DE102017213355B3 - Mobile device and polling method relating to the presence of a mobile device in its application position - Google Patents

Abstract

The invention relates to a mobile device (10) having at least one first temperature and / or humidity measuring device (16) by means of which temperature measured variables and / or moisture measured variables can be measured. The temperature and / or humidity measuring devices are used specifically to verify when detecting a current acceleration of the mobile device by means of an acceleration sensor, whether the actual acceleration is actually due to a presence / bring the mobile device in its / their application position to the user , Furthermore, the invention relates to a query method regarding the presence of a mobile device (10) in its application position.

Description

The invention relates to a mobile device. Furthermore, the invention relates to a query method regarding the presence of a mobile device in its application position.

State of the art

From the prior art mobile devices (or mobile devices) are known. An example of this is the one in the DE 10 2005 019 753 A1 described sphygmomanometer, which is designed as a wrist device so that a user can attach the sphygmomanometer in its application position by means of a cuff formed on a form-fitting hook closure on his wrist. In addition, the sphygmomanometer is designed with a position, movement and / or acceleration sensor, by means of which it should be possible to detect whether the sphygmomanometer is kept sufficiently close to the user's heart and sufficiently quiet.

The US 2016/0249174 A1 describes a mobile device having an acceleration sensor, a first temperature measuring device for measuring a first temperature and a second temperature measuring device for measuring a second temperature. By means of an evaluation device of the mobile device should be recognizable from the data provided by the acceleration sensor, the first temperature measuring device and the second temperature measuring device, whether the mobile device is carried by a user in their application position.

The US 2014/0 321 682 A1 discloses another mobile device with two temperature measuring devices.

Furthermore, in the DE 10 2010 036 427 A1 a medical viewing system with a humidity sensor described.

The object of the present invention is to provide energy saving means for reliably detecting / querying whether a mobile device / device is in its application position to a user.

Disclosure of the invention

The invention provides a mobile device with the features of claim 1 and a query method regarding the presence of a mobile device in its application position with the features of claim 8.

Advantages of the invention

The present invention provides capabilities for reliably detecting / querying whether a mobile device / device is in its application position to a user, or placed in his / her application position, or drops out of his / her application position. The present invention thus helps to improve operation of mobile devices / devices.

For example, the user may be prompted, by means of a query regarding a possible presence of the mobile device used by him in her application position, to provide for improved retention of the mobile device on his body and / or better contact of the mobile devices with his skin , This ensures a more appropriate application of the mobile device to the user, in particular in a designed as a mobile diagnostic and / or medical device mobile device.

The present invention also helps to reduce power consumption of mobile devices. The temperature and / or humidity measuring devices are used specifically to verify, on detection of a current acceleration of the mobile device by means of the acceleration sensor, whether the actual acceleration is actually due to a presence / bring the mobile device in its / its application position to the user , Inaccuracies in a use of the acceleration sensor for detecting a possible presence / bring the mobile device in his / her application position can thus be selectively remedied. As mentioned above, the activation of the temperature and / or humidity measuring devices by means of the acceleration sensor (only if needed) helps to reduce the energy consumption of the mobile device.

In an advantageous embodiment of the mobile device, the evaluation device is designed to activate or continue to operate at least one further measuring device of the mobile device upon detection that the mobile device is in its application position. This significantly contributes to the further reduction of power consumption of the mobile device.

For example, the evaluation device may be designed to activate or continue to operate a pulse measuring device of the mobile device as the at least one further measuring device upon detection that the mobile device is in its application position. There one Pulse measuring device requires comparatively much energy to perform its operation, it is advantageous that in the embodiment of the mobile device described here, the activation / further operation of the pulse measuring device is limited to situations in which the mobile device is in its position of application to the user.

Preferably, if the temperature difference variable or the moisture difference variable deviates from their respective predetermined desired value range, the evaluation device is designed to deactivate the at least one further measuring device of the mobile device or to leave it in its respective deactivated mode. Since by means of the evaluation reliably between a presence of the mobile device in its application position and a non-existence of the mobile device can be distinguished in their application position, thus an unnecessary activation / Weitererbetreiben the at least one other measuring device (despite a lack of contact of the mobile device with the body of the user) reliably prevented. This, too, significantly contributes to the reduction of power consumption of the mobile device embodiment described herein.

