FI127898B - Sensor module for personal performance monitoring and related arrangement and method - Google Patents

Abstract

The invention relates to a sensor apparatus, comprising: a sensor unit, a wireless communication unit configured to directly or indirectly transmit and receive data to and from an external source, and means for receiving identification information from a sports item while being attached to the sports item, wherein the apparatus is initiate identification of the sports item in response to a trigger from an identification activation element in the sports item.

Description

Sensor module for Personal Performance Monitoring and related Arrangement and Method

Field of the Invention

The invention relates to devices used in personal performance monitoring during sports acts, for example. In particular, the invention relates to a sensor module connectable to a sports item. The invention also relates to a sports item identification apparatus and a method.

Background of the Invention

It is well known to measure electromyographic (EMG) or electrocardiographic (ECG) signals from different parts of a human body during sports performances, the most common example being heart beat measurement using a surface ECG sensor-containing heart beat belt with a wireless transmitter module for communicating with a monitoring device, such as a sports watch. EMG signals can be measured also from other parts of the body to monitor muscle activity in legs, arms, middle body or torso, for example. Such measurements can be carried using sensors for example integrated into sports garment. It is also known to integrate signal transmitter modules into the belt or garment or to provide the module as a snap-on module to an assembly zone on the garment or belt. The module can be removed for washing the garment, for example.

US20150182841 discloses a sensor module, which is capable of distinguishing the place of mounting thereof so that it may adapt its internal operation accordingly, and a sports system or arrangement comprising such sensor module and a sports item with a mounting zone capable of indicating its identifier to the sensor module once being mounted thereon.

Summary of the Invention

The invention is defined by the features of the independent claims. Some specific embodiments are defined in the dependent claims.

According to an aspect of the present invention, there is provided a sensor apparatus, comprising: a sensor unit, a wireless communication unit configured to directly or indirectly transmit and receive data to and from an external source, and means for receiving identification information from a sports item while being attached to the sports

20175497 prh 02 -06- 2017 item, wherein the apparatus is configured to initiate identification of the sports item in response to a trigger from identification activation means in the sports item.

According to another aspect of the present invention, there is provided a sports item identification apparatus, comprising: an identification unit comprising identification information stored thereon about the sports item, a contact interface for communicating the identification information from the identification unit to a sensor apparatus connected to the contact interface, and an identification activation element for triggering identification of the sports item by the sensor apparatus.

According to a still further aspect of the present invention, there is provided a method for facilitating monitoring of physical performance of a person, comprising detecting, by a sensor module, a trigger from identification activation means in a sports item connected to the sensor module, initiating identification of the sports item in response to the trigger, adapting internal operation of the sensor module on the basis of an identifier received from the sports item, and measuring performance-related parameters on the basis of a signal from the sports item.

According to an embodiment, the means for receiving identification information comprise a host or master identification circuit for detecting presence of a slave identification circuit in the sports item comprising the identification activation means.

According to an embodiment, at least one switch is applied to connect the host identification circuit to the slave identification circuit.

According to an embodiment, a set of data processing instructions corresponding to different identifiers is stored, and data processing instructions are selected from the set of data processing instructions on the basis of an identifier received from the sports item.

Next, embodiments of the invention and advantages thereof are described in more detail with reference to the attached drawings.

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Brief Description of the Drawings

Fig. 1 shows a schematic side view of a sensor module and mounting zone on a sports item according to some embodiments of the invention.

Fig. 2 shows a schematic block diagram of a sensor module according to some embodiments of the invention.

Fig. 3a illustrates elements of the sensor module and a sports item identification device according to some embodiments of the invention.

Fig. 3b illustrates a slave identification circuit arrangement according to an embodiment of the invention.

Fig. 4 illustrates a system according to an embodiment.

Fig. 5 shows a flow chart of the present method according to an embodiment.

Figs. 6A and 6B illustrate monitoring systems according to some embodiment with sensor modules attached to sports garments.

Fig. 7 shows another exemplary monitoring system with sensor modules attached to 15 garment, tennis racket and shoe.

Detailed Description of Embodiments

DEFINITIONS

The term “sports item” covers various pieces of garment and other items used when performing sports. In particular, the term covers personal clothing and other wearable 20 items, such as heart rate belts, and personal sports equipment in direct possession of the person performing the sport. The term also covers other sports items that are at least temporarily in the vicinity of the person during the performance, i.e., can join the personalarea network of a central unit (monitoring unit) of the person. An example of such item is a golf bag. Further examples are given in the detailed description. “Sports” should be taken 25 broadly to cover all kinds of physical activities.

20175497 prh 02 -06- 2017 “Mounting zone” is zone on a sports item dedicated or at least suitable for a sensor module according to the invention. A mounting zone comprises both physical and electronic connection means for the sensor module to both remain attached to the sports item and to be able to electrically communicate with one or more sensors and/or actuators therein.

