BONE CONDUCTION APPARATUS AND MULTI-SENSORY BRAIN INTEGRATION METHOD

Abstract

The present disclosure provides a therapeutic method applicable to learning, attention, cognitive and developmental disorders. This method combines auditory, visual and vestibular stimuli into a systematic method which can be customized to address individual learning, attention and processing disorders. This method may be wirelessly implemented in a group setting. A device for providing vestibular and somatosensory stimulation through bone conduction of sound waves to skeletal bones is provided in the form of a pad that is applied to or wrapped around the individual in treatment, which is comfortable in use and may contain particulate filler material capable of providing bone conduction stimulation adjacent to the location of a bone conduction transducer and expand the sound conduction site over a larger area.

Claims

1. A headband, comprising: a flexible sheet of padding having a first surface; one or more bone conduction transducers, located on said first surface, the bone conduction transducers configured to emit sound waves with frequencies between 50 and 4,000 Hz that provides bone conduction stimulating the vestibular systems of a human body; a sound source coupled to and transmitting signals to the one or more bone conduction transducers.

2. A stimulation pad comprising: a flexible sheet of padding having an upper surface; a bone conduction transducer, located on said upper surface, capable of emitting sound waves with frequencies between 50 and 4,000 Hz that provide bone conduction stimulation to a vestibular system of a human body; a wireless receiver electrically connected to said plurality of bone conduction transducer and receiving signals from a wireless transmitter; and a cover enclosing the flexible sheet of padding, the bone conduction transducer, and the wireless receiver, wherein the wireless receiver is located on a surface of the flexible sheet of padding.

3. The stimulation pad as recited in claim 2, wherein said signals from said wireless transmitter cause said bone conduction transducer to emit music comprised only of frequencies below 4,000 Hz.

4. The stimulation pad as recited in claim 2, wherein said signals from said wireless transmitter cause said bone conduction transducer to emit music with frequencies above 4,000 Hz filtered out.

5. The stimulation pad as recited in claim 3, wherein said signals from said wireless transmitter cause said bone conduction transducer to emit the low frequency sound of a heartbeat.

6. The stimulation pad as recited in claim 2, further comprising: a heating element; and a heating element controller; wherein the heating element controller regulates the heater output to maintain the stimulation pad at a constant temperature.

7. The stimulation pad as recited in claim 2, further comprising: aroma therapy pads for depositing fragrance onto the stimulation pad.

8. The stimulation pad as recited in claim 2, further comprising: one or more light emitting devices.

9. The stimulation pad as recited in claim 2, further comprising: a canopy to isolate the stimulation pad from a surrounding environment.

10. The stimulation pad as recited in claim 2, further comprising: a plurality of ridges on the top surface of the stimulation pad.

11. An eye mask, comprising: a flexible sheet of padding having a first surface; a pair of bone conduction transducers, located on said first surface and at opposite ends of the flexible sheet of padding, the bone conduction transducers configured to emit sound waves with frequencies between 50 and 4,000 Hz that provide bone conduction stimulation to a vestibular system of a human body; a sound source coupled to and transmitting signals to the pair of bone conduction transducers; a cover enclosing the flexible sheet of padding, the plurality of bone conduction transducers, and the sound source; and a strap for connecting the opposite ends of the flexible sheet of padding in order to place the eye mask around a head of the human body.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0078] FIG. 1 is a perspective view of the recording playback device, amplifier and headphones having a bone conduction transducer that are utilized in the present disclosure.

[0079] FIG. 2 is a perspective view of the recording playback device and amplifier that are utilized in the present disclosure.

[0080] FIG. 3 is a schematic view of a group usage set-up comprising a plurality of bone conduction only head phones wirelessly coupled to a recording playback device.

[0081] FIG. 4 is a plan view of a first embodiment of a bone conduction pad of the present disclosure.

[0082] FIG. 5 a cross sectional view of a bone conduction pad of FIG. 4.

[0083] FIG. 6 is a plan view of a second embodiment of a bone conduction pad of the present disclosure.

[0084] FIG. 7 is a cross sectional view of the alternate embodiment of the bone conduction pad of FIG. 6.

[0085] FIG. 8 is a plan view of a third embodiment of a bone conduction pad of the present disclosure.

[0086] FIG. 9 a cross sectional view of the bone conduction pad of FIG. 8.

[0087] FIG. 10 is a perspective view of an eye mask employing the bone conduction pad principles disclosed herein;

[0088] FIG. 11 is a perspective view of a headband employing the bone conduction pad principles disclosed herein.

DETAILED DESCRIPTION OF THE DRAWINGS

[0089] Referring to FIGS. 1 and 2, an auditory stimulus is provided by filtering and treating recorded music and sounds as described in the description of the invention. The filtered and treated music and sounds are loaded onto a recording playback device 10, such as an i-Pod device.

