US20110296607A1

US20110296607A1 - System and method for bed height adjustment

Info

Publication number: US20110296607A1
Application number: US13/201,728
Authority: US
Inventors: Kurt Stadlthanner; Andreas Brauers; Kai Eck
Original assignee: Koninklijke Philips Electronics NV
Current assignee: Koninklijke Philips NV
Priority date: 2009-02-20
Filing date: 2010-02-16
Publication date: 2011-12-08
Also published as: EP2398438A1; WO2010095098A1; JP2012518456A; CN102316839A; EP2398438B1

Abstract

There is provided a control system for an adjustable height bed, the adjustable height bed having a raised position and a lowered position, the control system comprising an input for receiving signals from a sensor located in the adjustable height bed; and a processor for processing the received signals to determine the status of a user relative to the bed and for generating control signals for adjusting the bed to the raised position or to the lowered position on the basis of the determined status.

Description

TECHNICAL FIELD OF THE INVENTION

The invention relates to a system and method for adjusting the height of a bed, and in particular to a system and method that reduces the risk of injury to a person using the bed.

BACKGROUND TO THE INVENTION

Preventing people falling at night is one of the major issues in the care of the elderly. It has been found that a substantial number of falls by the elderly occur in the bedroom, and in particular occur when getting into or out of bed.
Two ways of tackling this problem are for beds of patients that are prone to falling to be equipped with bed rails or for the patient to be restrained in the bed. However, both of these measures have significant disadvantages, namely that patients with dementia can often try to climb out of bed over the bed rails, which can lead to an even more severe fall, and restraints can lead to the patient becoming aggressive and the restraints are not tolerated by relatives of the patient.
A much more accepted way to reduce falls at night is to provide a bed that can be lowered when the patient is in the bed so that they sleep quite close to the floor. In this way, the distance that the patient can fall is reduced and the risk of severe injuries is thereby reduced.
Of course, a problem with these beds is that it is difficult for the patient to get out of bed when it is in a lowered position. For this reason, adjustable height beds can usually be lifted electronically using an associated control unit. These control units can be hard to handle for elderly patients who suffer from reduced sensitivity or flexibility of their hands and/or from limited vision. Furthermore, patients with dementia can often find it difficult to handle and operate electrical devices.
Thus, this means that patients can sometimes try to get up when the bed is in the lowered position, which is much more difficult and can even lead to additional falls. Moreover, patients who have adjusted their bed to an adequate height before getting up may not lower the bed back to a safer position when they get back into the bed.
Therefore, there is a need for a system and method that can overcome the difficulties with conventional height-adjustable beds.

SUMMARY OF THE INVENTION

According to a first aspect of the invention, there is provided a control system for an adjustable height bed, the adjustable height bed having a raised position and a lowered position, the control system comprising an input for receiving signals from a sensor located in the adjustable height bed and a processor for processing the received signals to determine the status of a user relative to the bed and for generating control signals for adjusting the bed to the raised position or to the lowered position on the basis of the determined status.
According to a second aspect, there is provided an adjustable height bed comprising a bed or mattress portion; a sensor associated with the bed or mattress portion; an adjustable height mechanism for adjusting the height of the bed or mattress portion to the raised position or to the lowered position; and a control system as described above coupled to the sensor and the adjustable height mechanism, the control system being configured to generate control signals for the adjustable height mechanism.
According to a third aspect, there is provided a method of operating an adjustable height bed, the adjustable height bed having a raised position and a lowered position, the method comprising receiving signals from a sensor located in the adjustable height bed; processing the received signals to determine the status of a user relative to the bed; and adjusting the bed to the raised position or to the lowered position on the basis of the determined status.

