TRAINING APPARATUS AND SYSTEM WITH MUSICAL FEEDBACK

Abstract
A training apparatus includes an elastic band; a device for continuously determining an actual configuration of the training apparatus during exercise, e.g. a stretch of the elastic band or a 2D or 3D position of said device; and for generating a control signal for an audio device, the control signal being at least partially based on the actual configuration of the training apparatus; and for outputting the control signal.
Description
DESCRIPTION

The present invention relates to a training apparatus or fitness device for physical exercise having resistance means.


In the state of the art, a large variety of training apparatuses of this kind are known for training different muscles or muscle groups of the human body. However, they are usually characterized by a certain monotony and repetitiousness in their use. If a user has no intrinsic motivation to repeat a given exercise the necessary number of times, the use of the device quickly becomes boring.


Also, as the user focuses his attention on his interaction with the apparatus, he stays fully aware of his effort and strain, and his possible exhaustion. Further, the kind of movement required by fitness devices is uniform and predefined, leaving little room for the user to vary movements or the intensity of its use.


What is particularly lacking is an occasion or cause for varying use of the training apparatus or the training movements. In other words, the user often lacks a concrete adequate cause or incentive to engage in harmonic motoric movements.


Therefore, it is an object of the present invention to provide a training apparatus which increases the user's motivation to overcome physical exhaustion and to provide a greater motivation in using the device by providing a mechanism that guides the exercise in a more adequate way. It is a further object of the invention to provide a training apparatus that may be used by a group of people, thereby creating further incentives or motivations to exercise.


These objects are achieved by a training apparatus and a method for generating an audio signal according to the independent claims. Advantageous embodiments are defined in the dependent claims.


By playing music depending on the configuration of the training apparatus, the training apparatus is effectively turned into a music instrument.


The user's very strong motivation to vary the generated music or audio feedback signal leads to a finer and more varied interaction with the training apparatus, guided by musical principles, such has harmony, rhythm, and variation. More particularly, by determining the configuration of the training apparatus continuously, the training apparatus according to the invention allows the user to control the musical experience by performing fine movements, such as changes in direction, small shifts, etc., in line with a desired musical dynamics. These movements are rather atypical when using a training apparatus according to the state of the art, but emerge naturally when using the present invention. This experience is increased when also the control signal is generated continuously, i.e. when gradual movements are translated into gradual changes in the musical signal.


Most importantly, the invention does not set out to guide the user but to provide him with a means to explore a continuum of possible soundscapes by actuating the training apparatus.


SUMMARY

The present invention is specified in the claims as well as in the below description. Preferred embodiments are particularly specified in the dependent claims and the description of various embodiments.


One general aspect includes a training apparatus, including an elastic band; a device for continuously determining an actual configuration of the training apparatus during exercise, e.g., a stretch of the elastic band or a 2D or 3D position of said device; and for generating a control signal for an audio device, the control signal being at least partially based on the actual configuration of the training apparatus; and for outputting the control signal.


Implementations may include one or more of the following features, alone or in combination:

    • A training apparatus where the control signal is also generated continuously. Training apparatus where the control signal is a MIDI (Musical Instrument Digital Interface) signal.
    • Use of a training apparatus for the rehabilitation of physically impaired patients, e.g., stroke patients.
    • A training apparatus where the resistance of the elastic band is greater than 25 Newton (N).
    • A training apparatus where the outputting means comprises an antenna.
    • A training apparatus where the control signal comprises a Wi-Fi or a Bluetooth signal.


Another general aspect includes an audio feedback extension kit for upgrading a training apparatus having adjustable resistance means, the kit including device for continuously determining an actual configuration of the training apparatus during exercise, e.g., a stretch of the elastic band or a 2D or 3D position of said device; means for generating a control signal for an audio device, the control signal being at least partially based on the actual configuration of the training apparatus; and means for outputting the control signal.