[0090] The playback signal from the recording playback device 10, is provided to the multi-conductor input jack 12 of an amplifier 14, through a multi-conductor audio input cable 16 having a multi-conductor input plug 18. The amplifier 14 splits the playback signal into separate and distinct output signals, one for air conduction output and one for bone conduction output. The amplifier provides for separate adjustment of the amplitude of the air conduction output signal and the bone conduction output signal through air conduction amplitude adjustment 20 and bone conduction amplitude adjustment 22, respectively. The air conduction output signal from the amplifier 14 is transmitted through a multi conductor air conduction output jack 32 to a multi conductor air conduction output plug 34 that is connected to a pair of air conduction headphones 28 contained in a headphone assembly 30. The bone conduction output signal from the amplifier 14 is transmitted through multi conductor bone conduction output jack 24 to a multi conductor bone conduction output plug 26 that is connected to a bone conduction transducer 36 contained in a headphone assembly 30. The bone conduction transducer 36 is located within headphone assembly 30 so that when headphone assembly 30 is worn by a subject the bone conduction transducer 36 is in contact with the subject's skull.

[0091] The recording playback device 10, and the amplifier 14 are preferably attached to one another with removable adhesive material 38 to prevent them from banging together during movement activities, or may be integrated into one device. Additionally, securing the recording playback device 10 to the amplifier 14 allows them to be readily placed in the subject's pocket or secured in a waist pack worn by the subject during movement activities.

[0092] Referring to FIG. 3, an auditory stimulus is provided by filtering and treating recorded music and sounds as described herein. The filtered and treated music and sounds are loaded onto a recording playback device 10, such as an i-Pod device. In this embodiment, a wireless connection 65 between the treated music stored on recording playback device 10 and a plurality of bone conduction only headphones 31 allow a group of individuals to share the same bone conduction signal in a group setting.

[0093] A playback signal 55 from the recording playback device 10 is provided to an input (not shown) of amplifier/splitter 15 where it is split into an air conduction output signal 54 which is connected to loud speaker 50 and a bone conduction output signal 56 which is connected to wireless transmitter 60. The amplifier 15 provides for adjustment of the amplitude of the air conduction output signal 54 which is connected to one or more room speakers 50. The air conduction output signal 54 can thus be broadcast for all users via the loud speaker 50, whether a user is wearing bone conduction devices or not.

[0094] The bone conduction output signal 56 is transmitted to a wireless transmitter 60 for transmission to associated wireless receivers 70. A wireless signal 65 is thus communicated from wireless transmitter 60 to a plurality of wireless receivers 70, one associated with each set of bone conduction headphones 31. Each wireless receiver 70 may comprise a separate amplifier to boost the signal strength for adjusting the volume of the bone conduction headphones 31. Bone conduction headphones 31 are similar to the headphone assembly 30 shown in FIG. 1 except they do not comprise the air conduction devices and associated ear surrounds 28. The bone conduction headphones 31 do comprise one or more of the bone conduction transducers 36.

[0095] The wireless receiver 70 may be integrated into the bone conduction headphones 31 or may be a separate device and coupled via wires to headphones 31. In either situation, the wireless receiver 70 associated with each set of bone conduction headphones 31 provides adjustable volume control (not shown).

[0096] FIGS. 4 and 5 illustrate the bone conduction pad 110 of the present disclosure. Bone conduction pad 110 is constructed from a flexible sheet of padding 112 having a recess 114 formed in its upper face 116. The flexible sheet of padding 112 is typically made of foam or textile batting so that an individual being treated may comfortably lie upon or apply the bone conduction pad 110 to their body. The flexible sheet of padding 112 may be made waterproof. The flexible sheet of padding 112 may be 1 to 6 feet in length. The flexible sheet of padding 112 may also be flexible and malleable. Within recess 114 is located a bone conduction transducer 118. In one embodiment, shown in FIGS. 8 and 9, there are a plurality of recesses 114 strategically located on the flexible sheet of padding 112 based on typical usage. Bone conduction transducer 118 is particularly selected so that it is capable of emitting low frequency sound waves between 50 and 4,000 Hz. Bone conduction transducer 118 is electrically connected through electrical leads 120 to a sound source 122. In practice, the sound source 122 is typically a tape player CD player or MP3 player, however other devices capable of producing the appropriate low frequency sound signals may be employed. In one embodiment, the sound source 122 is a wireless receiver 150. A wireless transmitter 160 sends wireless sound source signals 165 from a location remote from the bone conduction pad 110. A cover 124 typically of waterproof textile material encloses the flexible sheet of padding 112, bone conduction transducer 118, electrical leads 120, and sound source 122. Cover 124 is constructed with a pocket 126 at its periphery to secure sound source 122. Flexible sheet of padding 112 may also be constructed with a pocket 126 at its surface to secure sound source 122.

