• 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:
    There is provided a mobile communication terminal, comprising a display unit and an input unit, preferably a combined input-and-display unit, a near-field communication interface, and a control unit, wherein the control unit is adapted to read at least one parameter of a building services system via the near field communication interface and to provide for a software application executed by the mobile communication terminal, wherein the software application is adapted to display a user interface on the display unit and to evaluate user input at the user interface via the input unit, and control data based on the user input to the user interface on the display unit Building services system to send.
    公开号:AT16277U1
    申请号:TGM172/2016U
    申请日:2016-07-07
    公开日:2019-04-15
    发明作者:
    申请人:Tridonic Gmbh & Co Kg;
    IPC主号:
    专利说明:

    description
    MOBILE COMMUNICATION DEVICE COMPRISING A USER INTERFACE DEVICE DEPENDING ON A PARAMETER DETECTED ON AN INTERFACE
    The invention provides a mobile communication terminal, a building services system and a system of a mobile communication terminal and a building services system.
    The starting point of the invention is that for the control of building systems and lighting systems preferably indoors (indoor area) often remote controls are used, depending on the building services system or from a particular area in a building, such as a room, different Provide functions or can be specifically designed.
    This means that a user must first recognize and ensure that the correct remote control or operating unit for the building services system and / or the area in the building is available. Afterwards, the user must become familiar with the operation of the control unit.
    That on the one hand different operating units are provided for different building systems and on the other hand to use different operating units within a building services system is already problematic because a user depending on the building services system used and / or of the area within the building each to a new Adjust or learn to operate. On the one hand, this requires a training time on the part of the user, on the other hand, this can lead to incorrect operation by the user.
    The invention therefore has for its object to solve this problem in that a uniform user interface is represented by a communication terminal, each of which provides predefined functions, these functions, for example, by a software application for the particular building technology used or the appropriate area in a building is implemented appropriately.
    For this purpose, the mobile communication terminal detects a parameter of one of its interfaces. On the basis of this recorded at least one parameter can then be defined on the one hand, the implementation of the provided operating functions. On the other hand, it is also possible, for example, depending on the parameter, to define the functions or operating functions to be provided, or else to display and display them as a function of the at least one detected parameter.
    The invention therefore provides a mobile communication terminal, a building services system, as well as a system of a mobile communication terminal and a building services system, as claimed in the independent claims. Further developments of the inventions are the subject of the dependent claims.
    In a first aspect, a mobile communication terminal is provided, comprising a display unit and an input unit, preferably a combined input-and-display unit, a near-field communication interface, and a control unit, the control unit being adapted via the near-field communication interface read out at least one parameter of a building services system and provide for a executed by the mobile communication terminal software application, the software application is designed to represent a user interface on the display unit depending on the at least one parameter and to evaluate a user input to the user interface via the input unit and on Send control data based on the user input to the building services engineering system.
    The software application can provide functions for controlling the building services system, which in particular have different complexities. The software technical application can represent the functions in particular grouped by means of the user interface, preferably grouped according to their complexity, and preferably at several logical levels.
    The software application can provide additional information about the functions. The software application can display the additional information by means of the user interface, in particular in association with the functions for controlling the building services engineering system and / or to a user input.
    The functions may create, modify and / or delete a scene configuration.
    The software application can evaluate user input via the input unit and provide the functions or a part of the functions after evaluation of a particular predefined user input. The predefined user input is preferably for authorization.
    The software application can send the control data via at least one other communication interface of the mobile communication terminal, in particular a wireless communication interface, to the building services system.
    The mobile communication terminal may include a storage unit that can store user interface configurations. The controller and / or the software application, in association with the at least one parameter, may retrieve at least one user interface configuration of the user interface configurations and represent the user interface according to the at least one retrieved user interface configuration.
    The storage unit may store definitions for permitted user input. The control unit and / or the software application may, in association with the at least one parameter, retrieve at least one defined allowed user input and send only control data based on the at least one defined allowed user input.
    The control unit can automatically start the software application when it reads the at least one parameter via the near field communication interface.
