• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A method of operating a control device of a home automation system of a building, the control device comprising a data input device and a display device, the control device being configured to control the operation of home automation equipment and communicate with sensors, the method comprising at least the following steps for configuring an automation: - selecting an icon representing a first implementation condition of an action relating to the installation from one of proposed set of condition icons, - positioning of the first condition selected in a matrix table accommodating the condition icons, - selecting an icon representing a second implementation condition of an action relating to the installation, - positioning the icon representing the second condition on the same line or column as the icon representing the first first condition in the matrix table.
    公开号:FR3022646A1
    申请号:FR1455713
    申请日:2014-06-20
    公开日:2015-12-25
    发明作者:Isabelle Duchene;Frederic Devis;Pierre-Yves Cogne
    申请人:Somfy SA;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a method of operating a control device of a home automation system of a building, a control device of a home automation system of a building and such an installation.
    [0002] In general, the present invention relates to the field of home automation installations. A home automation installation is generally designed so as to put into operation home automation equipment, such as for example closing devices, occultation or sun protection comprising a motorized drive device moving a screen between at least a first position and a second position, lighting devices, heaters and / or an anti-extrusion security device, using data collected by sensors, such as, for example, sensors for temperature, brightness, wind, humidity, presence, opening and / or smoke.
    [0003] A motorized device for a closing, concealment or sun protection device comprises an electromechanical actuator of a screen or movable element for closing, concealing or solar protection such as a shutter, a door, a grid, a blind, or any other equivalent material. A home automation installation also includes a control device. The control device comprises at least one local control unit, which can issue commands to different equipment, in wired or wireless connection, so as to control the home automation equipment of the home automation system. The local control units are respectively associated with each of the home automation equipment of the home automation system. The home automation equipment thus corresponds to electric charges that can be controlled remotely. The controller also includes a terminal, the terminal having a data input device and a display device. The terminal is conventionally a touch pad for entering particular input data to operate the home automation equipment and to display a state of operation of these home automation equipment. Control devices of a home automation system are already known. These control devices comprise a terminal provided with a data input device and a display device, the display device having a graphic representation screen of the various equipment in the form of icons. The terminal is for example a touch screen which groups together the data input device and the display device. The control device is configured to control the operation of the home automation equipment, in particular by using scenarios or scenes, which are a set of commands provided to one or more equipment chosen to participate in the scenario, the commands being executed simultaneously. or successively. It is also known to give a user the possibility of programming his own scenarios, in particular by using a database of icons representing equipment and / or possible orders, such as "opening", "closing". These scenarios, associated with a schedule, are then implemented when the current time corresponds to the scheduled time of the scenario.
    [0004] The present invention aims to improve the control devices of the prior art and to propose a method of operating a control device of a home automation system equipping a building and the environment of this building, and a associated control method, for simplifying the creation and display of complex conditional control commands. In particular, the present invention optimizes the provision of multiple conditions and actions. To this end, the present invention is directed to a method of operating a control device of a home automation system of a building and of the building environment. The home automation installation comprises a plurality of home automation equipment and sensors placed in living areas inside and / or outside the building. The controller includes a data input device and a display device. The display device includes a graphical display screen. The controller is configured to control the operation of the home automation equipment and communicate with the sensors. The method comprises at least the following steps of configuring an automation: selecting an icon representing a first condition of implementation of an action relating to the installation from among a proposed set of condition icons, ^ 3022646 - 3- - positioning of the first selected condition in a matrix table accommodating the condition icons, - selecting an icon representing a second condition for implementing an action relating to the installation, 5 - positioning of the icon representing the second condition on the same line or column as the icon representing the first condition in the matrix table. It is an object of the present invention to provide multiconditional control commands with multiple conditions, including providing conditions separated by logical ANDs and conditions separated by logical ORs. The selection and positioning of the conditions is done in a very ergonomic manner for the user, who selects an icon representative of a condition from a set of icons and positions it in a matrix. The automation is thus defined by at least two conditions for implementing an action (which can be combined by an AND or a logical OR), as well as by the corresponding action. The selection of the corresponding action (or corresponding actions) is defined during a selection step. Apart from the clarity provided by the matrix formatting of the set of conditions, this configuration allows very simple programming logic for the user as well as for the retrieval of information by the controller. The first and second conditions may be separated by a logical OR and / or the first and second conditions may be separated by logical AND depending on whether the condition icons are respectively in line or in column. In the matrix table, the lines can represent the conditions separated by logical ORs, the columns the conditions separated by logical ANDs. The selection of the icon representing the second condition may be dependent on the first selected condition. The choice of a first condition may establish a restriction on the possible choice of a second condition to be applied to the same action or