Patent Application
20090174565
The invention relates generally to a personal safety product. More particularly, the invention relates to a fall detection system.
As society evolves and persons live longer, there is a greater likelihood that persons will live to an age where at least a portion of the person's ability to control bodily activities is reduced. For example, the person may have a decreased balance. Especially when an older person falls, there is a greater likelihood that the person will break bones from such a fall. It is not always possible for another person to watch the older person such that it can be immediately determined when a fall has occurred.
Several U.S. patents and patent publications disclose systems for detecting when a person has fallen. Examples of these references include Lehrman et al., U.S. Pat. Nos. 6,661,347 and 6,703,939; Clifford et al., U.S. Patent Publication No. 2006/0214806; and Petelenz et al., U.S. Patent Publication No. 2001/0004234.
Each of these fall detection system evaluates accelerative movement of a person that is indicative of a person falling. The fall detection systems also generally include a system for notifying others that the person has fallen along with the location of the fall.
The fall detection system is carried by a user to monitor his/her body orientation. When it detects the user lying down for a period longer than a preset value, a sound, a call, a message and/or light alarm will be generated for alerting other people.
The invention is fall detection system, as illustrated at 10 in the Figures. The fall detection system 10 thereby facilitates providing prompt assistance to persons who have fallen and decreases the time for the person to receive medical attention, which decreases the potential of further complications resulting from the fall.
The fall detection system 10 generally includes an outer enclosure 18 in which the components of the fall detection system 10 are contained. The outer enclosure 18 may be fabricated from a variety of materials depending on the desired appearance of the fall detection system 10 and the conditions under which the fall detection system 10 is to be used. In one configuration, the outer enclosure 18 is fabricated from injection molded plastic.
To enhance the simplicity of using the fall detection system 10, the outer enclosure 18 has a minimal amount of controls. An alarm button 20 may occupy a relatively large portion of at least one surface of the outer enclosure 18 to enhance the ability to depress the alarm button 20 in case of an emergency.
A stop button 22 may also be provided on the outer enclosure 18. The stop button 22 may have a size that is considerably smaller than the size of the alarm button 20. Forming the stop button 22 in this manner reduces the potential that the fall detection system 10 may be inadvertently deactivated when in the alarm mode.
Inside of the outer enclosure 18 components necessary for the operation of the fall detection system 10 are located. The components may include a microprocessor module 30, a fall sensing module 32, a sound generation module 34, a light emitting module 36, a location determining module 38, and a message transmission module 40, as illustrated in
The fall sensing module 32 may include at least one fall sensor. In one embodiment, the fall sensor is an infrared fall sensor. In one configuration, the fall sensing module 32 includes two fall sensors that each detect motion along an axis. Wherein the axes are approximately perpendicular to each other and each approximately normal to a vertical axis when the fall detection system 10 is worn by a person.
Each of the fall sensors may include a sensor plate 50 movably mounted therein that includes a plurality of apertures 52 formed therein, as illustrated
At least one weighted mass 54 may be attached to the sensor plate 50. In one configuration, the weighted mass 54 may be located adjacent to or beyond an edge of the sensor plate 50. The weighted mass 54 may have a weight that is greater than a weight of the sensor plate 50 such that intertial force of the weighted mass 54 causes the sensor plate to rotate. The sensor plate 50 is mounted with a mechanism that permits the sensor plate 50 to rotate with relatively low frictional resistance.
The fall sensors each also include a sensing system for evaluating the rotation of the sensor plate. In one configuration, the sensing system includes an emitter that is capable of emitting a light. One suitable emitter emits light in the infrared spectrum. Using light with a wavelength in this range minimizes interference with the operation of the fall sensors is visible light enters the fall sensors.
The sensing system also includes a receiver that is capable of receiving light from the emitter. A person of ordinary skill in the art will appreciate that the type of receiver is selected based upon the type of emitter used in the fall sensor. In one configuration, the receiver is a 2-phase infrared receiver.
Each of the fall sensors thereby monitors the rotational speed and position of the sensor plate mounted therein. The information from the fall sensors is combined to analyze the body movement and thereby detect when a fall has occurred.
It is also possible for the sensor module 32 to include a tilt sensor that monitors the orientation of the person's body. The tilt sensor is particularly useful for determining when a person has not moved for more than a specified period of time. One suitable tilt sensor is available as model TS-0002 from Solteam Opto, Inc.
In one embodiment, the sound generation module 34 is a speaker. In one embodiment, the location determining module 38 is a GPS module. In one embodiment, the message transmission module 40 is capable of emitting a wireless signal, which is described in more detail below. To enhance the mobility of the fall detection system 10, the components of the fall detection system 10 may be powered by a battery (not shown). The fall detection system 10 may include the ability to recharge the battery.
The fall detection system 10 is adaptable to attachment to the person using a variety of configurations. An important criteria would be that the method of attaching the fall detection system 10 to the person's body is that the attachment mechanism resists inadvertent detaching from the person, as inadvertent detaching could lead to false alarms and/or damage to the fall detection system 10.
Two particular configurations include clipping on a person's clothing (as illustrated in
A logic flow diagram for the fall detection system is illustrated in
Alternatively or additionally, the fall detection system 10 may also detect when the person's body moves in a manner that is indicative of the person falling. If the fall detection system 10 is not carried by the person, the fall sensor may be disabled to avoid a false alarm.
In operation, the fall detection system 10 is enabled by attaching the fall detection system 10 to a person using one of the mechanisms set forth above. When a period of inactivity or a fall is detected, the fall detection system 10 emits a low volume sound alarm for a first selected period of time. In one configuration the first selected period of time is less than 60 seconds and preferably is about 30 seconds. The fall detection system 10 thereby provides a relatively short period of time for the person to press the stop button 22 such as if the fall detection system 10 was inadvertently activated.
The low volume sounds alarm may be accompanied by a light displayed on the fall detection system 10. The light can be generated from a variety of sources, utilizes a variety of colors and be displayed in a variety of patterns. One suitable light source is a red LED. One suitable display pattern is flashing to attract more attention to the light.
If the stop button 22 is not pressed in the first selected period of time, a high volume sound alarm is initiated. The fall detection system 10 may be configured such that the high volume sound alarm cannot be stopped by pressing the stop button 22. In one configuration, the fall detection system 10 must be detached from the person and then the stop button pressed 22 to discontinue the high volume alarm discussed above and message transmission discussed below.
A light 24 may also accompany the high volume sound alarm. Such light may be a different color, intensity and be displayed in a different pattern than the light that accompanies the low volume sound alarm.
If the high volume sound alarm remains on for more than a second selected period of time, the fall detection system 10 may transmit a message such as using SMS or email that contains information about the person such as the person's name and location as determined by the GPS module. In one configuration, the second selected period of time is less than about 60 seconds and preferably is about 30 seconds.
The message may be transmitted using a variety of communication protocols such as GSM and GPRS. The message may be transmitted over a public communication network, a private communication network, or combination thereof.
Alternatively or additionally, the message may be transmitted via a computer network such as the internet such that the message may be viewed on a remote computer system.
The fall detection system 10 may continue to transmit messages regarding the fall at selected intervals. In one configuration, the selected intervals are less than 5 minutes and preferably are about 2 minutes.
Another technique to activate the fall detection system 10 is for the person to press the alarm button 20. Similar to activation after a fall, the fall detection system 10 may utilize one or more of the following low volume sound alarm, high volume sound alarm and message transmission.
It is contemplated that features disclosed in this application, as well as those described in the above applications incorporated by reference, can be mixed and matched to suit particular circumstances. Various other modifications and changes will be apparent to those of ordinary skill.