Implementations may include one or more of the following features, alone or in combination: the audio feedback extension kit where the device for determining an actual configuration includes fastening means, e.g., a clip, for fastening the device to an element or a section of a training apparatus or to a piece of clothing of a user.


Yet another general aspect includes a method for generating an acoustic feedback during a physical exercise of a person on a training apparatus, the training apparatus including an elastic band, including: continuously determining an actual configuration of the training apparatus during exercise, e.g., a stretch of the elastic band or a 2D or 3D position of said device; generating a control signal for an audio device, the signal being at least partially based on the actual configuration of the training apparatus; generating an audio signal, the audio signal being at least partially based on the generated control signal; and outputting the audio signal.


Implementations may include one or more of the following features, alone or in combination: A method where the control signal is also generated continuously. A method where a volume, or a pitch, or a tempo of the audio signal depends at least partially on the actual configuration of the training apparatus. A method where the volume, or the pitch, or the tempo of the audio feedback signal is linear-proportional to the actual position of the adjustable resistance means. A method where the generated audio signal is merged with a second audio signal before it is put out. A method where the audio signal includes different tracks. A method where the tracks include a drum track. A method where the tracks include a piano track. A method where the control signal comprises a MIDI signal. A method where the determined configuration includes a position of the device. A method where the determined configuration includes an acceleration of the device.


Another general aspect includes a training system with acoustic feedback, including: at least one training apparatus according to any of the previous aspects; an audio device for generating an audio signal; and for outputting the generated audio signal; where the training system is configured to carry out a method according to any of the above-noted methods.


The above features along with additional details of the invention are described further in the examples herein, which are intended to further illustrate the invention but are not intended to limit its scope in any way.





BRIEF DESCRIPTION OF THE DRAWINGS

Further aspects and advantages of the present invention will become apparent to the skilled person when studying the following description of a preferred embodiment of the present invention, in connection with the drawings, in which



FIG. 1 is a schematic diagram of a training apparatus according to a preferred embodiment of the invention; and



FIG. 2 shows an embodiment of a step training apparatus according to the invention.



FIG. 3 shows a further embodiment of a training apparatus for the abdominal muscles according to the invention.



FIG. 4 shows another embodiment of a training apparatus for the upper body and arm muscles according to the invention.



FIG. 5 is a flowchart of a method for operating a training apparatus according to the invention.



FIG. 6 is a schematic overview of a training system with acoustic feedback according to the invention.



FIG. 7 depicts results from a behavioral study with fitness training with or without musical feedback (30 participants). It shows that with musical feedback the sense of effort was lower, and the fun was higher compared with usual fitness training.



FIG. 8 shows measured force, metabolism (Oxygen consumption and RER (respiratory exchange ratio) as measured with a Spirometer), and Sense of effort as a ratio of no feedback/feedback (N=10).



FIG. 9 shows an embodiment of a training apparatus according to exemplary embodiments hereof.



FIG. 10 shows a wearable device according to exemplary embodiments hereof.





DETAILED DESCRIPTION


FIG. 1 is a schematic block diagram of a training apparatus 100 according to a preferred embodiment of the invention.


The training apparatus comprises resistance means 110.


Examples of such training apparatuses include, without limitation, weight machines, friction machines, spring-loaded machines, fan-loaded machines, fluid-loaded machines and/or hydraulic machines.


The resistance means are adjustable. Preferably, the resistance of the adjustable resistance means may be adjusted to be greater than 25 Newton (N). Preferably, it may be adjusted to be greater than 100 Newton (N) or greater than 250 Newton (N).


The adjustable resistance may be incremented either continually or discretely. In the discrete case, adjustments are preferably possible in increments of approximately 25 or approximately 50 Newton (N).


The training apparatus further comprises means 120 for continuously determining an actual configuration 130 of the training apparatus during exercise.


