• 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 for establishing a non-permanent data connection between a sanitary facility radio module (SF) embedded in a sanitary facility (1) and a master radio module (MF) is presented, which comprises the following steps: Step B: Operating the sanitary facility radio module ( SF) in a mode in which warning notices can be received but not sent; Step C: operating the master radio module (MF) in a mode in which warning notices are sent out; Step D: transmission of activation data from the master radio module (MF) to the sanitary facility radio module (SF); Step E: operating the sanitary facility radio module (SF) in a mode in which warning notices are sent, and step F: operating the master radio module (MF) in a mode in which warning notices can be received; Step G: Establishing a data connection between the master radio module (MF) and the sanitary facility radio module (SF), in which the master radio module (MF) operates as a master and the sanitary facility radio module (SF) operates as a slave. mobile devices (2) and combinations presented.
    公开号:CH716029B1
    申请号:CH01643/19
    申请日:2019-12-18
    公开日:2020-10-15
    发明作者:Portmann Florian;Raissle Daniel;Oberholzer Roland;Codiroli Mattia;Diener Heinz
    申请人:Geberit Int Ag;
    IPC主号:
    专利说明:

    TECHNICAL AREA
    The present invention relates to a method for establishing a data link between a sanitary facility embedded in a sanitary facility radio module and a master radio module according to claim 1 and a sanitary facility according to claim 11, a mobile device according to claim 14 and the combination of sanitary facility and mobile Device.
    STATE OF THE ART
    [0002] Radio modules integrated in sanitary facilities, also called sanitary facility radio modules, are known. These serve e.g. to transmit data from sensors integrated in sanitary facilities by radio or to control devices integrated in sanitary facilities via radio.
    Radio modules are preferably used, which draw attention to themselves by periodically sending out attention notices (English: adverfisements), as is the case with Bluetooth Low Energy technology. The radio module that sends attention notices, also called peripheral (or broadcaster) in the case of Bluetooth Low Energy, sends out warning notices, which a radio module that receives attention notices, also called central (or observer) in the case of Bluetooth Low Energy. The radio module receiving the attention notices can then establish a data connection with the radio module sending out the attention notices. The radio module that is in a data connection and originally sending out warning notices is called the slave and the radio module that is in data connection and originally receiving warning notices is called the master. The master is typically connected by wire to powerful components, which carry the main load for any calculations etc., while the slave is typically connected by wire to only limited powerful components, as is often the case for embedded radio modules. In one example, a radio module of a smartphone operating as a master is connected to a sanitary facility radio module operating as a slave, the sanitary facility radio module being embedded in a bathtub and connected to a thermometer integrated into it, the data of which it sends to the smartphone, in which the data are then processed further.
    According to the prior art, the sanitary facility radio module sends permanent attention notices in order to be visible to other devices - in the radio sense - so that they can connect to it. Especially with widespread wireless technologies, such as Bluetooth Low Energy, however, this can mean that not only specialist personnel but also a third party, for example using a smartphone, can perceive the sanitary facility radio module. This can lead to security problems, since it cannot be ensured that only those who also have physical access to the sanitary facility can access the sanitary facility radio module. In addition, sanitary facility radio modules encounter acceptance problems, since owners of sanitary facilities can develop security or data protection concerns if they can be perceived with everyday devices. Also, due to the expected large number of radio modules as a result of the Internet of Things, a very large number of radio modules will be visible in many places in the future, which can lead to confusion and errors.
    DISCLOSURE OF THE INVENTION
    Based on this prior art, the invention is based in particular on the object of specifying a method and devices which overcome the disadvantages of the prior art. In particular, methods and devices are to be specified which enable the creation of a data connection by means of technology using attention notices without the sanitary facility radio module being permanently visible.
    This object is achieved by the method, the sanitary facility, the mobile device and the combination of a sanitary facility and a mobile device according to the independent claims. Further embodiments are given in the dependent claims.
