APPARATUS AND A METHOD FOR DETECTING THE POSTURE OF THE ANATOMY OF A PERSON

Abstract

An apparatus can be used in the detection and correction of the posture of a person's anatomy and particularly, although not necessarily exclusively, the posture of a person's neck; The apparatus includes a device to be worn, such as at the rear of the neck of a person, and the device includes a frame having first and second ends and at least one sensor to detect the tilt angle of a predefined plane and processing means to determine whether the detected tilt angle is within a predetermined range of acceptable positions; The apparatus, when worn, has a plurality of contact points with the wearer.

Claims

1. Apparatus including a frame having location means, at least one sensor to detect the tilt angle of a plane which is representative of the tilt angle of the head of a person with respect to their neck when wearing the apparatus and processing means which receives data from the at least one sensor which is representative of the detected tilt angle to determine whether the detected tilt angle is within a pre-determined range of acceptable positions and the apparatus has a plurality of contact points with the person, when worn, and wherein at least one sensor is capable of detecting the angle of the head in a forward direction with respect to the person's neck.

2. Apparatus according to claim 1 wherein the said plane is formed between three or more points

3. Apparatus according to claim 1 wherein the respective ends of the frame are located so as to provide a stabilised position at the person's ears.

4. Apparatus according to claim 3 wherein a contact point is provided between the frame and the person at each ear.

5. Apparatus according to claim 1 wherein the sensor is selectively positionable at any desired position on the device to provide an indication of the said plane with respect to an optimal or desired plane.

6. Apparatus according to claim 1 wherein the frame has at least 3 reproducible contact points with the person.

7. Apparatus according to claim 5 wherein the sensor is located in a fixed position to the frame and the tilt of the plane is measured by the sensor.

8. Apparatus according to claim 1 wherein the apparatus includes alert means to notify the person and/or a third party when the detected tilt angle is outside of the said predetermined range.

9. Apparatus according to claim 1 wherein the device includes a frame with two opposing contact points with the person at or adjacent to the ears of the person wearing the apparatus, and a third intermediate contact point at which contact is made between the frame and the rear of the head or neck of the person when the apparatus is worn.

10. Apparatus according to claim 1 wherein the sensor is mounted substantially centrally of the frame.

11. Apparatus according to claim 1 wherein the apparatus includes a power supply to allow operation of the sensor.

12. Apparatus according to claim 1 wherein processing means are provided which include an integrated circuit with a micro controller unit to processes information from the said sensor and generate a corresponding response with reference to predetermined data.

13. Apparatus according to claim 11 wherein the processing means includes a wireless radio frequency transmitter which outputs responses from the micro controller unit.

14. Apparatus according to claim 11 wherein the processing means includes, or is connected to, an alarm unit which can be used to generate audible, visual and/or vibrational signals,

15. Apparatus according to claim 1 wherein the processing means track and analyse collected data and provides comparison with predetermined data and/or previously collected data.

16. Apparatus according to claim 11 wherein the processing means provides different forms of feedback to be selected to suit a person's and/or a third party's requirements, and these may include any, or any combination of; an instant/delayed reminder when the user has adopted a posture with inclinations/neck-flexions beyond the predetermined range in order to make the person rectify the incorrect position, and/or positive confirmation when the person has adopted the correct position in order to assist them in maintaining the correct position.

17. Apparatus according to claim 1 wherein a number of sensors are provided in order to allow head inclinations and neck-flexions on orthogonal axes to be determined and monitored.

18. (canceled)

19. Apparatus according to claim 1 wherein the apparatus provides medical support, such as to prevent spinal disease by ensuring that the person adopts the correct posture and/or assists in the confidence of the person by allowing the person to adopt a correct sitting posture.

Description

[0025] Specific embodiments of the invention are now described with reference to the accompanying Figures; wherein

[0026] FIG. 1 illustrates a flow diagram of the invention in accordance with one embodiment of the invention;

[0027] FIG. 2a illustrates the components of the apparatus of the invention in accordance with one embodiment;

[0028] FIG. 2b illustrates the third contact point housing of the apparatus of FIG. 2a in one embodiment;

[0029] FIG. 2c shows the apparatus being worn for use; and

[0030] FIG. 3 shows profiles of a person wearing the device of FIG. 2 and various effective postures which can be detected by the device.

[0031] The apparatus in accordance with one embodiment of the invention is shown in FIGS. 2a-c and is worn by the person whose posture is to be detected. The apparatus includes a frame 101 with two opposing ends 110, 112 which act as contact points with the person. In one embodiment the ends are bent as shown into loops to allow the same to be located on the respective ears of the person so that the frame 101 is worn and supported behind the head and/or neck of the person when in use. FIG. 2c and FIG. 3 illustrate the frame 101 when worn and the frame is designed with opposing ends which act as contact points 110, 112. The ends rest on, and typically wrap partially around, the ears 122, 123 of the wearer's head 206 to hold the frame in a relatively fixed position with respect to the person's head as shown in FIG. 2c and FIG. 3. A housing 114 forms another point of contact 201 with the person, and in which at least one sensor can be located. The housing 114 is positioned and rests against the rear of the neck 208 or head 206 of the person, and typically at the interface between the head and neck as shown. Preferably the material of the frame is sufficiently resilient so as to maintain its shape during motion and also to ensure that the frame is the same shape upon repeated use and therefore the sensors, which are typically enclosed and protected by a plastic cover, are provided at the same position upon each use. Thus the provision of the multiple contact points and the provision of the apparatus in the same position upon each wear means that the data results which are obtained upon each use tend to be for the same or a similar position of the sensor. This, in turn, means that comparison of the data with data obtained from previous uses of the apparatus, are in relation to the same wearing position on the person and therefore gives the comparison greater validity. The same also applies to the comparison with predetermined data as the user can have greater certainty that the sensor and the apparatus is being worn in the correct position and the position to which the predetermined data relates. This is in contrast to conventional posture apparatus which are not worn at all or may be worn on a necklace or applied to the wearer, and which means that the sensor position cannot be accurately predicted during a single use or the sensor may be positioned at a different location on the person at different times of use.