“ID” or “identifier” in a sports item is a piece of machine-readable data which indicates the type of the sports item in particular in respect of number and type(s) of sensor(s) and/or actuator/s) therein for allowing a sensor module attached to the mounting zone to utilize them. The identifier can be coded in any suitable machine-readable format encoding a specific value. Therefore, references to the “identifier” can be considered as references to the “value of identifier”, where applicable. The identifier can for example be a sequence of characters bit-encoded and stored in a semiconductor memory unit.

“Processing instructions” means computer-readable code (typically arranged in a single data file) with data content, which can be interpreted by the sensor module to change its operation to correspond with the requirements of a sports item with a specific ID. The instructions may have effect for example on

- sensor signal (input signal) processing characteristics (e.g. amplification characteristics) of the module,

- actuator control signal (output signal) processing characteristics,

- internal sensor or actuator data processing algorithms,

- data interface specifications with a sensor and/or actuator, and/or

- wireless data communication characteristics with a monitor unit.

The processing instructions may comprise a set of configuration values (passive instructions), computer-executable code (active instructions), or both, in a suitable data structure, most commonly in one or more data file. Thus, the processing instructions are sports item -specific software configuration files or applications, which can be utilized or run by the operating system (firmware) of the module.

“Monitoring” means receiving information on the performance using one or more sensors in one or more sports items through one or more sensor modules according to the

20175497 prh 02 -06- 2017 invention. Monitoring is preferably carried out using a wearable monitoring unit, such as a wristop computer, but may be done also using any other computing device capable of communicating with the one or more sensor modules. One option is to use a mobile phone as the monitoring unit.

According to some embodiments, there is now provided an improved apparatus and method for sensor activation. A programmable sensor module for personal physical performance monitoring and/or facilitation may be adapted for mounting to a mounting zone on a sports item. The sensor module may comprise a sensor unit and a wireless communication unit configured to directly or indirectly transmit and receive data to and 10 from an external source, such as a remote monitoring device.

The sensor module may be capable of operating with different types of monitoring applications, such as ECG and/or EMG measurement and movement measurement applications. Such multi-application sensor module may be configured to self-adapt its operation and processing of measurement data on the basis of identification information 15 received from the sports item the module is currently mounted on. Thus, a single detachable sensor module is sufficient to serve for the communication and data processing needs for a large number of different kinds of sports items, provided that they comprise similar mounting zones and similarly readable identifiers. For example, the same module can be used during one training session in a heart rate belt for heart rate signal processing 20 and transmission and in another session attached to muscle EMG sensor-containing clothing for muscle activity detection and activity signal transmission, or even a foot pod or bicycle pod for speed signal processing and transmission, to mention a completely different kind of measurement. Further, it is convenient to build distributed performance monitoring systems with sensors grouped in suitable single-sensor units and/or multi25 sensor groups each serving for a particular purpose and associated with a single communications module.

The sensor module comprises means for receiving identification information from the sports item while being attached to the sports item. Furthermore, the sensor module is configured to initiate identification of the sports item in response to a trigger from an 30 identification activation means or element of the sports item. The sensor module may be configured to detect the identification activation means in the sports item and initiate

20175497 prh 02 -06- 2017 identification of the sports item in response to detecting the element. The initiation of the identification may refer to first detecting if the sports item supports identification. If the sports item does not comprise an ID and identification fimctionality/unit, the sensor module may enter a default operating mode, such as EMG or ECG measurement. The identification activation means may be provided by any element in the sports item causing the sensor module to initiate identification of the sports item, such as a part of an identification circuit in the sports item.

Hence, the identification by the sensor module and related functionality and unit can be activated or waken up only when the identification activation means are attached to and 10 detected by the sensor module, enabling to save energy. Further, when the sports item is identified, the identification functionality and circuit in the sensor module and the sports item may be switched off. This enables to apply the sensor module-sports item interface and same contact terminals for measurement signal detection after identification. The functions of the sensor module may be determined only once attached to the sports item, 15 by reading an identifier of the item and self-adapting the sensor module according to the identifier.

Fig. 1 illustrates a sensor module 310 and sports item 360 according to some embodiments. The sensor module 310 comprises a housing 317 and two electric contact terminals 311 A, 31 IB on outer surface of the housing. In this example, the contact terminals 311 A, 31 IB 20 are in the form of bumps or buttons capable of being snapped into suitable recess counterparts 307A, 307B of a mounting zone 303 of a sports item 360 to provide both attachment and electric connection. There may also be provided separate or additional means to take care of these functions.