    A method for establishing a non-permanent data connection between a sanitary facility radio module embedded in a sanitary facility and a master radio module, wherein the master radio module and the sanitary facility radio module are set up to send and receive warning notices, comprises the following Steps:<tb> <SEP> Step B: Operating the sanitary facility radio module in a mode in which warning notices can be received but not transmitted;<tb> <SEP> Step C: operating the master radio module in a mode in which warning notices are sent out, step C preferably being carried out in parallel with step B;<tb> <SEP> Step D: Transmission of data, which preferably include activation data, from the master radio module to the sanitary facility radio module;<tb> <SEP> Step E: Operating the sanitary facility radio module in a mode in which warning messages are sent, and<tb> <SEP> Step F: operating the master radio module in a mode in which warning notices can be received, step F preferably being carried out in parallel to step E;<tb> <SEP> Step G: Establishing a data connection between the master radio module and the sanitary facility radio module, in which the master radio module preferably operates as a master and the sanitary facility radio module preferably operates as a slave.
    This method is preferably used to establish a data connection in the field of sanitary engineering. However, the method can also be carried out for radio modules in general, so it can also be carried out with two radio modules, none of which is integrated into a sanitary facility.
    [0009] A mode in which warning notices can be received is also called scanning mode. A mode in which warning notices are sent out is also known as advertising mode (also known as advertising mode). So it will<tb> <SEP> • in step B the sanitary facility radio module operated in a scan mode, but not in an advertising mode;<tb> <SEP> • in step C the master radio module operated in an advertising mode, with the master radio module optionally also being able to be operated in parallel in a scan mode;<tb> <SEP> • in step E, the sanitary facility radio module is operated in an advertising mode, with the sanitary facility radio module optionally also being able to be operated in parallel in a scan mode; and<tb> <SEP> • in step F, the master radio module is operated in a scan mode, with the master radio module optionally also being able to be operated in parallel in an advertising mode.
    Preferably, the sanitary facility radio module is not operated in step E in parallel to the advertising mode in a scan mode.
    [0011] Step B and step C are preferably carried out in parallel with one another. Step C can be started before, simultaneously with or after step B.
    Preferably, step D is not performed before steps B and C. Step D is preferably carried out after steps B and C.
    Step E is preferably not carried out before step D. Step E is preferably carried out after step D.
    [0014] Step E and step F are preferably carried out simultaneously. Step F can be started before, simultaneously with or after step E.
    Step G is preferably not carried out before steps B to F, in particular not before steps E and F. Step G is preferably carried out after step E.
    In some variants, step B is started before step E. The sanitary facility radio module is therefore initially invisible because it does not send out any warning notices, and is only visible when step E is carried out, namely when it starts sending out warning notices. Preferably, step B is started before steps D, E and G, so that step B is the first of steps B to G - from the perspective of the sanitary facility radio module - the only steps C and F relating to the master radio module, of course can be started before and / or with step B.
    In some variants<tb> <SEP> • Steps B and C are carried out in parallel;<tb> <SEP> • If step D is not started before steps B and C,<tb><SEP> <SEP> o where step D is preferably only started after at least one warning message sent by the master radio module has been received by the sanitary facility radio module;<tb> <SEP> • Steps E and F are carried out in parallel,<tb><SEP> <SEP> o where step E is preferably only started when data, in particular activation data, have been transmitted in step D; and or<tb> <SEP> • If step G is not started before steps E and F,<tb><SEP> <SEP> o where step G is preferably only started after at least one warning message sent by the sanitary facility radio module has been received by the master radio module.
    A radio module operating as a master can be set up to maintain a data connection in parallel with several different radio modules operating as a slave. A radio module operating as a slave can be set up to maintain only a maximum of one data connection at a time.
    In some variations, the method includesStep A: Initiate Step B.Preferably step A comprises<tb> <SEP> • a manipulation of the power supply of the sanitary facility radio module or a device connected to it;<tb> <SEP> • an action on a sensor connected to the sanitary facility radio module;<tb> <SEP> • a wired signal, preferably the triggering of a wired signal; and or<tb> <SEP> • a non-wired signal, preferably the triggering of a non-wired signal.