[0032] The third contact point 114 is provided as part of the housing 201 which, as shown, is located intermediate the first and second contact points 110, 112 and FIG. 2a shows the housing 201 with a cover removed and FIG. 2b shows the housing in the form for use in one embodiment.

[0033] The three contact points 110,112,114 create a virtual plane and the at least one tilt detecting sensor is provided to measure the relative angular or tilt position of the plane. In this case the tilt sensor (102) is located at the third contact point housing 201 at the rear of the neck of the wearer and this sensor measures the angle of tilt of the plane formed by the three contact points 110,112, 114.

[0034] The apparatus also includes a central MCU with an inbuilt clock (104) which processes the measured data and recognises patterns and numbers that correspond to strained muscle and other incorrect postures.

[0035] A proximal information notification module is also provided which sends reminders when the user's neck deviation is beyond the optimal range to help the user attain the correct postures. The system can also be personally customised to send the user positive confirmation when they have assumed the correct posture for a period of time so as to help them maintain the recommended sitting position.

[0036] It is also possible for the data to be transmitted to a peripheral device, e.g. a smart phone for further recording and analysis to track the health development of the user and in this case an information transmission module (106), typically wireless based, can be used to relay the information to a peripheral device, e.g. a mobile phone of the user directly.

[0037] The data flow and processing in accordance with the invention is illustrated in FIG. 1 and illustrates at block 101 the three contact points, 110, 112, 114 which are located, two at the ears of the wearer and one at the back of the neck. The one or more tilt sensors 102 are used to detect the tilt angle of the plane formed between these three contact points and with respect to two different axes. A power supply 103 is provided which, in this case, is a small battery to supply working voltage to the electronic timer/controller integrated circuits. The integrated circuit 104 contains a micro controller unit (MCU) which in turn includes a built-in memory and clock. The device can alert the person wearing the device if an incorrect position has been held for a certain time period via the proximal notification module 105 which can emit audible (speaker) and/or motional (vibrator) alert.

[0038] Information can also be transmitted via a wireless radio frequency (RF) transmitter 106 (e.g. Bluetooth) to a mobile peripheral item. The alert can therefore be achieved via the interface (including visual, audible and/or motional signals) of the mobile peripheral. Additionally, the information can be logged in the mobile peripheral and can be accessed over a period of time as a tool for tracking the user history.

[0039] A battery supplies power to the electronic circuits and an external, charging power supply from the grid with an AC to DC converter can also be provided.

[0040] The tilt sensors 102 detect the signal of the angle of rotation of the plane from the vertical axis and the data can be reported with respect to two planar directions, which typically will be in the sagittal plane and the coronal plane.

[0041] The generation of alerts based on the analysis of the data can be achieved using audible alerts such as those generated by one or more speakers which can generate a beeping, atonal, music or voice sound to alert the user and/or via motional alerts in which a motor 204 can be used to generate a vibration to alert the user. In addition, or alternatively, a wireless alert signal can be transmitted to a peripheral device, e.g. mobile phone.

[0042] The processing means include the MCU 104 which implements the algorithms that process input and generate output and include sensor input circuit, timer circuitry, an alert function and driver circuit for vibrator, speaker.

[0043] FIG. 3 illustrates the various head and neck positions which can be detected using the apparatus in accordance with the invention and FIGS. 3a-d illustrate side views of the head 206 and neck 208 of the wearer of the apparatus

[0044] In FIGS. 3a and f the plane 210 is the normal plane and is the plane against which the detected tilt angles are subsequently determined.

[0045] In FIG. 3b a forward head tilt angle α of the detected plane 212 with respect to the normal plane 210 is identified.

[0046] In FIG. 3c the neck flexion up and in FIG. 3d the neck flexion down is detected by the sensor 102 such that the inclination angle of the neck 208 is detected in which β: the tilt angle of the head in the sagittal plan of the detected plane 212 with respect to the plane 210 is determined.

[0047] In FIG. 3e neck-flexion to the left is determined and in FIG. 3g neck-flexion to the right is determined and the tilt angle γ of the head in the coronal plane is determined.

[0048] The determination of these three angles with respect to the normal plane describe the entire neck posture at an instant of time and are used for further correction or assessment by determination of whether they lie within a predetermined range of acceptable positions.

[0049] With the angle of variation of the measured plane 212 being compared to the preferred or optimal plane 210 in order to be able to gauge whether or not the measured plane, and hence the posture of the person, is within acceptable limits.

[0050] The apparatus of the current invention therefore ensures that accurate measurements of the position of the apparatus wearer's head and/or neck with respect to the remainder of their body can be accurately detected. Furthermore as the apparatus has a frame with a plurality of contact points with the person, such as at the ears and the back of the neck, then the wearer can be more certain that the apparatus will be worn in the same position on the head/neck upon each time the frame is worn. This is due to the locating means at the respective ears which ensure that the relative position of the apparatus, and in particular the sensor, is substantially the same upon each time of wearing of the apparatus by the person.