JP2011158186A - Equipment management system, user terminal, and control method of equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To collectively control a plurality of pieces of control object equipment by simple adding operation using an already input schedule or a schedule to be input. <P>SOLUTION: The equipment management system includes: a communication part receiving schedule linking action patterns coordinating times included in a schedule created by a schedule management function and action patterns respectively defining control contents in regard to the plurality of pieces of control object equipment from the user terminal including the schedule management function; a memory storing the schedule linking action patterns; and a control part referring to the schedule linking action patterns and controlling each of the plurality of pieces of control object equipment. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a device management system, a user terminal, and a device control method, and more particularly to a device management system, a user terminal, and a device control method that operate in cooperation with a terminal having a schedule function.

  Patent Document 1 discloses a configuration in which home electric appliances in a house can be remotely operated with a mobile phone from a location outside the home. The configuration of Patent Document 1 is such that the user actively performs remote operation to the last, and does not touch on automatic control of home appliances.

  Patent Document 2 discloses a schedule-linked timer setting system that automatically sets a timer for home appliances based on a schedule input by a user. More specifically, when a schedule for attending a meeting from 9:00 am the next day is input to the timer time calculation unit of Patent Document 2, the time required to get to the meeting place from getting up (set to 1 hour) .) In anticipation of this, it is described that the timer time calculation unit sets the timer of the home appliance having an alarm timer function at 8:00 am (see paragraphs 0152-0153).

  Patent Document 3 discloses a schedule management system that optimally controls controlled devices on behalf of users based on analysis results obtained by integrating action schedule information registered from a plurality of users.

JP 2002-345051 A JP 2007-108081 A JP 2007-213152 A

  As pointed out in Patent Document 2, the technique of Patent Document 1 has a problem that the operation becomes complicated when there are many devices to be controlled.

  The technique of Patent Document 2 reduces the operation burden on the user as opposed to Patent Document 1, but depending on the behavior of the timer time calculation unit, there is a possibility that timer settings that the user does not want may be made. For example, even if the message is “Meeting from 9 am”, depending on the mood and physical condition of the user, the temperature of the air conditioner is changed, music is played from a music player, or a specific program is recorded. You may want to change various settings. Furthermore, Patent Document 2 also has a problem that it cannot cope with home appliances that are not appropriate to set a timer uniformly depending on the season, such as air conditioning equipment and lighting equipment.

  In Patent Document 3, the amount of rice to be cooked and the operation control of the air conditioner can be controlled by referring to the schedule of a plurality of users, the amount of rice that each user eats per meal and the preferred air conditioner set temperature. Although described, there is a problem that it is a mechanism in which the user's intention is hardly reflected because the optimum of the user as a whole is pursued.

  The present invention has been made in view of the above-described circumstances, and the object of the present invention is to control a plurality of devices to be controlled together by a simple additional operation using an input or a schedule to be input in the future. The object is to provide a device management system, a user terminal, and a device control method.

  According to the first aspect of the present invention, control contents are defined for a plurality of devices to be controlled and a time included in a schedule created by the schedule management function from a user terminal having a schedule management function. A communication unit that receives a schedule cooperation operation pattern associated with an operation pattern, a storage unit that stores the schedule cooperation operation pattern, and the schedule cooperation operation pattern, respectively, to control the plurality of devices to be controlled. And a control unit that provides a device management system.

  According to the second aspect of the present invention, the schedule management function, the time included in the schedule created by the schedule management function, and the contents of control for each of a plurality of devices to be managed with respect to the device management system described above. A user terminal having a function of transmitting a schedule cooperation operation pattern in association with an operation pattern that defines the above is provided.

  According to a third aspect of the present invention, using a user terminal equipped with a schedule management function, creating a schedule in which operation patterns defining control contents are associated with a plurality of devices to be controlled, A step of transmitting a schedule associated with the operation pattern from the user terminal to the device management system as a schedule cooperation operation pattern; and the device management system, based on the schedule cooperation operation pattern, And a method for controlling a plurality of devices. This method is linked to a specific machine called a device management system that controls a plurality of devices.

  According to the fourth aspect of the present invention, the time included in the schedule created by the schedule management function from the user terminal provided with the schedule management function in the computer constituting the device management system, and a plurality of control targets A process of receiving a schedule cooperation operation pattern that associates an operation pattern that defines control content for each of the devices, a process of controlling each of the plurality of devices to be controlled with reference to the schedule cooperation operation pattern, and A program for executing is provided. This program can be recorded on a computer-readable storage medium. That is, the present invention can be embodied as a computer program product.

