plurality of lighting devices 20 into a plurality of virtual groups based on the information indicating the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20. .. Further, the second processing unit 11 virtually a plurality of the plurality of lighting devices 20 based on the information indicating the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20 and the information indicating the radio wave intensity. It may be divided into groups of.

The second processing unit 11 distributes a plurality of divided information to a predetermined group among the plurality of groups divided as described above via the second communication unit 13.

Further, the second processing unit 11 distributes the information to each of the two or more lighting devices 20 to be the distribution destinations via the second communication unit 13 so that the plurality of division information does not overlap. That is, the second processing unit 11 does not distribute the same division information to each of the two or more lighting devices 20 that are distribution destinations.

The second storage unit 12 stores the second information which is the information regarding the registration of the network in the plurality of lighting devices 20 generated by the operation when the setter registers the plurality of lighting devices 20 in the network. Further, the second storage unit 12 stores the divided information of one of the plurality of divided information in which the second information is divided into a plurality of divided information. Since the plurality of divided information is distributed and transmitted one by one, different divided information is stored in each of the second storage units 12 of the two or more lighting devices 20 to be distributed. Further, the second storage unit 12 stores a request for registering a plurality of lighting devices 20 in the network, a program for the second processing unit 11 to execute, and the like. The second storage unit 12 includes, for example, a primary storage device such as a RAM (Random Access Memory) and a ROM (Read Only Memory). Further, the second storage unit 12 may include a secondary storage device such as an HDD (Hard Disk Drive) and an SSD (Solid State Drive), and a tertiary storage device such as an optical disk and an SD card.

The second communication unit 13 has a function of communicating with each of the plurality of lighting devices 20. The second communication unit 13 transmits a plurality of divided information obtained by dividing the second information, which is information regarding the registration of the network in the plurality of lighting devices 20. Specifically, after registering the plurality of lighting devices 20 in the network, the second communication unit 13 distributes the plurality of division information to each of two or more lighting devices 20 among the plurality of lighting devices 20. That is, the second communication unit 13 is the number of the two or more lighting devices 20 that are the distribution destinations of the plurality of division information divided so as to have a one-to-one correspondence with the number of the two or more lighting devices 20 that are the distribution destinations. Is transmitted to two or more lighting devices 20 to be distributed so as to have a one-to-one correspondence with. The communication method by the second communication unit 13 is, for example, WAN (Wide Area Network), LAN (Local Area Network), power line communication, infrared communication, short-range wireless communication (for example, Bluetooth® communication), or a mobile phone. It is a communication method such as mobile communication for.

Further, the second communication unit 13 has a measurement function for measuring the radio wave strength, and outputs information indicating the radio wave strength as the measurement result to the second processing unit 11.

The operation input unit 14 is an input interface that accepts user operations. Specifically, the operation input unit 14 is realized by a touch panel, a mechanical push button switch, or the like. The operation input unit 14 outputs to the second processing unit 11 an instruction for shifting from the normal operation mode of the terminal device 10 to the setting registration mode for registering the terminal device 10, for example, by accepting the user's operation. do. Further, after registration in the network, the operation input unit 14 receives the user's operation and outputs an instruction for generating control information, an instruction for acquiring control information from an external device, and the like to the second processing unit 11. ..

The display unit 15 is a display device that displays an image under the control of the second processing unit 11. The display unit 15 is realized by, for example, a liquid crystal panel, an organic EL (Electroluminescence) panel, or the like. In the setting registration mode, the display unit 15 displays an operation image for registering a plurality of lighting devices 20 in the network. Further, in the normal operation mode, the display unit 15 displays an operation image for controlling the lighting device 20 and displays an operation image for generating or acquiring control information. Further, the display unit 15 may display that the terminal device 10 has been registered after registering the terminal device 10 in the network of the lighting control system 3. Further, the display unit 15 may display that the terminal device 10 could not be registered when the terminal device 10 cannot be registered in the network of the lighting control system 3.

[Lighting device 20]
The lighting device 20 is a base light or the like installed on the ceiling of the interior space to illuminate the interior space, and the light emission is controlled by the lighting controller. The communication between the lighting device 20 and the lighting controller is, for example, wireless communication, but may be wired communication. The mode of the lighting device 20 is not particularly limited, and may be a ceiling light, a downlight, a spotlight, or the like. The lighting device 20 is an example of the device.