    The software-technical application can select the at least one further communication interface of the mobile communication terminal based on the at least one parameter, and send the control data via the selected at least one communication interface.
    The software application can determine based on the at least one parameter an address and / or an addressing for controlling the building services system.
    The at least one parameter may define allowed user inputs. The software application can only represent the functions for the permissible user inputs and accept entries via the input unit.
    Based on the at least one parameter, the software application can represent a remote control type as a user interface, which corresponds to a remote control type provided for the building services engineering system, which can be identified in particular by the at least one parameter in the memory unit.
    The software application can output based on the at least one parameter sensor information by means of the user interface.
    The control data can be configuration data, in particular for the configuration of actuators, sensors and / or bus subscribers of the building services system.
    The building services system can be a lighting and / or lighting system. The
    Near field communication interface may be an RFID and / or NFC interface. The at least one further communication interface may be a Bluetooth, WLAN, and / or Zigbee interface.
    In a further aspect, a building services system is provided, comprising at least one near field communication interface, wherein the building technology system is adapted to output in particular at least one parameter of the building services system via the at least one near field communication interface, preferably variable, a control unit, and at least a further communication interface, wherein the control unit is adapted to control and / or to configure the building services engineering system or parts thereof, in particular building technology system components, based on control data received via the at least one further communication interface.
    The at least one parameter can identify the building services engineering system and / or the at least one further communication interface of the building services system.
    The building services engineering system may comprise sensors, actuators and / or bus users as building services system components, and the control unit may control and / or configure the building services system components based on the control data.
    In yet another aspect, a system is provided of a mobile communication terminal and a building management system as described herein. The invention will now be described with reference to the figures. 1 shows schematically a communication terminal, a building services system and a system according to the invention.
    The building engineering system provides, for example in an entrance area of a room and preferably on a switch arrangement, e.g. a light switch, a communication interface ready. The communication interface is preferably a radio interface, in particular a Zigbee, Bluetooth and / or near field communication interface (NFC, RFID). The communication interface is provided such that a user can thus communicate with a communication terminal, in particular a smartphone, tablet, and / or notebook.
    Thus, when providing a near field communication interface, for example, a smartphone, which is also equipped with a matching near field communication interface, capture a parameter by communicating with the near field communication interface of the building engineering system, if the smartphone close enough to the near field communication interface of the building engineering system, that is brought into a near field communication area. The near-field communication interface of the building engineering system may in particular be an RFID interface. In particular, an RFID transponder can be provided which outputs a predetermined parameter when a mobile communication terminal enters the near field communication area for the transponder and the mobile communication terminal performs a corresponding query by means of the near field communication interface of the mobile communication terminal.
    On the mobile communication terminal, a software-technical application is installed, which evaluates the detected parameters from the communication with the communication interface of the building services system.
    It is therefore preferably read via a near field communication information regarding at least one parameter of the building services system or a specific area in a building and the software technical application provided.
    This has the advantage of providing the user with a uniformly configured communication terminal, i. For example, the smartphone with the software application, regardless of the specific installation of the building services system and the type of building services system can always perform in the same manner a desired control means of the mobile communication terminal. The software application on the communication terminal can provide different complex operating levels, which can be configured depending on the detected at least one parameter, so that, for example, functions are displayed on different visual levels depending on their complexity. For example, on a first level only simple functions such as switching on and / or off, dimming, and / or other basic settings of components of the building engineering system (such as lights, sensors, actuators (such as motors), switchable sockets, ... ), while more "lower" levels can then be used to enter more complex functions or operating functions such as programming and instructions to the building services engineering system, such as configuring sensors or other components of the building services engineering system and / or building services equipment, preferably bus subscribers of a lighting bus system.
    About the software application, a query of parameters of the components of the building services system is possible. For example, sensors or bus subscribers can be evaluated as to when they have detected a specific event, when a specific function has been performed, and / or which operating parameters have been set, set and / or recorded over a specific period of time. For example, it is possible to evaluate the number of detected detections of a movement or presence detector.
