JP2017097494A - State transition processing device, state transition processing method, and state transition processing program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a load applied to a state transition when a plurality of devices are cooperated.SOLUTION: A state transition device 10 includes: state transition processing means 11 for determining whether or not a transition from a first transition state to a second transition state is required, while satisfying a predetermined condition including a predetermined delay time, on the basis of information detected by at least one sensor 20; and control means 15 for controlling the execution of an operation corresponding to the second transition state, when it is determined that the transition from the first transition state to the second transition state is required by the state transition processing means 11 and when the predetermined delay time elapses.SELECTED DRAWING: Figure 1

Description

  Embodiments described herein relate generally to a state transition processing device, a state transition processing method, and a state transition processing program.

  Currently, services using service robots are gradually spreading in some fields such as reception, etc. and care prevention. However, there is a limit to what a single robot can do, and various devices / services and robots such as various sensors, gadgets such as smartphones and tablets, web services, and business systems can be linked to a wider range. Advanced services can be realized.

  In order to realize an application that links a plurality of devices (for example, robots, sensors, gadgets, web services, business systems), it is conceivable to link the devices on an event basis due to communication efficiency and real-time problems.

  For the description of applications that run on event-based systems, it is possible to use a state transition system because of its characteristics and affinity with the GUI.

Watch bed system for the prevention of falls and fall, Manabu Mogi, Narimatsu Matsumura, Tomohiro Yamada, Nobuhiro Muto, Naoyoshi Kanamaru, Kenichiro Shimokura, Yoshinobu Abe, Yumiko Okubo, Yoshiko Morita, Tomoko Kasai, Tomoko Yamamoto, Toshio Ochiai, IEICE Transactions D Vol.J94-D p.1024-1038 2011

  When a plurality of devices are linked, there may be a need for a time delay such as executing something after a certain time since some event occurs.

  When describing the above operations using a state transition system, it is necessary to increase the number of states for delay processing, which makes the state transition system complicated and increases the burden on the developer. Processing load also increases.

  The objective of this invention is providing the state transition processing apparatus which can reduce the load concerning a state transition in the case of making a some device cooperate.

  In order to achieve the above object, the first aspect of the state transition processing device according to the embodiment of the present invention satisfies a predetermined condition including a predetermined delay time based on information detected by at least one sensor. Above, state transition processing means for determining whether or not the transition from the first transition state to the second transition state is necessary, and transition from the first transition state to the second transition state by the state transition processing means And a control unit that controls execution of an operation in accordance with the second transition state when the predetermined delay time has elapsed.

  The second aspect of the state transition processing device configured as described above is the case where, in the first aspect, the state transition processing means determines that a transition from the first transition state to the second transition state is required. And a storage device for storing a condition indicating a predetermined operation after the predetermined delay time has elapsed since the transition to the second transition state is made, and the control means includes the state transition processing means , When it is determined that a transition from the first transition state to the second transition state is required, and when the delay time indicated by the condition stored in the storage device has elapsed, the second There is provided an apparatus for controlling execution of the predetermined operation in accordance with the transition state.

  According to a third aspect of the state transition processing device configured as described above, in the second aspect, the predetermined operation indicated by the condition stored in the storage device transmits the information detected by the sensor to the outside. The control means controls the execution of the predetermined operation according to the second transition state after the delay time indicated by the condition stored in the storage device has elapsed. An apparatus for controlling transmission of the information detected by the sensor to the outside is provided.

  According to a fourth aspect of the state transition processing device configured as described above, in the second aspect, the storage device requires a transition from the first transition state to the second transition state by the state transition processing means. If determined, a condition indicating a plurality of predetermined operations after the predetermined delay time has elapsed since the transition to the second transition state is made, and the control means stores the state transition process When it is determined by the means that a transition from the first transition state to the second transition state is required and the delay time indicated by the condition stored in the storage device has elapsed, An apparatus for controlling execution of the plurality of predetermined operations according to two transition states is provided.

  An aspect of a state transition processing method according to an embodiment of the present invention is a method applied to a state transition processing apparatus, wherein a predetermined condition including a predetermined delay time is set based on information detected by at least one sensor. In the case where it is determined that the transition from the first transition state to the second transition state is necessary, and it is determined that the transition from the first transition state to the second transition state is required, In addition, a method for controlling execution of an operation according to the second transition state when the predetermined delay time has elapsed is provided.