    Step B is preferably carried out only for a first limited time after its start, in particular after its initiation. This first limited time is preferably 60 seconds or less, preferably 15 seconds or less. After the first limited time has elapsed, the sanitary facility radio module preferably switches to a mode in which it can no longer receive any warning notices. The sanitary facility radio module can preferably switch to a standby mode in which the sanitary facility radio module can neither send nor receive warning instructions. The first limited time can be selected depending on the installation situation of the sanitary facility radio module. For example, the first limited time can be chosen to be longer if, e.g. due to the distance, the type of building material and / or the mass of the building material, it must be expected that the reception quality between the sanitary facility radio module and an expected position of the master radio module is impaired, so that e.g. can take longer to transfer the data in step D or to establish the data connection in step G. The expected position of the master radio module can e.g. that position can be assumed at which an initiating means for initiating step B or a providing means for providing authentication data is arranged.
    Preferably, step E is only carried out for a second limited time, so that the sanitary facility radio module is only visible for radio purposes for this second limited time. Preferably this second limited time is 60 seconds or less, more preferably 15 seconds or less. After the second limited time has elapsed, the sanitary facility radio module preferably switches to a mode in which it no longer sends out any warning notices. The sanitary facility radio module can preferably switch to a standby mode in which the sanitary facility radio module can neither send nor receive warning instructions. The second limited time, analogous to the first limited time, can also be selected depending on the installation situation of the sanitary facility radio module. The length of the second limited time is preferably selected to be essentially equal to the length of the first limited time.
    Preferably, in step D essentially only data are transmitted from the master radio module to the sanitary facility radio module. In the case of Bluetooth Low Energy radio modules, this can e.g. be done via broadcast.
    In some variants, a data connection between the sanitary facility radio module and the master radio module is created before step D. The sanitary facility radio module preferably operates as a master and the master radio module as a slave. The data in step D are preferably transmitted via this data connection.
    In some variants, step C and step D are carried out parallel to each other, preferably together with the warning notices and data, which preferably include activation data, are sent out by the master radio module and received by the sanitary facility radio module.
    Step D preferably comprises the transmission of activation data. The sanitary facility radio module is preferably set up so that it only switches to an advertising mode if activation data has previously been transmitted to the sanitary facility radio module. Activation data is preferably transmitted in encrypted form. The sanitary facility radio module is preferably activated automatically after transmission of activation data. However, it is also conceivable that further steps for switching the sanitary facility radio module, an advertising mode, are necessary, for example manipulation (e.g. a switch), an action (e.g. on a sensor connected to the sanitary facility radio module) and / or triggering a wired or non-wired signal.
    The activation data preferably include commands from the master radio module to the sanitary facility radio module and / or authentication data. The commands preferably include the instruction to the sanitary facility radio module to start step E, that is, operation in advertising mode. Authentication data are preferably data by means of which the sanitary facility radio module can verify that transmitted commands are to be executed.
    Authentication data preferably include access data and / or identification data. Access data are data that can be accessed on site with physical access to the sanitary facility. These are preferably on a delivery means, e.g. a sticker, arranged on the sanitary facility and preferably designed as a character string and / or as an image pattern. Identification data are preferably data which are used to enable the sanitary facility radio module to verify that this specific sanitary facility radio module is to be addressed. Identification data can include, for example, a serial number of the sanitary facility radio module.
    Before step D, authentication data are preferably recorded. Authentication data arranged on the sanitary facility, for example in the form of access data, is preferably recorded on site with a mobile device which comprises the master radio module and / or is connected to it. The acquired authentication data is preferably transmitted in step D from the master radio module to the sanitary facility radio module.
    Step E is preferably only carried out if authentication data was transmitted in step D, preferably authentication data which the sanitary facility radio module was able to verify. The authentication data can have been recorded on site before step D and / or have been made available in some other way.
