Title of Invention	ACTIVITY MONITORING SYSTEM
Abstract	A wearable device comprising at least two measuring devices (2,3>4,5,6) providing primary data, a processor (1) designed for calculating secondary data from the primary data, for calculating reference data from the primary and/or the secondary data and for comparing the reference data with at least two specific data pattern to automatically recognize an activity, and a memory (7) designed for storing the primary, the secondary data and the at least two specific data pattern each assigned to a certain activity. The activity recognition is performed by loading the primary and/or the secondary data to the processor (1), calculating the reference data, comparing the reference data with the specific data patterns, assigning the primary and/or the secondary data with the recognized activity and storing the assigned primary and/or secondary data in the memory (7).

Title of Invention

ACTIVITY MONITORING SYSTEM

Abstract

A wearable device comprising at least two measuring devices (2,3>4,5,6) providing primary data, a processor (1) designed for calculating secondary data from the primary data, for calculating reference data from the primary and/or the secondary data and for comparing the reference data with at least two specific data pattern to automatically recognize an activity, and a memory (7) designed for storing the primary, the secondary data and the at least two specific data pattern each assigned to a certain activity. The activity recognition is performed by loading the primary and/or the secondary data to the processor (1), calculating the reference data, comparing the reference data with the specific data patterns, assigning the primary and/or the secondary data with the recognized activity and storing the assigned primary and/or secondary data in the memory (7).