  An aspect of the state transition processing program in the embodiment of the present invention is a program used in a computer that operates as a part of the state transition processing device in the first aspect, and the computer is used as the state transition processing means and the control means. Provide a program to function as

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to reduce the load concerning a state transition in the case of making a some device cooperate.

The figure which shows the function structural example of the state transition apparatus in the 1st Embodiment of this invention. The figure explaining the 1st example of the delay process by the state transition apparatus in the 1st Embodiment of this invention. The figure explaining the 2nd example of the delay process by the state transition apparatus in the 1st Embodiment of this invention. The figure explaining an example of the management of the state transition by the state transition apparatus in the 3rd Embodiment of this invention. The figure explaining an example of the management of the state transition by the state transition apparatus in the 3rd Embodiment of this invention. The figure explaining an example of the state transition edit screen by the state transition apparatus in the 4th Embodiment of this invention. The figure explaining an example of the event management screen by the state transition apparatus in the 4th Embodiment of this invention. The figure explaining an example of the device selection screen by the state transition apparatus in the 4th Embodiment of this invention. The figure explaining an example of the event selection screen by the state transition apparatus in the 4th Embodiment of this invention. The figure explaining the network connection function of the state transition apparatus in the 5th Embodiment of this invention.

Embodiments according to the present invention will be described below.
(First embodiment)
First, the first embodiment will be described. FIG. 1 is a diagram illustrating a functional configuration example of the state transition device according to the first embodiment of the present invention. In the first embodiment, a state transition processing device capable of delaying state transitions and delaying actions (such as event transmission) after state transitions will be described.

  As shown in FIG. 1, the state transition processing device in the first embodiment receives signals from a plurality of sensors, manages a transition state that means a mode of a specific device, and is supplied from the plurality of sensors. Based on the detection signal reception timing, the number of reception signals when there are multiple detection signals, the detection order of the reception signals, the time difference of each signal, etc., the necessity of state transition is determined, and this determined transition An output signal is output according to the state, and any device having such a function may be used. An example of the apparatus is shown below.

  The state transition processing device 10 includes an operation determination unit 11, a state transition management unit 12, a storage device 13, a timer unit 14, and a process execution unit 15. The operation determination unit 11 detects a signal from each sensor 20 and determines an external event when the detection result satisfies a predetermined condition of the sensor 20. The state transition management unit 12 manages the state transition of a predetermined device according to the determination result by the operation determination unit 11.

  The storage device 13 is a storage device such as a nonvolatile memory, for example, and includes a condition storage unit 13a and a transition state storage unit 13b. The condition storage unit 13a stores conditions regarding management of state transitions by the state transition management unit 12, conditions for processing the external device 30 associated with the state transitions, and the like. The transition state storage unit 13b stores information on transition states managed by the state transition management unit 12. The timer unit 14 measures the elapsed time from a predetermined timing. The process execution unit 15 controls the operation according to the transition state after the transition by giving a predetermined instruction to the external device 30 according to the transition state after the transition managed by the state transition management unit 12.

Next, a mode in which a delay time from when a predetermined condition is satisfied until transition to another state is specified as a state transition condition by the state transition apparatus according to the first embodiment will be described. FIG. 2 is a diagram illustrating a first example of delay processing by the state transition device according to the first embodiment of the present invention.
Here, in the state transition from state A to state B, state C, and state D, for example, the following (1-a) to (1-c) are stored in the condition storage unit 13a of the storage device 13 as the state transition conditions. To do.

(1-a) Operation conditions for state transition from state A to state B (sometimes referred to as transition conditions), delay time from satisfying this condition to state transition to state B (1-b) Condition of operation for state transition from state A to state C, delay time from satisfying this condition to state transition to state C (1-c) delay time from state A to state D The operation condition is, for example, reception of an event from the outside. Also, it is not necessary to define another state for the delay.

  Examples of (1-a) include the following. The condition for transition from state A to state B is satisfied when both the following transition condition and delay designation are satisfied.

Transition condition (1-a): Both event X and event Y are received from the outside (detected by sensor 20)
(1-a) delay designation: after receiving event X and event Y, transition to state B after 10 seconds has elapsed. As a process according to (1-a), the operation determination unit 11 of the state transition processing device 10 When the operation determined according to the detection result is an operation corresponding to an operation that received both event X and event Y from the outside, the state transition management unit 12 is related to an operation that received both event X and event Y. The condition, that is, the condition indicated by (1-a) above is retrieved from the condition storage unit 13a and read out, and it is determined that the transition from the state A to the state B is required. When the time counting unit 14 counts for 10 seconds, the state transition management unit 12 writes information indicating that the transition state has transitioned from the state A to the state B in the transition state storage unit 13b.

