US20140250592A1 - Infant calming/sleep-aid device and method of use - Google Patents

Infant calming/sleep-aid device and method of use Download PDF

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Publication number
US20140250592A1
US20140250592A1 US14/353,258 US201214353258A US2014250592A1 US 20140250592 A1 US20140250592 A1 US 20140250592A1 US 201214353258 A US201214353258 A US 201214353258A US 2014250592 A1 US2014250592 A1 US 2014250592A1
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Prior art keywords
sleep
aid device
infant
motion
infant calming
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Abandoned
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US14/353,258
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English (en)
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Harvey Neil Karp
Matthew R. Berlin
Jesse V. Gray
Bill Walter Washabaugh
Deb Kumar Roy
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Happiest Baby Inc
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UNACUNA LLC
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Assigned to UNACUNA, LLC reassignment UNACUNA, LLC ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BERLIN, MATTHEW R., GRAY, JESSE V., WASHABAUGH, BILL WALTER, ROY, DEB KUMAR, KARP, HARVEY NEIL
Publication of US20140250592A1 publication Critical patent/US20140250592A1/en
Assigned to HAPPIEST BABY, INC. reassignment HAPPIEST BABY, INC. CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). Assignors: UNACUNA, LLC
Assigned to SILICON VALLEY BANK reassignment SILICON VALLEY BANK SECURITY INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: HAPPIEST BABY, INC.
Assigned to JPMORGAN CHASE BANK, N.A. reassignment JPMORGAN CHASE BANK, N.A. SECURITY INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: HAPPIEST BABY, INC., HB INNOVATIONS INC.
Assigned to HAPPIEST BABY, INC. reassignment HAPPIEST BABY, INC. RELEASE BY SECURED PARTY (SEE DOCUMENT FOR DETAILS). Assignors: SILICON VALLEY BANK
Abandoned legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47DFURNITURE SPECIALLY ADAPTED FOR CHILDREN
    • A47D7/00Children's beds
    • A47D7/007Children's beds combined with other nursery furniture, e.g. chests of drawers
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47DFURNITURE SPECIALLY ADAPTED FOR CHILDREN
    • A47D9/00Cradles ; Bassinets
    • A47D9/02Cradles ; Bassinets with rocking mechanisms
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47DFURNITURE SPECIALLY ADAPTED FOR CHILDREN
    • A47D15/00Accessories for children's furniture, e.g. safety belts or baby-bottle holders
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47DFURNITURE SPECIALLY ADAPTED FOR CHILDREN
    • A47D7/00Children's beds
    • A47D7/04Children's beds capable of being suspended from, or attached to, window frames or other articles
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47DFURNITURE SPECIALLY ADAPTED FOR CHILDREN
    • A47D9/00Cradles ; Bassinets
    • A47D9/02Cradles ; Bassinets with rocking mechanisms
    • A47D9/04Cradles ; Bassinets with rocking mechanisms with disconnectable rockers
    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47DFURNITURE SPECIALLY ADAPTED FOR CHILDREN
    • A47D9/00Cradles ; Bassinets
    • A47D9/02Cradles ; Bassinets with rocking mechanisms
    • A47D9/057Cradles ; Bassinets with rocking mechanisms driven by electric motors
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B5/00Measuring for diagnostic purposes; Identification of persons
    • A61B5/103Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
    • A61B5/11Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10KSOUND-PRODUCING DEVICES; METHODS OR DEVICES FOR PROTECTING AGAINST, OR FOR DAMPING, NOISE OR OTHER ACOUSTIC WAVES IN GENERAL; ACOUSTICS NOT OTHERWISE PROVIDED FOR
    • G10K15/00Acoustics not otherwise provided for
    • G10K15/04Sound-producing devices
    • GPHYSICS
    • G10MUSICAL INSTRUMENTS; ACOUSTICS
    • G10LSPEECH ANALYSIS TECHNIQUES OR SPEECH SYNTHESIS; SPEECH RECOGNITION; SPEECH OR VOICE PROCESSING TECHNIQUES; SPEECH OR AUDIO CODING OR DECODING
    • G10L15/00Speech recognition
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S5/00Beds
    • Y10S5/904Beds with sound emitting means