BRIEF DESCRIPTION OF THE DRAWINGS

Exemplary embodiments of the invention will now be described, by way of example only, with reference to the following drawings, in which:

FIG. 1 is a block diagram of a height adjustable bed and control system in accordance with the invention;

FIG. 2 is a block diagram of the control system;

FIG. 3 is a graph illustrating an exemplary set of signals from a pressure sensor;

FIG. 4 is a graph illustrating the variance of the exemplary set of signals in FIG. 3 and

FIG. 5 is a flow chart of the algorithm according to the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIG. 1 shows an exemplary adjustable height bed 2 and control system 4 according to the invention. The adjustable height bed 2 has a bed or mattress portion 6 that a user can sit or lie on, a base 8 and some adjustable height mechanism 10 for adjusting the height of the bed or mattress portion 6.
The adjustable height mechanism 10 adjusts the height of the bed or mattress portion 6 between at least a raised position, at which it is easier for the user to get off of the bed 2, and a lowered position, at which the risk of the user injuring themselves if they roll out of the bed 2 is reduced. The difference in height between the raised and lowered positions can be of the order of 0.5 m -1 m.
In a preferred embodiment, the bed 2 can be configured for use by a specific user. In particular, the specific height of the bed or mattress portion 6 above the floor in each of the raised and lowered positions can be adjusted for different users. For example, the raised position could be set higher for a tall person than for a short person. This configuration for a specific user can be achieved through suitable control of the adjustable height mechanism.
The control system 4 is coupled to, and controls the operation of, the adjustable height mechanism 10.
A sensor 12 is provided in or on the bed or mattress portion 6 for sensing force or pressure exerted on the bed or mattress portion 6 by the user. Signals from the sensor 12 are provided to the control system 4. Preferably, the sensor 12 is placed in or on the bed or mattress portion 6 such that it will be located under the thorax of the user when they are lying appropriately on the bed or mattress portion 6.
The sensor 12 can be a force sensor for measuring the forces exerted on the bed or mattress portion 6 by the user, a pressure sensor for measuring the pressure exerted on the bed or mattress portion 6 by the user, or a strain gauge for measuring the strain on the bed or mattress portion 6 caused by the user. In this latter embodiment, the measurements from the strain gauge are used to determine the pressure being exerted on the bed or mattress portion 6 by the user. In preferred embodiments, the sensor 12 is selected from a piezoelectric switch, a piezoelectric foil, an electret foil or a strain gauge. Those skilled in the art will appreciate that alternative types of sensors can be used to perform the method in accordance with the invention.
In accordance with the invention, the control system 4 processes the signals from the sensor 12 to determine the status of the user relative to the bed (i.e. the user is lying down asleep, sat of the edge of the bed 2, getting into or out of the bed 2 or is out of the bed 2) and adjusts the height of the bed 2 to reduce the risk of the user falling and/or the risk of the user injuring themselves during a fall.
In particular, if it is determined that the user has got into the bed 2 and is lying in the bed 2 (whether asleep or awake), the height of the bed 2 is lowered so that the risk of the user injuring themselves if they roll out of the bed 2 is reduced. Furthermore, if it is determined that the user is sat on the edge of the bed (which can be seen as a reliable predictor of the user getting out of the bed 2), the user is getting out of the bed 2, the height of the bed 2 is raised so that it is easier for the user to stand up, thereby reducing the risk of the user falling.
The control system 4 preferably predicts or detects that the user is going to get out of the bed 2 early enough so that the bed 2 can be raised to a safe height before the user actually gets out of the bed 2. In addition, the control system 4 preferably determines that the user is lying down safely before lowering the bed 2, in order to reduce the risk that the user will fall out of the bed 2 while it is lowered.
It will be appreciated that the height adjustments of the bed 2 are performed automatically under the control of the control system 4, and no user or care provider interaction is required.
FIG. 2 shows the control system 4 in more detail. The control system 4 has an input 14 for receiving signals from the sensor 12, a processor 16 that is coupled to the input 14 and which processes the received signals to determine the status of a user relative to the bed 2.
The processor 16 is coupled to an output 18 through which signals for controlling the adjustable height mechanism 10 are transmitted.
The control system 4 further comprises a memory 20 for storing instructions for the algorithm used to process the signals from the sensor 12 and for generating the control signals for the adjustable height mechanism 10.
In some embodiments, the control system 4 can also include a user-operable height control 22. This control 22 allows the user or a care provider to manually control the adjustment of the height of the bed or mattress portion 6 (or to override the bed height set by the algorithm according to the invention).
Although the control system 4 is shown as being co-located with the adjustable height bed 2, it will be appreciated that the control system 4 can be located remotely from the bed 2, which means that the signals from the sensor 12 will be transmitted to the control system 4 for processing, and the signals for controlling the height of the bed 2 will be transmitted back to the adjustable height mechanism 10.
The algorithm executed by the processor 16 will now be described in more detail.
FIG. 3 shows an exemplary set of signals received from a pressure sensor 12. The exemplary set of signals represents various different states of the user and the bed 2. FIG. 4 is a graph showing the variance of the signals shown in FIG. 3.