As an advantageous further development, the evaluation device can be designed to activate at least one warning light of the mobile device in the event of a sudden deviation of the temperature difference variable or of the moisture difference variable from its respective predetermined desired value range, to activate a sound output device of the mobile device for emitting an acoustic warning or alarm signal and / or to activate a display device of the mobile device for displaying a warning or alarm symbol. The user thus receives in a fall / slipping of the embodiment of the mobile device described here, a warning and can react early accordingly.

Advantageously, the at least one first temperature and / or humidity measuring device and the at least one second temperature and / or humidity measuring device can each be parts of a sensor bridge. Thus, a comparatively inexpensive and little space requiring sensor bridge for the realization of the mobile device according to the invention can be used.

The mobile device may be a wrist device or a device portable in use on a user's wrist. It should be understood, however, that utility of the present invention is not limited to wrist devices or devices that are portable to users in the use of their joints.

Furthermore, carrying out a corresponding polling method regarding a presence of a mobile device in its application position also provides the advantages described above. It is expressly pointed out that the polling method according to the above-described embodiments of the mobile device can be further developed.

list of figures

• 1 eine schematische Darstellung einer Ausführungsform der mobilen Vorrichtung; und
• 2a und 2b ein Flussdiagramm und ein Strom-Zeit-Diagramm zum Erläutern einer Ausführungsform des Abfrageverfahrens bezüglich eines Vorliegens einer mobilen Vorrichtung in ihrer Anwendungsstellung.

Further features and advantages of the present invention will be explained below with reference to the figures. Show it:

• 1 a schematic representation of an embodiment of the mobile device; and
• 2a and 2 B a flow chart and a current-time diagram for explaining an embodiment of the polling method regarding the presence of a mobile device in its application position.

Embodiments of the invention

1 shows a schematic representation of an embodiment of the mobile device.

Under the in 1 schematically illustrated mobile device 10 For example, any device and device that is designed to be present in a so-called application position to a user (ie, in his / her use position on a human or animal body) may be understood by at least one measuring device 12 To measure data and store the measured data (or at least one derived information), display and / or output. The means of at least one measuring device 12 For example, measured data may be at least one physical quantity and / or at least one chemical concentration. In particular, the means of the at least one measuring device 12 measured data include medical data and / or diagnostic data. The at least one measuring device 12 may in particular be a pulse measuring device, by means of which a pulse rate / a heart rate of the user in the presence of the mobile device 10 is measurable in their application position. A usability of the at least one measuring device 12 however, is not limited to medical or diagnostic purposes. The means of at least one measuring device 12 For example, measured data may also include steps performed by the user (within a particular time interval) and / or one of the user (within a particular time interval) certain time interval) covered distance.

The mobile device 10 can be designed as a mobile diagnostic and / or medical device. The mobile device 10 can thus be used eg as a pulse rate meter, heart rate monitor and / or fitness device (fitness device). It should be noted, however, that a formability of the mobile device 10 is not limited to a specific type of diagnostic and / or medical device. Instead, under the mobile device 10 a variety of mobile / portable devices (wearables) are understood. The mobile device 10 may for example be a mobile phone.

The mobile device 10 For example, a wrist device (smartwatch, fitness band, on-wrist device), or a device wearable in its application position on a wrist of the user. The practicability of the mobile device 10 is not limited to wrist devices. For example, under the application position of the mobile device 10 any position / position on a human or animal body in which the mobile device 10 a skin 14 of the human or animal body and / or an opening of the human or animal body.