The sports item 360 comprises an identification device or apparatus 309 configured to at 25 least identify the sports item for the sensor module 310, which is to be understood broadly to refer to provision of an identifier from the sports item, which may indicate the type of the sports item and/or the measurement signal type provided by the sports item, for example. The identification device 309 may comprise an identification unit comprising memory storing identification information about the sports item, a contact interface for 30 communicating the identification information from the identification unit to the sensor module 310 connected to the contact interface, and identification activation means causing

20175497 prh 02 -06- 2017 a trigger to initiate identification of the sports item 360 by the sensor module when electrically connected to the sensor module. These units may be functional and implemented by circuitry, some embodiments illustrated later.

In the example of Figure 1, the identification device 309 is electrically connected to the counterparts 307A, 307B. In this example, the counterparts 307A, 307B are additionally connected to sensor pads 301 A, 301B using suitable wirings 305A, 305B in the sports item 360 to provide an EMG or ECG signal to the module 310. It is to be appreciated that there may be more than two contacts between the sports item 360 and the sensor module 310, for example in EMG measurement applications. Additional contacts may be taken into use in the sensor module 310 when needed, depending on the sports item in question.

Thus, when the module 310 is connected to the mounting zone 303, after the trigger from the sports item, it is able to connect the identification device 309 and receive the identifier stored therein. The module 310 may send commands, such as a memory read command to the identification device to read the identifier.

As an alternative to the illustrated wired sports item identifier access, the access may take place wirelessly. For example, there may be a radio-frequency identification (RFID) tag, such as a near-field communication (NFC) tag embedded in the mounting zone 360 and the module 310 contains a corresponding RFID/NFC reader unit for reading the identifier. In this case, the contact terminals of the module serve for sensor signal reading only.

If the sports item 360 contains a local processing unit for processing sensor and/or actuator data, the identification device or at least part thereof can be integral with that processing unit or memory used by the processing unit.

Fig. 2 illustrates main internal components of a sensor module 310 according to some embodiments. The module 310 comprises a processing unit 312 which controls and processes the input and output of the module 310 via a wireless communication unit 314 (to and from a monitoring unit) and the contact terminals 311 A, 31 IB towards the identification device 309 in the sports item. There may provided a separate input and/or output unit (not shown) between the processing unit 312 and the contact terminals 311 A, 31 IB, the input and/or output unit comprising necessary circuits for amplification of the input signals, if needed.

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The processing unit 312 may comprise a microcontroller operated by firmware, and an amount of memory for storing i.a. processing instructions. One example of a suitable microcontroller is a Nordic Semiconductor nRF52832 comprising 32 bit ARM® Cortex®M4 with 64 kB on-chip RAM and 512 kB on-chip FLASH, an external memory and a 128 5 kB EEPROM (Microchip AT24CM01) link. There may also be a separate memory circuit (not shown) for storage of larger amounts of data. Tasks of the processing unit 312 include performing internal data processing actions of the sensor module 310 and controlling communication to/from the monitoring unit and the sports item the module is attached to. The processing unit may execute processing instructions selected on the basis of the ID 10 received from the sports item.

The communication unit 314 comprises an antenna and necessary electronics for amplification of the received and transmitted signals and for coupling with the processing unit 312. The communication unit 314 can utilize any desired wireless communication protocol. The protocol is preferably a time slot-based protocol. Examples of suitable protocols include like Bluetooth LE and ANT+, using direct-sequence spread spectrum (DSSS) modulation techniques and an adaptive isochronous network configuration, respectively. A thorough description of the necessary hardware for various implementations is available e.g. from the Texas Instrument®’s handbook “Wireless Connectivity” which includes IC circuits and related hardware configurations for protocols 20 working in sub-1- and 2.4-GHz frequency bands, such as ANT™, Bluetooth®, Bluetooth low energy, RFID/NFC, PurePath™ Wireless audio, ZigBee®, IEEE 802.15.4,ZigBee RF4CE, 6L0WPAN, Wi-Fi®, GPS.

Accordingly, the wireless communication unit 314 may transmit and receive data to and from an external source, such as a server or a terminal device or both either directly or 25 indirectly. For example, the sensor module 310 may communicate with a server via a wireless link 300 wither directly or through a terminal device, such as a smart phone, tablet, smart watch, etc. The sensor module 310 is powered by a power source 316, most typically a battery. There are also means (not show) for charging or allowing for changing the battery. In some embodiments, the element 316 is an energy harvesting collector,

20175497 prh 02 -06- 2017 employed to power the module 310 or a part thereof. For example, application of new semiconductor materials, such as new class III-V semiconductors, may enable very low current consumption.