  According to the fifth aspect of the present invention, the computer constituting the user terminal is provided with the schedule management function, the time included in the schedule created by the schedule management function, and the control contents for each of a plurality of devices to be managed. There is provided a program for realizing a function of transmitting a schedule cooperation operation pattern in association with a defined operation pattern to a predetermined device management system. This program can be recorded on a computer-readable storage medium. That is, the present invention can be embodied as a computer program product.

  It is possible to control each of a plurality of devices to be controlled to a desired state by a simple additional operation using a schedule that has been input or will be input. The reason is that a configuration is adopted in which the plurality of devices are controlled based on an operation pattern in which control contents are defined for each of a plurality of devices to be controlled that are input in association with a schedule.

It is a figure for demonstrating the whole structure of the 1st Embodiment of this invention. It is an example of a control object apparatus and its management item. It is another example of a control object apparatus and its management item. It is a figure for demonstrating the structure of the apparatus management system and portable terminal of the 1st Embodiment of this invention. It is an example of the operation | movement pattern hold | maintained at the apparatus management system of the 1st Embodiment of this invention. It is an example of the schedule (schedule cooperation operation pattern) which the operation pattern matched and was input. It is a figure for demonstrating the control content by the schedule of FIG. It is a figure for demonstrating the control content by the schedule of FIG. It is a sequence diagram for demonstrating a series of operation | movement of the 1st Embodiment of this invention. It is another example of the schedule by which the operation | movement pattern was matched and input.

  First, the outline of the present invention will be described. The present invention is based on a user terminal (see 10 in FIG. 1) having a schedule management function and an operation pattern (schedule cooperation operation pattern) associated with the business data on the user schedule from the user terminal. This can be realized by a device management system (see 30 in FIG. 1) that controls a plurality of devices to be controlled (see 20a and 20b in FIG. 1).

  Using the user terminal, the user creates in advance an operation pattern that defines the control contents for a plurality of devices to be controlled (see FIG. 5). The user uses the schedule data input using the schedule management function of the user terminal, selects an operation pattern to be applied at a specified time or time in the schedule, and sends the schedule management operation pattern to the device management system. Send and register. Note that the schedule cooperation operation pattern may be created when a new schedule is input as an additional function of the schedule management function, or a schedule cooperation operation pattern creation function different from the schedule management function is provided and input by this function It is also possible to read out already-scheduled data and create a schedule cooperation operation pattern.

  The device management system controls each of the plurality of devices to be controlled based on the schedule cooperation operation pattern (see FIGS. 7 and 8). For example, when it is desired to perform the operation as shown in FIG. 7, the method of Patent Document 1 requires remote operation for each device. However, according to the present invention, an operation pattern is selected and schedule linkage is performed. A series of controls can be realized simply by creating an operation pattern.

[First Embodiment]
Next, a first embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram for explaining the overall configuration of the first embodiment of the present invention. Referring to FIG. 1, a device management system 30 having a wireless communication function and control target devices 20 a and 20 b that have a wireless communication function and operate under the control of the device management system 30 in the user's home, etc. (Optional) is shown.

  The control target devices 20a and 20b receive a wireless instruction from the device management system 30 and perform a predetermined operation. The instruction from the device management system 30 is determined by the type and function of the control target devices 20a and 20b, such as a monitoring status report and execution of an instruction operation. Here, it is assumed that the control target device 20a is a locking system installed at the entrance door of the user's house, and the control target device 20b is an air conditioner (hereinafter, “air conditioner”).

  2 and 3 are diagrams showing examples of detailed configurations of the control target devices 20a and 20b and their management items (control target items).

  The control target device 20a (locking system) in FIG. 2 includes a locking device 201, a contact determination type sensor 202 installed at a portion that contacts when locked, and a wireless communication device 203. The contact determination type sensor 202 determines that it is locked when contacted, and unlocked when not contacted, and the wireless communication device 203 determines that the device management system 30 is locked (locked) at a predetermined timing. / Release)

  The control target device 20b (air conditioner) in FIG. 3 has a configuration in which a wireless communication device 203 is added to the air conditioner device body. The wireless communication device 203 transmits instructions from the device management system 30 such as operation state (operation / stop), set temperature, operation mode (cooling / heating / dry, etc.), timer setting to the device body, and the result ( Response (success / error, etc.).

  The controlled devices 20a and 20b are not limited to the examples in FIGS. 2 and 3, and various devices that require remote monitoring / remote control are conceivable. The management items can also be set as appropriate according to the type and function of the control target device.