The lighting device 20 has a dimming control function and a toning control function. Specifically, the lighting device 20 changes the brightness (brightness) and the light color (color temperature or wavelength) of the light emitted by the lighting device 20.

The lighting device 20 includes a light emitting module 21, a light emitting control unit 22, a first processing unit 23, a first storage unit 24, a first communication unit 25, and a power supply unit 26.

The light emitting module 21 emits light for the lighting device 20 to irradiate the surroundings. The light emitting module 21 has at least one light emitting element. In this embodiment, a plurality of light emitting modules 21 are provided. The light emitting element is, for example, a surface mount (SMD: Surface Mount Device) type LED element or a COB (Chip On Board) type LED element. The light emitting module 21 emits light according to an instruction from the light emitting control unit 22 based on the control information. The control information is information including various parameters for controlling the lighting of the lighting device 20. The light emitting module 21 has a light emitting element of three colors of RGB, and is obtained by emitting monochromatic light of three colors of red light, blue light and green light and dimming the monochromatic light of these three colors. Emits color light or white light. The light emitting module 11 is not limited to a light emitting module having an LED element that emits monochromatic light of three colors of RGB. The light emitting module 11 may be a white LED that emits white light, an orange LED that emits orange light, an amber LED that emits orange light, a yellow LED that emits yellow light, or the like.

Further, the light emitting module 11 is not limited to the LED element. For example, the light emitting module 11 may be a light bulb type or a straight tube type fluorescent lamp, an incandescent light bulb, or the like.

The light emission control unit 22 controls the light emission module 21. Specifically, the light emission control unit 22 controls the light emission mode of the light emitted by the light emission module 21 so as to acquire the control information and turn on the light emission mode according to the acquired control information. For example, the light emission control unit 22 controls the on / off (lighting / extinguishing) of the light emitted by the light emitting module 21, controlling the brightness to be changed, or controlling the light color to be changed. The control information may be acquired from an external device via the first communication unit 25, or may be acquired from the first storage unit 24.

The first processing unit 23 is a control circuit that controls each unit of the lighting device 20. The first processing unit 23 has a processor and the like, and the processor executes various controls stored in the first storage unit 24 to perform various controls. The processor is composed of an MPU, a CPU, a DSP, a GPU, an SOC, or the like. Further, the program may include control information.

When the first processing unit 23 acquires the division information transmitted from the terminal device 10 via the first communication unit 25, the first storage unit 24 stores the acquired division information.

The first storage unit 24 stores a program for execution by the first processing unit 23. Further, the acquired control information and the like are periodically stored in the first storage unit 24. The first storage unit 24 includes, for example, a primary storage device such as a RAM and a ROM. Further, the first storage unit 24 may include a secondary storage device such as an HDD and an SSD, and a tertiary storage device such as an optical disk and an SD card. The first storage unit 24 is an example of a storage unit.

In the first storage unit 24, the first information is stored and a free space capable of storing the information is set. As described above, when the contractor registers each of the plurality of lighting devices 20 in the network, the first storage unit 24 is provided with a free capacity. The first storage unit 24 is one divided information acquired via the first communication unit 25, and stores one divided information among the plurality of divided information. That is, each of the first storage units 24 of the plurality of lighting devices 20 stores a plurality of division information acquired via the first communication unit 25 on a one-to-one basis. Further, the first storage unit 24 may store the first information of the other lighting device 20.

The first communication unit 25 has a function of communicating with the terminal device 10. Specifically, the first communication unit 25 receives the divided information by communicating with the terminal device 10 in order to register each of the plurality of lighting devices 20 in the network before the registration of the lighting device 20. The divided information received by the first communication unit 25 is stored in the first storage unit 24 by the first processing unit 23. Further, after the registration of the lighting device 20, the first communication unit 25 receives control information for controlling the light emission mode of the light emitted by the lighting device 20 from the lighting controller. The control information received by the first communication unit 25 is input to the light emission control unit 22 by the first processing unit 23, or stored in the first storage unit 24 by the first processing unit 23. The communication method by the first communication unit 25 is, for example, a communication method such as WAN, LAN, power line communication, infrared communication, short-range wireless communication, or mobile communication for mobile phones.