group of actions. A first particular example may be considered: if the first condition and the second condition are separated by a logical OR, then they must be of the same type. A second particular example can be envisaged: if the first condition and the second condition are separated by a logical AND, then they must be of different type, especially in the case where the condition relates to the same object (for example a condition of temperature 5 measured by the same sensor). Optionally, the icon set may be determined by the controller. In particular in the choice of a second condition, the set of icons proposed, which the user can select, is defined by the control device so that there can be no contradiction between the first and the second condition . Thus, the second set of icons may be the same or smaller than the first set of icons. In the case where the second icon set remains the same as the first icon set, it may be a case where the first condition has been defined as compatible with all other conditions. The method may include a step of refusing to position a second icon if it does not comply with the restriction rules. The selection and positioning steps can be repeated as many times as the number of conditions desired for the implementation of the action. The display screen may make it possible to select condition icons, which may be assigned to dedicated locations, so that the conditions are separated by logical ANDs or separated by logical ORs. The number of possible conditions, separated by a logical AND, may be less than or equal to 3. In a device where the user has the ability to select various conditions, it may be necessary to limit the possible alternative conditions so as to limit the possibilities of selecting contradictory conditions. The number of possible conditions separated by a logical OR can also be limited to 3 or even limited to 2. Most of the time, 2 conditions separated by a logical OR will be sufficient. Thus, on a condition relating to the temperature, it will be possible to select 2 or 3 temperature ranges which will be at the origin of the implementation of the same actions. Thus, the total number of possible conditions remains important while structuring these various possibilities. The matrix table thus preferably comprises 3 rows and 2 columns. A condition may be selected from defined condition types in respect of the following information: - time information, - weather or climate information, - position or status information of a facility equipment, 5 - status or status information of a sensor, - status information or information relating to a user. The method may include at least one step of setting the first condition and / or the second selected condition. The method may include at least one step of selecting and positioning an icon representing a first action relating to the installation from a first proposed set of actions. The step of selecting an action can be performed before the steps of selecting the conditions relating to this action. This participates in an intellectual approach aimed at defining the desired result (the action or actions to be implemented), then defining to what extent this result must be implemented. For example, one wishes to be awakened by a progressive opening of the shutter and a start of heating. These actions can be selected. Then, the user can select the conditions such as the time of waking, which days these actions must be performed and whether the operation must be linked to a particular outside temperature for example, to avoid opening the shutters very cold . Alternatively, the selection of the actions may be subsequent to the steps of selecting the conditions. This allows an inverse intellectual step, in which surrounding conditions are defined, the action selected a posteriori being a response to these surrounding conditions. For example, it may be desirable to implement thermal regulation in the building, in cases where the interior temperature is less than 3 ° in winter and if a person is present in the house. The temperature, seasonality and presence conditions can therefore be selected. Then, the user defines which answer to give to these conditions: to close shutters of the facades North, East and West and to increase the temperature setpoint of the heating of l ° C. Alternatively, the action selection and condition selection steps can be performed without defining an order. The step of selecting and positioning an action can be repeated as many times as the desired number of actions for the same set of conditions. In the same way as for the conditions, the number of possible actions can be limited to 3. This makes it possible to generate a display of the multi-condition command orders in a single format and to avoid resizing the display when the number of conditions and / or actions increase. This thus makes it possible to define hardware and software resources, in particular the size of the screen, adapted to the display of the maximum number of possibilities, which is unique whatever the selections of conditions and / or actions.
    [0005] The selection of a second action may be dependent on the first selected action. In order to limit the contradictions between different actions associated with the same set of conditions, it can be determined that the different actions selected can only be of different types. Alternatively, this constraint can only be applied to one type of action, for example selecting a scenario. Thus, one can keep the possibility of being able to control different independent equipment, without necessarily creating a group specific to a multi-conditional order. An action can be chosen from the following types of actions: 20 - change of state of a device, activation of a preprogrammed operating mode of the installation, - launch of a scenario, - sending an alert . The selection and positioning steps may include a step of dragging and dropping an icon from a set to a display area. The aim here is the simplicity of programming with respect in particular to drop-down menus. The same icon can be reused both in the possible options and in the display of the conditions selected when creating or programming an automation. This allows for graphical consistency as well as limitation of software resources. The selection step may involve opening a separate graphics window including setting information. The parameterization step is not necessarily performed at the end of each condition selection, it can take place at any time during the programming. The creation of a graphic window separated from the programming screen avoids the constraints related to step-by-step menus and allows flexibility of use. The method may comprise a step of displaying an automation icon and various condition type icons associated with the automation, the condition type icons representing the types of implementation conditions of the automation. separated by a logical AND. In a step of displaying a programmed automation during the configuration steps, the automation can be represented in its configured form.