    In the presented method, a Bluetooth low energy technology is preferably used, preferably according to Bluetooth specification 4.0, 4.1, 4.2 and / or 5.0. The master radio module and the sanitary facility radio module are preferably set up to connect to one another via Bluetooth low energy technology, in particular. Preferably operated on<tb> <SEP> • in step B the sanitary facility radio module as central or observer;<tb> <SEP> • in step C the master radio module as peripheral resp. Broadcaster; and or<tb> <SEP> • in step E the sanitary facility radio module as peripheral.
    [0031] In addition, a computer program is proposed which comprises instructions for executing a method described herein. In particular, a first computer program and a second computer program are proposed, the first computer program including commands for executing the activities to be performed on the sanitary facility radio module and the second computer program including commands for executing the activities to be performed on the master radio module. In addition, a storage medium comprising one of the computer programs described herein is proposed.
    It is also proposed a sanitary facility with a sanitary facility radio module embedded therein for use in a method described herein.
    In some variants, the sanitary facility has an initiating means for initiating step B. The initiating agent preferably comprises:<tb> <SEP> • a means for manipulating the power supply of the sanitary facility radio module or of another device connected to the sanitary facility radio module;<tb> <SEP> • a sensor connected to the sanitary facility radio module; and or<tb> <SEP> • a trigger for triggering a wired and / or non-wired signal. The trigger can preferably be triggered from an outside of the sanitary facility. The trigger is preferably arranged on an outside of the sanitary facility. The trigger is preferably arranged so that it is accessible in normal operation without the use of tools.
    In some variants, a provision means for providing authentication data, in particular access data and / or identification data, is arranged on the sanitary facility. The provision means preferably comprises a character string and / or an image pattern. The image pattern can be one-dimensional, two-dimensional and / or three-dimensional. The image pattern can include, for example, a QR code, a barcode, a data matrix code, a MaxiCode and / or an Aztec code. Preferably the means of providing comprises a sticker, e.g. a sticker with a character string and / or a picture pattern. The provision means is preferably arranged on an outside of the sanitary facility and / or arranged in such a way that it is accessible during normal operation without the use of tools.
    In addition, a mobile device with a master radio module is proposed for use in a method described herein. The mobile device can preferably be designed as a smartphone, smart watch, tablet, laptop, etc.
    In addition, a combination of a sanitary facility described herein and a mobile device described herein is proposed, with which a method described herein can be carried out.
    BRIEF DESCRIPTION OF THE DRAWINGS
    Preferred embodiments of the invention are described below with reference to the drawings, which are only used for explanation and are not to be interpreted as restrictive. The drawings show schematically:<tb> Fig. 1 <SEP> a combination of a sanitary facility with a sanitary facility radio module and a mobile device with a master radio module;<tb> Fig. 2 <SEP> the combination with a picture pattern;<tb> Fig. 3 <SEP> the combination with an initiating agent and in the state in which step A is being carried out;<tb> Fig. 4 <SEP> the combination in the state in which step B is being carried out;<tb> Fig. 5 <SEP> the combination in the state of performing steps B and C;<tb> Fig. 6 <SEP> the combination in the state of performing step D;<tb> Fig. 7 <SEP> the combination in the state in which step E is being carried out;<tb> Fig. 8 <SEP> the combination in the state of performing steps E and F;<tb> Fig. 9 <SEP> the combination in the state in which step G is being carried out;<tb> Fig. 10 <SEP> shows a flow chart for possible implementation of a method presented; and<tb> Fig. 11 <SEP> shows a flow diagram of a variant of the method shown in FIG.
    DESCRIPTION OF PREFERRED EMBODIMENTS
    FIG. 1 shows a combination having a sanitary facility 1 with a sanitary facility radio module SF and a mobile device 2 with a master radio module MF. The sanitary facility radio module SF is designed to operate as a slave in a data link, while the master radio module MF is designed to operate as a master in a data link. The radio modules MF, SF are preferably set up to connect via Bluetooth Low Energy radio technology; However, the method presented can be used for any other connection technology that uses attention indicators. The mobile device 2 can e.g. be designed as a smartphone, smart watch, tablet, laptop, etc.; It is only essential that it is connected to a master radio module MF and enables its operation. In the figures, the sanitary facility 1 is exemplarily designed as a wash basin, but of course the sanitary facility radio module SF can also be integrated into any other suitable sanitary facility 1, e.g. a toilet, a cistern, a bathtub, etc.