The mobile device 10 has at least one first temperature and / or humidity measuring device 16 , by means of which at least a first temperature measurement variable and a first moisture measurement variable can be measured, and which are so on the mobile device 10 is arranged that, provided the mobile device 10 in its application position to the user, the first temperature measurement of a skin temperature of the user and the first moisture measurement of a moisture of the skin 14 correspond to the user. The first temperature and / or humidity measuring device 16 can, for example, on a so-called skin side 18 , User page 18 and / or inside 18 the mobile device 10 lie. Under the skin side 18 , User page 18 and / or inside 18 can the skin 14 of the human or animal body and / or the opening of the human or animal body contacting side of the mobile device 10 be understood. In addition, the mobile device 10 at least one second temperature and / or humidity measuring device 20 , by means of which at least one second temperature measurement variable and a second moisture measurement variable are measurable, and which on the mobile device 10 is arranged that, provided the mobile device 10 is present in its position of application to the user, the second temperature measured quantity correspond to an ambient temperature and the second measured moisture quantity corresponds to an atmospheric humidity. In particular, the second temperature and / or humidity measuring device 20 on one side of the skin 18 , User page 18 and / or inside 18 away outside 22 the mobile device 10 lie. The first temperature measurement variable and the second temperature measurement variable can be understood as temperature values or physical variables corresponding to the respective temperature values. Correspondingly, the first moisture measurement variable and the second moisture measurement variable can be taken to mean moisture data or the corresponding moisture data can be converted into physical quantities.

The mobile device 10 also includes an evaluation device 24 which is designed to determine whether a temperature difference variable derived from the first temperature measurement variable and the second temperature measurement variable and a moisture difference variable derived from the first moisture measurement variable and the second moisture measurement variable lie in their respective predetermined desired value range. The evaluation device 24 can be formed for example on a printed circuit board. If the temperature difference variable and the moisture difference variable are in their respective predetermined desired value range, the evaluation device is 24 designed to detect / determine that the mobile device 10 in their application position. The evaluation device 24 indicates a temperature difference variable (currently determined) in its (temperature difference) setpoint value range and a (currently determined) moisture difference variable lying in its predetermined (moisture difference) setpoint value range as the presence of the mobile device 10 in their application position.

Desired ranges of values including only temperature difference quantities or humidity difference magnitudes in which a presence of the mobile device 10 in its application position to the user (and preferably also a good fit of the mobile device 10 in their application position) can be reliably assumed, are easily defined. The evaluation device 24 can thus reliably between a current presence of the mobile device 10 in their application position and a current non-present of the mobile device 10 differ in their application position. It is expressly noted that the evaluation device 24 the current presence of the mobile device 10 in their application position with greater reliability than a conventionally used acceleration sensor can determine. In particular, if there is no significant difference in temperature and humidity between the user facing skin side 18 , User page 18 and / or inside 18 the mobile device 10 - Detected using the at least one first temperature and / or humidity measuring device 16 - And remote from the user outside 22 the mobile device 10 - Detected using the at least one second temperature and / or humidity measuring device 20 - is determined, it can be reliably assumed that the user is the mobile device 10 did not create.

By means of the improved recognizability of the current presence of the mobile device 10 in their application position, operation and / or user comfort of the mobile device 10 be improved. As will be explained in more detail below, the advantageous design and arrangement of the components 16 . 20 and 24 the mobile device 10 also be used for energy saving.

The first temperature and / or humidity measuring device 16 and the second temperature and / or humidity measuring device 20 are preferably each parts of a sensor bridge. Thus, the temperature sensors and / or the humidity sensors of the measuring devices 16 and 20 for example, be interconnected in each case in a Wheatstone bridge.

An example is the mobile device 10 of the 1 the evaluation device 24 designed to detect when the mobile device 10 is present in their application position, the at least one measuring device 12 to activate or continue to operate. If the temperature difference variable or the moisture difference variable deviates from their respective predetermined desired value range, the evaluation device is 24 designed to the at least one measuring device 12 to disable or leave in their respective deactive mode. This ensures that the at least one measuring device 12 only in a current presence of the mobile device 10 consumed energy in their application position. The mobile device of 1 therefore has a comparatively low energy consumption / energy requirement. Therefore, relatively inexpensive and relatively little space requiring energy storage types for the mobile device 10 be used. Likewise, frequent recharging of the mobile device is eliminated 10 ,

The mobile device 10 also has an acceleration sensor 28 by means of which a current acceleration of the mobile device 10 can be recognized over a predetermined acceleration threshold. With the help of this acceleration sensor 28 can be easily detected if the mobile device 10 is moved. This is a prerequisite for being put into use. Only then it is necessary to also check if the user is the mobile device 10 also duly carries. For this purpose, then the two temperature and / or moisture measuring devices 16 and 20 activated. Optionally, ie with a current acceleration of the mobile device 10 above the predetermined acceleration value, are at least the first temperature and / or humidity measuring device 16 and the second temperature and / or humidity measuring device 20 z. B. by means of the evaluation 24 or by means of the acceleration sensor 28 can be activated from their respective deactivated mode. The comparatively low energy consumption of the acceleration sensor 28 is thus an additional reduction of the energy consumption / energy demand of the mobile device 10 of the 1 used. An energy consumption of the temperature and / or humidity measuring devices 16 and 20 to measure their measurements thus hardly contributes to the increase in energy consumption / energy demand of the mobile device 10 at.