An actual configuration 130 of the apparatus may comprise a single or several parameters, such as a variable position of a weight as it is lifted during an exercise. Alternatively, it may comprise, without limitation, a variable position of a pulley, lever, wheel or incline of the training apparatus that are actioned or operated by a user as he exercises. The different configurations of the apparatus may vary continuously or discretely. For the purposes of the present invention, an actual configuration may also comprise an instantaneous speed by which a wheel of a resistance means actually turns, e.g. on a spinning bike.


For determining the configuration 130, a position transducing means such as a potentiometer may be used for determining the position of a weight or the inclination of a lever. Preferably, a digital potentiometer may be used. Current speed determining means for the wheel may include a speedometer or a tachometer.


The apparatus 100 further comprises means 140 for generating a control signal 150 for controlling an audio device, the control signal 150 being at least partially based on the actual configuration 130 of the training apparatus. The control signal may be any kind of control signal for controlling an audio device, either in digital or analog form. For example, the control signal may be a changing current or voltage. The control signal may cause an audio device to reproduce a piece of recorded music or to generate a sequence of sounds or distinct notes. The control signal may also cause the audio device to modify a piece of recorded music before reproduction. In a preferred embodiment, the control signal is a MIDI signal for controlling a MIDI audio device. Preferably, the control signal is also generated continuously.


For this purpose, the generating means 140 may process the configuration 130 in analog form or in digital form, as it is provided by determining means 120.


Finally, the apparatus 100 comprises means for outputting the generated control signal 150 to an audio device (not shown in FIG. 1). In case of a MIDI signal, the outputting means is a MIDI (OUT) jack.


Optionally, the audio feedback signal 150 may also be output to a recorder (not shown) for storing the signal in or on a machine-readable medium (also not shown). Recorded signals may be used in order to create loops continuously repeating the recorded signal.


The training apparatus according to the invention may advantageously be used in the rehabilitation of physically impaired patients, e.g. stroke patients.


The invention further comprises an extension kit for training apparatuses, comprising means for determining an actual configuration of the training apparatus during exercise; means for generating an audio feedback signal, the audio feedback signal being at least partially based on the actual configuration of the training apparatus; and means for outputting the audio feedback signal.


Using the extension kit, existing training devices may be supplemented with an ability to generate audio feedback signals according to the invention.



FIG. 2 shows an embodiment of a step training apparatus (stepper) 200 according to the invention.


The stepper 200 comprises a foot 210, on which are mounted two levers 220. Mounted on each lever 220 are stepping platforms 230 on each of which a user steps with one foot. If the user shifts his weight to one platform 230, i.e. to one lever 220, this lever 220 moves downwards. At the same time, the other lever that is not loaded by the user's weight moves upwards.


Each lever 220 comprises adjustable resistance means 240. The speed of moving downwards depends on the user's weight and on the adjustable resistance means 240 forming part of the lever. If a high resistance is chosen, the loaded lever moves down rather slowly. The lower the resistance, the faster a lever moves. Moreover, the resistance means 240 restores the lever 220 to its original position whenever it is unloaded.


The stepper 200 further comprises a potentiometer 250 in order to determine the position of at least one lever 220. More particularly, one lever 220 comprises a holding bracket 270 in which a wiper 260 of the potentiometer 250 is inserted, such that the bracket 270 moves the wiper 260 substantially whenever the lever 220 moves. In the present example, the position of the wiper 260 changes linearly with the position of the lever.


Based on the position of the wiper, the potentiometer 250 generates a current that changes with the position of the lever 220 and is output through a connection cable 280.



FIG. 3 shows a further embodiment of a training apparatus 300 for the abdominal muscles according to the invention.


The training apparatus 300 comprises a bench 310 and a handle 320 in the form of an arch. The handle 320 is pivotally mounted to the bench 310. During exercise, a user lies or sits on the bench 310 and moves the handle 320 forwards with his hands as indicated by the arrow.


The handle comprises an adjustable resistance (not shown) that restores the handle to its original position when the user releases it.