The first communication unit 25 may have a measurement function for measuring the radio wave strength, and may output information indicating the radio wave strength as a measurement result to the first processing unit 23.

The power supply unit 26 has a function of supplying electric power to each unit of the lighting device 20. The power supply unit 26 is, for example, a power supply circuit in which a plurality of electronic components are mounted on a printed circuit board. The power supply unit 26 generates drive power as power for causing the light emitting module 21 to emit light, for example. Specifically, the power supply unit 26 converts commercial AC power into DC power, generates it as drive power for causing the light emitting module 21 to emit light by this DC power, and supplies the generated drive power to the light emitting module 21. Then, the light emitting module 21 is made to emit light.

<Processing>
Next, the processing of the information processing system, the lighting system 1, the lighting device 20, and the control method of the information processing system according to the present embodiment will be described.

First, a case where the terminal device 10 of the setter starts the initial setting in the processing of the lighting system 1 will be described with reference to FIGS. 3 and 4.

FIG. 3 is a sequence diagram illustrating the initial settings in the processing of the lighting system 1 according to the embodiment. FIG. 4 is a schematic diagram illustrating how the setter sets the lighting.

The setter operates the terminal device 10 by pressing the initial setting button of the terminal device 10 in order to register a plurality of lighting devices 20 in the network using the terminal device 10. As a result, the terminal device 10 switches from the normal operation mode to the setting registration mode for registering the plurality of lighting devices 20 in the network. Specifically, the operation input unit 14 of the terminal device 10 receives an operation of the user to give an instruction for switching from the normal operation mode of the terminal device 10 to the setting registration mode in the second processing unit of the terminal device 10. Output to 11. The second processing unit 11 switches from the normal operation mode to the setting registration mode based on the instruction.

As shown in FIG. 3, the terminal device 10 forms a network including a plurality of lighting devices 20, and repeats the following processing until device information related to initial settings such as a device ID and a group ID is allocated. , Communicate with all of the plurality of lighting devices 20 (all lighting devices 20 from the 1st to Nth units) to complete the initial setting (S11).

The second processing unit 11 of the terminal device 10 allocates a network ID and a password corresponding to the network ID to the first lighting device 20, and assigns the assigned network ID and password to the first unit via the second communication unit 13. Is transmitted to the lighting device 20 of the above, and is input to the first lighting device 20 (S12). Further, the second processing unit 11 of the terminal device 10 allocates the device ID and the group ID corresponding to the device ID to the first lighting device 20, and the allocated device ID and group ID via the second communication unit 13. Is transmitted to the first lighting device 20 and input to the first lighting device 20 (S12). That is, the second processing unit 11 of the terminal device 10 is the first regarding the initial setting of the first lighting device 20, which is information including the network ID, the password, the device ID, and the group ID, via the second communication unit 13. Information is transmitted to the first lighting device 20. Further, the second processing unit 11 of the terminal device 10 transmits the first information of the other lighting device 20 to the first lighting device 20 via the second communication unit 13, and the first lighting device. 20 is input (S12). Further, the second processing unit 11 of the terminal device 10 confirms the free capacity of the first storage unit 24 of the lighting device 20 (S12).

As shown in FIGS. 3 and 4, the first processing unit 23 of the first lighting device 20 receives the assigned network ID and password via the first communication unit 25, and the received network ID and the received network ID and password are received. The password is stored in the first storage unit 24 (S13). Further, the first processing unit 23 of the first lighting device 20 receives the allocated device ID and group ID via the first communication unit 25, and stores the received device ID and group ID in the first storage unit. It is stored in 24 (S13). Further, the first processing unit 23 of the first lighting device 20 receives the device ID and the group ID included in the first information of the other lighting device 20 via the first communication unit 25, and the received first. 1 Information is stored in the first storage unit 24 (S13). That is, the first processing unit 23 stores the device ID and the group ID in the first storage unit 24 as the minimum information that can communicate with the other lighting device 20 via the first communication unit 25. Further, the first processing unit 23 of the first lighting device 20 confirms the free capacity of the first storage unit 24 in the first lighting device 20, and the information indicating the confirmed free capacity is transmitted to the first communication unit. It is transmitted to the terminal device 10 via 25 (S13). As a result, the terminal device 10 can grasp the free space of the first storage unit 24 in the first lighting device 20 by acquiring the information indicating the free space.