    In Figure 10, a preferred example of the method presented is shown as a flow chart. In a possible starting situation, for example the one shown in FIG. 1, the sanitary facility radio module SF is in a standby mode in which it neither sends nor can receive warning notices. On the mobile device 2 a user, e.g. an installer, software, e.g. with the name "Activate radio on device", which will guide him through the process.
    Before step D is carried out, activation data are preferably recorded. FIG. 11 shows the method according to FIG. 10, the step of recording the activation data being also recorded.
    Preferably, a provision means 4 for providing authentication data is arranged on the sanitary facility 1. The provision means 4 preferably comprises an image pattern which is exemplarily shown in FIG. 2 as a QR code. On the mobile device 2, the user is shown that he should capture the image pattern with the mobile device 2. Software on the mobile device 2 provides authentication data on the basis of the captured image pattern, for example by recognizing it on the image pattern, calculating it from the image pattern and / or using the image pattern from an internal and / or server-side Database receives. Additionally or alternatively, a user can manually enter at least some of the authentication data into the mobile device 2.
    In some variants, said supply means 4 and / or a second supply means 4 arranged on the sanitary facility 1 provide identification data relating to the sanitary facility radio module SF embedded in the sanitary facility 1.
    The activation data can be stored on the mobile device 2 so that they do not have to be re-recorded before each access.
    As shown in FIG. 3, the software indicates to the user that he should undertake an initiation action in a step A in order to initiate the further sanitary facility-radio module-side method, in particular step B. An initiation means 3 can be arranged on the sanitary facility 1, which makes it possible to send a signal for initiation to the sanitary facility radio module SF. The initiation means 3 can preferably be designed as a means for manipulating the power supply 31, by manipulation of which, for example, the power supply of the sanitary facility radio module SF is switched on. However, the initiating agent 3 can e.g. can also be designed as a sensor 32 on which a specific action must be carried out for initiation.
    As shown in FIG. 4, in a step B the sanitary facility radio module SF is operated in a mode in which it can receive warning notices but does not send out warning notices. During step B, the sanitary facility radio module SF itself does not transmit any attention notices and in this sense is not visible in terms of radio technology. The sanitary facility radio module SF is preferably configured to carry out step B only for a predefined, first limited time, for example 60 seconds or less, which ensures that the sanitary facility radio module SF does not inadvertently scan continuously. If this so-called time-out is exceeded, the sanitary facility radio module SF is preferably switched back to the standby mode.
    In a step C, the master radio module MF is operated in a mode in which it sends out warning notices. It is irrelevant whether step C is started before, with or after step B, as long as, as shown in FIG. 5, the master radio module MF sends attention notices at least in a certain time interval and the sanitary facility radio module SF can receive them.
    This makes it possible for the sanitary facility radio module SF and the master radio module MF to find each other and - as shown in FIG. 6 - in a step D data are transmitted from the master radio module MF to the sanitary facility radio module SF. The data are preferably transmitted in a broadcast from the master radio module MF to the sanitary facility radio module SF. Alternatively, a data connection can be established in which the sanitary facility radio module SF operate as a master and the master radio module MF as a slave, via which the data are transmitted from the master radio module MF to the sanitary facility radio module SF.
    The data transmitted in step D comprise, in addition to the data customary for a broadcast or a data connection, preferably activation data, which preferably comprise authentication data and / or commands. The authentication data preferably include access data that can be recorded on site and / or identification data, e.g. a serial number of the sanitary facility radio module SF. The activation data, in particular the authentication data, are preferably transmitted in encrypted form.