    [0006] In this display step, it will thus not be necessary to represent all the conditions for implementing an action, but only the conditions separated by a logical AND, in other words, the possible types of conditions separated by logical ANDs, and not conditions separated by logical ORs (due to the type restriction on logical OR conditions as defined above.) The number of conditions displayed should therefore be less than or equal to the number of conditions. Also, the actions relating to the automation are not displayed, this arrangement simplifies the display, makes it possible to display on the same screen a plurality of complex automatisms and their associated conditions. dashboard of the 20 programmed automations Ideally, all programmed and active automatisms can be displayed on one and the same screen. the set of automatisms configured, this display step may comprise a step of highlighting icons representing the active conditions and / or a step of highlighting icons representing conditions whose status is defined as true. When the controller receives the information useful for determining whether the conditions are fulfilled, the display of the icons representing the conditions can be modified to show whether the corresponding condition or one of the conditions separated by a logical OR is fulfilled. This change may for example be a color change of the icon or a highlighting of the icon associated with a condition or a set of conditions separated by a logical OR. An absence of display changes may indicate otherwise that no condition is met. In the example where the conditions separated by a logical AND are of different type, there can be a risk of confusion between a condition of a first filled type and another condition of the same type not fulfilled. This simplifies the implementation of the display, since it is not necessary to add indications specifying, for example, the parameterization of the condition. This also simplifies the icons representative of the selected conditions. The method may include activation and deactivation steps of a configured automation.
    [0007] A configured automatism is preferentially active by default when it has just been created. However, a user can choose to activate or deactivate one or more programmed automations. For this purpose, it may have at the control interface, in particular on a display screen of the programmed automation list, an activation or deactivation selector for each automation. The method may include providing at least one preconfigured automatism. A user can activate or not this preconfigured automatism, or modify it to adapt it to his practices. Preferably, a didactic approach to understand and use this preconfigured automation can be implemented, in particular through a display screen showing the benefits in terms of heat, energy efficiency or building safety. A control device of a home automation system of a building and of the building environment comprises a data input device and a display device, the display device comprising for example a screen. The control device comprises hardware and / or software elements for implementing said previously defined operating method, in particular an icon selection element, a positioning element, the selected icon on an area of the representation screen. graph and a calculating element determining a list of icons or parameters to be displayed according to the selected icon or icons. The controller may include a terminal, said terminal including the data input device and the display device. The terminal may be a mobile terminal, in particular a touch pad 3022646 -9- or a telephone. The invention also relates to a data storage medium, readable by a computer, on which is recorded a computer program comprising elements of computer program codes for implementing the steps of the operating method defined above. The invention further relates to a computer program comprising a computer program code element adapted to perform the steps of the operating method defined above, when the program runs on a computer.
    [0008] The invention finally relates to a home automation system of a building and the building environment comprising a plurality of home automation equipment and sensors placed in living areas inside and outside the building, the home automation installation comprising a control device defined above, the installation comprising a communication device through which the control device can control the equipment and the sensors of the installation by implementing a programmed automation. Other features and advantages of the invention will become apparent in the description below. The appended drawing shows embodiments of a control device according to the invention and embodiments of an operating method according to the invention. Figure 1 is a diagram of an embodiment of a home automation system according to the invention. Fig. 2 is a flow chart of an embodiment of an operating method according to the invention. Figures 3 to 6 are views of a display of the controller display in different situations. We will first describe, with reference to Figure 1, a home automation system according to one embodiment of the invention.
    [0009] The home automation installation 1 comprises elements such as a control device 2, a plurality of home automation equipment 3, 3 'and sensors 4 placed in living areas inside and outside a home. Building 100. The home automation equipment 3, 3 'can be of different types, such as: 3022646 -10- - closing devices, occultation or sunscreen including motorized drive devices moving screens or movable elements between at least a first position and a second position; and / or 5 - lighting devices; and / or - heating devices; and / or - an anti-intrusion security device such as an alarm. This equipment can be controlled by using data collected by sensors 4, such as, for example, temperature and / or light and / or wind and / or humidity and / or movement and / or smoke sensors. . Home automation equipment can itself include sensors. These devices may alternatively or complementarily be controlled using data provided by a clock. In one embodiment, the motorized device for closing, concealment or sun protection devices comprises an electromechanical actuator of a screen or movable element for closing, occulting or sun protection such as a shutter, a door, a grill, a blind, or any other equivalent material. The home automation installation 1 also comprises the control device 2. The control device 2 may comprise one or more local control units 5, such as for example a remote control comprising several control keys 51, 52, 53, associated with the control unit 2. one or more of the home automation equipment 3, 3 'and communicating with it or the latter, in particular by means of a radio protocol. The control device also comprises a central control unit 6 communicating, in wired or wireless connection, with the local control units 5 and / or with the home automation equipment 3, 3 'and / or with the sensors 4 of the installation The control device may also include a remote control unit 8. The control unit communicates with the home automation equipment and / or the sensors of the installation via a remote network 10 via the Internet and the remote control unit. The connection box 7 is also connected to the remote network 10 via the Internet. Thus, the remote control unit 8 makes it possible in particular to enter input data so as to set up the operation of the home automation equipment 3, 3 'and to display a state of operation of these home automation equipment 3, 3'. Preferably, the remote control unit 8 is a mobile terminal, in particular a touch pad or a smart phone. The home automation equipment 3, 3 '5 thus correspond to electrical loads that can be controlled locally and remotely. For the communication of the various elements of the installation between them, they are provided with transmitters and / or receivers of command or information orders, preferably transmitted according to a protocol on a wireless network, including radio. The communication implemented between the elements of the installation can be of the one-way type, that is to say that an element which transmits information can not receive data, or of bidirectional type, it is that is, an item that transmits information can also receive information. Each of the sensors 4 measures a physical quantity and sends to a receiver of the control device 2, in particular either to a local control unit 5 or to the central control unit 6, or to a receiver of a home automation equipment 3, 3 ', data relating to the measured quantity. The data may be of the binary type for signaling an operating state, for example as a function of a predetermined threshold, or of digital type for indicating a measured value. The control device 2 is configured to control the operation of the home automation equipment 3, 3 'and to communicate with the sensors 4. The various elements of the installation comprise electronic control units, for example a printed circuit provided with a microcontroller and a memory, so as to be able to perform calculations and store data, in particular so as to govern their operation, as well as manage communications through transmitters and receivers. The central control unit 6 comprises a display device 61, in particular a display screen, an input device 62 and a calculation element or processing logic unit 66. The input device 62 comprises a selection element 63, a positioning element 64 and navigation and validation elements 65. The display device comprises display elements 66. In the same manner, the control unit remote 8 comprises a display device 81 and an input device 82, as well as a selection element 83, a positioning element 84, navigation and validation elements 85 and display elements 86.