    However, the actual communication between the mobile communication terminal and the building services system is preferably not by means of the near field communication, since it is preferably only for reading the available parameters for operating the building services system, in particular a light installation is used. The communication is rather out-of-band, preferably wirelessly, via other communication techniques, such as Bluetooth, WLAN or Zigbee. It should be understood that, for example, communication parameters that are necessary for out-of-band communication can likewise be transmitted by means of the near-field communication between the mobile communication terminal and the building services system. Further, when the mobile communication terminal enters near field communication with the building services system, the software application may be started, in particular automatically.
    Also, by the parameter detection via the near field communication interface, the manner of driving can be transmitted, i. E. Information about which type of further communication channel is to be selected, which addressing is necessary, as well as, for example, information about which components of the building engineering system are to be controlled via the further channel, is then transmitted to the mobile communication terminal in order to control the building technology system accordingly to reach. For this example, address information and control parameters can be transmitted. It is also to be understood that in the software technical application or functionally connected thereto, a memory of the mobile communication terminal can store parameters which are then retrieved in association with parameters acquired via the near field communication interface and interpreted and evaluated by the software application. The software application can then also display the user interface shown on the basis of these parameters.
    About a user interface, which is represented by the software application on the mobile communication terminal and the associated display unit, then, for example, a scene control for lighting and lighting installations can be retrieved and graphically visualized, simulated and explained. In particular, an explanation of all functions that are represented by the user interface can be made. Thus, unlike the usual remote controls, the user can find out about the exact functioning of the various functions and a "trial and error" approach is no longer necessary.
    The software-technical application can make certain functions available only after entering an authorization information, in particular a password. After entering the authorization information, one or more functions are then displayed or made accessible by the user interface. Thus, depending on the authorization information, certain functionalities of the software application can be made accessible to the user. In particular, these may be special configuration and calibration functions that are to be performed only by particular users or by the personnel of the manufacturer of the building services engineering system.
    If, for example, a communication interface for near-field communication is provided close to a switch of the building engineering system, a parameterization of the software application can be spatially resolved. This has the advantage that - in comparison to, for example, a location determination via WLAN or other radio technologies - it is ensured that the parameterization is carried out only for a specific area of a building. In particular, a WLAN signal can penetrate several areas of a building. Thus, a specific, for example, space-based location-based parameterization is not possible.
    Furthermore, a spatially resolved parameterization can also take place in a finely granular manner. For example, interfaces for a near-field communication can be provided at workplaces or in specific areas of a room, which provide specific parameters, each of which only indicates a control of certain components of the building services system. Thus, for example, the lighting control at workplaces can be controlled depending on parameters which are output via the respective communication interfaces of the building services engineering system. This can in particular take place in that the parameter which is transmitted via the near-field communication interface has an identifier, such as an address, which identifies one or more specific components of the building services engineering system and only permits control of these components.
    A particular aim is to achieve a control of lighting units and lighting components of a building services system. In particular, therefore, the parameter has at least one identifier for individual or groups of luminaires, lighting units and / or bus users of a building engineering system. The at least one detected parameter is thus preferably a parameter of a lighting, lighting and / or bus system.
    In Fig. 1, first, a mobile communication terminal 1, which has a display unit 2 and an input unit 3. The mobile communication terminal 1 is preferably a smartphone or a tablet.
    The display unit 2 is preferably a display, for example an LCD, IPS, ePaper display. The input unit 3 may be, for example, a touchpad, a keyboard, a stylus, a mouse and / or a trackpad. However, it should be understood that the display unit 2 and the input unit 3 can also be combined to form an input and display unit, for example in the form of a touch-sensitive display (touch screen).
    Next, the mobile communication terminal 1 on a control unit SE, the u.a. serves to perform the near field communication with a communication interface 4 of a building services system GT. For this purpose, the control unit SE communicates via a near-field communication interface 5 of the mobile communication terminal 1 with the communication interface 4 of the building engineering system GT. In particular, the control unit SE reads at least one parameter P of the building services engineering system. This parameter P, which is received via the preferably wireless near-field communication interface 5 of the mobile communication terminal 1, is then added to a software-technical application 6, which is executed by the mobile communication terminal 1 or the control unit SE.