Full Text	Wearable device The present invention relates to wearable devices to measure and to recognize a performed activity. Activity monitors are used to determine data of a performed activity, which could be a fitness exercise, a medical check-up or a 24h monitoring for medical reasons. The data could be measured directly by sensors, named primary data, or be calculated from the sensor data, named secondary data. During medical check-ups, the patient is usually instructed to perform specific activities in a laboratory environment where several sensors with skin contact can be connected by cables to analysing devices. For sport exercises, outdoor activities and/or 24h monitoring wearable devices are used comprising a limit number of sensors and a data storage unit. Wristwatch like wearable devices comprising a data storage/processing unit, a display, means for wireless data exchange and a number of sensors are known. The wearable devices are especially designed for specific activities such as cycling, jogging, fitness or weight management and number and kind of sensors are adapted to the specific activity. For instance, a wearable device S725 from POLAR-Germany dedicated for cycling determines the velocity/moved distance via the turning frequency of a wheel with a known circumference, not applicable for jogging. A wearable device S625X from POLAR-Germany for jogging determines the velocity via a step frequency meter not applicable for cycling. When performing different kind of activities with one wearable device, the analysis of data from non-specific sensors can only yield an averaged result, although the measured data strongly vary for different kind of activities. The object of the present invention is to provide a wearable device able to correlate the activity data to specific activities and therefore to characterize different activities individually. The object is achieved by a wearable device comprising at least two measuring devices providing primary data, a processor and a memory. The processor is designed for calculating secondary data from the primary data and for calculating reference data from the primary and/or secondary data as well as for comparing the reference data with at least two specific data patterns to automatically recognize an activity. The memory is designed for storing the primary, the secondary data and the at least two specific data pattern each assigned to a certain activity. The automatic recognition of a performed activity enables a direct correlation of primary and/or secondary to a certain activity and allows a data analysis for different activities individually. One embodiment shows a wearable device designed for measuring primary and secondary data corresponding to at least two of the following data classes comprising heart rate, respiration, heat flux, body-temperature, bioelectric impedance, oxygen intake, calorie expenditure, step frequency, GPS signals, environmental temperature, vertical and horizontal acceleration, time, time intervals, velocity and skin humidity. Here, the data classes correspond to primary data measured by a specific measuring device (e.g.: heart rate measured by a heart rate monitor) and to secondary data resulting from a specific set of primary data (e.g.: for instance velocity resulting from GPS signals and time). The GPS signals denote the position coordinates of the global positioning system to identify the actual position. Significantly different specific data pattern enable the recognition of an activity. In one embodiment the specific data pattern for jogging comprising the heart rate with minor variations over long time intervals, the velocity between 7km/h and 25km/h, periodic vertical and minor horizontal accelerations and a constant step frequency over long time intervals. In another embodiment the specific data pattern for cycling comprising the heart rate mainly constant within medium time intervals, the velocity between lOkm/h and 90km/h, discrete horizontal accelerations, negligible vertical accelerations and no step frequency. In another embodiment the specific data pattern for water sports comprising the heart rate with minor variations over medium time intervals, the velocity below 20km/h, low and periodic accelerations, no step frequency and high skin humidity. In another embodiment the specific data pattern for ball games comprising the strongly varying heart rate, the velocity between Okm/h and 30km/h, which is strongly varying, strongly varying horizontal and vertical accelerations as well as step frequency during short time intervals. In another embodiment the specific data pattern for fitness sports comprising the heart rate with small variations within medium time intervals, the velocity below 5km/h, periodically varying horizontal and vertical accelerations during short time intervals and minor step frequency variation during medium time interval. The specific data patterns comprise statistical quantities such as mean data value, highest and lowest value and data spread within time intervals and overall data spread of data classes and corresponding spectral properties, e.g Fourier transformation of data, characterising a specific activity. The number of specific data pattern is not limited to the claimed specific data pattern and can be enlarged on demand. In one embodiment the specific data pattern comprises activity specific desired upper and lower limits for at least one data class. Desired limits of the same data class can be different for different activities. Desired limits can originate from medical reasons (for instance an upper limit for heart rate for people suffering from a heart disease) or from individual training goals. In one embodiment the wearable device is provided with a user interface to request an activity assignment by the user in case of performing a not automatically recognized activity and means to receive the assignment made by the user in order to assign the activity data with a specific activity. For an accurate activity monitoring, it is important to compare all data sets of the same activity, therefore all stored data have to be assigned by an activity. Here, data sets denote equally assigned data from different time periods. In another embodiment the processor calculates new specific data pattern from the user-assigned primary and/or secondary data to recognize the user-defined activity automatically for the future. The larger amount of specific data pattern increases the probability to recognize an activity and therefore improves the user convenience. In another embodiment the user interface is designed for inserting a reassignment of an automatically recognized activity by an user and the processor is designed for re-assigning the primary and/or secondary data. In another embodiment the wearable device further comprises a computer interface to exchange or add data and/or specific data pattern assigned to certain activities. Activity data can be loaded to a computer for further processing, e.g. data monitoring or analysing of the effectiveness of training concepts or other purposes. Also new data comprising weight, age or height, and/or adapted activity specific data patterns can be loaded from a computer. With a larger number of specific data patterns and/or adapted patterns the probability of a successfully executed activity recognition will be larger. New and/or adapted activity related data patterns could also comprise new and/or adapted desired data ranges and/or activity schedules according to a changed training status and/or according to medical advices. The different additional features of the different embodiments could be realised also combined in one embodiment. The invention also relates to an activity recognition method for a wearable device comprising the following steps: measuring primary data as a function of time, storing the primary and/or secondary data as a function of time, loading the primary and/or the secondary data and the specific data patterns, calculating reference data from primary and/or secondary data, comparing the reference data with the specific data patterns to automatically recognize an activity, assigning the primary and/or the secondary data with the recognized activity, storing the assigned data, analyzing the assigned data, and adapting the specific data pattern according to the analyzed assigned data, wherein an activity is recognized when a probability of correspondence between the reference data and one specific data pattern assigned to a certain activity is above a certain limit. The data analysis and the adaptation of the specific data pattern will be performed after changing the specific activity or switching off the active status of the wearable device. In one embodiment the activity recognition method further comprises a calculation of secondary data (e.g. velocity) from the primary data. In another embodiment the activity recognition method further comprises sending a request to a user to assign a not recognized activity, receiving an user-assignment, assigning the primary and/or secondary data with the user-assignment, calculating a new data pattern for the user-assigned activity, and storing the user-assigned data and the new data pattern specific. This guarantees, that there are no primary and/or secondary data, which cannot be correlated to and/or analyzed with assigned data from the same activity. A not recognized activity denotes the situation, where the probability of correspondence to the reference data is below a certain limit for all available specific data pattern. In another