As shown in the cut-out of FIG. 3 on the left-hand side, the handle 320 rotates in the direction indicated by the small arrow. In order to determine the position of the handle, the handle 300 further comprises a bracket 330 that rotates with the handle and moves a wiper 350 of a potentiometer 340. As in the previous example, the position of the wiper 350 changes linearly with the rotation angle (position) of the handle.


Optionally, the apparatus according to FIG. 3 may further comprise a second resistance means that the user may actuate with his legs or feet and that is also equipped with a means for determining the configuration of the second resistance means, wherein the determined configurations of the two resistance means may be combined to form the control signal, such that the training apparatus may be “played” in two dimensions.



FIG. 4 shows yet another embodiment of a training apparatus for the upper body and arm muscles according to the invention.


The training apparatus comprises a bench 410, a handle 420, pulleys 430, a cable 440 and an adjustable weight 450. During exercise, a user sits on the bench and pulls the handle down towards himself. As the user pulls down the handle, the weight moves upwards.


In order to determine the position of the weight, the training apparatus further comprises a bracket 460 that moves in line with the weight and engages a wiper 480 of a potentiometer 470 installed in the training apparatus. Again, the position of the wiper 480 changes linearly with the position of the weight.



FIG. 5 is a flowchart of a method 500 for operating a training apparatus having adjustable resistance means.


In step 510, an actual configuration of the training apparatus is continuously determined during exercise. The actual configuration may comprise an actual position of the resistance means.


In step 520, a control signal for controlling an audio device is generated, the control signal being at least partially based on the actual configuration of the training apparatus. Preferably, the control signal is also generated continuously. In particular, the control signal may be a MIDI signal.


In step 530, an audio signal is generated, the audio signal being at least partially based on the control signal.


An audio signal is a representation of sound waves, typically in the form of an electrical voltage, but also through alternative mediums such as magnetic particles, when recorded onto analogue tape; or as radio frequency waves, when broadcast through radio; or even as pulses of light, when transmitting through fiber optic cables like TOSLINK. An audio signal can be manipulated, stored, transmitted and reproduced in ways that a sound wave cannot.


Advantageously, a volume, or a pitch, or a tempo of the audio signal may depend at least partially on the actual position of the adjustable resistance means. More particularly, the volume, or the pitch, or the tempo of the audio feedback signal may be linear-proportional to the actual position of the adjustable resistance means. Alternatively, the relationship may also be set to be non-linear, e.g. by using a band-pass filter, because the user of the apparatus will be able to pick up non-linear relationships after a while. The challenge to do so may further increase the motivation to use the apparatus.


Optionally, the audio signal may comprise different tracks. Further, the user may select different instruments for the generation of the audio signal, e.g. a drum or a piano. Tracks for different instruments may also be merged in one audio signal, for example when several users exercise together.


As a further option, the choice of the audio signal may depend on the magnitude of the resistance, as set by the user.


The audio signal may comprise a prerecorded audio sequence that may be output as the user exercises. This sequence may be merged with the audio feedback signal generated by the user, as he exercises.


Optionally, the user may record the acoustic sequence generated during his own exercise by himself in permanent form and replay it while going on to a different training apparatus.


Finally, the audio feedback signal generated by the user may be merged with audio feedback signals generated by users of other training apparatuses, e.g. when they exercise in concert.


In step 540, the audio signal is output by the audio device.



FIG. 6 is a schematic overview of a training system with acoustic feedback according to an embodiment of the invention.


The training system comprises at least one training apparatus 100 as previously described, an audio device 610 for generating an audio signal and one or several output devices, e.g. loudspeakers and/or headphones 620, a MIDI device 630 or an audio recording device 640 to which the audio signal may be output simultaneously.


The training system operates as described in connection with FIG. 5.


If several training apparatuses are linked together as shown in FIG. 6, the users effectively exercise in concert.


The invention also comprises streaming an audio stream generated by use of the training system to the Internet, such that users at different locations may exercise together.


By using the described system, the musical feedback creates for the user or a group of users an experience of playing a song when using the training apparatus rather than actually exercising.