The first temperature and / or humidity measuring device and the second temperature and / or humidity device may be used in addition to determining further information about the state of the user during operation of the mobile device. For example, in a "trainer mode" of the mobile device designed in particular as a fitness device, the user can be warned about a too high body temperature or a high sweat derived from the moisture difference variable and / or the first moisture measurement variable.

In an advantageous embodiment of the mobile device 10 of the 1 can the evaluation device 24 is also designed, in the case of a sudden deviation of the temperature difference variable or the moisture difference variable from its respectively predetermined desired value range, at least one warning light of the mobile device not sketched here 10 to activate, a sound output device of the mobile device, not shown here 10 to activate for sending an audible warning or alarm signal and / or a display device of the mobile device not sketched here 10 to display a warning or alarm icon. The sudden deviation of the temperature difference quantity or the moisture difference quantity from their respective predetermined desired value range can be considered as a possible dropping / slipping of the mobile device 10 be interpreted from their application points. In the development described here, the user thus receives an early warning, and can corresponding to a possible interruption of at least one measurement and / or a possible risk of loss of the mobile device 10 react.

The mobile device 10 may also be designed to carry out the method steps described below.

2a and 2 B FIG. 12 is a flowchart and a current-time diagram for explaining an embodiment of the polling method regarding a presence of a mobile device in its application position. FIG.

It is expressly understood that a feasibility of the query method described below is not limited to a particular type of device of the respective mobile device. For example, the mobile device may be configured as a wrist device or as a device portable in use on a user's wrist, but need not. With regard to the so-called application position of the mobile device, reference is made to the above explanation.

The polling method comprises a method step S1 in which at least one first temperature measured variable T1 and a first moisture measurement H1 be determined / measured by means of at least one first temperature and / or humidity measuring device. The for carrying out the method step S1 at least one first temperature and / or humidity measuring device used is arranged on the mobile device such that, if the user carries the mobile device in its application position, the first temperature measured variable T1 a skin temperature of the user and the first moisture measurement H1 a moisture of a skin of the user correspond. In one process step S2 of the polling method become at least a second temperature measurement T2 and a second moisture measurement H2 determined by at least one second temperature and / or humidity measuring device / determined. In contrast to the at least one first temperature and / or humidity measuring device that is for carrying out the method step S2 used at least a second temperature and / or humidity measuring device arranged on the mobile device such that, if the user carries the mobile device in its application position, the second temperature measured variable T2 an ambient temperature and the second moisture measurement H2 correspond to a humidity. The process steps S1 and S2 are preferably carried out simultaneously.

In one of the process steps S1 and S2 subsequent process step S3 it is determined whether one of the first temperature measured T1 and the second temperature measurement T2 derived temperature difference quantity Q _T and one of the first moisture measurement H1 and the second moisture measurement H2 derived moisture difference size Q _H lie in their respective predetermined desired value range. For this, first the temperature difference quantity Q _T as the difference or quotient of the first temperature measured variable T1 and the second temperature measurement T2 and the moisture difference quantity Q _H as the difference or quotient of the first moisture measurement H1 and the second moisture measurement H2 derived. Unless the temperature difference size Q _T and the moisture difference quantity Q _H are in their respective predetermined desired value range, it is recognized / assumed that the mobile device is worn in its application position. Are the temperature difference size Q _T and / or the moisture difference quantity Q _H outside their respective predetermined desired value range, it can be assumed that the mobile device does not exist in its application position. Thus, the polling method described here also contributes to improving the operation of the mobile device.