In segment I, the bed 2 is unoccupied, i.e. the user is out of the bed 2, and this is represented by the signal amplitude being small (<−1500), as the sensor 12 is comparatively relaxed and measures only the pressure exerted from the weight of the mattress.
During segment II, the user sits on the edge of the bed 2 and gets ready to lie down. The centre of gravity of the user is away from the sensor 12 (which is located in the middle of the bed or mattress portion 6 around the point at which the thorax of the user will be located when they are lying down), which means that almost no additional pressure is detected.
Segment III shows the signal recorded when the user is lying down. Lying down leads to signals with a high amplitude and a comparatively large variance (as shown in FIG. 4).
In segment IV, the user is lying calmly on the bed 2. In this segment, the thorax of the user is exerting considerable additional pressure onto the sensor 12, which leads to high amplitude signals being recorded. The variance of these signals is small, however, as the user is not moving.
In segment V, the user sits up. A large, high variance signal appears first which decays rapidly once the user has lifted their upper body from the region of the bed 2 in which the sensor 12 is located. An amplitude smaller than a threshold value a_inindicates that the process of sitting up is almost finished.
During segment VI the user is sitting on the edge of the bed 2. In segment VII the user has got off of the bed 2, and the signal indicates that the bed 2 is empty.
FIG. 4 shows the steps in the algorithm executed by the processor 16.
The algorithm starts in step 101 at a time t=t_start.
In step 103, the height status of the bed 2 is determined (i.e. whether the bed 2 is in the raised or lowered positions). This determination can be made by examining the status of the adjustable height mechanism 10, or by reading a status of the bed 2 from the memory 20.
At step 105, the next sample or signal a from the sensor 12 is read.
At step 107, the sample a is compared to the amplitude threshold, a_in. If a is less than the threshold value a_inthe process moves to step 109.
As the amplitude of the signal a is below the threshold, this indicates that the bed is empty or that the user is sat on the edge of the bed, and the bed should be in the raised position. Therefore, at step 109, if the status of the bed 2 is “high”, the bed 2 is left in the raised position and the method returns to step 105 in which the next sample a is read. However, if, at step 109, the status of the bed 2 is “low” (i.e. it is in the lowered position), the process moves to step 111 in which the bed 2 is raised, and the status of the bed is set to “high”.
The method then returns to step 105 in which the next sample or signal a is read from the sensor 12.
Returning to step 107, if the amplitude of the signal a is greater than the threshold value a_in, the method passes to step 113 in which the variance, var, of the signal is compared to the variance threshold, var_in.
If the variance is greater than the variance threshold, the method returns to step 105 and the next sample a is read. In this case, the user is on the bed, but either in the process of lying down, sitting up or rolling over (as shown in segments III and VI of FIG. 3). Therefore, adjustments of the bed height should be avoided, as this could increase the risk of the user suffering a fall.
If the variance is less than the variance threshold, the method passes to step 115 in which the height status of the bed 2 is examined.
As the amplitude of the signal a is above the threshold and the variance is below the variance threshold, this indicates that the user is lying on the bed calmly, and the bed should be in the lowered position. Therefore, if the bed status is “high”, the bed is lowered and the status of the bed is set to “low”. The method then returns to step 105 and the next sample a is read. If, at step 115, the bed status is “low”, then the method returns to step 105 and the next sample a is read.
As described above, the control system 4 can be integrated into the bed 2 or can be separate from the bed 2. In some embodiments, the control system 4 can be integrated into existing electronics in a bed 2 (for example the electronics for controlling the adjustment of the height of the bed 2).
Furthermore, it will be appreciated that some height adjustable beds 2 can also be electronically adjusted into a chair-like configuration. In this case, it is possible for the algorithm according to the invention to be adapted so that when the bed 2 is moved into the raised position the bed 2 is also adapted to change into the chair-like configuration, and vice versa.
In addition, although the exemplary embodiments described above only make use of a single sensor 12, it will be appreciated that it is possible to use more than one sensor 12.
Therefore, there is provided a control system for a height adjustable bed that automatically adjusts the height of the bed according to the status of the user relative to the bed. The bed can be adjusted into a raised position if it is determined that the user is getting into or out of the bed, or adjusted into a lowered position if it is determined that the user is lying on the bed. In this way, the risk of falls, and the risk of injury sustained during a fall, can be reduced.
While the invention has been illustrated and described in detail in the drawings and foregoing description, such illustration and description are to be considered illustrative or exemplary and not restrictive; the invention is not limited to the disclosed embodiments.
Variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed invention, from a study of the drawings, the disclosure, and the appended claims. In the claims, the word “comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality. A single processor or other unit may fulfill the functions of several items recited in the claims. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measured cannot be used to advantage. A computer program may be stored/distributed on a suitable medium, such as an optical storage medium or a solid-state medium supplied together with or as part of other hardware, but may also be distributed in other forms, such as via the Internet or other wired or wireless telecommunication systems. Any reference signs in the claims should not be construed as limiting the scope.