The terminal device 10 performs such network formation and device information allocation as initial settings for all the lighting devices 20 from the 1st to the Nth units.

When the terminal device 10 performs the initial setting of all the lighting devices 20 from the 1st to the Nth units, as shown in FIG. 2A, all the lighting devices 20 from the 1st to the Nth units with the initial settings are set. A table, which is information for which lighting is set, is created, and the created table is stored and held in the second storage unit 12 (S14). Then, the lighting system 1 ends the initial setting shown in FIG.

Next, a case where the terminal device 10 of the setter distributes a plurality of division information to two or more lighting devices 20 to be distribution destinations will be described with reference to FIG.

FIG. 5 is a sequence diagram illustrating a case where a plurality of division information in the processing of the lighting system 1 according to the embodiment is transmitted to each of two or more lighting devices 20 as distribution destinations.

As shown in FIGS. 4 and 5, the terminal device 10 refers to all of the two or more lighting devices 20 to be distributed (in the present embodiment, all the lighting devices 20 from the first to the Nth unit). The following processing is repeated until the plurality of divided information obtained by dividing the second information are distributed and stored in the N lighting devices 20 (S21).

The second processing unit 11 of the terminal device 10 divides the second information into a plurality of pieces based on the acquired information indicating the free space. Specifically, the second processing unit 11 compares the information indicating each free space shown in the acquired table with the data amount of the second information, and sets the second information so as to fit in each free space. Generate division information divided into multiple parts.

Hereinafter, the division information generated by the second processing unit 11 will be described.

First, as shown in FIGS. 2A and 2B, the second processing unit 11 creates a header corresponding to the total number of devices registered in the table created in FIG. 3, and includes the header in the created table of FIG. 2A. The device ID and the group ID may be randomly extracted, and the device ID and the group ID may be added after the created header to generate the division information of FIG. 2B. In this case, the division information can be easily managed.

The second processing unit 11 creates a header corresponding to the total number of devices registered in the table created in FIG. 3, then extracts only the device ID included in the table, and after the created header, the device ID. You may generate the division information to which only is added. In this case, as shown in FIG. 2C, the group ID is excluded from the division information.

The device ID can be replaced with unique device information such as an individual management number such as a UID (User ID) and a UDID (Unique Device ID).

Further, the second processing unit 11 may generate division information as shown in FIG. FIG. 6 is a diagram illustrating another division information to which the device ID and the group ID are assigned.

From the table shown in FIG. 2A, the device ID and the group ID are arranged and combined in order according to the total number of the plurality of lighting devices 20 as shown in a of FIG. 6 to generate information. Next, as shown in b of FIG. 6, the second processing unit 11 divides (disconnects) the information combined in a of FIG. 6 by a predetermined packet length. Next, as shown in c of FIG. 6, the second processing unit 11 adds the total number of devices, the packet number, and the packet length to the header of the information divided in b of FIG. 6, and the divided information as a packet. Generate a plurality of (Packet data). This divided information is generated by the amount of information corresponding to the free capacity of the first storage unit 24 in the lighting device 20 of the distribution destination. When the free capacity of each of the first storage units 24 in the two or more lighting devices 20 to be distributed is the same, the second processing unit 11 randomly distributes the respective division information. In this case, since the amount of data of the divided information is small, the divided information can be stored up to near the limit with respect to the free capacity of each of the first storage units 24 in the two or more lighting devices 20 to be distributed. Therefore, even if the amount of data of the second information becomes large, it can be divided and managed.

The second processing unit 11 may compress a plurality of division information. In this case, the data of high importance can be stored in the first storage unit 24 of one lighting device 20 without being divided.

The case where the second processing unit 11 generates the division information to which only the device ID is added is the same as the case where the group ID is removed from the other division information shown in FIG. 6a, and thus the description thereof will be omitted. ..

As shown in FIG. 5, the second processing unit 11 of the terminal device 10 transfers the first divided information among the divided plurality of divided information to the first lighting device 20 via the second communication unit 13. Is transmitted to the first lighting device 20 (S22).

As shown in FIGS. 4 and 5, the first processing unit 23 of the first lighting device 20 receives the first division information via the first communication unit 25, and the first received division information is received. The division information is stored in the first storage unit 24 (S23).