und anschließend mit einem ersten Schwellwert T_th verglichen wird. Nur wenn der Quotient Q_T der ersten Temperaturmessgröße T1 geteilt durch die zweite Temperaturmessgröße T2 über dem ersten Schwellwert T_th liegt, liegt die Temperaturunterschiedsgröße Q_T in ihrem jeweils vorgegebenen Soll-Wertebereich. Entsprechend/alternativ wird eine mögliche Abweichung der hergeleiteten Feuchtigkeitsunterschiedsgröße Q_H von ihrem vorgegebenen Feuchtigkeitsunterschied-)Soll-Wertebereich untersucht, indem ein Quotient der ersten Feuchtigkeitsmessgröße H1 geteilt durch die zweite Feuchtigkeitsmessgröße H2 berechnet wird mit: $${\text{Q}}_{\text{H}}=\frac{H1}{H2},$$

und anschließend mit einem zweiten Schwellwert H_th verglichen wird. Nur wenn der Quotient Q_H der ersten Feuchtigkeitsmessgröße H1 geteilt durch die zweite Feuchtigkeitsmessgröße H2 über dem zweiten Schwellwert H_th liegt, wird ein Vorliegen der Temperaturunterschiedsgröße Q_H in ihrem jeweils vorgegebenen Soll-Wertebereich festgestellt.When using the 2a reproduced embodiment of the query method is a possible deviation of the derived temperature difference variable Q _T from its predetermined temperature difference target value range examined by a quotient of the first temperature measurement T1 divided by the second temperature measure T2 is calculated with: $${\text{Q}}_{\text{T}}=\frac{T1}{T2}.$$

and then with a first threshold _{Th th} is compared. Only if the quotient Q _T the first temperature measurement T1 divided by the second temperature measure T2 above the first threshold _{Th th} lies, the temperature difference size lies Q _T in their respective predetermined desired value range. Correspondingly / alternatively, a possible deviation of the derived moisture difference quantity becomes Q _H from its predetermined moisture difference) target value range by taking a quotient of the first moisture measurement H1 divided by the second moisture measurement H2 is calculated with: $${\text{Q}}_{\text{H}}=\frac{H1}{H2}.$$

and then with a second threshold _Hth is compared. Only if the quotient Q _H the first moisture measurement H1 divided by the second moisture measurement H2 above the second threshold _Hth is, there is a presence of the temperature difference quantity Q _H determined in their respective predetermined desired value range.

In the interrogation method described here, at least one further measuring device of the mobile device is only identified as a method step if it is detected that the mobile device is being carried in its application position S4 activated or continued. If a non-presence of the mobile device is detected in its application position, ie the temperature difference variable Q _T or the moisture difference quantity Q _H deviate from each predetermined target value range, the method steps are in the query method described here S1 and S2 repeated.

By way of example, in the embodiment described here, a pulse measuring device of the mobile device is used as the at least one further measuring device in the method step S4 activated or continued. In this way, it can be ensured that, despite the comparatively large energy requirement of the pulse measuring device, a total energy consumption / total energy requirement of the mobile device remains low, since a useless activation / further operation of the pulse measuring device is prevented at the mobile device present outside its application position.

The polling method also has a method step S0 which is executed after starting the polling procedure. In the process step S0 becomes an actual acceleration by means of an acceleration sensor of the mobile device a _sensor the mobile device measured and with a predetermined acceleration threshold a _th compared. Only if the measured current acceleration a _sensor above the predetermined acceleration threshold a _th is, the polling method with the method steps S1 and S2 continued. Is the current acceleration measured by the acceleration sensor a _sensor below the predetermined acceleration threshold a _th , the polling method may be aborted or with a re-execution of the method step S0 to be restarted. Determining the current acceleration a _sensor above the predetermined acceleration threshold a _th can be interpreted as a movement of the mobile device from a rest position. Such movement of the mobile device is necessary for a user to bring the mobile device into its application position. However, it would be "premature" to find the current acceleration a _sensor above the predetermined acceleration threshold a _th (automatically) to interpret as a "bringing the mobile device into its application position" and to react with an immediate activation of the at least one further measuring device. Therefore, the method described here includes after determining the current acceleration a _sensor above the predetermined acceleration threshold a _th verifying the presence of the mobile device in its application position by means of the method steps S1 to S3 ,

In the current-time diagram of the 2 B is the current I consumed by the mobile device (in μA / microampere).