FIG. 7 depicts results from a behavioral study with fitness training with or without musical feedback (30 participants). It shows that with musical feedback the sense of effort was lower and the fun was higher compared with usual fitness training.



FIG. 8 shows measured force, metabolism (Oxygen consumption and RER as measured with a Spirometer), and Sense of effort as a ratio of no feedback/feedback (N=10).


The force and metabolism are quite comparable between the conditions. It is slightly higher without feedback where participants would rather go into anaerobic metabolism, (RER>1), which from a sport physiological point of view is not good. Note that the sense of effort with a mean value of 1.75 is much higher than the difference in metabolism between the conditions, showing that it is unproportionally to the work which has been done higher without musical feedback (or unproportionally lower with musical feedback). This demonstrates that the explored method of musical feedback during workout decreased the sense of effort invested in the workout.



FIG. 9 shows a further embodiment of a training apparatus 900 according to the invention.


The training apparatus 900 comprises an elastic band 910 having two ends 910a and 910b as handles. Preferably, one or both of the ends 910a and 910b are provided in the form of a loop for safe handling. Alternatively, the ends may comprise inelastic bars or spherical elements to provide a better grip.


A resistance of the elastic band is adjustable by selecting among bands having different elasticities.


A user 930 engages with his foot in a loop 910b and with his left hand in a loop 910a at the ends of the elastic band 910. During exercise, the user 930 stretches the elastic band 910 by lifting his arm.


Mounted to the elastic band 910 is a device 930 for continuously determining an actual configuration of the elastic band during exercise. In particular, the device 930 comprises a sensor that continuously senses a 2D or 3D position of the device itself, as the elastic band is stretched, and generates a control signal. Alternatively, the sensor may be a load sensor comprising a load cell attached to the elastic band that senses a load or differential load, as the band is stretched by the user. The sensing period may be preceded by a calibration phase.


The fastening of the device 930 to the elastic band 910 may be reversible, e.g. by using a clip or any other means of fastening.


If a material is chosen for the elastic band whose electrical conductance changes as the elastic band is stretched, such as certain kinds of rubber, the measured parameters can also include the electrical conductance of the elastic material as it is stretched. That way, a force by which the elastic band is stretched by the user 930 may be determined in order to determine the current configuration of the training apparatus.


Alternatively, an activity value measured by configuration determining device may be used, e.g. a value reflecting how much activity over a certain amount of time (e.g. a second) has taken place, or an acceleration value. One or more of such parameters may be determined simultaneously.


Device 930 continuously generates a control signal 925, based on the currently determined configuration, e.g. the position, a load value or an amount of force applied when stretching the band and sends it to an audio device, here in the form of a tablet computer 940, via a wireless connection.


The tablet computer 940, when receiving the control signal from the configuration determining means 930, generates an audio signal, based on the control signal, and transmits the audio signal, in this example, to wireless earphones 950 worn by the user 930.


The device 920 for continuously determining an actual configuration used in the embodiment described in connection with FIG. 9 may be provided in the form of an audio feedback extension kit, in particular with a clip or some other fastening means, in order to make it wearable by the user himself.



FIG. 10 shows such a wearable device 1020 worn by a user 1030 when exercising. More particularly, the wearable device 1020 is fastened to the leg of the user 1030 doing knee bends and continuously determines its current position and outputs a control signal to a tablet computer 1040. A resistance may be adjusted by choosing different positions when exercising, or by selecting different exercises.


The wearable device 1020 may comprise a gyroscope sensor, wherein the control signal is alternatively determined based on one or more measurements by the gyroscope sensor.


In a preferred embodiment, the wearable is a smartphone or a smartwatch comprising a position and/or a gyroscope sensor, and a suitable application software (app) that generates a control signal based on the sensor data and sends it to the tablet computer 1040.


The tablet computer 1040 then generates an audio signal and transmits the audio signal to a wireless headphone 1050.


In a further embodiment, the wearable device 1020 may be attached to, e.g. a bar-bell or a similar training device, e.g. using a magnet.