  Examples of (1-b) include the following. The condition for transition from state A to state C is satisfied when both the following transition condition and delay designation are satisfied.

(1-b) transition condition: event Z is received from the outside (detected by sensor 20)
(1-b) delay designation: receiving the event Z and immediately transitioning to the state C As a process according to (1-b), the operation determination unit 11 of the state transition processing device 10 responds to the detection result of the sensor 20. When the operation determined in step S3 is an operation corresponding to an operation that received both events Z from the outside, the state transition management unit 12 determines the transition condition related to the operation that received the event Z, that is, the above (1-b). ) Is retrieved from the condition storage unit 13a and read out, it is determined that a transition from state A to state C is required.
Then, the state transition management unit 12 immediately changes the transition state to be managed from the state A to the state C, and writes information indicating this change in the transition state storage unit 13b.

  Examples of (1-c) include the following. When both the following transition condition and delay designation are satisfied, the condition for transition from state A to state D is satisfied.

(1-c) transition condition: no event reception condition (current state is state A)
(1-c) delay designation: transition to state D after 30 seconds elapse (1-c) is a time-out process in which the time until transition to a predetermined state is designated and no event is received. It corresponds to the condition of. That is, the transition to the state D is specified when the above 30 seconds have elapsed since the transition to the state A from another state.

  As a process according to (1-c), the state transition management unit 12 retrieves the transition condition relating to the current state A, that is, the condition indicated by (1-c) above from the condition storage unit 13a. Therefore, it is determined that a transition from state A to state D is required.

  When the timekeeping unit 14 measures 30 seconds, the state transition management unit 12 changes the state to be managed from state A to state C, and writes information indicating this change in the transition state storage unit 13b.

Next, a description will be given of a mode for designating a delay time until an event is transmitted to the outside after the state transition in the case of transmitting the event to the outside after the state transition by the state transition apparatus in the first embodiment.
FIG. 3 is a diagram illustrating a second example of delay processing by the state transition device according to the first embodiment of the present invention.
Here, when it is determined that a state transition is required as described above, the specified action content in the state after the transition and the delay time until this action are stored in the condition storage unit 13a of the storage device 13, The specified action is executed immediately after the transition to the predetermined state or at a timing after the predetermined delay time has elapsed.

Further, even if the state transits to another state before the delay time elapses, the specified action is always executed after the delay time specified time.
Here, in the state transition from the state A to the state B, for example, one of the following (2-a) and (2-b) is stored in the condition storage unit 13 a of the storage device 13.

  Examples of (2-a) include the following. The following actions are executed when the following delay time conditions are met. The same applies to (2-b).

(2-a) action: Sending event X to the outside (2-a) delay time: Immediately after the state transitions from state A to state B, when following this (2-a), state transition processing device 10 The state transition management unit 12 changes the state to be managed from the state A to the state B and writes information indicating this change in the transition state storage unit 13b, and the condition regarding the action after the transition to the state B, That is, the above (2-a) is read from the condition storage unit 13a.

The state transition management unit 12 immediately outputs an instruction to transmit the event X to the outside according to the condition (2-a) to the process execution unit 15.
In accordance with this instruction, the process execution unit 15 outputs a signal for transmitting the event X to the outside to the external device 30.

Examples of (2-b) include the following.
Action of (2-b): External transmission of event Y Delay time of (2-b): 10 seconds after the state transition from state A to state B When following this (2-b), state transition processing device 10 state transition management unit 12 changes the managed state from state A to state B, and writes information indicating this state in transition state storage unit 13b, and the conditions regarding the action after transition to state B That is, the above (2-b) is read from the condition storage unit 13a.
In accordance with the condition (2-a), the state transition management unit 12 outputs an instruction to transmit the event Y to the process execution unit 15 when the time measuring unit 14 has timed 10 seconds.
In accordance with this instruction, the process execution unit 15 outputs a signal for transmitting the event Y to the outside to the external device 30.

  If the state transitions from the state A to the state B within the above 10 seconds, even if the state B further transitions to another state, for example, the state C, the state transitions from the state A to the state B. Event Y is transmitted to the outside after 2 seconds.