embodiment the automatic recognition is interrupted for a user-defined period comprising the following steps starting the user-defined period via the user interface, inserting an assignment of the currently performed activity by an user, assigning all further primary and/or secondary data with the user-assignment, storing the user-assigned data, leaving the user-defined period via the user interface, loading of user-assigned data from the user-defined period, calculating of new specific data pattern, and storing the new specific data pattern. Here, the wearable device will be taught to recognize certain activities, where no specific data patterns are currently available. The assignment of data to specific activities can especially be used for monitoring sport competitions combining different kinds of sport activities such as triathlon (swimming, cycling and jogging) or any other combinations. This invention enables the analysis of specific sport activities of such competitions separately. The same advantage can be used during 24h monitoring for medical reasons. In this case, a correlation between measured data and every day activities can be made and critical activities can be identified with respect to desired data ranges. For not very specific or short-term daily activities the user-assignment and/or the reassignment of activities via the user interface can be used to create an activity record of a certain period of time. With the invented wearable device it would be possible to train the daily behaviour of people with respect to identified critical activities. In the following, the invention will be described in more details with reference to the accompanying drawings, in which Fig. 1: shows schematic view of the wearable device Fig.2: shows further components of the wearable device Fig.3: flow diagram of the activity recognition method Fig.4: flow diagram of the user-assignment of an activity The wearable device is shown in fig. 1 in a schematic view. In this embodiment five measuring devices 2 to 6 are connected to a processor 1, e.g. to measure heart rate 2, vertical and horizontal acceleration 3, step frequency 4, time 5 and GPS signals 6. The connection between measuring device and processor can be realized by wire or wireless. The number of measuring devices and kind of measured data classes can differ from the given example in fig.l. The measuring devices continuously measure primary data and transfer the data to the processor 1. The processor 1 is designed for calculating secondary data from the primary data and to calculate reference data from the primary and/or secondary data, to store the primary and/or secondary data in a memory 7 and to recognize a performed activity by comparing the reference data with activity specific data pattern. The memory can be any kind of storage means comprising a shock-proofed solid-state memory. The specific data pattern comprises activity specific upper and lower values and statistical quantities such as mean data value, data spread within time intervals and overall data spread and corresponding spectral properties (e.g. Fourier transformation of data) of activity characterising data classes. The number of data classes required to identify a specific activity could be less than the number of measured primary and/or calculated secondary data classes. In another embodiment the specific data pattern can further comprise desired upper and lower limits, which do not correspond to the upper and lower values characterising a specific activity. The desired upper and lower limits serve as a guideline to perform the activity in such a way, that the corresponding data are within the desired limits. Such desired limits can be defined for any primary and/or secondary data class. Fig. 2 shows another embodiment of the wearable device, which further comprises an user interface 8 designed for requesting and receiving an user-assignment of not automatically recognized activities. The request to assign a currently performed activity can be made by visual signal means via a display 8c and/or sensible and/or audible signals means 8b. The user assigns the currently performed activity and the non-assigned primary and/or secondary data will be assigned with the user-assignment. In fig.2 the user inserts his assignment manually via keys 8a. Alternatively, the user-assignment can be inserted via voice means or via special pens or any other manual means. In another embodiment the user interface displays the automatic recognition of the performed activity to enable the user to correct or to overwrite the automatically made activity assignment. Since, the recognition is made by ranking of probabilities there will always be a chance to make an assignment not desired by an user. Furthermore, the overwriting is a possibility for an user to make a more specific activity assignment. In another embodiment the user interface displays some of the current primary and secondary data and the corresponding desired upper and lower limits. The user interface further gives feedback to the user via the signal means, whether the current primary and secondary data are within the desired upper and lower limits. The user can further change the activity specific desired upper and lower limits via the user interface. In case of not automatically recognized activities, the processor 1 assigns the non-assigned primary and/or secondary data with user-made activity assignment and stores the assigned data in the memory 7. Additionally, the processor 1 calculates new specific data pattern corresponding to the user-assigned activity and stores the new specific data pattern in the memory 7. Additionally desired upper and lower limits can be inserted via the user interface for the new specific data pattern. During the next recognition procedure the formally not-recognized activity will be automatically recognized. In case of inserted new desired upper and lower limits, the corresponding specific data pattern will be adapted and stored in the memory. During the described procedure, the measuring devices 2 to 6 continuously provide primary data and transfer the measured data to the processor 1 and the processor 1 is designed for simultaneous calculation of secondary data from the measured primary data. In another embodiment the specific data pattern comprises an activity schedule, when and how to perform a specific activity. The user interface reminds the user perform an activity according to the activity schedule. The specific data pattern comprises important data classes with specific data properties to be compared with reference data of the same classes. An activity recognition can be difficult or impossible, if one or more measuring devices do not provide the required primary data classes to calculate the corresponding reference data. In another embodiment the processor 1 advises the user interface 8 to inform the user about missing data or data outside any reasonable range from one or more measuring devices by signal means. The user can check the operating condition of the measuring devices and can additionally insert a user-assignment of the currently performed activity. In another embodiment the wearable device further comprises a computer interface 9 to exchange or add data and/or specific data pattern assigned to certain activities, as shown in Fig.2. The data transfer can be executed via cable connection or by wireless means to a local computer of the user and/or to a computer located far away, for instance in a medical centre or in an escorting car. The stored primary and/or secondary data can be transferred from the memory 7 via the computer interface 9 to a computer 10 for further analysis, for example to evaluate the training effects and/or to monitor the daily variation as a function of specific activities and/or to modify the activity specific desired upper and lower limits of certain data classes. It is further possible to load personal data like weight, height and age from the computer 10 to the memory 7 via the user interface and/or computer interface 9 for calculating secondary data. It may also be possible that a weighing machine is connected to a computer, which updates weight data during data exchange with the wearable device. The computer interface is also designed for loading new or modified specific data pattern to be stored in the memory. The specific data pattern can also include an activity schedule comprising information at which time which activity and how an activity shall be performed. Such an activity schedule can also support the activity recognition Referring to fig. 3, the activity recognition method of the wearable device comprises the following steps. Before entering an active status to perform the measurements a device set-up procedure checks the data connection to the present measuring devices 11. The start of the measurements can be triggered by receiving data and/or by a start command inserted via the user interface. After starting the measurements the primary data are measured periodically as long as the wearable device is in an active status 12. The primary data and/or secondary data are stored 13 in the memory 7. Before measuring new data, it is checked 14, whether the amount of data is sufficient to execute the activity recognition procedure. If the amount of data is too less, new data will be measured 12. If the amount of data is above a certain limit, the data not assigned to a specific activity and the stored specific data pattern are loaded to the processor 15. During the activity recognition procedure 16, the