    [0010] In one embodiment, the selection element, the positioning element and the display elements of the central or remote control unit are made by means of a touch screen 61. embodiment of the selection, positioning and display elements is in no way limiting and may be different, in particular realized by means of pushbuttons or sensitive keys for the selection element and the positioning element and an LCD (Liquid Crystal Display) or TFT (for the display element). The set of electronic control units of the home automation elements of the installation and the transmitters and receivers constitutes a communication device through which the control device can transmit information to the equipment and sensors of the installation, can receive information of equipment and sensors of the installation and implement a configured automation.
    [0011] Throughout this document, by "automatism" is meant a set of at least one action or command executable by home automation equipment and at least one condition for performing this action or command. This set is generated by a selection of icons representative of the action, control or condition. The activation of the automation causes the implementation of the action or the command under condition. FIG. 2 illustrates the steps of a mode of execution of a method of configuring an automatism, in particular of a new automatism. This new automatism is generated during a step E1. However, the following steps are at least partially similar in the case of modifying an existing automation.
    [0012] These configuration steps comprise a selection step El 0 of a first condition icon, that is to say a first icon representing or associated with a first condition for implementing or executing a relative action. at installation from a proposed COND set of condition icons. A condition icon is defined in particular by a condition type and by one or more values, for example a range of values. It is represented by a graphic icon and possibly an associated alphanumeric text.
    [0013] The conditions can be chosen from among types of conditions, for example defined with regard to the following information: time or time information, meteorological or climatic information, position or status information of a piece of equipment of the installation, - information of a state or status of a sensor, - information of a state relating to a user or information relating to a user. The selection can be made in particular by: positioning a cursor on the icon and possibly a subsequent validation step; or - pressure or contact exerted by a user on an area of the screen where the icon is displayed. Any other selection procedure may be used. To make this selection, the user uses the selection element 63. Once the condition icon has been selected, it is positioned or moved during a positioning step E15 in a TMAT matrix table intended to accommodate the condition icons. This matrix table comprises in particular C1-C6 zones arranged in rows and columns and on which can be positioned the first selected icon. Lines and columns can be arranged orthogonally. Alternatively, they may form an angle other than 90 °. In practice, the icon will be positioned in the upper left area of the matrix table, manually or automatically. Alternatively, no constraint is provided on the positioning of this first icon in the matrix table. The positioning can be achieved in particular by: moving a point of contact between the user and the screen of an area of the screen where the icon is displayed at a zone C1-C6. The icon then remains positioned in the zone C1-C6 where the contact has been broken between the user and the screen, in particular between the user and the positioning element 64. Optionally, a subsequent validation step is required. . To perform this positioning, the user uses the positioning element 64. These selection and positioning steps can be followed immediately or later by a step El 1 of setting the first selected condition. In this step, the user will for example define a numerical value or logic relative to the information associated with the condition, this value to determine when the condition is realized and when it is not. A new step E20 selection of a second condition icon, 10 representing a second condition of implementation of an action relating to the installation is then implemented. Once the second condition icon is selected, it is positioned during a second positioning step E25 in the TMAT matrix table hosting the condition icons. This second icon can then be positioned on the same line or column as the icon representing the first condition in the matrix table. As for the first icon, a step E21 of setting the second selected condition can take place. In the case where the icons are positioned on the same row of the matrix table, the two conditions corresponding to the icons of the table are considered to be connected by a logical "OR". In the case where the icons are positioned on the same column of the matrix table, the two conditions corresponding to the icons of the table are considered separated by a logical "AND". An inverse logic can however be considered. The logic of reading the conditions is previously defined. It is for example fixed to remain and / or during the manufacture of the central control unit 6. Thus, the order of reading of the icons, but also the priorities of the logical links to each other can be fixed beforehand, especially during manufacture and / or permanent. For example, assuming icons associated with conditions C1 to c6 respectively arranged on the areas C1 to C6 reads according to the logical formula: (C1 OR C4) AND (C2 OR C5) AND (C3 OR C6) The matrix table preferably comprises 3 rows and 2 columns. Restrictions may be applied on the selection or positioning of the icon representing the second condition, in particular depending on the first selected condition. In particular, a type restriction can be applied: the conditions separated by logical ORs are preferentially restricted to being conditions of the same type. For example, if a first temperature condition is selected, then a second temperature condition can be selected and positioned in the matrix table on the same line (the two conditions then being separated by a logical OR). On the other hand, a second brightness condition can not be positioned on this same line. The conditions separated