Claims
  • 1. A training apparatus, comprising: an elastic band; anda device constructed and adapted to: continuously determine an actual configuration of the training apparatus during exercise; andgenerate a control signal for an audio device, the control signal being at least partially based on the actual configuration of the training apparatus; andoutput the control signal.
  • 2. The training apparatus of claim 1, wherein the control signal is generated continuously.
  • 3. The training apparatus of claim 1, wherein the resistance of the elastic band is greater than 25 Newton (N).
  • 4. The training apparatus of claim 1, wherein the control signal is a MIDI signal.
  • 5. The training apparatus of claim 1, wherein the outputting means is an antenna.
  • 6. The training apparatus of claim 5, wherein the control signal comprises a Wi-Fi or a Bluetooth signal.
  • 7. Use of a training apparatus according to claim 1, for rehabilitation of physically impaired patients.
  • 8. An audio feedback extension kit for upgrading a training apparatus having adjustable resistance means, the kit comprising: a device constructed and adapted to continuously determine an actual configuration of the training apparatus during exercise;control signal generator constructed and adapted to generate generating a control signal for an audio device, the control signal being at least partially based on the actual configuration of the training apparatus; andmeans for outputting the control signal.
  • 9. The audio feedback extension kit of claim 8, wherein the device for determining an actual configuration comprises a fastener constructed and adapted to fasten the device to an element or a section of a training apparatus or to a piece of clothing of a user.
  • 10. A method for generating an acoustic feedback during a physical exercise of a person on a training apparatus, the training apparatus comprising an elastic band, the method comprising: continuously determining an actual configuration of the training apparatus during exercise;generating a control signal for an audio device, the signal being at least partially based on the actual configuration of the training apparatus;generating an audio signal, the audio signal being at least partially based on the generated control signal; andoutputting the audio signal.
  • 11. The method according to claim 10, wherein the control signal is generated continuously.
  • 12. The method according to claim 11, wherein a volume, or a pitch, or a tempo of the audio signal depends at least partially on the actual configuration of the training apparatus.
  • 13. The method of claim 11, wherein a volume, or a pitch, or a tempo of the audio signal is linear-proportional to the actual position of the elastic band.
  • 14. The method of claim 10, wherein the generated audio signal is merged with a second audio signal before it is put out.
  • 15. The method of claim 10, wherein the audio signal comprises different tracks.
  • 16. The method of claim 10, wherein the tracks comprise a drum track.
  • 17. The method of claim 10, wherein the tracks comprise a piano track.
  • 18. The method of claim 10, wherein the control signal is a MIDI signal.
  • 19. The method of claim 10, wherein the determined configuration comprises a position of the device.
  • 20. The method according to claim 10, wherein the determined configuration comprises an acceleration of the device.
  • 21. A training system with acoustic feedback, comprising: at least one training apparatus according to claim 1; andan audio device for generating an audio signal; and for outputting the generated audio signal;wherein the training system is configured to carry out a method according to claim 10.
Priority Claims (1)
Number Date Country Kind
10005458.4 May 2010 EP regional
RELATED APPLICATIONS

This application is a continuation-in-part (CIP) of U.S. patent application Ser. No. 13/699,675, filed Jan. 24, 2013, the entire contents of which are hereby fully incorporated herein by reference for all purposes. U.S. patent application Ser. No. 13/699,675 is a National Stage Entry of PCT/EP2011/058677, filed May 26, 2011, which claims priority from Provisional Application No. 61/348,402, filed May 26, 2010, the entire contents of both of which are hereby fully incorporated herein by reference for all purposes. U.S. patent application Ser. No. 13/699,675 also claims priority from European patent application No. EP 10005458.4, filed May 26, 2010, the entire contents of which are hereby fully incorporated herein by reference for all purposes.

Provisional Applications (1)
Number Date Country
61348402 May 2010 US
Continuation in Parts (1)
Number Date Country
Parent 13699675 Jan 2013 US
Child 16450012 US