[0097] In one application, the bone conduction pad 110 is positioned upon or under an individual so that bone conduction transducer 118 is able to emit low frequency waves to the skeletal frame of the individual. The signals provided to transducer 118 from sound source 122 are particularly selected, based upon the condition of the individual being treated, to provide sound waves that result in a particular therapeutic effect.

[0098] The flexible sheet of padding 112 may also comprise a heater 170 with a control 172 to regulate the temperature of the pad. In another embodiment, the flexible sheet of padding 112 may comprise locations for aroma therapy material 174 for depositing a plurality of fragrances and/or a plurality of light emitting devices 180 for light therapy.

[0099] In still another embodiment, the flexible sheet of padding 112 or cover 124 may comprise a canopy 190 to surround a user's head and provide a sensory-controlled environment, isolated from the surrounding environment. In another embodiment, the pad 112 has raised ridges 194 formed across its top surface to provide tactile sensory input.

[0100] In still another embodiment, shown in FIG. 10, the flexible sheet of padding 212 and/or cover 224 is formed in an eye mask configuration 200 with an adjustable head band 210 and at least a pair of bone conduction transducers 218 located on a surface of the pad such that when worn by a user, the transducers rest against the user's temples. In an alternative embodiment, one or more transducers 218 may be located at any location on the flexible sheet of padding 212. The adjustable head band 210 may comprise Velcro type attachments 242 or comprise elastic components. Other types of adjustment/connection mechanisms are also contemplated by this embodiment of the invention. The eye mask configuration 200 may be wired or wireless as previously discussed and may or may not have a sound source pocket for storage of a sound source 222. Such an embodiment may optionally comprise any of the other previously discussed features such as temperature control, aroma therapy, or light therapy.

[0101] In still another embodiment, shown in FIG. 11, the flexible sheet of padding 212 and/or cover 324 is formed in a headband configuration 300 with an optional adjustable clasp 350 or other tightening mechanism and one or more bone conduction transducers 218 located on a surface of the pad 212. The one or more transducers 218 may be located at any location on the flexible sheet of padding 212, and are preferably located such that when worn by a user, the transducer(s) 218 rest against the user's temples. The cover 324 may be made of a waterproof or non-waterproof material. The adjustable headband 300 may comprise elastic components, which along with the optional clasp 350 allow a user to properly adjust the headband. Other types of adjustment mechanisms are also contemplated by this embodiment of the invention. The headband configuration 300 may be wired or wireless as previously discussed and may or may not have a sound source pocket 310 for storage of a sound source 322. While the sound source pocket 310 is illustrated in the front of the headband, said sound source pocket 310 may be located at any location on the headband 300. One embodiment may optionally comprise any of the other previously discussed features such as temperature control, aroma therapy, or light therapy. In another embodiment, the headband 300 may further comprise air conduction speakers 330 in addition to the bone conduction transducers. While illustrated as ear bud type speakers, this embodiment of the invention contemplates any type of air conduction speaker. This embodiment also contemplates the air conduction speakers 330 being integrated into the cover 324 and/or the flexible sheet of padding 212. In yet another embodiment, the headband may comprise a Bluetooth or other wireless type receiver/transmitter 360 so that the sound source 322 does not have to be directly connected to the headband 300. In another embodiment, the headband likewise comprises one or more microphones 340 to pick up the user's voice, which in connection with the wireless type receiver/transmitter 360 could allow the headband to be used as a communication device, e.g., a headband telephone. The microphone(s) 340 might also be used to pick up ambient background noise, which can then be processed by a microprocessor (not shown) or electrical circuit (not shown) within the headband and outputted to the air conduction speakers 330 as a noise-canceling feature. While the headband 300 is not typically worn over a user's ear, it's structure is such that, at least in one embodiment, wearing over the user's ears allows the headband 300 to block outside noise and/or allow the user to listen to integrated air conduction speakers 330. While the headband 300 may be worn for a plurality of activities, such as exercising or outdoor activities, it is particularly contemplated that the headband 300 be used as a sleep or relaxation aid.

[0102] FIGS. 6 and 7 illustrate an alternate embodiment of the bone conduction pad 110 of the present disclosure. Bone conduction pad 110 of this alternate embodiment is constructed in the same fashion as the embodiment depicted in FIGS. 4 and 5, with the exception that transducer 118 is placed within and contacts a bed of particulate matter 128 that is enclosed within a flexible membrane 130. The recess 114 within the flexible sheet of padding 112 of this alternate embodiment is appropriately sized to accommodate transducer 118, and particulate matter 128.

[0103] In application of this alternate embodiment of the bone conduction pad 110, the area for bone conduction of low frequency waves between the bone conduction transducer 118 and the skeletal frame of the individual being treated is greatly increased. As the bed of particulate matter 128 surrounding the bone conduction transducer 118 transmits the waves emitted from the bone conduction transducer 118, the area of effective transmission is greatly increased; as a result, placement of the bone conduction pad 110 need not be as precise and remains effective despite activity that may unintentionally displace the bone conduction pad 110.