  The device management system 30 controls the control target devices 20a and 20b using a predetermined communication method such as Ethernet, Bluetooth, and Zigbee (registered trademarks). For example, the device management system 30 has a function of inquiring the control target device 20a (locking system) about the locked state (locking / unlocking). Further, for example, the device management system 30 has a function of instructing the control target device 20b (air conditioner) the operation state (operation / stop), set temperature, operation mode (cooling / heating / dry, etc.), timer setting, and the like. ing.

  As shown in FIG. 1, the device management system 30 sets an operation pattern that defines control contents for a plurality of devices to be controlled or schedules from a mobile terminal 10 of a user who is out of the office via a carrier network. The schedule cooperation operation pattern associated with this operation pattern is received, and the control target device 20a (locking system) and the control target device (air conditioner) 20b are controlled according to the contents.

  FIG. 4 is a block diagram showing detailed configurations of the device management system 30 and the mobile terminal 10. Referring to FIG. 4, the device management system 30 includes a communication unit 301 for communicating with the wireless transmission / reception unit 101 of the mobile terminal 10, time information managed by the time measuring unit 303, and a schedule held in the storage unit 304. Based on the cooperation operation pattern, the control target devices 20a and 20b are controlled, and the control unit 302 that provides an operation pattern and schedule cooperation operation pattern editing function to the storage unit 304 and the control target devices 20a and 20b communicate with each other. And a control target device communication unit 305.

  The mobile terminal 10 includes a wireless transmission / reception unit 101 for communicating with the device management system 30, a device management system cooperation schedule management unit 102, and a schedule storage unit 103. The device management system linkage schedule management unit 102 performs an interactive process with the device management system 30 to store the operation pattern in the storage unit 304 of the device management system 30 and the schedule linked with the schedule book function that is standardly installed in the mobile phone terminal. Provides a function for editing linked operation patterns. Such a device management system cooperation schedule management unit 102 can be realized by an application program that can be installed in a mobile terminal. Further, it is assumed that the mobile terminal 10 of the present embodiment has an electronic mail function, and the mail address is registered as user information in the storage unit 304 of the device management system 30.

  In the example of FIG. 4, a configuration in which there is one device management system 30 and one mobile terminal 10 is shown, but the device management system 30 may receive control from a plurality of mobile terminals 10. . Of course, it is also preferable that the device management system 30 has a function of authenticating the mobile terminal 10 and its user.

  Here, an operation pattern registered in the storage unit 304 of the device management system 30 will be described. FIG. 5 is an example of an operation pattern registered in the storage unit 304 of the device management system 30. For example, in the pattern A of FIG. 5, the control content for the device a (control target device 20a) and the control for the device b (control target device 20b) are set. When the pattern A is set, the device management system 30 holds the locked state for the device a (the control target device 20a) until 10 minutes before the set time, and when the state does not match such as when unlocked (when an abnormality is detected). ) Confirmation and notification are instructed. When the notification is made, the device management system 30 notifies the portable terminal 10 by e-mail that a state mismatch occurred at the time of unlocking or the like. At the same time, the device management system 30 instructs the device b (the control target device 20b) to start operation from the designated time 30 minutes before.

  More detailed control is possible by defining control contents that operate at a predetermined time before or after a predetermined time on the basis of the time included in the schedule, such as 10 minutes before and 30 minutes after the operation pattern A. Is possible. For example, defining a content such as locking, unlocking or starting monitoring, turning on or off an air conditioner, or changing a set temperature when a predetermined time has elapsed from a certain time in the schedule, such as a so-called off timer Is also possible.

  Note that the pattern A as described above can be suitably used as an operation pattern until a user who is out of the business registered in the schedule returns home. In the case of Patent Document 1, it is necessary to remotely control individual devices one by one. However, in this embodiment, by selecting the pattern A, it is possible to control the plurality of devices collectively.

  Similarly, in the example of FIG. 5, the pattern B that defines the control contents of a plurality of devices after the user has gone out according to the requirements registered in the schedule, or the control contents of the plurality of devices after the user returns home. The defined pattern C is registered.

  The contents of the pattern are not limited to the example shown in FIG. 5, and settings of activation of various control target devices, start of monitoring, and end time are set. For example, a recording device may be added as a control target device to record a predetermined program, or a lighting device or the like may be turned on in a predetermined pattern from the viewpoint of crime prevention. It may be. Moreover, the registration of these operation patterns is not limited to the portable terminal 10 but may be registered from the PC shown in FIG. 1 or the operation panel of the device management system main body.