The sensor module 310 may also include at least one sensor 318, such as EMG or ECG sensing element, a movement sensing element, or other type of sensor for personal performance or condition measurement. The sensor is functionally connected at least to the processing unit 312 and may be configured to generate measurement data on the basis of signal from the sports item and output the measurement data for the processing unit 312 for processing or for transmission to an outside processor for processing. In an embodiment, the movement sensing element comprises an accelerometer, particularly a multi-axis sensor, such as a nine-axis sensor comprising three-axis acceleration sensor, three-axis magnetic sensor, and a three-axis gyroscope, a piezoelectric element configured to deform in response to the deformation of fabric of a wearable garment during movements, a gyroscope, a magnetometer, a pressure sensor, a temperature sensor, or any combination of the afore-mentioned. Some other examples that the sensor module may be configured to receive include acceleration signal, power signal, speed signal, and position signal.

It is to be noted that Figure 2 is simplified and various modifications and further elements and/or connections may be provided. For example, the sensor 318 may be directly connectable to the terminals 311 A, 31 IB.

Figure 3a illustrates further details of the sensor module 310 and the sports item identification device 309 according to some embodiments. The sensor module 310 may comprise a host or master identification or authentication circuit 321 for identifying or authenticating the sports item. The master identification circuit 321 may be caused, in response to the trigger from the sports item identification device 309, to communicate with a slave identification circuit 327 in the sports item 309 comprising the activation element. In some embodiments, the sensor module 310 and the identification 309 are configured to apply a signal from the master identification circuit 321 both for powering the slave

20175497 prh 02 -06- 2017 identification circuit 327 and signalling with the slave identification circuit during the identification. For this purpose, a 1-Wire or similar system may be applied.

A microcontroller unit (MCU) 322 may comprise at least some of the features of and be configured to carry out at least some of the functions of the processing unit 312. In the example of Figure 3a, the sensor module 310 comprises an ECG sensor, and ECG analogue front end (AFE) 323 represents measurement circuit for ECG signal received from measurement electrodes 326 of or connected to the sports item identification device 309. In such embodiments the interface 328 may comprise two terminals (not shown) from a heartrate belt or similar to the ECG AFE 323. However, it is to be appreciated that instead of, or in addition to, ECG monitoring, other sensor types may be applied in the system of Figs 3 a and 3b.

The sensor module 310 may comprise a switch 324 controllable to connect the host identification circuit 321 to the identification device 309 and further to the slave identification circuit 327 via an interface 328. The MCU 322 may be configured to control 15 the switch 324 to connect the master ication circuit 321 to the sports item identification device 309 in response to the trigger from the sports item identification device 309 and control initiation of the identification of the sports item by the master identification circuit

321.

In an embodiment, the processing unit 312, 322 is configured to be activated by the sensor 20 unit 323 circuit in response to the trigger from the sports item identification device 309.

The switch 324 may be configured as a default to connect the ECG AFE 323 to the sports item interface, such as the contact terminals 311 A, 31 IB. In case of ECG applications and other applications in which the sensor is applied against skin, the sensor unit circuit and the processing unit may be configured so that small impedance caused by human body to the 25 measurement electrodes 326 wakes up the electronics and further the processing unit 312,

322, which then initiates the identification (by the master identification circuit 321). This enables to further save power when the sensor module is not used. In response to activation

20175497 prh 02 -06- 2017 of the processing unit, the processing unit may cause sensing of the presence of the activation element, e g. by controlling the switch 324 and/or the master identification circuit 321.

The sports item device 360 identification device 309 may comprise a switch 325. The switch 325 in some embodiments may as default mode of operation connect the interface

328 to the measurement electrodes 326 and may provide the trigger for identification for the attached sensor module 310. The switch 325 is further configured to connect the contact interface 328 of the sports item 309, such as the counterparts 307A, 307B, to the slave identification unit 327 for initiating the identification of the sports item by the master 10 identification circuit 321 of the sensor module 310. The switch 325 may be configured to cause this connection in response to a signal from the sensor module, in a further embodiment in response to a powering and communicating signal from the master identification circuit 321.

The processing unit 312, 322 is configured to cause connecting of the sensor unit 318, 323 15 to the contact interface 328 of the sports item (via at least one switch 324) for receiving measurement signal after identification of the sports item or in response to failing to detect or receive a response from the slave identification circuit 327. The switch 325 may be configured to connect the contact interface 328 to at least one measurement electrode 326 in response to a signal from the slave identification circuit 327 or the sensor module 310 20 after authentication of the sports item.

An example of interoperation of the sensor module 310 and the sports item identification device 309 according to an embodiment illustrated in connection with Figure 3a is as follows: As the user wears a belt comprising the identification device 309, the electrodes in the belt are as default connected to the ECG AFE 323, which is configured to detect the 25 finite impedance caused by the human body. In response to this, the MCU 322 is activated and it controls the switch 324 to a state in which the ECG measurement channel is closed and the master identification circuit 321 is connected to the identification device 309. 112

20175497 prh 02 -06- 2017 wire signalling or similar signal from the master circuit 321 powers the switch 325, which causes the switch 325 to detach the electrodes 326 and connect the interface 328 to the slave identification circuit 327. The 1-wire signal activates the slave identification circuit 327 for the identification. When the identification is completed, the 1-wire signalling ends 5 upon which the switch 325 returns to (default) measurement and high-impedance mode.