(Second Embodiment)
Next, a second embodiment will be described. In the following embodiments, descriptions similar to those of the first embodiment are omitted.
In the second embodiment, a state transition processing device capable of transferring event parameters will be described.
When a plurality of devices are linked, for example, there are cases where it is desired to communicate numerical values such as temperature and data such as photographic images between the devices.
Therefore, in the second embodiment, when an event is transmitted to the outside after the state transition in the state transition system, numerical values and data included in the event already received from the outside are specified as parameters of the event to be transmitted to the outside. To do.

  For example, in the determination of the transition from the state A to the state B indicated by (1-a) described in the first embodiment, when the data a is received from the sensor 20, the state transition management unit 12 This data a is temporarily stored in the storage device 13.

  This data is defined by (2-b) described in the first embodiment, and can be defined by storing in the condition storage unit 13a that the data is related to the event Y transmitted to the outside. .

  When it is determined that the transition from the state A to the state B is necessary, the delay condition after the transition to the state B indicated by (2-b) described in the first embodiment is satisfied. The state transition management unit 12 reads the temporarily stored data from the storage device 13 and transmits the data to the process execution unit 15 as data related to the event Y.

(Third embodiment)
Next, a third embodiment will be described.
When trying to realize a large-scale application in which multiple devices are complexly linked with a state transition system, it will be realized by operating a large number of state transition systems in parallel. However, the larger the application scale, In addition, the number of necessary state transition systems increases, the burden on application developers such as grasping dependency relationships increases, and the processing load on the information processing system to be executed also increases.

  Therefore, in the third embodiment, a plurality of state transition systems are grouped and executed simultaneously by switching the state transition processing on and off for each state transition system group based on an event transmitted by the device or the state transition system. Reduce state transition system. This facilitates management of the state transition system and reduces the processing load on the system.

  One state transition system can belong to a plurality of groups. In addition, when switching between valid / invalid of the state transition processing, it is possible to select whether to return to the initial state or hold the state for each state transition system.

FIG. 4 is a diagram illustrating an example of state transition management by the state transition device according to the third embodiment of the present invention.
In the third embodiment, as a first example, the interaction between the device and the user is described as a state transition system, and a plurality of actions are executed after the state transitions according to an external event such as sensor input, Also, a mode for realizing parallel execution and interrupt execution of an interaction by simultaneously executing a plurality of state transition systems will be described.

Here, an example of starting a karaoke by listening to a song that the person wants to sing when a person sits on a karaoke box chair will be described.
In the initial state, the transition state is assumed to be the first state before the start of karaoke. When a person sits on a karaoke box chair, the sensor 20 detects this. The operation determination unit 11 of the state transition processing device 10 determines that an operation in which a person is sitting on a chair of a karaoke box has been performed according to the detection result.
In response to this determination, the state transition management unit 12 determines that the current transition state needs to transition from the first state to the second state, and as a process associated with the transition to the second state, The process execution unit 15 is instructed to execute processes such as dimming illumination, starting karaoke, and asking a person the name of a song to be sung. In response to this instruction, the process execution unit 15 controls the external device 30, for example, a speaker or a monitor in the karaoke box.

Then, when a person inputs the name of a song to be sung with a microphone or the like, the sensor 20 detects this. The operation determination unit 11 of the state transition processing apparatus 10 determines that the dialogue is successful because a person performs an operation of inputting the name of a song to be sung with a microphone or the like according to the detection result.
In response to this determination, the state transition management unit 12 determines that the current transition state needs to transition to the third state, and inputs the song name as a process associated with the transition to the third state. If there is a song, start the karaoke, notify the start of this karaoke, if the input song name does not exist, for example, play a predetermined song such as background music and output an apology message The execution unit 15 is instructed. In response to this instruction, the process execution unit 15 controls the external device 30, for example, a speaker or a monitor in the karaoke box.
Thus, in the first example, a predetermined action can be performed through interaction with the user according to one state transition.

FIG. 5 is a diagram illustrating an example of state transition management by the state transition device according to the third embodiment of the present invention.
Next, as a second example, a plurality of interaction descriptions are grouped using a form called a scene, and by switching this scene, it is possible to switch between enabling and disabling a plurality of interactions at a large scale. A mode for facilitating the description of the interaction will be described. This switching between scenes corresponds to a state transition, and the description of the interaction can be stored in the condition storage unit 13a. The state transition management unit 12 reads out this condition and controls the execution as a process after the transition. Can do.