    In one example, the activation data is transmitted in encrypted form. Since it can decrypt the selected encryption into meaningful data, the sanitary facility radio module SF concludes from this that the master radio module MF is trustworthy. The activation data include access data from which the sanitary facility radio module SF concludes that the user has physical access to the sanitary facility 1, as well as identification data from which the sanitary facility radio module SF concludes that this specific sanitary facility radio module SF should be addressed. Since the activation data pass this triple test, the sanitary facility radio module SF executes the commands transmitted with the activation data and starts, for example, step E.
    The user can record the access data on site, e.g. at a supply means 4 arranged at the sanitary facility 1. The user can, for example, also record the identification data on site and / or extract it from a (preferably non-public) database in which, in connection with the installation of the sanitary facility radio module SF, the identification data in question have been tracked. The cryptographic method to be used and / or the cryptographic key to be used can e.g. must be specified by the manufacturer, so that only devices authorized by the manufacturer can access the sanitary facility radio module SF. In addition or as an alternative to this, the cryptographic data can be kept in a (preferably non-public) database if, for example, different cryptographic data are to be used for different built-in sanitary facility radio modules SF.
    In a step E shown in FIG. 7, the sanitary facility radio module SF is operated in a mode in which it sends out warning notices. During step E, the sanitary facility radio module SF is thus visible in terms of radio technology. The sanitary facility radio module SF is preferably configured to carry out step E only for a predefined, second limited time, for example 60 seconds or less, which ensures that the sanitary facility radio module SF does not accidentally remain permanently visible. If this time-out is exceeded, the sanitary facility radio module SF is preferably switched back to the standby mode.
    Step E is preferably triggered automatically after step D, for example after the sanitary facility radio module SF has received and possibly verified appropriate activation data. Starting step E can, however, also require further steps for security, for example further manipulation of the initiating means 3.
    In a step F, the master radio module MF is operated in a mode in which it can receive warnings. It is irrelevant whether step F is started before, with or after step E, as long as, as shown in FIG. 8, at least in a certain time interval the sanitary facility radio module SF sends out warning notices and the master radio module MF can receive them.
    This makes it possible that the master radio module MF and the sanitary facility radio module SF find radio technology and - as shown inFigur 9 - a data connection can be established between them in step G, in which the master radio module MF as master and the sanitary facility radio module SF operate as a slave.
    Via this data connection, the user can now use the mobile device 2 to access the sanitary facility radio module SF and related components, for example to read out sensor data or to upload firmware. In addition, there is the possibility that the user permanently activates the sanitary facility radio module SF, so that the sanitary facility radio module SF is now permanently operated in a mode in which it sends out warning notices and is thus visible to other radio modules.
    REFERENCE LIST
    1 sanitary facility SF sanitary facility radio module 2 mobile device MF master radio module 3 initiation means 31 means for manipulating the power supply 32 sensor 4 provision means
    权利要求:
    Claims (15)
    [1]
    1. A method for establishing a non-permanent data connection between a sanitary facility radio module (SF) embedded in a sanitary facility (1) and a master radio module (MF), the master radio module (MF) and the sanitary facility radio module (SF) are set up to send and receive warning notices, comprising the following steps:Step B: Operation of the sanitary facility radio module (SF) in a mode in which warning notices can be received but not transmitted, so that the sanitary facility radio module (SF) is initially not visible to other devices in the radio-technical sense;Step C: Operation of the master radio module (MF) in a mode in which warning notices are sent out, in order to prepare the master radio module (MF) for the transmission of activation data to the sanitary facility radio module (SF) and so that the sanitary facility radio module (SF ) and find the master radio module (MF) by radio;Step D: Transmission of activation data from the master radio module (MF) to the sanitary facility radio module (SF) for the purpose of preparing the sanitary facility radio module (SF) for starting an operation in a mode in which warning notices are sent out;Step E: Operating the sanitary facility radio module (SF) in a mode in which warning notices are sent, so that the sanitary facility radio module (SF) is radio-visible, andStep F: operating the master radio module (MF) in a mode in which warning notices can be received, so that the master radio module (MF) and the sanitary facility radio module (SF) are radio-technically located;Step G: Creating a data link between the master radio module (MF) and the sanitary facility radio module (SF), in which the master radio module (MF) operates as a master and the sanitary facility radio module (SF) operates as a slave, so that a user can access the sanitary facility radio module (SF) and the components connected to it with the master radio module (MF).