Claims

1. A control system for an adjustable height bed, the adjustable height bed having a raised position and a lowered position, the control system comprising:

an input for receiving signals from a sensor located in the adjustable height bed; and

a processor for processing the received signals to determine the status of a user relative to the bed and for generating control signals for adjusting the bed to the raised position or to the lowered position on the basis of the determined status.

2. A control system as claimed in claim 1, wherein, in the event that the processor determines the status to be that the user has got or is getting out of the bed, or is sat on the edge of the bed, the processor is configured to generate control signals for adjusting the bed to the raised position, or for maintaining the bed in the raised position, if the bed is already in the raised position.

3. A control system as claimed in claim 2, wherein the processor is configured to determine that the user has got or is getting out of the bed, or is sat on the edge of the bed, in the event that the amplitude of the received signals is below an amplitude threshold.

4. A control system as claimed in claim 1, wherein, in the event that the processor determines the status to be that the user is on the bed lying down, the processor is configured to generate control signals for adjusting the bed to the lowered position, or for maintaining the bed in the lowered position, if the bed is already in the lowered position.

5. A control system as claimed in claim 4, wherein the processor is configured to determine that the user is in bed lying down in the event that the amplitude of the received signals is above an or the amplitude threshold and a variance of the received signals is below a variance threshold.

6. A control system as claimed in claim 1, further comprising a user-operable control that is configured to cause the processor to generate control signals for adjusting the bed to the raised position or to the lowered position in response to a user input.

7. An adjustable height bed, comprising:

a bed or mattress portion;

a sensor associated with the bed or mattress portion;

an adjustable height mechanism for adjusting the height of the bed or mattress portion to the raised position or to the lowered position; and

a control system as claimed in any preceding claim coupled to the sensor and the adjustable height mechanism, the control system being configured to generate control signals for the adjustable height mechanism.

8. A method of operating an adjustable height bed, the adjustable height bed having a raised position and a lowered position, the method comprising:

receiving signals from a sensor located in the adjustable height bed;

processing the received signals to determine the status of a user relative to the bed; and

adjusting the bed to the raised position or to the lowered position on the basis of the determined status.

9. A method as claimed in claim 8, wherein, in the event that it is determined that the status is that the user has got or is getting out of the bed, or is sat on the edge of the bed, the step of adjusting comprises:

adjusting the bed to the raised position or maintaining the bed in the raised position if the bed is already in the raised position.

10. A method as claimed in claim 9, wherein the step of processing determines that the user has got or is getting out of the bed, or is sat on the edge of the bed, in the event that the amplitude of the received signals is below an amplitude threshold.

11. A method as claimed in claim 8, wherein, in the event that it is determined that the status is that the user is on the bed lying down, the step of adjusting comprises:

adjusting the bed to the lowered position or maintaining the bed in the lowered position if the bed is already in the lowered position.

12. A method as claimed in claim 11, wherein the step of processing determines that the user is in bed lying down in the event that the amplitude of the received signals is above an or the amplitude threshold and a variance of the received signals is below a variance threshold.