In FIG. 5, it is assumed that the second processing unit 11 of the terminal device 10 can acquire information indicating the free capacity of the first storage unit 24 in the first lighting device 20, but the second processing unit When 11 cannot acquire the information indicating the free space, the second processing unit 11 fills the free space of each of the first storage units 24 with the divided information (there is no free space or the divided information). May be stored in the first storage unit 24 of the first lighting device 20 so as to be packed).

The terminal device 10 divides the second information into a plurality of divided information for all of the two or more lighting devices 20 to be distributed (all the lighting devices 20 from the first to the Nth unit in the present embodiment). Is distributed and stored in N lighting devices 20. Then, the lighting system 1 ends the process shown in FIG.

Next, when the setter sets the lighting such as registering a plurality of lighting devices 20 in the network as shown in FIGS. 3 and 5 and then hands over to the user, the user's lighting controller becomes the distribution destination. A case of collecting a plurality of division information from two or more lighting devices 20 will be described with reference to FIGS. 7, 8 and the like.

FIG. 7 is a schematic diagram illustrating how the user's lighting controller 7 acquires a plurality of division information. FIG. 8 is a sequence diagram illustrating the processing when the lighting controller 7 acquires a plurality of division information in the processing of the lighting system 1 according to the embodiment.

As shown in FIGS. 7 and 8, the user operates the lighting controller 7, and the lighting controller 7 divides information from all of the plurality of lighting devices 20 (all the lighting devices 20 from the 1st to the Nth units). Is obtained, and the following processing is repeated until the tables of all the lighting devices 20 from the 1st to the Nth units are completed (S31).

The lighting controller 7 requests the first lighting device 20 to transmit information (S32).

Since the division information stored in FIG. 5 is stored in the first storage unit 24 of the first lighting device 20 (S33), the first processing unit 23 of the first lighting device 20 is the first. A request for transmission of information is acquired via one communication unit 25, and division information and information regarding another lighting device 20 (device ID, group) stored in the first storage unit 24 in response to the request are obtained. ID, etc.) is transmitted to the lighting controller 7 (S34).

When the lighting controller 7 acquires the division information and the information about the other lighting device 20 from the first lighting device 20, the total number of devices (total number of the lighting devices 20) from the header shown in the information about the other lighting device 20. Is read and a table is created (S35). The lighting controller 7 adds a device ID, a group ID, and the like to the table for the second lighting device 20 and subsequent units.

The lighting controller 7 acquires division information and information about other lighting devices 20 from all the lighting devices 20 from the 1st to the Nth units, and creates a table. In this way, since the lighting controller 7 can acquire all the divided information, the second information can be acquired by combining all the acquired divided information based on the table. Then, the lighting system 1 ends the process shown in FIG.

When the plurality of lighting devices 20 are divided into a plurality of virtual groups, the setter sets the two groups as shown in FIG. 9, and the setter sets the two groups (groups A and B). The division information may be stored in the two or more lighting devices 20 constituting the group A, and the user obtains the division information from the two or more lighting devices 20 constituting the group A by using the lighting controller 7. May be. FIG. 9 is a schematic diagram illustrating a state in which a plurality of division information is acquired from one group among the plurality of groups when the plurality of lighting devices 20 are divided into a plurality of groups. Even in this case, the process is the same as that in FIG.

<Action effect>
Next, the operation and effect of the information processing system, the lighting system 1, the lighting device 20, and the control method of the information processing system according to the present embodiment will be described.

As described above, the information processing system according to the present embodiment is an information processing system including a plurality of lighting devices 20 and a terminal device 10 capable of communicating with the plurality of lighting devices 20. Further, each of the plurality of lighting devices 20 has a network and a first storage unit 24 in which the first information is stored and a free capacity, which is the remaining capacity obtained by subtracting the information amount of the first information from the total capacity, is set. It has a first communication unit 25 that communicates with a terminal device 10 for registering each of the plurality of lighting devices 20. Further, the terminal device 10 is information obtained by dividing the second communication unit 13 that communicates with each of the plurality of lighting devices 20 and the second information that is information regarding the network settings of the plurality of lighting devices 20 into a plurality of pieces. It has a second processing unit 11 that distributes the plurality of division information, which is, to each of two or more lighting devices 20 among the plurality of lighting devices 20 via the second communication unit 13. Then, each of the first storage units 24 of the two or more lighting devices 20 stores a plurality of divided information acquired via the first communication unit 25.