by logical ANDs are preferentially restricted to being conditions of different type. For example, if a first temperature condition is selected, then a second time condition can be selected and positioned in the matrix table on the same column (the two conditions being separated by a logical AND). On the other hand, a second temperature condition can not be positioned on this same column, more on another line. The E20 selection and E25 positioning steps are repeated as many times as the number of conditions desired for the implementation of the action. A restriction of the number of conditions can be given by the dimensions (number of rows and columns) of the matrix table. The set of selected conditions forms a composite condition. The method also includes at least one step of selecting and positioning E40 an icon representing a first action relating to the installation from a first proposed ACT set of actions. This action is associated with the composite condition contained and defined in the TMAT matrix table from at least two elementary conditions represented by icons. An action can be chosen from the following types of actions: - change of state of a device, activation of a preprogrammed operating mode of the installation, 30 - launch of a scenario, - sending an alert . This step E40 can be performed before or after the selection step El 0, E20 and positioning El 5, E25 conditions. The selected action icon is positioned in a TACT action table, comprising zones A1, A2, A3 arranged in columns and on which the selected action icon can be positioned. These selection and positioning steps are repeated as many times as the number of actions desired for the implementation of the automation. A restriction of the number of actions may be required by the 5 dimensions (number of columns) of the action table. The techniques for selecting and positioning action icons can be the same as those used for selecting and positioning condition icons. Restrictions may also be applied on the selection or positioning of icons representing actions, in particular based on a first selection of an action icon. It can be determined that the different actions selected can only be of different types. We can alternatively put this constraint only for one type of action, for example, the launching of a scenario. Thus, one can keep the possibility of being able to control different independent equipment, without necessarily creating a specific group for the same set of conditions. When all the conditions and desired actions are positioned in the TMAT matrix table and in the TACT action table, and the conditions are set according to the wishes of the user of the building 100, a step E50 of recording the configuration of the automation takes place.
    [0014] During this method of execution, the selection and positioning steps may therefore comprise a step of dragging and dropping an icon of a conditional set COND or an action set ACT to a set display area of the matrix table or the action table. Figure 3 shows a view of the display screen when configuring a new automation. Two action icons from the ACT set of action icons have been selected and positioned in areas A1 and A2 of the action table for action icons. A time condition icon has been selected and positioned in the Cl area of the matrix table. The other areas are empty.
    [0015] A selection element may be a pointer or cursor or a finger sensing element of a user in the case of a touch screen. An icon is then copied from a COND and ACT set of conditions or actions to an area of the condition matrix table or action table. Navigation and validation elements 65 are also shown. These are used in particular for recording the configured automation, erasing it or erasing an unwanted positioning. Figure 4 shows another view of the display screen when configuring a new automation. Two action icons from the ACT set of action icons have been selected and positioned in the areas A1 and A2 of the action table. A first time condition icon has been selected and positioned in the area Cl of the matrix table. A second temperature condition icon has been selected and positioned in area C2 of the matrix table. A third sun condition icon 10 has been selected and positioned in the area C3 of the matrix table. These three icons are of different types and are separated by logical ANDs. They therefore respect a possible type restriction on the icons separated by logical ANDs. In practice, these conditions can not be of the same type. If the last icon selected was of the same type as one of the first or second condition icons of the matrix table, then its positioning in the zone A3 could be denied. Similarly, if a new condition icon was selected and positioned on the same line as another condition and these two icons are of different type, then the positioning of the new icon on line 20 could be denied. During these refusals, an error message could be sent to the user, explaining the restriction on the different conditions. During the execution of the automation, the different actions can be executed simultaneously or successively.
    [0016] Figure 5 shows a parameterization screen, in the form of a separate graphical window including parameterization information. This graphic window displays a first level of selectable parameterization PRM1, which can correspond in particular to a choice of information, in particular of physical measurement, associated with the sensor. In the example, the first parameter level 30 corresponds to a temperature level for a solar collector. The second parameter level corresponds to a temperature value or a range of temperature values. This second parameter level includes several PRM11-PRM15 options that can be selected by the person performing the configuration of the automation. For each PRM11-PRM15 option, the value or 3022646 -18- the values of the limits of the ranges can be changed by simply sliding a cursor on a line, or by a value entry. The graphic window also displays navigation and validation elements 65, making it possible to save the parameterization or to cancel the 5 parameter changes. FIG. 6 illustrates a step of displaying the various automations configured and saved. Each automation is characterized by an AUT icon and a text naming the automation. Different condition icons associated with the automation are displayed near the automation icon.