processor calculates reference data comprising statistical quantities such as mean data value, highest and lowest value, data spread within time intervals and overall data spread of data and corresponding spectral properties from the primary and/or secondary data. An algorithm determines the correlation probability between the reference data and the loaded specific data pattern. Since some data classes will show better correlation than others, the impact of each data class will be weighted as to form a probability scale, thus to enable comparison between activities that rely on different sets of classes. If there is a final correspondence between reference data and one specific data pattern, the activity is herewith automatically recognized and the primary and/or secondary data are assigned with the recognized activity. Thereby, different approaches can be applied to recognize a certain activity, comprising a binary approach and/or a Viterbi-like approach. All approaches are based on calculated correlation probabilities. The binary approach selects the specific data pattern with highest correlation probability (instantaneous probability IP) for a fixed time interval. The Viterbi-like approach preselects a reduced number of more-likely specific activities (higher IP) and continues with the calculation of instantaneous probabilities (IP) over time. From the sequence of instantaneous probabilities a cumulative probability (CP) is calculated. With increasing amount of data, the difference of the CP's for the most likely specific data pattern and the second-likely specific data pattern will increase. The procedure continues until the difference in CP between the most likely and the second likely specific data pattern is above a certain limit. There also may other procedures to recognize a specific activity. After assigning the primary and secondary data with the recognized activity, the assigned data are stored 17 in the memory 7. In case of continued specific activity 18, the described procedure is repeated. In case of another recognized activity or a user-defined end of the current activity, the stored data assigned to the previous activity are loaded to the processor for data analysis 19. If necessary, the specific data pattern is adapted 20 and stored 21 in the memory 7. In case of further continued activities 22, the procedure continues with data measuring 12. The whole procedure stops, when the active modus of the device will be switched off. If the primary data classes allow the calculation of secondary data, the measuring step 12 further comprises the calculation of secondary data. All further steps comprising data storage, data loading, data handling and data analyzing steps cover both, primary and secondary data. In another embodiment the activity recognition method further comprises the following steps in case of a not automatically recognized activity during the activity recognition procedure 16, as shown in fig.4. If the comparison of reference data with all available specific data pattern 23 does not lead to a recognition of a certain activity 24 (case "no") a request 25 is sent to the user by signal means 26 to assign the not recognized activity. Via input means 28 the user assigns the non-recognized activity. After receiving the user-assignment 27, the processor assigns the currently non-assigned data with the user-assignment 29, calculates new specific data pattern corresponding to the user-assignment 30 and stores assigned data and new calculated data patter 17. During the following activity recognition procedure, the formally not recognized activity will now be automatically recognized. In another embodiment the user can start a user-defined period via the user interface regardless of a successfully performed automatic activity recognition. During the user-defined period, no comparison to specific data pattern will be performed. The primary and/or secondary data will be assigned with the user-assignment as long as the user-defined period continuous. After leaving the user- defined period the processor will again perform the activity recognition procedure and new specific data patter corresponding to the user-assignment will be calculated and stored in the memory. The embodiments of the invention explained above represent examples of how it may be realized and are not designed to restrict the scope of the invention. WE CLAIM: 1. A wearable device comprising - at least two measuring devices (2,3,4,5,6) providing primary data, - a processor (1) designed for calculating secondary data from the primary data and forcalculating reference data from the primary and/or secondary data and for comparingthe reference data with at least two specific data patterns to automatically recognize anactivity, and - a memory (7) designed for storing the primary data, the secondary data and the at leasttwo specific data pattern each assigned to a certain activity. 2. A wearable device according to claim 1, wherein the primary and/or thesecondary data correspond to at least two of following data classes comprising heartrate, respiration, heat flux, body-temperature, bioelectric impedance, oxygen intake,calorie expenditure, step frequency, GPS signals, environmental temperature, verticaland horizontal acceleration, time, time intervals, velocity and humidity. 3. A wearable device according to claim 1, wherein the specific data patternassigned to jogging comprising a heart rate with minor variations over long timeintervals, a velocity varying between 7km/h and 25km/h, a periodic vertical and a minorhorizontal acceleration and a constant step frequency for jogging, 4. A wearable device according to claim 1, wherein the specific data patternassigned to cycling comprising a heart rate mainly constant within medium timeintervals, a velocity varying between lOkm/h and 90km/h, a discrete horizontal and anegligible vertical accelerations and no step frequency. 5. A wearable device according to claim 1, wherein the specific data pattern assigned to water sports comprising a heart rate with minor variations over medium time intervals, a velocity below 20km/h, low and periodic accelerations, a high skin humidity and no step frequency. 6. A wearable device according to claim 1, wherein the specific data patternassigned to ball games comprising a strongly varying heart rate, a velocity stronglyvarying between Okm/h and 30km/h, a strongly varying horizontal and verticalacceleration during short time intervals, a strongly varying step frequency. 7. A wearable device according to claim 1, wherein the specific data patternassigned to fitness sports comprising a heart rate with small variations within mediumtime intervals, a velocity below 5km/h, a periodically varying horizontal and verticalacceleration during short time intervals and a minor varying step frequency during shorttime intervals. 8. A wearable device according to claim 1, wherein the specific data patterncomprises desired upper and lower limits for at least one data class. 9. A wearable device according to claim 1, further comprising a userinterface (8) designed for requesting and receiving the assignment of not automaticallyrecognized activities by an user. 10. A wearable device according to claim 9, wherein the processor (1) isdesigned for calculating new specific data pattern corresponding to activities assignedby the user. 11. A wearable device according to claim 9, wherein the user interface (8) isdesigned for inserting a re-assignment of an automatically recognized activity by anuser and the processor (1) is designed for re-assigning the corresponding primary and/orsecondary data. 12. A wearable device according to claim 1, farther comprising a computerinterface (9) to exchange or add data and/or specific data pattern assigned to certainactivities. 13. Activity recognition method for a wearable device according to claim 1,comprising - measuring the primary data as a function of time, - storing the primary and/or the secondary data as a function of time, - loading the primary and/or the secondary data and the specific data patterns, - calculating reference data from the primary and/or secondary data, - comparing the reference data with the specific data patterns to automatically recognizean activity, - assigning the primary and/or the secondary data with the recognized activity - storing the assigned data, - analysing the assigned data, and - adapting the specific data pattern according to the analyzed assigned data. 14. Activity recognition method according to claim 13, further comprisingcalculation of secondary data from the primary data. 15. Activity recognition method according to claim 13, further comprising - sending a request to a user to assign a not recognized activity, - receiving an user-assignment, - assigning the primary and/or secondary data with the user-assignment, - calculating a new data pattern for the user-assigned activity, - storing the user-assigned data and the new data pattern specific. 16. Activity recognition method according to claim 13, wherein theautomatic recognition is interrupted for a user-defined period comprising the followingsteps - starting the user-defined period via the user interface, - inserting an assignment of the currently performed activity by an user, - assigning all further primary and/or secondary data with the user-assignment, - storing the user-assigned data, - leaving the user-defined period via the user interface, - loading of user-assigned data from the user-defined period, - calculating of new specific data pattern, and - storing the new specific data pattern.