According to this, the setter can store a part of the divided information in which the second information is divided into a plurality of pieces in the free space of the first storage unit 24. Further, the user obtains the divided information from the first storage unit 24 of each of the plurality of lighting devices 20, and combines the plurality of divided information into one second information, thereby that is, the second information. Can be obtained. Therefore, the user can acquire the second information, which is the information related to the network settings of the plurality of lighting devices 20 set by the setter, without contacting the setter.

Therefore, the second information for setting in the network can be easily passed to the user, and the increase in the cost for setting the network can be suppressed.

Further, the lighting device 20 according to the present embodiment is a lighting device 20 capable of communicating with the terminal device 10, and the light emitting module 21 that emits light and the first information are stored, and the information of the first information is stored from the total capacity. It includes a first storage unit 24 in which a free capacity, which is the remaining capacity excluding the amount, is set, and a first communication unit 25 that communicates with a terminal device 10 for registering each of the lighting devices 20 in the network. Further, the terminal device 10 transfers the divided information of one of the plurality of divided information, which is the information obtained by dividing the second information, which is the information related to the network setting of the lighting device 20, into the lighting device 20. Distribute. Then, the first storage unit 24 stores the division information of one of the plurality of division information acquired via the first communication unit 25.

The lighting device 20 also has the same effect as described above.

Further, in the control method of the information processing system according to the present embodiment, the information processing system includes a plurality of lighting devices 20 having a first storage unit 24 in which the first information is stored and a free capacity is set, and a plurality of lighting devices 20. The lighting device 20 and the terminal device 10 capable of communicating with the lighting device 20 are provided. Further, the control method is information on communication between the terminal device 10 for registering each of the plurality of lighting devices 20 in the network and the plurality of lighting devices 20 and the network setting of the plurality of lighting devices 20. Distributing a plurality of divided information, which is information obtained by dividing the two information into a plurality of pieces, to each of the two or more lighting devices 20 among the plurality of lighting devices 20, and the two or more lighting devices 20. It includes storing a plurality of divided information acquired by each first storage unit 24.

The control method of this information processing system also has the same effect as described above.

Further, in the information processing system according to the present embodiment, the second processing unit 11 acquires information indicating the free space of each of the first storage units 24 of the plurality of lighting devices 20, and obtains the acquired free space. The second information is divided into a plurality of pieces based on the information shown.

According to this, it is possible to acquire the divided information obtained by dividing the second information into a plurality of parts according to the free capacity in the first storage unit 24 of the plurality of lighting devices 20. Therefore, since the divided information can be stored in the first storage unit 24 of some of the lighting devices 20 among the plurality of lighting devices 20, the degree of freedom in distributing the divided information can be increased.

Further, in the information processing system according to the present embodiment, the second processing unit 11 has the identification information for identifying each of the plurality of lighting devices 20 and the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20. A table associated with the information indicating the above is acquired, and the second information is divided into a plurality of parts based on the acquired table.

According to this, the second processing unit 11 acquires a table in which the identification information of the plurality of lighting devices 20 and the information indicating the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20 are associated with each other. be able to. Since the second processing unit 11 can divide the second information into a plurality of pieces based on this table, for example, the communication processing between the terminal device 10 and the plurality of lighting devices 20 can be optimized.

Further, in the information processing system according to the present embodiment, the second processing unit 11 distributes a plurality of divided information based on the information indicating the free capacity of the first storage unit 24 of each of the plurality of lighting devices 20. The second information is divided into a plurality of pieces so that the free space of the first storage unit 24 in the two or more lighting devices 20 is filled with the divided information.

According to this, even if the second processing unit 11 cannot acquire the information indicating the free capacity from the plurality of lighting devices 20, the first storage unit 24 in the two or more lighting devices 20 to be distributed to. The second information can be divided into a plurality of pieces by filling the free space. Therefore, even if the amount of data of the second information is large, it can be divided and managed.

Further, in the information processing system according to the present embodiment, the second processing unit 11 divides the plurality of lighting devices 20 into a plurality of virtual groups, and the second processing unit 11 refers to a predetermined group among the plurality of groups. 2 A plurality of divided information is distributed via the communication unit 13.