    [0017] Among the condition icons, only the icons representing the types of conditions of implementation of an action separated by a logical AND are represented. The action icons are also not represented. This display step therefore consists in offering a dashboard of the various active automations, and allows in particular to see if one or the other or all the conditions are fulfilled. For this, the display of each condition icon relating to an automation can be modified to show whether the condition C1, C2, C3 corresponding (or one of the conditions separated by a logical OR) is met. This change may be a highlight of the icon, e.g. a color change of the icon associated with a condition or set of conditions separated by a logical OR. An absence of display changes otherwise means that the condition is not met. During this display step, navigation and validation elements 65 are configured to activate or deactivate one or more scheduled automations. According to one embodiment, at least one preconfigured automatism is proposed by default. A user can activate or not this preconfigured automatism, or modify it to adapt it to his practices. In the foregoing description, the terms "first icon" and "second icon" have a chronological sense, the second icon being selected after, in time, the selection of the first icon. In order to allow the implementation of the invention, the control device according to the invention comprises all the hardware and / or software elements implementing steps or all the steps of the operating method according to the invention. . In particular, the device comprises: an element for selecting an icon representing a first condition for implementing an action relating to the installation from among a proposed set of condition icons; first condition selected in a matrix table accommodating the condition icons, - An element for selecting an icon representing a second condition for implementing an action relating to the installation, - A positioning element of the icon representing the second condition on the same line or column as the icon representing the first condition in the matrix table. The same element can make it possible to implement several steps.
    权利要求:
    Claims (15)
    [0001]
    CLAIMS: 1- Operating method of a control device (2) of a home automation system (1) of a building and the building environment, the home automation system (1) comprising a plurality of home automation equipment (3, 3 ') and sensors (4) placed in living areas inside and / or outside the building, the control device (2) comprising a data input device (62) and a display device (61), the display device (61) comprising a graphic display screen (66), the control device (2) being configured to control the operation of the home automation equipment (3, 3 ') and communicate with the sensors (4), characterized in that said method comprises at least the following automation configuration steps: - selection (E10) of an icon representing a first condition of implementation of a installation action among a proposed set of icons of conditions, - positioning (E15) of the first selected condition in a matrix table (TMAT) hosting the condition icons, - selection (E20) of an icon representing a second condition for implementing an action relating to the installing, - positioning (E25) the icon representing the second condition on the same line or column as the icon representing the first condition in the matrix table.
    [0002]
    2- Operating method according to claim 1, characterized in that the first and second conditions are separated by a logical OR and / or the first and second conditions are separated by a logical AND according to whether the condition icons are respectively set online or in a column.
    [0003]
    3- Operating method according to one of the preceding claims, characterized in that the selection of the icon representing the second condition is dependent on the first selected condition. 3022646 -21-
    [0004]
    4- 5
    [0005]
    5- 10
    [0006]
    6- 15
    [0007]
    7- 20
    [0008]
    8-25
    [0009]
    9-30
    [0010]
    10- Operating method according to one of the preceding claims, characterized in that said selection steps (E10, E20) and positioning (E15, E25) are repeated as many times as the number of conditions desired for the implementation of the action. Operating method according to the preceding claim, characterized in that the number of possible conditions, separated by a logical AND, is less than or equal to 3. Operating method according to one of the preceding claims, characterized in that a condition is selected from defined condition types with respect to the following information: - time information, - weather or climate information, - position or status information of a facility equipment, - status or status information a sensor, - status information or information relating to a user. Operating method according to one of the preceding claims, characterized in that it comprises at least one step of setting the first condition and / or the second selected condition. Operating method according to one of the preceding claims, characterized in that it comprises at least one step of selecting and positioning (E40) an icon representing a first action relating to the installation from a first proposed set of actions. Operating method according to the preceding claim, characterized in that said step of selecting and positioning (E40) an action is repeated as many times as the number of desired action for the same set of conditions. Operating method according to one of claims 7 to 9, characterized in that the selection of a second action is dependent on the first selected action.