Full Text

Wearable device
The present invention relates to wearable devices to measure and to recognize a performed activity.
Activity monitors are used to determine data of a performed activity, which could be a fitness exercise, a medical check-up or a 24h monitoring for medical reasons. The data could be measured directly by sensors, named primary data, or be calculated from the sensor data, named secondary data. During medical check-ups, the patient is usually instructed to perform specific activities in a laboratory environment where several sensors with skin contact can be connected by cables to analysing devices. For sport exercises, outdoor activities and/or 24h monitoring wearable devices are used comprising a limit number of sensors and a data storage unit.
Wristwatch like wearable devices comprising a data storage/processing unit, a display, means for wireless data exchange and a number of sensors are known. The wearable devices are especially designed for specific activities such as cycling, jogging, fitness or weight management and number and kind of sensors are adapted to the specific activity. For instance, a wearable device S725 from POLAR-Germany dedicated for cycling determines the velocity/moved distance via the turning frequency of a wheel with a known circumference, not applicable for jogging. A wearable device S625X from POLAR-Germany for jogging determines the velocity via a step frequency meter not applicable for cycling. When performing different kind of activities with one wearable device, the analysis of data from non-specific sensors can only yield an averaged result, although the measured data strongly vary for different kind of activities.
The object of the present invention is to provide a wearable device able to correlate the activity data to specific activities and therefore to characterize different activities individually.
The object is achieved by a wearable device comprising at least two measuring devices providing primary data, a processor and a memory. The processor is

designed for calculating secondary data from the primary data and for calculating reference data from the primary and/or secondary data as well as for comparing the reference data with at least two specific data patterns to automatically recognize an activity. The memory is designed for storing the primary, the secondary data and the at least two specific data pattern each assigned to a certain activity. The automatic recognition of a performed activity enables a direct correlation of primary and/or secondary to a certain activity and allows a data analysis for different activities individually.
One embodiment shows a wearable device designed for measuring primary and secondary data corresponding to at least two of the following data classes comprising heart rate, respiration, heat flux, body-temperature, bioelectric impedance, oxygen intake, calorie expenditure, step frequency, GPS signals, environmental temperature, vertical and horizontal acceleration, time, time intervals, velocity and skin humidity. Here, the data classes correspond to primary data measured by a specific measuring device (e.g.: heart rate measured by a heart rate monitor) and to secondary data resulting from a specific set of primary data (e.g.: for instance velocity resulting from GPS signals and time). The GPS signals denote the position coordinates of the global positioning system to identify the actual position.
Significantly different specific data pattern enable the recognition of an activity. In one embodiment the specific data pattern for jogging comprising the heart rate with minor variations over long time intervals, the velocity between 7km/h and 25km/h, periodic vertical and minor horizontal accelerations and a constant step frequency over long time intervals.
In another embodiment the specific data pattern for cycling comprising the heart rate mainly constant within medium time intervals, the velocity between lOkm/h and 90km/h, discrete horizontal accelerations, negligible vertical accelerations and no step frequency.
In another embodiment the specific data pattern for water sports
comprising the heart rate with minor variations over medium time intervals, the velocity below 20km/h, low and periodic accelerations, no step frequency and high skin humidity.
In another embodiment the specific data pattern for ball games

comprising the strongly varying heart rate, the velocity between Okm/h and 30km/h, which is strongly varying, strongly varying horizontal and vertical accelerations as well as step frequency during short time intervals.
In another embodiment the specific data pattern for fitness sports comprising the heart rate with small variations within medium time intervals, the velocity below 5km/h, periodically varying horizontal and vertical accelerations during short time intervals and minor step frequency variation during medium time interval.
The specific data patterns comprise statistical quantities such as mean data value, highest and lowest value and data spread within time intervals and overall data spread of data classes and corresponding spectral properties, e.g Fourier transformation of data, characterising a specific activity. The number of specific data pattern is not limited to the claimed specific data pattern and can be enlarged on demand.
In one embodiment the specific data pattern comprises activity specific desired upper and lower limits for at least one data class. Desired limits of the same data class can be different for different activities. Desired limits can originate from medical reasons (for instance an upper limit for heart rate for people suffering from a heart disease) or from individual training goals.
In one embodiment the wearable device is provided with a user interface to request an activity assignment by the user in case of performing a not automatically recognized activity and means to receive the assignment made by the user in order to assign the activity data with a specific activity. For an accurate activity monitoring, it is important to compare all data sets of the same activity, therefore all stored data have to be assigned by an activity. Here, data sets denote equally assigned data from different time periods.
In another embodiment the processor calculates new specific data pattern from the user-assigned primary and/or secondary data to recognize the user-defined activity automatically for the future. The larger amount of specific data pattern increases the probability to recognize an activity and therefore improves the user convenience.
In another embodiment the user interface is designed for inserting a reassignment of an automatically recognized activity by an user and the processor is