According to this, since it is possible to divide into arbitrary groups according to the free capacity of the first storage unit 24 in the plurality of lighting devices 20, it is also possible to store the second information in group units. Therefore, since the distribution of the divided information can be optimized, it is possible to suppress an increase in communication traffic between the terminal device 10 and the plurality of lighting devices 20 and between the user's lighting controller and the plurality of lighting devices 20. be able to.

Further, since it is not necessary to disperse and pack the divided information in all of the plurality of lighting devices 20, for example, even if the terminal device 10 of the setter cannot communicate with all the lighting devices 20, two or more or more forming a group. The first storage unit 24 of the lighting device 20 can store all of the plurality of divided information. Further, even when the user's lighting controller cannot communicate with all the lighting devices 20, it is possible to acquire all of the plurality of division information from the two or more lighting devices 20 constituting the group.

Further, in the information processing system according to the present embodiment, the second processing unit 11 acquires information indicating the radio wave strength of the second communication unit 13, and based on the acquired information indicating the radio wave strength, a plurality of lighting devices. 20 is divided into a plurality of virtual groups.

According to this, it is possible to divide into a plurality of groups according to the radio wave intensity. Therefore, for example, if only the lighting device 20 whose radio wave strength is equal to or higher than a predetermined threshold value is selected and grouped, the terminal device 10 and the user can be grouped. It is possible to ensure the stability of communication between the lighting controller and the plurality of lighting devices 20.

Further, in the information processing system according to the present embodiment, the second processing unit 11 is distributed to each of the two or more lighting devices 20 via the second communication unit 13 so that the plurality of divided information does not overlap. To.

According to this, duplication of the divided information can be suppressed, so that the plurality of divided information can be effectively distributed to the plurality of lighting devices 20.

Further, in the lighting system 1 according to the present embodiment, the information processing system includes the lighting system 1. Further, each of the plurality of lighting devices 20 is a plurality of lighting devices 20. Each of the plurality of lighting devices 20 has a light emitting module 21 that emits light, a first storage unit 24 in which free capacity is set and first information is stored, and each of the plurality of lighting devices 20 in the network. It has a first communication unit 25 that communicates with the terminal device 10 for registration. Then, the first storage unit 24 stores the division information of one of the plurality of division information acquired via the first communication unit 25.

According to this, when the user uses the lighting system 1, the user can easily acquire the division information stored in the first storage unit 24 of the plurality of lighting devices 20. Therefore, the user can easily acquire the second information for setting in the network.

(Other variants)
The information processing system, the lighting system, the lighting device, and the control method of the information processing system according to the present disclosure have been described above based on each of the above embodiments, but the present disclosure is limited to these embodiments. is not it. As long as it does not deviate from the purpose of the present disclosure, various modifications that can be conceived by those skilled in the art may be included in the scope of the present disclosure.

For example, each part included in the information processing system, the lighting system, the lighting device, and the control method of the information processing system according to the above embodiment is typically realized as an LSI which is an integrated circuit. These may be individually integrated into one chip, or may be integrated into one chip so as to include a part or all of them.

Further, the integrated circuit is not limited to the LSI, and may be realized by a dedicated circuit or a general-purpose processor. An FPGA (Field Programmable Gate Array) that can be programmed after the LSI is manufactured, or a reconfigurable processor that can reconfigure the connection and settings of circuit cells inside the LSI may be used.

In each of the above embodiments, each component may be configured by dedicated hardware or may be realized by executing a software program suitable for each component. Each component may be realized by a program execution unit such as a CPU or a processor reading and executing a software program recorded in a storage medium such as a hard disk or a semiconductor memory.

In addition, the numbers used above are all exemplified for the purpose of specifically explaining the present disclosure, and the embodiments of the present disclosure are not limited to the exemplified numbers.

In addition, the division of functional blocks in the block diagram is an example, and multiple functional blocks can be realized as one functional block, one functional block can be divided into multiple, and some functions can be transferred to other functional blocks. You may. Further, the functions of a plurality of functional blocks having similar functions may be processed by a single hardware or software in parallel or in a time division manner.

Further, the order in which each step in the flowchart is executed is for exemplifying the present disclosure in detail, and may be an order other than the above. Further, a part of the above steps may be executed simultaneously with other steps (parallel).