    [0011]
    11- Operating method according to one of claims 8 to 10, characterized in that an action is selected from the following types of actions: - change of state of a device, activation of a pre-programmed operating mode installation, - launching a scenario, - sending an alert. Operating method according to one of the preceding claims, characterized in that said selection and positioning steps comprise a step of dragging and dropping an icon of a set to a display area. Operating method according to one of the preceding claims, characterized in that the selection step involves the opening of a separate graphic window comprising parameterization information. Operating method according to one of the preceding claims, characterized in that it comprises a step of displaying an automation icon and various condition type icons associated with the automation, the condition type icons representing the types of implementation conditions of the automation separated by a logical AND. Operating method according to one of the preceding claims, characterized in that it comprises a step of displaying all the configured automations, this display step comprising a step of highlighting icons representing the conditions active and / or a step of highlighting icons representing conditions whose status is defined as true. 16- Operating method according to one of the preceding claims, characterized in that it comprises activation and deactivation steps 5 10
    [0012]
    12-15
    [0013]
    13- 20
    [0014]
    14-25
    [0015]
    15- 3022 646 -23- of a configured automation. 17- Operating method according to one of the preceding claims, characterized in that it comprises the provision of at least one preconfigured automation 5. 18- Control device (2) for a home automation system (1) of a building and the building environment, said control device (2) comprising a data input device (62) and a device ( 61), the display device (61) comprising, for example, a screen (66), characterized in that said control device (2) comprises elements (6, 61, 62, 63, 64, 65 , 66, 67) hardware and / or software for implementing said method of operation according to any one of the preceding claims, in particular an icon selection element (63), a positioning element (64), an icon selected on an area of the graphical representation screen and a calculation element (67) determining a list of icons or parameters to be displayed according to the selected icon or icons. 19- Control device (2) for a home automation system (1) of a building and the building environment according to the preceding claim, characterized in that said control device (2) comprises a terminal (6) said terminal (6) comprising the data input device (62) and the display device (61). 20- A control device (2) for a home automation system (1) of a building and the building environment according to the preceding claim, characterized in that said terminal (6) is a mobile terminal, in particular a mobile terminal. touch pad or phone. Computer-readable data storage medium (26) on which is recorded a computer program comprising computer program code elements for implementing the steps of the method of operation according to one of claims 1. Computer program comprising a computer program code element adapted to perform the steps of the method of operation according to one of claims 1 to 17, when the program runs on a computer. 23- Home automation system (1) of a building (100) and the building environment comprising a plurality of home automation equipment (3, 3 ') and sensors (4) placed in living areas inside and outside the building, the home automation system comprising a control device (2) according to one of claims 18 to 20, the installation comprising a communication device through which the control device can control the equipment and the sensors of the installation by implementing a programmed automation. 15
    类似技术:
    公开号 | 公开日 | 专利标题
    EP2983049B1|2019-12-18|Method for operating a device for controlling a home automation installation of a building and control device
    EP2631723B1|2015-07-22|Methods for controlling and parameterising a home-automation installation and home-automation system using said methods
    EP2362368B1|2015-01-28|Allocating scenarios to control buttons
    US9081393B2|2015-07-14|Thermostat with electronic image display
    EP2534542B1|2021-04-28|Method for operating a control device for a home automation apparatus
    EP1847975B1|2009-10-07|Method of testing and installing a home automation remote control
    EP3134778B1|2019-11-06|Device and a system for control and/or command
    EP2776895B1|2021-03-03|Method of constructing a reference data structure and method of controlling an actuator
    EP3318035B1|2021-11-03|Method for controlling a home-automation facility
    EP3274977B1|2018-12-19|Method and system for controlling home-automation devices of a dwelling
    EP3262470B1|2021-04-21|Method for configuring and method for commanding and/or controlling a home automation equipment interface
    EP3151070A1|2017-04-05|Device and method for modifying the programming of a home-automation system
    EP3073335B1|2021-08-18|Method for controlling a home-automation facility of a building and associated control device
    EP2958093B1|2019-01-16|Method for operating a control device for modifying a graphical representation displayed based on a selected parameter
    FR2812110A1|2002-01-25|Building locking system has central remote control automatically assigns functions for all shutters
    FR3033054A1|2016-08-26|METHODS FOR CONFIGURING AND CONTROLLING OPERATION OF A DEVICE FOR CONTROLLING A DOMOTIC INSTALLATION, CONTROL DEVICE AND INSTALLATION THEREFOR