Only very small current leakage property is allowable from the switch to avoid attenuation of the low-voltage measurement signal.

With reference to Figure 3b, in some embodiments the identification activation means comprise at least part of a slave identification circuit comprising an actively coupled resistor 329. In an embodiment, the identification activation element is part of the slave identification circuit 327. Such embodiments enable to trigger identification at the attached sensor module in connection with sensor applications not including human body contact and electrodes. Hence, the sensor module 310 can support attachment to various different sports item and sensor types and perform identification with minimal power consumption.

Examples of currently available components that may be used for implementing the elements of Figures 3a and 3b include, but are not limited to: Authentication master 321: Maxim Integrated DS24L65, authentication slave 327: Maxim Integrated DS28EL15, signal switch 324: Maxim Integrated MAX4636, ECG analog front end 323: Maxim Integrated MAX30001, MAX30003 orMAX30004.

In an embodiment, the sensor module 310 is connected to a network of sensors, such as a personal area network (PAN) of sensors. The sports item 309 may comprise or be connected to a set of networked sensors. Block 326 may thus be replaced by a sensor network connected to the switch 325. An example of such wired sensor network is provided in US9555286.lt is to be appreciated that Figures 3a and 3b illustrate just some embodiments for implementing the present functionality related to triggering identification of the sports item. For example, the switch 325 is not required if the sports item 309 does not comprise the body measurement electrodes.

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A sports monitoring system may comprise the sensor module 310 and the sports item identification device 309 according to at least some of the embodiments illustrated above. Further, the system may comprise a monitoring unit capable of wirelessly communicating with the sensor module so as to receive sensor data from the sensor module.

FIGURE 4 illustrates an example of one foreseeable system. The sports item 360 may communicate with a cloud or server 480B directly via a wireless link 401 provided by the wireless communication unit 314. Alternatively, the traffic may be routed through a terminal device 420, such as a smart watch or smart phone or similar, via a wireless link 402 between the sports item 360 and the terminal device 420 and wireless link 404 between the terminal device 420 and the cloud or server 480B. Particularly, data may be delivered from the sensor module 310 first to a terminal device 420, such as a smart watch, and then directly or via a second terminal device (not shown), such as a mobile phone, to a web server 480B. In such an embodiment, the first terminal device need not be equipped with a mobile data connection to a web server. Instead, the first terminal device may perform only light processing to the measurement data, whereas the majority of the data processing and traffic to and from a web server may be carried out in a second terminal device better equipped for the task.

Also, the further processing steps and/or transmission of data may be performed at a later stage in respect to the measuring step. Furthermore, the traffic may be routed through 20 another computing device 480A, such as a personal computer or another server via a wireless link 403 between the terminal device 420 and the computing device 480A and wireless link 405 between the computing device 480A and the cloud or server 480B. Other networks are foreseeable including replacing one or several links with wired connections.

By virtue of the wireless communication unit 314 the program controlling the sensor module 310 may be stored on a built-in memory or an external memory on an external device, such as a terminal device, e.g. a smart phone etc., or a server or cloud or similar.

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Figure 5 illustrates a method according to some embodiments. The method may be applied in the sensor module, and further by the processing unit 312, 321. The processing unit is attached to a sports item, such as the sports item 360. A trigger by identification activation means in a sports item identification device, such as the device 309 of Figures 1 and 3a/b, 5 is received or detected 500. The trigger causes initiation 502 of identification of the sports item. The sports item identification device, such as the device 309 of Figures 1 and 3a/b, is then connected. This may be implemented by an appropriate signal which also may power the sports item identification device.

If an identification unit, which may also refer to directly detecting identification information from the identification unit, is detected in block 504, the sports item is identified or authenticated 506. Thus, an ID is received, and there may be an authentication procedure carried out. If no identification element is found, a default operating mode, such as ECG measurement may be entered 510. In an alternative embodiment, the device does not enter a measurement mode but may output an error if the sports item cannot be identified.

After authentication or identification 506 of the sports item, internal operation of the sensor module is adapted 508 according to the received ID and an operating mode associated with a received identifier may be entered 508. Data processing instructions may thus be selected from a set of data processing instructions on the basis of the identifier received from the sports item. The processing instructions may be stored in and/or provided to the sensor module as stand-alone applications, which can be run by the operating system (firmware) of the module. This allows for very generic modules still suitable for a variety of uses to be manufactured.