In addition, it is realized by arbitrarily combining the components and functions in each embodiment within the range obtained by applying various modifications to each of the above embodiments to be conceived by those skilled in the art and within the scope of the purpose of the present disclosure. The form to be used is also included in the present disclosure.

1 Lighting system (information processing system)
10 Terminal device 11 Second processing unit (processing unit)
13 Second communication unit 20 Lighting device (device)
21 Light emitting module 24 First storage unit (storage unit)
25 1st Communication Department

Claims (10)

An information processing system including a plurality of devices and a terminal device capable of communicating with the plurality of devices.
Each of the plurality of devices
A storage unit in which the first information is stored and a free capacity, which is the remaining capacity obtained by subtracting the information amount of the first information from the total capacity, is set.
It has a first communication unit that communicates with the terminal device for registering each of the plurality of devices in the network.
The terminal device is
A second communication unit that communicates with each of the plurality of devices,
The plurality of divided information, which is the information obtained by dividing the second information, which is the information related to the network settings of the plurality of devices, into a plurality of the second information, is divided into two of the plurality of devices via the second communication unit. It has a processing unit that distributes to each of the above devices.
The storage unit of each of the two or more devices is an information processing system that stores the plurality of divided information acquired via the first communication unit. The processing unit
Information indicating the free space of the storage unit of each of the plurality of devices is acquired, and information is obtained.
The information processing system according to claim 1, wherein the second information is divided into a plurality of pieces based on the acquired information indicating the free space. The processing unit
Acquiring a table in which the identification information for identifying each of the plurality of devices and the information indicating the free capacity of the storage unit of each of the plurality of devices are associated with each other.
The information processing system according to claim 2, wherein the second information is divided into a plurality of pieces based on the acquired table. Based on the information indicating the free capacity of the storage unit of each of the plurality of devices, the processing unit has the free capacity of the storage unit in the two or more devices to which the plurality of divided information is distributed. The information processing system according to claim 2 or 3, wherein the second information is divided into a plurality of pieces so as to be filled with the divided information. The processing unit
The plurality of devices are divided into a plurality of virtual groups, and the plurality of devices are divided into a plurality of virtual groups.
The information processing system according to any one of claims 2 to 4, wherein the plurality of divided information is distributed to a predetermined group among the plurality of groups via the second communication unit. The processing unit
Obtaining information indicating the radio field strength of the second communication unit,
The information processing system according to claim 5, wherein the plurality of devices are divided into a plurality of virtual groups based on the acquired information indicating the radio wave strength. The information according to any one of claims 1 to 6, wherein the processing unit distributes to each of the two or more devices via the second communication unit so that the plurality of division information does not overlap. Processing system. The information processing system according to any one of claims 1 to 7 includes a lighting system.
Each of the plurality of devices is a plurality of lighting devices.
Each of the plurality of lighting devices
A light emitting module that emits light and
A storage unit in which the first information is stored and a free capacity, which is the remaining capacity obtained by subtracting the information amount of the first information from the total capacity, is set.
It has a first communication unit that communicates with the terminal device for registering each of the plurality of lighting devices in the network.
A lighting system in which one of the plurality of divided information acquired via the first communication unit is stored in the storage unit. A lighting device that can communicate with a terminal device
A light emitting module that emits light and
A storage unit in which the first information is stored and a free capacity, which is the remaining capacity obtained by subtracting the information amount of the first information from the total capacity, is set.
A first communication unit that communicates with the terminal device for registering each of the lighting devices in the network is provided.
The terminal device distributes one of a plurality of divided information, which is information obtained by dividing the second information, which is information related to the network setting of the lighting device, into the lighting device. ,
A lighting device in which one of the plurality of divided information acquired via the first communication unit is stored in the storage unit. Information processing system
A plurality of devices having a storage unit in which the first information is stored and a free space is set, and
A terminal device capable of communicating with the plurality of devices is provided.
The control method is
Communication between the terminal device for registering each of the plurality of devices in the network and the plurality of devices, and
Distributing a plurality of division information, which is information obtained by dividing the second information, which is information regarding network settings of the plurality of devices, into a plurality of the two or more devices among the plurality of devices. When,
A control method of an information processing system including storing the plurality of divided information acquired by each storage unit of the two or more devices.

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