  Next, a schedule cooperation operation pattern registered in the storage unit 304 of the device management system 30 will be described. FIG. 6 is an example of a schedule cooperation operation pattern created by the device management system cooperation schedule management unit 102 of the mobile terminal 10.

  In the example of FIG. 6, as a regular schedule such as “travel (summer)”, daily, weekly, monthly, etc., a period from August 9, 2010, 9:00 to August 15, 2010, 17:00 The operation patterns shown in FIG. 5 for the start time setting, the end time setting, and the constant setting applied at times other than the start time to the end time, respectively, for the schedule of “returning home” set at 19:00 on weekdays. Can be set.

  Note that there may be a period in which schedules overlap, such as the regular schedules of “travel (summer)” and “return home” described above. In this case, it is conceivable that a plurality of operation patterns compete. Such a conflict of schedule cooperation operation patterns can be avoided by checking whether or not the device management system 30 has a conflict when registering a new schedule cooperation operation pattern, issuing a warning to the user, and prompting correction. Further, instead of the device management system 30 confirming the occurrence of the conflict, a priority may be provided between the operation patterns so that a higher priority operation pattern is applied.

  FIG. 7 is a timing chart showing operations of the control target device 20a (locking system) and the control target device 20b (air conditioner) when the schedule “travel (summer)” of FIG. 6 is set. Referring to FIG. 7, when the start of the user's schedule “Travel (Summer)” arrives, the device management system 30 follows the control target device 20a (as shown in the operation pattern B set in the start setting of the schedule cooperation operation pattern). Control of the locking system) and the control target device 20b (air conditioner) is started. Specifically, the device management system 30 instructs the control target device 20a (locking system) to start locking and to confirm and report when the states do not match (unauthorized unlocking). Similarly, the device management system 30 instructs the control target device 20b (air conditioner) to stop operation.

  After that, the device management system 30 does not agree with the release of the lock 10 minutes before returning home for the control target device 20a (locking system) as shown in the operation pattern A set in the end setting of the schedule cooperation operation pattern. Instructs the end of e-mail notification at the time (unauthorized unlocking). Similarly, the device management system 30 instructs the control target device 20b (air conditioner) to operate 30 minutes before returning home.

  Thereafter, the device management system 30 instructs the control target device 20b (air conditioner) to operate at a cooling temperature of 28 ° C. according to the operation pattern C set to the always setting of the schedule cooperation operation pattern.

  As described above, the user simply inputs a travel schedule, selects an operation pattern as a start time setting, an end time setting, and a constant setting, and then registers them in the device management system 30. It becomes possible to comprehensively control a plurality of control target devices.

  FIG. 8 is a timing chart showing operations of the control target device 20a (locking system) and the control target device 20b (air conditioner) when the schedule “return home” of FIG. 6 is set. As described above, in this embodiment, even in a regular schedule such as returning home, it is possible to comprehensively control a plurality of control target devices in the same manner by associating an operation pattern with time information therein.

  Next, the overall operation of this embodiment will be described with reference to the sequence diagram shown in FIG. First, when a user registers a schedule in the schedule book using the schedule management function of the mobile terminal 10 (step S001), the device management system cooperation schedule management unit (schedule management unit) 102 operates and connects to the device management system 30. The selection of the operation pattern associated with the time information in the registered schedule is accepted, and the registration of the schedule cooperation operation pattern is accepted (step S002).

  Thereafter, the device management system 30 holds the registered schedule cooperation operation pattern and waits until the execution time of any operation pattern arrives. In the meantime, when the constantly set operation pattern is set, the operation pattern selected as the always set is applied (step S003).

  Thereafter, when the execution time of one of the operation patterns arrives, the device management system 30 sends an instruction to each control target device 20a, 20b according to the operation pattern, and starts control (steps S004a, S004b).

  The control target devices 20a and 20b start to operate according to an instruction from the device management system 30 (steps S005a and S005b). In the example of FIG. 9, the control target device 20a performs “confirmation / response of state mismatch”, and the control target device 20b responds that the operation has started. Thereafter, similarly, control is performed according to an instruction based on the schedule cooperation operation pattern from the device management system 30.

  In the meantime, for example, when a state mismatch is reported from the control target device 20a, the device management system 30 notifies the mobile terminal 10 by email.