The sensor module and the identification apparatus can be used with any sports items within a personal-area network of a person. This includes at least all items that the person wears, holds or touches during the performance.

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Fig. 6A shows one example of a system that can take advantage of the invention. The system comprises a first sports garment (shirt) 100A and a second sports garment (shorts) 100B, both containing integrated sensors. The shirt 100A comprises first sensor pads 101 A, 101B positioned to measure heart signal. In the shorts 100B, there are second EMG 5 sensor pads 102A-D are positioned in two groups (102A and 102B / 102C and 102D) against both thighs to measure thigh muscle EMG activity. The heart ECG pads 101 A, 10IB are connected to a first mounting zone 103 A in the shirt 100A using first wirings 105 A. Similarly, the thigh muscle activity EMG pads 102A-D of the shorts 100B are connected to a second mounting zone 103B in the shorts using second wirings 105B.

To the first and second mounting zones 103 A, 103B, there are attached a first and a second sensor module 110A, 110B, respectively, such that they are electrically connected to the first and second wirings 105 A, 105B and further to the first and second sensor pads 101AB, 102A-D, respectively. Both mounting zones 103A, 103B comprise an identification device comprising an identifier, which are received by the sensor modules 110A, 110B to be able to adapt the sensor modules for these particular measurement environments. Thus, the modules 110A, 110B can be identical in hardware and firmware but can change their internal operating instructions to co-operate with the environment they are connected to.

There is also provided a monitoring unit (wristop computer) 120, to which the sensor modules 110A, 110B wirelessly transmit the measurement information received from the 20 sensors after processing in the processing units of the sensor modules 110A, 100B. The monitoring unit 120 may also serve to provide the operating instructions for the modules 110A, 110B based on the identifiers read by the modules 110A, 110B upon request by the modules. The request and transmitting the instructions are preferably also done through wireless communication. Alternatively, the instructions corresponding to the identifiers may be stored in the modules 110A, 110B, whereby no communication with the monitoring unit 120 at the adaptation phase is needed.

To give an example of the adaptation of the modules, the identifier of the shirt 100A can indicate to the module 110A that there is one sensor (two pads) of ECG type connected and that the signal amplification level required is X. The identifier of the shorts 100B can indicate to the module 110B that there are two sensors (four pads) both of EMG type

20175497 prh 02 -06- 2017 connected and that signal amplification level required for both of these is Y. As indicated above, the indication may take place through internal-only adaptation (instructions prestored in the module) or through communication with another device, such as the monitoring unit, a computer or a cloud service.

Fig. 6B illustrates a system otherwise similar to that of Fig. 1A but with the shorts 150B designed in an alternative way. The shorts 150B comprise mounting zones 153A, 153B for sensor modules separately for each leg. The mounting zones 153 A, 153B are connected to EMG sensors 152A-C, 162A-C arranged on each leg, respectively. The illustrates sensors 152A-C, 162A-C are located on the front and side portions of the legs and connected to the 10 mounting zones 153 A, 153B with suitable wirings integrated to the garments but there may be one or more additional sensors (not shown) on the back sides of the legs, again connected with wirings 152D’, 152E’, 162D’, 162E’. Thus, a complete muscular activity sensing system for each large muscle group and each leg is formed. Combined with the ECG signal from the subsystem of the shirt 100 A, a comprehensive performance monitoring system is obtained.

Instead of two separate mounting zones 153 A, 153B and respective identifiers therein at the pants 150B, there may be only one mounting zone or even more mounting zones. The illustrated sensor grouping is made only to exemplify the possibilities of the invention.

Fig. 7 shows a modified system example with a sports garment 200 corresponding to the garment 100A of Fig. 1A. The ECG pads are denoted with reference numerals 201A, 20IB, the first mounting zone with 203 A, wirings with 205 and the first sensor module attached thereto with 210A. The mounting zone 203 A comprises a respective identifier readable by the module 210A.

In addition, there is provided a tennis racket 230 with a second mounting zone 203B and a second sensor module 210B and a sports shoe 240 with a third mounting zone 203C and a third sensor module 210C. The mounting zones 203B, 203C of the racket 230 and shoe 240 may be connected to acceleration sensors, orientation sensors or position sensors, to mention some examples, so as to be able to communicate corresponding acceleration, orientation or position information to the communication units 210B, 210C and further to the monitoring unit 220. The mounting zones 203B, 203C can also contain respective

20175497 prh 02 -06- 2017 identifiers readable by the modules 21 OB, 2 IOC to indicate what kind of operation of the sensor modules 21 OB, 210C are required.