designed for re-assigning the primary and/or secondary data.
In another embodiment the wearable device further comprises a computer interface to exchange or add data and/or specific data pattern assigned to certain activities. Activity data can be loaded to a computer for further processing, e.g. data monitoring or analysing of the effectiveness of training concepts or other purposes. Also new data comprising weight, age or height, and/or adapted activity specific data patterns can be loaded from a computer. With a larger number of specific data patterns and/or adapted patterns the probability of a successfully executed activity recognition will be larger. New and/or adapted activity related data patterns could also comprise new and/or adapted desired data ranges and/or activity schedules according to a changed training status and/or according to medical advices.
The different additional features of the different embodiments could be realised also combined in one embodiment.
The invention also relates to an activity recognition method for a wearable device comprising the following steps:
measuring primary data as a function of time,
storing the primary and/or secondary data as a function of time,
loading the primary and/or the secondary data and the specific data patterns,
calculating reference data from primary and/or secondary data,
comparing the reference data with the specific data patterns to automatically recognize an activity,
assigning the primary and/or the secondary data with the recognized activity,
storing the assigned data,
analyzing the assigned data, and
adapting the specific data pattern according to the analyzed assigned data,
wherein an activity is recognized when a probability of correspondence between the reference data and one specific data pattern assigned to a certain activity is above a certain limit. The data analysis and the adaptation of the specific data pattern will be performed after changing the specific activity or switching off the active status

of the wearable device.
In one embodiment the activity recognition method further comprises a calculation of secondary data (e.g. velocity) from the primary data.
In another embodiment the activity recognition method further comprises
sending a request to a user to assign a not recognized activity,
receiving an user-assignment,
assigning the primary and/or secondary data with the user-assignment,
calculating a new data pattern for the user-assigned activity, and
storing the user-assigned data and the new data pattern specific.
This guarantees, that there are no primary and/or secondary data, which cannot be correlated to and/or analyzed with assigned data from the same activity. A not recognized activity denotes the situation, where the probability of correspondence to the reference data is below a certain limit for all available specific data pattern.
In another embodiment the automatic recognition is interrupted for a user-defined period comprising the following steps
starting the user-defined period via the user interface,
inserting an assignment of the currently performed activity by an user,
assigning all further primary and/or secondary data with the user-assignment,
storing the user-assigned data,
leaving the user-defined period via the user interface,
loading of user-assigned data from the user-defined period,
calculating of new specific data pattern, and
storing the new specific data pattern.
Here, the wearable device will be taught to recognize certain activities, where no specific data patterns are currently available.
The assignment of data to specific activities can especially be used for monitoring sport competitions combining different kinds of sport activities such as triathlon (swimming, cycling and jogging) or any other combinations. This invention enables the analysis of specific sport activities of such competitions separately.
The same advantage can be used during 24h monitoring for medical reasons. In this case, a correlation between measured data and every day activities can

be made and critical activities can be identified with respect to desired data ranges. For not very specific or short-term daily activities the user-assignment and/or the reassignment of activities via the user interface can be used to create an activity record of a certain period of time. With the invented wearable device it would be possible to train the daily behaviour of people with respect to identified critical activities.
In the following, the invention will be described in more details with reference to the accompanying drawings, in which
Fig. 1: shows schematic view of the wearable device
Fig.2: shows further components of the wearable device
Fig.3: flow diagram of the activity recognition method
Fig.4: flow diagram of the user-assignment of an activity
The wearable device is shown in fig. 1 in a schematic view. In this embodiment five measuring devices 2 to 6 are connected to a processor 1, e.g. to measure heart rate 2, vertical and horizontal acceleration 3, step frequency 4, time 5 and GPS signals 6. The connection between measuring device and processor can be realized by wire or wireless. The number of measuring devices and kind of measured data classes can differ from the given example in fig.l. The measuring devices continuously measure primary data and transfer the data to the processor 1. The processor 1 is designed for calculating secondary data from the primary data and to calculate reference data from the primary and/or secondary data, to store the primary and/or secondary data in a memory 7 and to recognize a performed activity by comparing the reference data with activity specific data pattern. The memory can be any kind of storage means comprising a shock-proofed solid-state memory.
The specific data pattern comprises activity specific upper and lower values and statistical quantities such as mean data value, data spread within time intervals and overall data spread and corresponding spectral properties (e.g. Fourier transformation of data) of activity characterising data classes. The number of data classes required to identify a specific activity could be less than the number of

measured primary and/or calculated secondary data classes. In another embodiment the specific data pattern can further comprise desired upper and lower limits, which do not correspond to the upper and lower values characterising a specific activity. The desired upper and lower limits serve as a guideline to perform the activity in such a way, that the corresponding data are within the desired limits. Such desired limits can be defined for any primary and/or secondary data class.
Fig. 2 shows another embodiment of the wearable device, which further comprises an user interface 8 designed for requesting and receiving an user-assignment of not automatically recognized activities. The request to assign a currently performed activity can be made by visual signal means via a display 8c and/or sensible and/or audible signals means 8b. The user assigns the currently performed activity and the non-assigned primary and/or secondary data will be assigned with the user-assignment. In fig.2 the user inserts his assignment manually via keys 8a. Alternatively, the user-assignment can be inserted via voice means or via special pens or any other manual means.
In another embodiment the user interface displays the automatic recognition of the performed activity to enable the user to correct or to overwrite the automatically made activity assignment. Since, the recognition is made by ranking of probabilities there will always be a chance to make an assignment not desired by an user. Furthermore, the overwriting is a possibility for an user to make a more specific activity assignment.
In another embodiment the user interface displays some of the current primary and secondary data and the corresponding desired upper and lower limits. The user interface further gives feedback to the user via the signal means, whether the current primary and secondary data are within the desired upper and lower limits. The user can further change the activity specific desired upper and lower limits via the user interface. In case of not automatically recognized activities, the processor 1 assigns the non-assigned primary and/or secondary data with user-made activity assignment and stores the assigned data in the memory 7. Additionally, the processor 1 calculates new specific data pattern corresponding to the user-assigned activity and stores the new specific data pattern in the memory 7. Additionally desired upper and lower limits can be inserted via the user interface for the new specific data pattern. During the next