    The software application 6 can access a data memory 8, which is provided either in the mobile communication device 1 or functionally connected thereto. For example, this data store can be implemented on a remote computer system or as cloud storage. The software-technical application 6 is further configured to display a user interface 9 on the display unit 2 based on and dependent on the at least one detected parameter P and to evaluate a user input to and / or for the user interface 9 via the input unit 3.
    Based on the input, the control unit SE then transmits control data to the building services system GT. It should be understood that the control unit SE can also consist of several processing units or processors. For example, various types of processors and control circuits (microprocessors, ICs, ASICS) can be provided which can also process and exchange data in parallel. In addition, each control unit does not have to process and / or execute the input and output and detection operations of the mobile communication terminal. Only individual parts of the control unit SE can be provided to perform different tasks.
    The software application 6 provides functions 91, 92 for controlling the building services system GT.
    In this case, the complexity of the functions presented and provided can be represented in particular such that they are arranged or grouped according to their complexity or according to a predetermined weighting. Thus, functions may e.g. be arranged on several logical levels of the user interface. For example, a user may move from one logical level to another logical level through an input gesture. The logical levels can be linked to each other or be provided individually retrievable. In addition, as already stated, provision may be made for certain functions 92 to be released only after authorization, for example after input of an identifier, an identifier, a password, a cryptographic key, etc. In particular, provision may be made for the specific functions 92 to be released only after being released by an external source. For example, it may be provided that certain functions 92 are not enabled until the software application performs authorization with a remote system. This can be, for example, the confirmation of a payment operation.
    The software application 6 is preferably further configured to display additional information about the functions. For this purpose, the software-technical application 6 can access the data memory 8 and thus retrieve information in association with the functions 91, 92 and display these on the user interface 9. In particular, it is provided that help functions 93 such as explanatory and / or help texts, animations or other media content are displayed and retrieved, which illustrate the functioning of the functions and their effect. To this end, the software application 6 may also read only polling addresses (e.g., Web addresses) from memory and then retrieve the contents identified by the polling addresses from an external system. The media contents or help texts and other contents can then be displayed on a user input on the display unit 2.
    In particular, the software-technical application 6 via the user interface 9 is input and controls that enable scene control, planning, modification and / or setting. In particular, the software-technical application 6 can evaluate, execute and / or store inputs via the input unit 3 with respect to the user interface 9 and send the inputs and / or stored contents, or information stored in the data memory 8 in association with these inputs, to the building management system Transmit GT. In particular, it is possible to create, modify or delete scene configurations. The software-technical application 6 thus evaluates user inputs to the input unit 3.
    The software application 6 preferably accesses a further communication interface 10 of the mobile communication device 1 in order to transmit control data to the building services system GT. Thus, the control of components K1, K2, K3 of the building services system GT via a further, preferably wireless, communication channel.
    The memory unit 8 is particularly adapted to also store a user interface configuration. The control unit SE and / or the software application 6 can then retrieve a user interface configuration from a number of different user interface configurations based on the detected parameter P and display the user interface 9 according to the selected user interface configuration. It is further provided that a user can also select by means of an input a user interface configuration. For this purpose, for example, menu items may be provided which allow a corresponding selection by a user input.
    Further, the memory unit 8 is adapted to store definitions for permissible and / or invalid user input. The control unit SE and / or the software-technical application 6 then select based on the detected parameter P at least one defined permissible user input, or they call from the memory unit 8 from. The control unit SE or the software-technical application 6 then check user inputs for whether they are admissible or invalid user inputs. Inadmissible user inputs can then be discarded in particular.
    Further, a representation of the functions 91, 92 on the user interface 9 based on the permissible user input can be made. In particular, only functions 91, 92 can be represented which (potentially) define permissible user inputs. On the other hand, it is also provided that the software-technical application 6 and / or the control unit SE before sending the control data based on the permissible and / or impermissible definitions checks which control data are transmitted to the building services system GT. In particular, only drive data are transmitted which correspond to permissible user inputs.