It is also possible that the racket 230 and/or shoe 240 are not provided with any sensors connected to the mounting zones 203B, 203C. In that case, their identifiers may “tell” the modules 210B, 210C that an internal sensor, such as an acceleration sensor, of the modules 210B, 210C are to be used. In this case, the identifiers can also be “void”. In other words, if a module is not able to find any identifier with specific data content (identifier code), it assumes by default to operate in a particular way, typically using its internal sensor and corresponding pre-stored processing instructions for usage of the internal sensor.

In the examples above, only sports items containing monitoring means functionally connectable with the sensor module are discussed for simplicity. However, the sports items and/or the sensor module may comprise also other devices and/or functionality, such as an actuator. An actuator differs from a sensor in that it produces a noticeable output for the user, whereas a sensor provides measurement information for the communication module to process and forward. The output may be visual, audible or mechanical (involving motion), for example. Examples of actuators include an integrated display or audio output device in a garment. Another example is a tactile output device.

The sensing and actuation functions typically relate to each other, but they need not do so. Sensor data analysis and actuator control can be carried out in suitable electronics of the 20 sports item itself, but is even more preferably carried out in the present programmable sensor module, which takes input from the sensor, processes the input and controls the actuator. In the first case, only power is minimally required from the sensor module to the sensor/actuator. In the latter case, also data signals needs to be transferred between the module and the sensor/actuator, which is of course possible in the first case too.

An example of a combined device is a sensor with built-in visual or audible output of ECG/EMG signal, signal frequency or indication of target ECG/EMG activity rate (e.g.: in coaching mode: advice to increase or decrease heartbeat or intensity of training). Another example is a GPS sensor with built-in speed and/or direction indicator. A still another example is a racket, bat or club which comprises an acceleration sensor and/or gyroscope and is able to provide instant feedback for the user on the characteristics of a hit or swing.

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It should be noted that the sports items 100A, 100B, 200, 230 and 240 are preferably passive, i.e., are not provided with own power source. Instead of that, the power for both identifier-reading and sensor operations is obtained from power sources contained in the sensor modules 110A, 110B, 210A, 210B and210C.

The present modules can be used in connection with any sports items within a personalarea network of a person. Examples are pieces of garment carried out by the person, such as shirts, trousers, socks, hats, caps, footwear, handwear and belts and various pieces of sports equipment necessary for any particular sports, including rackets, bats, clubs, sticks, skis, bicycles, balls, vehicles, and bags with one or more integrated sensors or actuators.

Examples of sensors contained in sensor module and/or the sports items include the EMG, ECG, acceleration, orientation, position sensors, temperature and pressure sensors, such as air pressure sensors, tactile sensors, pressure force sensors, grip force sensors, or foot weight distribution sensors, and photosensors. Specific sensor types for the abovementioned purposes include conductive electronic potential sensors, micromechanical acceleration sensors, micromechanical gyroscopic sensors, micromechanical magnetic sensors, micromechanical pressure sensors, satellite positioning system sensors (e.g. GPS or GLONASS) and resistive and capacitive touch sensors (with optional touch position and/or touch force detection capability) and digital imaging sensors (e.g. multipixel CCD or CMOS sensors).

Specific sports item examples include heartbeat ECG belts, muscular EMG belts or garments and tennis rackets, golf clubs, skiing equipment with acceleration sensors or orientation sensors and photographic devices used during the performance.

It is to be understood that the embodiments of the invention disclosed are not limited to the particular structures, process steps, or materials disclosed herein, but are extended to 25 equivalents thereof as would be recognized by those ordinarily skilled in the relevant arts.

It should also be understood that terminology employed herein is used for the purpose of describing particular embodiments only and is not intended to be limiting.

References throughout this specification to one embodiment or an embodiment mean that a particular feature, structure, or characteristic described in connection with the embodiment 30 is included in at least one embodiment of the present invention. Thus, appearances of the

20175497 prh 02 -06- 2017 phrases “in one embodiment” or “in an embodiment” in various places throughout this specification are not necessarily all referring to the same embodiment. Where reference is made to a numerical value using a term such as, for example, about or substantially, the exact numerical value is also disclosed.

As used herein, a plurality of items, structural elements, compositional elements, and/or materials may be presented in a common list for convenience. However, these lists should be construed as though each member of the list is individually identified as a separate and unique member. Thus, no individual member of such list should be construed as a de facto equivalent of any other member of the same list solely based on their presentation in a 10 common group without indications to the contrary. In addition, various embodiments and example of the present invention may be referred to herein along with alternatives for the various components thereof. It is understood that such embodiments, examples, and alternatives are not to be construed as de facto equivalents of one another, but are to be considered as separate and autonomous representations of the present invention.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more embodiments. In the preceding description, numerous specific details are provided, such as examples of lengths, widths, shapes, etc., to provide a thorough understanding of embodiments of the invention. One skilled in the relevant art will recognize, however, that the invention can be practiced without one or more of the 20 specific details, or with other methods, components, materials, etc. In other instances, well-known structures, materials, or operations are not shown or described in detail to avoid obscuring aspects of the invention.