During the execution of the process step S0 Only the acceleration sensor is in its active mode, but in which it consumes comparatively little energy. The first temperature and / or humidity measuring device, the second temperature and / or humidity measuring device and the at least one further measuring device are in their inactive mode / sleep mode. A total power consumption / total power consumption of the mobile device is thus during the execution of the method step S0 comparatively low.

Only if the current acceleration a _sensor the mobile device above the predetermined acceleration threshold a _th If the first temperature and / or humidity measuring device and the second temperature and / or humidity measuring device are activated, the method steps are carried out S1 to S3 , The at least one further measuring device remains in its inactive / sleep mode. Preferably, the acceleration sensor can also be transferred to its inactive / sleep mode. To carry out the method steps S1 to S3 Therefore, a current of 8.7 μA (microamps) is sufficient. The total power consumption / total power consumption of the mobile device is thus during execution of the method steps S1 to S3 not / hardly increased.

After executing the method steps S1 to S3 becomes the process step S4 only executed if the presence of the mobile device is recognized in its application position. The for carrying out the method step S4 required current of 0.51 mA (milliamperes) is thus consumed only when the presence of the mobile device is verified in its application position. Recognizable is based on the current-time diagram of the 2 B in that a power necessary for activating the at least one measuring device P1 and a power to be applied for operating the at least one measuring device P2 only be consumed when the mobile device is actually held in its position of use to the respective user. Measurements have shown that in this way a battery life of 200 mAh (milliamp hours) is 22989 hours (or 958 days) compared to 392 hours ( 16 Days) can be increased in the prior art. An operating time of the at least one measuring device is for example 10 seconds, after which the at least one measuring device is immediately returned to its inactive / sleep mode.

In the query method described here is also in the process step S4 a pulse rate / heart rate r _pulse measured by the pulse measuring device and then with a Pulsratenschwellwert / Herzratenschwellwert r _th compared. If the pulse rate / heart rate r _pulse below the Pulsratenschwellwert / Herzratenschwellwert r _th is, the user is in a procedural step S5 warned about a possible dropping / slipping of the mobile device and a possible risk of loss of the mobile device. This can be done, for example, by activating at least one warning light of the mobile device, a sound output device of the mobile device for emitting an acoustic warning or alarm signal and / or a display device of the mobile device for displaying a warning or alarm symbol. In an alternative embodiment, the temperature difference quantity may also be determined upon detection of a sudden significant deviation Q _T and / or the moisture difference quantity Q _H from their respective predetermined desired value range of the method step S5 for which purpose at least one warning light of the mobile device, a sound output device of the mobile device for emitting an acoustic warning or alarm signal and / or a display device of the mobile device for displaying a warning or alarm symbol are activated.

Claims (9)