recognition procedure the formally not-recognized activity will be automatically recognized. In case of inserted new desired upper and lower limits, the corresponding specific data pattern will be adapted and stored in the memory. During the described procedure, the measuring devices 2 to 6 continuously provide primary data and transfer the measured data to the processor 1 and the processor 1 is designed for simultaneous calculation of secondary data from the measured primary data.
In another embodiment the specific data pattern comprises an activity schedule, when and how to perform a specific activity. The user interface reminds the user perform an activity according to the activity schedule.
The specific data pattern comprises important data classes with specific data properties to be compared with reference data of the same classes. An activity recognition can be difficult or impossible, if one or more measuring devices do not provide the required primary data classes to calculate the corresponding reference data. In another embodiment the processor 1 advises the user interface 8 to inform the user about missing data or data outside any reasonable range from one or more measuring devices by signal means. The user can check the operating condition of the measuring devices and can additionally insert a user-assignment of the currently performed activity.
In another embodiment the wearable device further comprises a computer interface 9 to exchange or add data and/or specific data pattern assigned to certain activities, as shown in Fig.2. The data transfer can be executed via cable connection or by wireless means to a local computer of the user and/or to a computer located far away, for instance in a medical centre or in an escorting car. The stored primary and/or secondary data can be transferred from the memory 7 via the computer interface 9 to a computer 10 for further analysis, for example to evaluate the training effects and/or to monitor the daily variation as a function of specific activities and/or to modify the activity specific desired upper and lower limits of certain data classes. It is further possible to load personal data like weight, height and age from the computer 10 to the memory 7 via the user interface and/or computer interface 9 for calculating secondary data. It may also be possible that a weighing machine is connected to a computer, which updates weight data during data exchange with the wearable device. The computer interface is also designed for loading new or modified specific data

pattern to be stored in the memory. The specific data pattern can also include an activity schedule comprising information at which time which activity and how an activity shall be performed. Such an activity schedule can also support the activity recognition Referring to fig. 3, the activity recognition method of the wearable device comprises the following steps. Before entering an active status to perform the measurements a device set-up procedure checks the data connection to the present measuring devices 11. The start of the measurements can be triggered by receiving data and/or by a start command inserted via the user interface. After starting the measurements the primary data are measured periodically as long as the wearable device is in an active status 12. The primary data and/or secondary data are stored 13 in the memory 7. Before measuring new data, it is checked 14, whether the amount of data is sufficient to execute the activity recognition procedure. If the amount of data is too less, new data will be measured 12. If the amount of data is above a certain limit, the data not assigned to a specific activity and the stored specific data pattern are loaded to the processor 15. During the activity recognition procedure 16, the processor calculates reference data comprising statistical quantities such as mean data value, highest and lowest value, data spread within time intervals and overall data spread of data and corresponding spectral properties from the primary and/or secondary data. An algorithm determines the correlation probability between the reference data and the loaded specific data pattern. Since some data classes will show better correlation than others, the impact of each data class will be weighted as to form a probability scale, thus to enable comparison between activities that rely on different sets of classes. If there is a final correspondence between reference data and one specific data pattern, the activity is herewith automatically recognized and the primary and/or secondary data are assigned with the recognized activity. Thereby, different approaches can be applied to recognize a certain activity, comprising a binary approach and/or a Viterbi-like approach. All approaches are based on calculated correlation probabilities. The binary approach selects the specific data pattern with highest correlation probability (instantaneous probability IP) for a fixed time interval. The Viterbi-like approach preselects a reduced number of more-likely specific activities (higher IP) and continues with the calculation of instantaneous probabilities (IP) over time. From the sequence of instantaneous probabilities a cumulative probability (CP) is calculated. With increasing

amount of data, the difference of the CP's for the most likely specific data pattern and the second-likely specific data pattern will increase. The procedure continues until the difference in CP between the most likely and the second likely specific data pattern is above a certain limit. There also may other procedures to recognize a specific activity.
After assigning the primary and secondary data with the recognized activity, the assigned data are stored 17 in the memory 7. In case of continued specific activity 18, the described procedure is repeated. In case of another recognized activity or a user-defined end of the current activity, the stored data assigned to the previous activity are loaded to the processor for data analysis 19. If necessary, the specific data pattern is adapted 20 and stored 21 in the memory 7. In case of further continued activities 22, the procedure continues with data measuring 12. The whole procedure stops, when the active modus of the device will be switched off.
If the primary data classes allow the calculation of secondary data, the measuring step 12 further comprises the calculation of secondary data. All further steps comprising data storage, data loading, data handling and data analyzing steps cover both, primary and secondary data.
In another embodiment the activity recognition method further comprises the following steps in case of a not automatically recognized activity during the activity recognition procedure 16, as shown in fig.4. If the comparison of reference data with all available specific data pattern 23 does not lead to a recognition of a certain activity 24 (case "no") a request 25 is sent to the user by signal means 26 to assign the not recognized activity. Via input means 28 the user assigns the non-recognized activity. After receiving the user-assignment 27, the processor assigns the currently non-assigned data with the user-assignment 29, calculates new specific data pattern corresponding to the user-assignment 30 and stores assigned data and new calculated data patter 17. During the following activity recognition procedure, the formally not recognized activity will now be automatically recognized.
In another embodiment the user can start a user-defined period via the user interface regardless of a successfully performed automatic activity recognition. During the user-defined period, no comparison to specific data pattern will be performed. The primary and/or secondary data will be assigned with the user-assignment as long as the user-defined period continuous. After leaving the user-

defined period the processor will again perform the activity recognition procedure and new specific data patter corresponding to the user-assignment will be calculated and stored in the memory.
The embodiments of the invention explained above represent examples of how it may be realized and are not designed to restrict the scope of the invention.