While the forgoing examples are illustrative of the principles of the present invention in one or more particular applications, it will be apparent to those of ordinary skill in the art 25 that numerous modifications in form, usage and details of implementation can be made without the exercise of inventive faculty, and without departing from the principles and concepts of the invention. Accordingly, it is not intended that the invention be limited, except as by the claims set forth below.

The verbs “to comprise” and “to include” are used in this document as open limitations 30 that neither exclude nor require the existence of also un-recited features. The features recited in depending claims are mutually freely combinable unless otherwise explicitly stated. Furthermore, it is to be understood that the use of a or an, that is, a singular form, throughout this document does not exclude a plurality.

Claims (13)

A sensor device comprising: - a sensor unit (318), a wireless communication unit (314) configured directly or Indirectly send or receive data to and from an external source, and - means (321) for receiving the identification information from the sports item while being connected to the sports item, characterized in that the device is configured to initiate the identification of the sports item in response to the trigger 10, the tag activating means in the sports body, when the device is coupled to the tag activating means, the means for receiving the tag information comprising a host authentication circuit (321), in response to a trigger, communicating with the tag identification circuit (327). 15 The device of claim 1, wherein the device comprises a switch (324) operable to at least connect the master authentication circuit to the subsequent authentication circuit. The device of claim 1 or 2, comprising a processing unit (322) and a memory for storing a set of data processing commands corresponding to different identifiers, wherein the processing unit is able to select 20 computing instructions based on the identifier received from the compilation help set. The device of claims 2 and 3, wherein the processing unit is configured to cause the identification means to be coupled to the sports item via the switch in response to the trigger. The device of claim 3 or 4, wherein the processing unit is configured to be activated via the microcircuit of the sensor unit in response to a trigger, and the processing unit is configured in response to actuation of the processing unit to provide the identification information receiving means to transmit the identification signal to the sport. 20175497 prh 12 -04- 2018 The device of claim 3, 4 or 5, wherein the processing unit is configured to cause the sensor unit (318) to connect to the sports body contact interface to receive a measurement signal after the sports body has been authenticated or in response to receiving no response. 5 tag units on a sports track. The device according to any one of the preceding claims, wherein the device comprises means for attaching the sports body to the attachment zone and comprises two or more electronic contacts for making electrical contact with the sports body while being attached thereto, and wherein the means The receiver 10 may be coupled to contacts for supplying power to the sports body and for signaling with the sports body. A sports item identification device (309) comprising: - an identification unit (327) comprising identification information stored on the sport track, 15 - for transmitting identification information of the contact interface (328) from the identification unit to a sensor device connected to the contact interface, characterized in that it further comprises: - recognition activation means for triggering the identification of a sports item using the sensor device when the identification activation means is 20 coupled to the sensor device, wherein the tag unit comprises a tracking sensor circuit (327) configured to communicate with the sensor device master recognition circuit (321) after triggering the tag activation means. The device of claim 8, wherein the detection activation means comprises an actively coupled resistor. The device of claim 8 or 9, wherein the device comprises a switch configured to connect the contact interface to the recognition unit to initiate the identification of the sports item using the sensor device host recognition circuit in response to connecting the sensor device to the contact interface. The device of claim 10, wherein the switch is configured to connect 30 contact interfaces to the recognition unit in response to a signal from the host recognition circuit and The 20175497 prh 12 -04-2018 switch is configured to connect the contact interface to at least one measurement contact after completing the sport track identification. The device of any one of the claims, wherein the device is configured to receive at least one of the following: an electromyographic signal, 5 acceleration signal, power signal, speed signal and position signal. A sports item comprising an identification device according to any one of claims 10 to 14. A sports monitoring system comprising a sensor device according to any one of claims 1 to 7, a sports device according to any one of claims 8 to 11 And a monitoring unit adapted to communicate wirelessly with the sensor device to receive sensor data from the sensor device. The device of any one of claims 1 to 12, the sports body of claim 13 or the sports monitoring system of claim 14, wherein the sports body comprises one or more 15 belt, clothing and / or sporting equipment, such as a racket, ski or bicycle, in which one or more sensors or actuators are integrated. A method of monitoring a person's physical performance, the method comprising: adapting (508) the internal operation of the sensor module based on the identification received from the sports item, and 20 - measuring (512) performance parameters based on a sports track signal, characterized in that: - detecting (502) the sensor module (310) triggering the recognition activation means in the sports item (360) when the identification activation means is connected to the sensor module, and 25 - initiating (504) detecting the sports object in response to the trigger, wherein the host recognition circuit (321) in the sensor module (310) in response to the trigger is communicating with the tracking detection circuit (327) in the sports item.