  Here, one scene includes a plurality of interaction descriptions, and switching of this scene can be executed from the description of the interaction using an instruction dedicated to the switching. When the scene is switched, the scene interaction description before the switching is performed. A mode in which all operations that have been executed based on the above are interrupted will be described.

  For example, the scene is divided into scenes such as standby for karaoke, operation mode selection, karaoke selection, karaoke playback, etc., and the state transition processing device 10 manages the state transition corresponding to the switching of these scenes. Information regarding a plurality of operations in this scene can be read from the condition storage unit 13a, and various operations indicated by the read information can be executed by the external device 30.

In addition to the above scenes, as a common operation to all the above scenes, a condition corresponding to an interaction description that does not belong to each scene and always operates is stored in the condition storage unit 13a. Execution can be controlled as a process after the management unit 12 reads and transitions between the above-described scenes.
If the configuration described in the third embodiment is applied to the second example of the delay processing by the state transition device in the first embodiment, a plurality of states are changed after the state transitions according to an external event such as a sensor input. The action can be executed.

(Fourth embodiment)
Next, a fourth embodiment will be described.
When configuring an application that works with a device, the developer needs to know the events that the device sends and the events that the device can receive.
Therefore, in the fourth embodiment, an event list that can be received from the device and an event list that can be transmitted to the device are received, and the received information is displayed on the graphical user interface according to the operation of the developer. A description will be given of a mode in which a state transition system can be described by accepting an operation of selecting a transition condition or an external transmission event for the displayed information.

FIG. 6 is a diagram for explaining an example of a state transition edit screen by the state transition device according to the fourth embodiment of the present invention.
The screen shown in FIG. 6 is a state transition editing screen, and can be displayed on an external display device by the state transition management unit 12 of the state transition processing device 10. Each box in the screen corresponds to a transition state, and includes descriptions such as the transition condition and delay time described in the first embodiment accompanying the transition to this state. When the developer performs a selection operation for editing the state transition corresponding to an arbitrary box on the screen, the state transition processing device 10 accepts this operation, and the state corresponding to the selected box A screen for editing the transition can be displayed on an external display device.

FIG. 7 is a diagram illustrating an example of an event management screen by the state transition device according to the fourth embodiment of the present invention.
In the screen G1 shown in FIG. 7, in the state transition corresponding to one box selected from the screen shown in FIG. 6, an already defined event is changed, or when the transition to this state, It is a screen for accepting an additional designation operation of desired event transmission (including delay time until event transmission, if necessary). When the developer performs an operation for this change or addition, the state transition processing apparatus 10 accepts this operation, and the change or addition of the event accompanying the state transition corresponding to the selected box is reflected. This condition can be stored in the condition storage unit 13a to reflect the contents of this operation.

FIG. 8 is a diagram illustrating an example of a device selection screen by the state transition device according to the fourth embodiment of the present invention.
As described above, after the addition of the event transmission is reflected, the state transition processing device 10 causes the display device to display the screen G3 for accepting the selection of the event transmission destination device as the transmission destination of this event. be able to. When an operation for this selection is performed by the developer, the state transition processing apparatus 10 accepts this operation and sets a condition in which the destination device is reflected along with the state transition corresponding to the selected box. By storing in the storage unit 13a, the contents of this operation can be reflected.

FIG. 9 is a diagram illustrating an example of an event selection screen by the state transition device according to the fourth embodiment of the present invention.
As described above, after the event transmission destination device is reflected, the state transition processing apparatus 10 displays a list of events that can be handled by the device and displays a screen G4 for accepting selection of a desired event. It can display on said display apparatus. When the developer performs an operation for this selection, the state transition processing device 10 accepts this operation and stores the condition in which the event is reflected in the condition storage unit 13a, thereby reflecting the content of this operation. Can do.

(Fifth embodiment)
Next, a fifth embodiment will be described.
Because of system cost issues, it is desirable to implement applications that link various devices and services on the cloud.
When the application is realized on the cloud in this way, the association between the user / application and the device becomes a problem.

FIG. 10 is a diagram illustrating the network connection function of the state transition device according to the fifth embodiment of the present invention.
Therefore, in the fifth embodiment, a device / user mapper 50 and a device / user mapping DB (database) 51 that operate on the cloud are provided, an event dispatcher 52 of each company on the cloud, and an application of each company on the cloud. 53 is associated with the robot sensor group 54 of each company on the device side.
The device-user mapper 50 has a function of managing the owner of the device. In the fifth embodiment, the device network setting is unnecessary, and the device-user mapper 50 has a function of connecting the device to the network (cloud).