    The control unit SE is in particular configured to automatically start the software-technical application 6 when it detects a particular predetermined parameter P via the near-field communication interface 5 of the communication terminal 1.
    The parameter P may in particular be an identifier, a serial number and / or a MAC address. In particular, the at least one parameter P can acquire information about which further communication channel is to be selected. Information about the building services system GT may also be provided by the control unit SE and / or the software application 6 using the parameter P from a remote system, e.g. a server connected to a network. This can be done using the further communication interface 10, e.g. WLAN, GSM, LTE, Zigbee, Bluetooth, Ethernet and / or other wired or wireless interface.
    The software-technical application 6 or the control unit SE is then able to select the at least one further communication interface 10 of the mobile communication device 1 on the basis of the at least one parameter P and the information transmitted with it, and the control data via the at least one further to send selected communication interface 10.
    On the basis of the at least one parameter P, the software application 6 and / or the control unit SE can determine an address and / or an addressing mode for controlling the building services system GT. This address and / or addressing mode is then used to control the building services system GT based on the user inputs relating to the illustrated functions 91, 92. In particular, the building services system GT is a lighting system. In particular, lighting parameters are transmitted to the building services system to make lighting settings.
    Thus, for example, a dimming of at least one light source, a color change and / or the activation / deactivation of at least one light source can take place. Also, if corresponding information is stored in the data storage unit 8, which define the existing building system components K1, K2, K3 with regard to the spatial resolution, a selection of the corresponding building services system components K1, K2, K3 can also take place via the user interface. For this purpose, for example, the data memory 8 can be accessed, in which the building services system components K1, K2, K3 associated with the parameter P are stored. The building services system components K1, K2, K3 can, for example, also be displayed in a representation of a room layout on the user interface, so that a selection of the building services system components K1, K2, K3 by the user is made possible.
    The building services system components K1, K2, K3 can be accessible via identifiers. It is thus possible, for example, to retrieve from a remote server based on the at least one parameter P which building services system components are present in an area of a building which is identified via the at least one parameter P. The mobile communication terminal 1 then sends a query to the data memory 8, which, as stated, may also be a remote data memory or a cloud memory, and there determines the building services system components K1, K2, K3 present in the area. This can be done for example on the basis of the identifier, which is transmitted with a request to the data store. The retrieved information can be evaluated by the control unit SE or the software application 6 to the effect that a particular symbolic representation of the building services system components K1, K2, K3 takes place on the user interface. A user can then select an appropriate building technology system component K1, K2 and / or K3 by input and make settings for the building services system components K1, K2 and / or K3 via functions 91, 92 shown on the user interface. Of course, groups of building system components K1, K2, K3 can also be controlled.
    In particular, however, the software application 6 is designed to represent functions 91, 92 on the user interface 9, which correspond to a remote control type, based on the at least one parameter P. In this respect, a virtual remote control is represented by the user interface 9, which is configured for the identified by the at least one parameter P building services system. The software-technical application 6 can also query data from sensors and actuators via the further communication channel or display corresponding information on the display unit 2 or by means of the user interface 9. Accordingly, parameters of these sensors can also be collected over a time interval, evaluated, changed, and / or set.
    By means of the user interface 9 and / or the software application 6, configuration data and calibration data for building services system components K1, K2, K3, e.g. Bus participants, the building services system GT are transmitted. The near field communication interface 5 may be an NFC or RFID interface.
    The building engineering system GT has at least the near-field communication interface 4, wherein the building services system outputs at least one parameter P via the at least one near-field communication interface 4. The parameter P can be variable, so that a parameter P to be output is configurable by the building services system GT. Thus, for example, the parameter P can be changed and set via a central unit of the building engineering system GT. In this respect, the building services system also has at least one control unit (not shown), which enables a corresponding activation of the near-field communication interface 4. In addition, another communication interface 11 of the building services system GT is also provided in order to
    To receive control data. On the basis of the received control data, a control and / or configuration of the building services engineering system or of the building services system components K1, K2, K3 then takes place.