    [2]
    2. The method according to claim 1, further comprising the following step:Step A: Initiate Step B,where step A comprises:• a manipulation of the power supply of the sanitary facility radio module (SF) or a device connected to it (3, 31, 32);• excitation of a sensor (32) connected to the sanitary facility radio module (SF);• triggering a wired signal and / or• Triggering a non-wired signal.
    [3]
    3. The method according to claim 2, wherein step B is carried out only for a first limited time after it has been initiated, the first limited time preferably being 60 seconds or less, preferably 15 seconds or less.
    [4]
    4. The method according to any one of claims 1 to 3, wherein step D is not carried out before step B and step C.
    [5]
    5. The method according to any one of claims 1 to 4, wherein step E is not carried out before, preferably after, step D.
    [6]
    6. The method according to any one of claims 1 to 5, wherein step G is not carried out before steps B to F, preferably after step E.
    [7]
    7. The method according to any one of claims 1 to 6, wherein step E is carried out only for a second limited time, wherein the second limited time is preferably 60 seconds or less, preferably 15 seconds or less.
    [8]
    8. The method according to any one of claims 1 to 7, wherein, prior to step D, authentication data are recorded from the activation data and the recorded authentication data is preferably transferred in step D from the master radio module (MF) to the sanitary facility radio module (SF) be transmitted.
    [9]
    9. The method according to claim 8, wherein step E is only carried out when authentication data has been transmitted in step D.
    [10]
    10. The method according to any one of claims 1 to 9, wherein the master radio module (MF) and the sanitary facility radio module (SF) are set up to connect via Bluetooth Low Energy, preferablyin step B the sanitary facility radio module (SF) as a central or observer;in step C the master radio module (MF) as peripheral respectively. Broadcaster; andoperate the sanitary facility radio module (SF) as a peripheral in step E.
    [11]
    11. Sanitary facility (1) with a sanitary facility radio module (SF) embedded therein for use in a method according to one of claims 1 to 10.
    [12]
    12. Sanitary facility (1) according to claim 11, comprising an initiating means (3) for initiating step B, the initiating means comprising:• a means for manipulating the power supply (31) of the sanitary facility radio module (SF) or of another device (32) connected to the sanitary facility radio module (SF);• a sensor (32) connected to the sanitary facility radio module (SF); and or• a trigger (31, 32) for triggering a wired and / or non-wired signal, the trigger (31, 32) preferably being triggered from an outside of the sanitary facility (1).
    [13]
    13. Sanitary facility (1) according to one of claims 11 or 12, wherein a supply means (4) for providing authentication data is arranged on the sanitary facility (1), the supply means (4) preferably a sticker with a character string and / or comprises an image pattern.
    [14]
    14. Mobile device (2) having a master radio module (MF) for use in a method according to one of claims 1 to 10.
    [15]
    15. Combination of a sanitary facility (1) according to one of claims 11 to 13 and a mobile device (2) according to claim 14.
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    同族专利:
    公开号 | 公开日
    EP3764674A1|2021-01-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US8432260B2|2010-02-26|2013-04-30|GM Global Technology Operations LLC|Simplified vehicle bluetooth pairing employing near field communication tags|
    DE102014101526A1|2014-02-07|2015-08-13|Aesculap Ag|Data communication device and method for data communication|
    US9955331B2|2014-06-09|2018-04-24|GM Global Technology Operations LLC|Methods for prioritizing and routing audio signals between consumer electronic devices|
    US20160212194A1|2015-01-16|2016-07-21|Nokia Technologies Oy|Method, apparatus, and computer program product for device control|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    EP19185555.0A|EP3764674A1|2019-07-10|2019-07-10|Radio link in a sanitary area|
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