The device-user mapper 50 refers to the following mapping information and distributes the input / output of the device to the cloud for each user.
The device-user mapping DB 51 is a storage device that stores device identification information and cloud (user side) information, for example, mapping information between user accounts. The event dispatcher 52 controls input / output between the device and the application 53 through a predetermined conversion.

  The device-user mapper 50 has a single device connection point (domain name, port number). For this reason, the connection destination can be written in advance in the memory of the device as the single device connection point when the device is shipped.

  In the fifth embodiment, all devices are aggregated in a device / user mapper 50. The device / user mapper 50 refers to the mapping information stored in the device / user mapping DB 51, and The input / output information is distributed to the event dispatcher 52 and the application 53 of a suitable user among the users.

  For example, when the device / user mapper 50 detects the connection of the device, the device / user mapper 50 holds the connection as a user-unknown device, inputs the device identification information from the user, and collates with the mapping information. After that, communication between the device and the user becomes possible.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

  In addition, the method described in each embodiment is, for example, a magnetic disk (floppy (registered trademark) disk, hard disk, etc.), optical disk (CD-ROM, etc.) as a program (software means) that can be executed by a computer (computer). It can be stored in a recording medium such as a DVD, MO, etc., semiconductor memory (ROM, RAM, flash memory, etc.), or transmitted and distributed by a communication medium. The program stored on the medium side includes a setting program that configures software means (including not only the execution program but also a table and data structure) in the computer. A computer that implements this apparatus reads a program recorded on a recording medium, constructs software means by a setting program as the case may be, and executes the above-described processing by controlling the operation by this software means. The recording medium referred to in this specification is not limited to distribution, but includes a storage medium such as a magnetic disk or a semiconductor memory provided in a computer or a device connected via a network.

  DESCRIPTION OF SYMBOLS 10 ... State transition processing apparatus, 11 ... Operation | movement determination part, 12 ... State transition management part, 13 ... Memory | storage device, 13a ... Condition memory | storage part, 13b ... Transition state memory | storage part, 14 ... Time measuring part, 15 ... Process execution part, 20 ... sensor, 30 ... external device.

Claims (6)

State transition for determining the necessity of transition from the first transition state to the second transition state after satisfying a predetermined condition including a predetermined delay time based on information detected by at least one sensor Processing means;
When it is determined by the state transition processing means that a transition from the first transition state to the second transition state is required, and the predetermined delay time has elapsed, the second transition state is determined. A state transition processing device comprising control means for controlling execution of the operation. When the state transition processing means determines that a transition from the first transition state to the second transition state is required, the predetermined delay time after the transition to the second transition state is made A storage device for storing a condition indicating a predetermined operation after elapse;
The control means includes
When the state transition processing means determines that a transition from the first transition state to the second transition state is required, and when the delay time indicated by the condition stored in the storage device has elapsed 2. The state transition processing device according to claim 1, wherein execution of the predetermined operation in accordance with the second transition state is controlled. The predetermined operation indicated by the condition stored in the storage device includes transmitting the information detected by the sensor to the outside,
The control means includes
When the delay time indicated by the condition stored in the storage device has elapsed and the execution of the predetermined operation according to the second transition state is controlled, the information detected by the sensor The state transition processing device according to claim 2, wherein transmission to the outside is controlled. The storage device
When the state transition processing means determines that a transition from the first transition state to the second transition state is required, the predetermined delay time after the transition to the second transition state is made Stores conditions indicating a plurality of predetermined operations after elapse,
The control means includes
When the state transition processing means determines that a transition from the first transition state to the second transition state is required, and when the delay time indicated by the condition stored in the storage device has elapsed The state transition processing device according to claim 2, wherein execution of the plurality of predetermined operations according to the second transition state is controlled. A method applied to a state transition processing device,
Based on information detected by at least one sensor, after satisfying a predetermined condition including a predetermined delay time, determine whether or not a transition from the first transition state to the second transition state is necessary,
When it is determined that a transition from the first transition state to the second transition state is required and the predetermined delay time has elapsed, the execution of the operation according to the second transition state is controlled. A state transition processing method characterized by: A program used for a computer that operates as a part of the state transition processing device according to claim 1,
The computer,
A state transition processing program for causing the state transition processing means and the control means to function.