    The building services system outputs as parameter P or as part of the at least one parameter P in particular an identifier for the further communication channel, which enables the mobile communication terminal 1 to record a communication with the further communication interface of the building services system. On the basis of the received control data, the building engineering system GT thus configures building system components K1, K2, K3 such as actuators, sensors and / or bus users or transmits data from and / or to these.
    The building services system GT and the communication terminal 1 thus together form a system 100, as shown in Fig. 1.
    权利要求:
    Claims (10)
    [1]
    claims
    A mobile communication terminal (1), comprising - a display unit (2) and an input unit (3), preferably a combined input-and-display unit (4), - a near-field communication interface (5), and - a control unit ( SE), wherein the control unit (SE) is set up to read out at least one parameter (P) of a building services system (GT) via the near-field communication interface (5) and for a software-technical application (6) executed by the mobile communication terminal (1). in which the software-technical application (6) is designed to display a user interface (9) on the display unit (2) as a function of the at least one parameter (P) and to evaluate a user input on the user interface (9) via the input unit (3) and to send control data based on the user input to the building services system (GT).
    [2]
    2. Mobile communication terminal (1) according to claim 1, wherein the software application (6) is adapted to provide functions (91, 92) for controlling the building services system (GT), in particular, have different complexities, and wherein the software application (6) represents the functions (91, 92) in particular grouped by means of the user interface (9), preferably grouped according to their complexity, and preferably at several logical levels.
    [3]
    A mobile communication terminal (1) according to claim 1 or 2, wherein the software application (6) is adapted to provide additional information (93) to the functions (91, 92), and wherein software application (6) is arranged to to present the additional information (93) by means of the user interface (8), in particular in association with the functions (91, 92) for controlling the building services system (GT) and / or for user input.
    [4]
    4. A mobile communication terminal (1) according to any one of the preceding claims, wherein the functions (91, 92) are provided to create, change and / or delete a scene configuration.
    [5]
    5. Mobile communication terminal (1) according to one of the preceding claims, wherein the software-technical application (6) is adapted to evaluate user input via the input unit and the functions (91, 92) or a part of the functions (91, 92) after evaluation of a in particular to provide predefined user input.
    [6]
    6. Mobile communication terminal according to one of the preceding claims, wherein the software application (6) is adapted to send the control data via at least one further communication interface (10) of the mobile communication terminal, in particular a wireless communication interface to the building services system (GT).
    [7]
    7. A mobile communication terminal (1) according to one of the preceding claims, wherein the mobile communication terminal (1) accesses a memory unit (8) which is adapted to store user interface configurations, and wherein the control unit (SE) and / or the software application (6) is arranged to retrieve, in association with the at least one parameter (P), at least one user interface configuration of the user interface configurations, and to provide the user interface (9) in accordance with the at least one user interface configuration.
    [8]
    8. A mobile communication terminal (1) according to any one of the preceding claims, wherein the memory unit (8) is adapted to store definitions for permissible user inputs, and wherein the control unit (SE) and / or the software application (6) is adapted to in association with the at least one parameter (P), to retrieve at least one defined allowed user input and to send only control data based on the at least one defined allowed user input.
    [9]
    9. building services system (GT), comprising - at least one near field communication interface (4), wherein the building services system (GT) is adapted, in particular at least one parameter (P) of the building engineering system (GT) via the at least one near field communication interface (4) , preferably variable, output, - a control unit, and - at least one further communication interface (11), wherein the control unit is adapted to the building services system (GT) or parts thereof, in particular building system components (K1, K2, K3), based on to control and / or to configure the control data received at least one further communication interface.
    [10]
    10. System (100) from a mobile communication terminal (1) according to one of claims 1 to 8 and a building services system (GT) according to claim 9. For this purpose 1 sheet drawings
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    法律状态:
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    申请号 | 申请日 | 专利标题
    DE102016207919.0A|DE102016207919A1|2016-05-09|2016-05-09|Mobile communication device with a user interface representation depending on a parameter detected at an interface|
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