    EP1771974A1|2007-04-11|Method and system for controlling technical elements operating at home and/or at work
    WO2016193636A1|2016-12-08|Methods for generating a conditional software code module, and method for controlling at least one home automation system for a building
    EP3062177B1|2018-12-26|Method for configuring and controlling a device for controlling a home-automation system of a building
    EP2838074B1|2019-10-02|Home-automation remote control, element for receiving home-automation commands and operating method of such a remote control and such a command receiver
    WO2015132150A1|2015-09-11|Method for configuring a device for controlling a home-automation installation of a building and the environment of the building and associated control device
    同族专利:
    公开号 | 公开日
    CN105204454A|2015-12-30|
    EP2983049A2|2016-02-10|
    BR102015014889A2|2017-01-24|
    US20150370230A1|2015-12-24|
    US10234836B2|2019-03-19|
    FR3022646B1|2017-11-10|
    EP2983049B1|2019-12-18|
    EP2983049A3|2016-03-23|
    CN105204454B|2019-09-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP2631723A2|2012-02-27|2013-08-28|Somfy SAS|Methods for controlling and parameterising a home-automation installation and home-automation system using said methods|
    US6061602A|1998-06-23|2000-05-09|Creative Lifestyles, Inc.|Method and apparatus for developing application software for home automation system|
    US6912429B1|2000-10-19|2005-06-28|Destiny Networks, Inc.|Home automation system and method|
    US7383513B2|2002-09-25|2008-06-03|Oracle International Corporation|Graphical condition builder for facilitating database queries|
    US20060052884A1|2004-09-08|2006-03-09|Staples Mathew L|User interface builder application for building automation|
    CN1767475A|2004-10-27|2006-05-03|乐金电子电器有限公司|Household network system and its movement precontract setting method and associated electrical appliance equipment|
    US8350697B2|2009-05-18|2013-01-08|Alarm.Com Incorporated|Remote device control and energy monitoring by analyzing data and applying rules|
    JP2011046154A|2009-08-28|2011-03-10|Fuji Xerox Co Ltd|Image processing apparatus, printing system, and program|
    FR2956224B1|2010-02-09|2012-11-02|Somfy Sas|METHOD FOR OPERATING A DEVICE FOR CONTROLLING DOMOTIC EQUIPMENT|
    BE1019781A3|2011-01-28|2012-12-04|Niko Nv|METHOD AND DEVICE FOR SIMPLIFYING ELECTRICAL INSTALLATIONS.|
    US9600241B2|2012-02-15|2017-03-21|The Mathworks, Inc.|Unified state transition table describing a state machine model|
    CN103197633B|2013-03-14|2015-06-10|北京国电通网络技术有限公司|Method and platform and system for remote control of electrical equipment|WO2016099148A1|2014-12-16|2016-06-23|Samsung Electronics Co., Ltd.|Method and apparatus for controlling device using a service rule|
    AT518814B1|2016-02-18|2018-04-15|H U J Steiner Ges M B H|Fence system and assembly process for a fence system|
    DK179593B1|2016-06-12|2019-02-25|Apple Inc.|User interface for managing controllable external devices|
    CN106528172A|2016-11-24|2017-03-22|广州途道信息科技有限公司|Method for realizing image programming|
    CN113485133A|2017-04-13|2021-10-08|江森自控科技公司|Building management system with spatial profiles|
    US10599115B2|2017-04-13|2020-03-24|Johnson Controls Technology Company|Unified building management system with space use case profiles|
    US10742441B2|2017-04-13|2020-08-11|Johnson Controls Technology Company|Unified building management system|
    US11025563B2|2017-04-13|2021-06-01|Johnson Controls Technology Company|Space-aware network switch|
    CN112468783A|2018-05-07|2021-03-09|苹果公司|User interface for viewing live video feeds and recording videos|
    US10904029B2|2019-05-31|2021-01-26|Apple Inc.|User interfaces for managing controllable external devices|
    US10917740B1|2019-07-30|2021-02-09|Johnson Controls Technology Company|Laboratory utilization monitoring and analytics|
    US11079913B1|2020-05-11|2021-08-03|Apple Inc.|User interface for status indicators|
    US20210407690A1|2020-06-25|2021-12-30|Johnson Controls Technology Company|Systems and methods for a trusted consumer service|
    CN111897462A|2020-07-17|2020-11-06|深圳市致趣科技有限公司|Intelligent display control method and device in intelligent household APP|
    法律状态:
    2015-06-09| PLFP| Fee payment|Year of fee payment: 2 |
    2015-12-25| PLSC| Search report ready|Effective date: 20151225 |
    2016-06-07| PLFP| Fee payment|Year of fee payment: 3 |
    2017-06-16| PLFP| Fee payment|Year of fee payment: 4 |
    2018-06-21| PLFP| Fee payment|Year of fee payment: 5 |
    2019-06-17| PLFP| Fee payment|Year of fee payment: 6 |
    2020-06-26| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1455713A|FR3022646B1|2014-06-20|2014-06-20|METHOD FOR OPERATING A DEVICE FOR CONTROLLING A DOMOTIC INSTALLATION OF A BUILDING AND CONTROL DEVICE|FR1455713A| FR3022646B1|2014-06-20|2014-06-20|METHOD FOR OPERATING A DEVICE FOR CONTROLLING A DOMOTIC INSTALLATION OF A BUILDING AND CONTROL DEVICE|
    EP15172735.1A| EP2983049B1|2014-06-20|2015-06-18|Method for operating a device for controlling a home automation installation of a building and control device|
    BR102015014889A| BR102015014889A2|2014-06-20|2015-06-19|Method for operating a control device of a home automation installation of a building, control device thereof, data storage medium and home automation installation of a building and the building environment|
    CN201510345345.5A| CN105204454B|2014-06-20|2015-06-19|Operate the method and control equipment of the control equipment of building home automation installation|
    US14/744,810| US10234836B2|2014-06-20|2015-06-19|Method for operating a control device of a home automation installation of a building and control device|
    [返回顶部]