  As described above, according to the present embodiment, the user can collectively control various devices at home without being aware of the presence of the device management system 30. In the above-described embodiment, the device management system cooperation schedule management unit 102 is described as being provided separately from the schedule management function in the mobile terminal 10, but it is also possible to combine the two. For example, an operation pattern selection item may be provided as one item of the schedule input screen. If it does in this way, it will become possible to control a plurality of controlled objects automatically according to the selected operation pattern, for example by registering or changing a schedule from whereabouts.

  The preferred embodiment of the present invention and the specific operation thereof have been described above, but the present invention is not limited to the above-described embodiment, and is within the scope not departing from the basic technical idea of the present invention. Further modifications, substitutions and adjustments can be made.

  For example, in the above-described embodiment, the use at home has been described as an example, but the present invention is also applicable to business use. For example, as shown in FIG. 10, it is possible to control the air conditioner and lighting in accordance with a schedule such as “workshop” and “visitor”.

  Further, in the above-described embodiment, the example of the schedule cooperation operation pattern in which three operation patterns of the start time setting, the end time setting, and the constant setting are described has been described. However, the event 1, the event 2,. The operation pattern may be registered by designating a time point on the schedule or any other time point, such as n. In this way, for example, as in the schedule “training session” in FIG. 10, the operation pattern can be applied and the operation of the air conditioner and the lighting can be changed at any timing such as a lunch break, a coffee break, and a 10-minute break. Is possible.

  In the above-described embodiment, the schedule management function is provided on the mobile terminal 10 side and the schedule is stored. However, a schedule cooperation operation pattern can be created using a schedule shared by groupware or the like. You may do it. Furthermore, the schedule cooperation operation pattern itself may be shared by a plurality of users so that each user can register or update the schedule cooperation operation pattern based on their own schedule.

10 Mobile terminal 20a Control target device (locking system)
20b Controlled equipment (air conditioner)
30 Device management system 31 PC (personal computer)
DESCRIPTION OF SYMBOLS 101 Wireless transmission / reception part 102 Device management system cooperation schedule management part 103 Schedule memory | storage part 201 Locking device 202 Contact determination type | mold sensor 203 Wireless communication apparatus 301 Communication part 302 Control part 303 Time measuring part 304 Storage part 305 Control object apparatus communication part

Claims (10)

Schedule-linked operation pattern that associates the time included in the schedule created by the schedule management function from the user terminal equipped with the schedule management function and the operation pattern that defines the control content for each of the devices to be controlled. A communication unit that receives
A storage unit for storing the schedule cooperation operation pattern;
A device management system comprising: a control unit that controls the plurality of devices to be controlled with reference to the schedule cooperation operation pattern.   2. The device management system according to claim 1, wherein the user terminal is provided with an editing function of an operation pattern in which control contents are defined for each of the plurality of devices to be controlled.   The device management system according to claim 1 or 2, wherein the operation content can be defined as a control content that operates at a time before or after a predetermined time with reference to a time included in the schedule.   The device management system according to any one of claims 1 to 3, wherein an operation for notifying the user terminal of an abnormality can be set for each device as the operation pattern.   The device management system according to any one of claims 1 to 4, wherein a priority order is set for each operation pattern, and an operation pattern having a higher priority order is applied during a period in which a plurality of schedule cooperation operation patterns overlap.   The device management system according to any one of claims 1 to 5, wherein the schedule management function of the user terminal includes a function of creating the schedule cooperation operation pattern, and when the schedule is updated, the schedule cooperation operation pattern is updated.   An operation in which control contents are defined for each of a plurality of devices to be managed and a time included in the schedule created by the schedule management function with respect to the schedule management function and the device management system according to any one of claims 1 to 5. A user terminal provided with a function of transmitting a schedule cooperation operation pattern associated with a pattern. Using a user terminal equipped with a schedule management function, creating a schedule in which operation patterns defining control contents are associated with a plurality of devices to be controlled,
Transmitting a schedule associated with the operation pattern from the user terminal to the device management system as a schedule cooperation operation pattern;
A step of controlling the plurality of devices to be controlled based on the schedule cooperation operation pattern, respectively. In the computer that constitutes the device management system,
Schedule-linked operation pattern that associates the time included in the schedule created by the schedule management function from the user terminal equipped with the schedule management function and the operation pattern that defines the control content for each of the devices to be controlled. Processing to receive
With reference to the schedule cooperation operation pattern, a process for controlling each of the plurality of devices to be controlled,
A program that executes In the computer that constitutes the user terminal,
Schedule management function,
A schedule linkage operation pattern in which the time included in the schedule created by the schedule management function and the operation pattern in which the control contents are defined for a plurality of devices to be managed is associated is transmitted to a predetermined device management system Function to
A program that realizes

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