WE CLAIM:
1. A wearable device comprising
- at least two measuring devices (2,3,4,5,6) providing primary data,
- a processor (1) designed for calculating secondary data from the primary data and forcalculating reference data from the primary and/or secondary data and for comparingthe reference data with at least two specific data patterns to automatically recognize anactivity, and
- a memory (7) designed for storing the primary data, the secondary data and the at leasttwo specific data pattern each assigned to a certain activity.

2. A wearable device according to claim 1, wherein the primary and/or thesecondary data correspond to at least two of following data classes comprising heartrate, respiration, heat flux, body-temperature, bioelectric impedance, oxygen intake,calorie expenditure, step frequency, GPS signals, environmental temperature, verticaland horizontal acceleration, time, time intervals, velocity and humidity.
3. A wearable device according to claim 1, wherein the specific data patternassigned to jogging comprising a heart rate with minor variations over long timeintervals, a velocity varying between 7km/h and 25km/h, a periodic vertical and a minorhorizontal acceleration and a constant step frequency for jogging,
4. A wearable device according to claim 1, wherein the specific data patternassigned to cycling comprising a heart rate mainly constant within medium timeintervals, a velocity varying between lOkm/h and 90km/h, a discrete horizontal and anegligible vertical accelerations and no step frequency.
5. A wearable device according to claim 1, wherein the specific data pattern

assigned to water sports comprising a heart rate with minor variations over medium time intervals, a velocity below 20km/h, low and periodic accelerations, a high skin humidity and no step frequency.
6. A wearable device according to claim 1, wherein the specific data patternassigned to ball games comprising a strongly varying heart rate, a velocity stronglyvarying between Okm/h and 30km/h, a strongly varying horizontal and verticalacceleration during short time intervals, a strongly varying step frequency.
7. A wearable device according to claim 1, wherein the specific data patternassigned to fitness sports comprising a heart rate with small variations within mediumtime intervals, a velocity below 5km/h, a periodically varying horizontal and verticalacceleration during short time intervals and a minor varying step frequency during shorttime intervals.
8. A wearable device according to claim 1, wherein the specific data patterncomprises desired upper and lower limits for at least one data class.
9. A wearable device according to claim 1, further comprising a userinterface (8) designed for requesting and receiving the assignment of not automaticallyrecognized activities by an user.
10. A wearable device according to claim 9, wherein the processor (1) isdesigned for calculating new specific data pattern corresponding to activities assignedby the user.
11. A wearable device according to claim 9, wherein the user interface (8) isdesigned for inserting a re-assignment of an automatically recognized activity by anuser and the processor (1) is designed for re-assigning the corresponding primary and/orsecondary data.

12. A wearable device according to claim 1, farther comprising a computerinterface (9) to exchange or add data and/or specific data pattern assigned to certainactivities.
13. Activity recognition method for a wearable device according to claim 1,comprising

- measuring the primary data as a function of time,
- storing the primary and/or the secondary data as a function of time,
- loading the primary and/or the secondary data and the specific data patterns,
- calculating reference data from the primary and/or secondary data,
- comparing the reference data with the specific data patterns to automatically recognizean activity,
- assigning the primary and/or the secondary data with the recognized activity
- storing the assigned data,
- analysing the assigned data, and
- adapting the specific data pattern according to the analyzed assigned data.

14. Activity recognition method according to claim 13, further comprisingcalculation of secondary data from the primary data.
15. Activity recognition method according to claim 13, further comprising

- sending a request to a user to assign a not recognized activity,
- receiving an user-assignment,
- assigning the primary and/or secondary data with the user-assignment,
- calculating a new data pattern for the user-assigned activity,
- storing the user-assigned data and the new data pattern specific.
16. Activity recognition method according to claim 13, wherein theautomatic recognition is interrupted for a user-defined period comprising the followingsteps
- starting the user-defined period via the user interface,

- inserting an assignment of the currently performed activity by an user,
- assigning all further primary and/or secondary data with the user-assignment,
- storing the user-assigned data,
- leaving the user-defined period via the user interface,
- loading of user-assigned data from the user-defined period,
- calculating of new specific data pattern, and
- storing the new specific data pattern.

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Patent Number

258723

Indian Patent Application Number

516/CHENP/2007

PG Journal Number

06/2014

Publication Date

07-Feb-2014

Grant Date

03-Feb-2014

Date of Filing

06-Feb-2007

Name of Patentee

KONINKLIJKE PHILIPS ELECTRONICS N.V.

Applicant Address

GROENEWOUDSEWEG 1, NL-5621 BA EINDHOVEN,

Inventors:

#	Inventor's Name	Inventor's Address
1	AERTS, STEVE G.,E	C/O PHILIPS INTELLECTUAL PROPERTY & STANDARDS, GMBH WEISSHAUSSTR. 2, 52066

PCT International Classification Number

G06F 3/06

PCT International Application Number

PCT/IB2005/052082

PCT International Filing date

2005-06-24

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	04103218.6	2004-07-07	EUROPEAN UNION