Mobile device (10) comprising: at least one first temperature and / or humidity measuring device (16), by means of which at least a first temperature measurement variable (T1) can be measured, and which is arranged on the mobile device (10) such that, if the mobile Device (10) is present in its application position to a user, the first temperature measured variable (T1) corresponds to a skin temperature of the user; at least one second temperature and / or humidity measuring device (20), by means of which at least one second temperature measured variable (T2) is measurable, and which is arranged on the mobile device (10) such that, provided the mobile device (10) in its position of use is present at the user, the second temperature measured variable (T2) corresponds to an ambient temperature; an evaluation device (24) which is designed to determine whether a temperature difference variable (Q _T ) derived from the first temperature measurement variable (T1) and the second temperature measurement variable (T2) is within its predetermined desired value range in order to examine whether the mobile device (10) is present in its application position; and an acceleration _sensor (28), by means of which a current acceleration (a _sensor ) of the mobile device (10) can be _detected above a predetermined acceleration threshold value (a _th ); characterized in that, upon detection of a current acceleration (a _sensor ) of the mobile device (10) above the predetermined acceleration threshold (a _th ) by means of the acceleration _sensor (28) at least the at least one first temperature and / or humidity measuring device (16) and the at least one second temperature and / or humidity measuring device (20) are activatable from their respective deactivated mode such that - by means of the at least one first temperature and / or humidity measuring device (16) in addition to the first temperature measured variable (T1) also a first moisture measured variable ( H1) is measurable such that the first moisture measurement quantity (H1), if the mobile device (10) is in its application position to a user, corresponds to moisture of a skin (14) of the user, and - by means of the at least one second temperature measurement Moisture measuring device (20) in addition to the second tempera a second moisture measurement variable (H2) is measurable such that the second moisture measurement variable (H2), if the mobile device (10) is in its application position to a user, corresponds to a humidity, wherein the evaluation device (24) is designed for this purpose is to determine whether a moisture difference quantity (Q _H ) derived from the first moisture measurement quantity (H1) and the second moisture measurement quantity (H2) is within its predetermined target value range, and when the temperature difference quantity (Q _T ) and the moisture difference quantity (Q _H ) are within their predetermined desired value range, to recognize that the mobile device (10) is in its application position. Mobile device (10) according to Claim 1 wherein the evaluation device (24) is designed to activate or continue to operate at least one further measuring device (12) of the mobile device (10) upon detection that the mobile device (10) is in its application position. Mobile device (10) according to Claim 2 wherein the evaluation device (24) is designed, upon recognizing that the mobile device (10) is in its application position, to activate or further a pulse measuring device (12) of the mobile device (10) as the at least one further measuring device (12) to operate. Mobile device (10) according to Claim 2 or 3 wherein, if the temperature difference variable (Q _T ) or the moisture difference variable (Q _H ) deviates from their respective predetermined desired value range, the evaluation device (24) is adapted to at least one further measuring device (12) of the mobile device (10) disable or leave in their respective disabled mode. Mobile device (10) according to any one of the preceding claims, wherein the evaluation device (24) is adapted to at least one warning light of the mobile at a sudden deviation of the temperature difference variable (Q _T ) or the moisture difference variable (Q _H ) from their respective predetermined desired value range Activate device (10) to activate a sound output device of the mobile device (10) for emitting an audible warning or alarm signal and / or to activate a display device of the mobile device (10) for displaying a warning or alarm symbol. Mobile device (10) according to any one of the preceding claims, wherein the at least one first temperature and / or humidity measuring device (16) and the at least one second temperature and / or humidity measuring device (20) are each parts of a sensor bridge. A mobile device (10) according to any one of the preceding claims, wherein the mobile device (10) is a wrist device or a device portable in use on a wrist of the user. Query method regarding the presence of a mobile device (10) in its application position with the steps of: determining, via an acceleration _sensor (28) of the mobile device (10), whether a current acceleration (a _sensor ) of the mobile device (10) exceeds a predetermined acceleration threshold value ( a _th ); and, if the current acceleration (a _sensor ) of the mobile device (10) is above the predetermined acceleration threshold value (a _th ), performing the further steps: activating at least one first temperature and / or humidity measuring device (16) of the mobile device (10 ) and at least one second temperature and / or humidity measuring device (20) of the mobile device (10) from their respective deactivated mode; Determining at least a first temperature measurement variable (T1) and a first moisture measurement variable (H1) by means of the at least one first temperature and / or humidity measurement device (16) arranged on the mobile device (10) such that, if a user selects the mobile Device (10) in its position of use, the first temperature measurement (T1) of a skin temperature of the user and the first moisture measurement (H1) of a moisture of a skin (14) of the user correspond (S1); Determining at least one second temperature measurement variable (T2) and a second moisture measurement variable (H2) by means of the at least one second temperature and / or humidity measurement device (20) arranged on the mobile device (10) such that, if the user is the mobile one Device (10) carries in its application position, the second temperature measurement (T2) of an ambient temperature and the second moisture measured variable (H2) correspond to a humidity (S2); Determining whether a temperature difference variable (Q _T ) derived from the first temperature measurement variable (T1) and the second temperature measurement variable (T2) and a moisture difference variable (Q _H ) derived from the first moisture measurement variable (H1) and the second moisture measurement variable (H2) in their respective predetermined set value range (S3); and - if the temperature difference quantity (Q _T ) and the moisture difference quantity (Q _H ) are in their respective predetermined desired value range, accepting or recognizing that the mobile device (10) is worn in its application position. Query procedure after Claim 8 wherein at least one further measuring device (12) of the mobile device (10) is activated or continued to operate (S4) only upon an acceptance or recognition that the mobile device (10) is being carried in its application position.

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