Definitions

  • Persistent crying and poor infant sleep are perennial and ubiquitous causes of parent frustration. During the first months of life, babies fuss/cry an average of about 2 hours/day and wake about 2 to 3 times a night. One in six infants are brought to a medical professional for evaluation for sleep/cry issues.
  • Swaddling rhythmic motion and certain sounds to soothe fussing infants and promote sleep (by reducing sleep latency and increasing sleep efficiency).
  • “Sleep latency” is defined as the length of time between going to bed and falling asleep.
  • “Sleep efficiency” is defined as the ratio of time spent asleep (total sleep time) to the amount of time spent in bed.
  • Swaddling, rhythmic motion and certain sounds imitate elements of a baby's in utero sensory milieu and activate a suite of brainstem reflexes, the calming reflex.
  • Swaddling is a method of snug wrapping with the arms restrained at the baby's sides. This imitates the tight confinement babies experience in the womb. Swaddling also inhibits startling and flailing, which often interrupts sleep and starts/exacerbates crying.
  • Rhythmic motion replicates the movement fetuses experience when the mother is walking.
  • the motion stimulates the vestibular apparatus in the semicircular canals of the inner ear.
  • a specific, rumbling low-frequency noise imitates the sound created by the turbulence of the blood flowing through the uterine and umbilical arteries.
  • In utero the sound level babies hear has been measured at between 72 and 92 dB.
  • Each baby has a specific and distinctive unique mix of motion and sound that most efficiently activates his or her calming reflex. This preferred mix stays consistent through the first months of life (i.e. babies who respond best to swaddling plus motion continue to respond to those modalities over time and don't abruptly switch their preference to swaddling plus sound).
  • the calming reflex has several constant characteristics. It is triggered by a stereotypical sensory input; produces a stereotypical behavioral output; demonstrates a threshold phenomenon (i.e. stimuli that are too mild may not be sufficient to activate a response); has a threshold that varies between individuals (i.e. is higher or lower for any given child); the threshold varies by state (e.g. fussing and crying raise the level of stimulation required to exceed threshold and bring about reflex activation).
  • a threshold phenomenon i.e. stimuli that are too mild may not be sufficient to activate a response
  • the nominal level of a stimulus needed to reach the triggering threshold of the calming reflex differs from one child to the next, failure to exceed a particular child's threshold level often results in a total absence of a calming response. For example, slow smooth motion may calm one upset infant, yet be too subdued to calm another. Likewise, moderately loud sound may reach the calming threshold for one child, but not another.
  • the stereotypical output of the calming reflex is a reduction of motor output and state. The intensity of sound and motion needed to trigger any particular baby's calming reflex is much greater than the levels needed to keep the calming reflex activated.
  • “State” describes an infant's level of attention to and interaction with the environment. Infants experience six states: quiet sleep, active sleep, drowsiness, quiet alert, fussing and crying.
  • cribs are problematic. Babies sleeping supine in cribs have a higher risk of plagiocephaly (flattening of the skull), which may require expensive and inconvenient medical treatment, and may result in a permanent deformity.
  • a crib's flat, quiet, nonmoving surface is devoid of the swaddling, rhythmic motion and sound that reduce crying, reduce sleep latency and increase sleep efficiency.
  • a motorized cradle was designed to rock sleeping babies in an arc along the head-foot axis. This product allowed the cradle to come to rest at an angle, in a partial swing position, which resulted in multiple infant deaths.
  • Another device designed to simulate a car traveling at about 55 miles per hour, is comprised of 2 parts: a vibrating motor that fixes to the underside of the crib and a speaker that fixes to the sidewall.
  • Still another device has a motorized crib that moves back and forth (about 10 cm in each direction along the head-foot axis; each swing lasting about 1.8 seconds).
  • a sensor activates the device's motor for a limited period of time when it detects the infant's cry.
  • Still other devices have introduced sound machines or mats that vibrate for short periods of time to be placed under the baby to encourage sleeping.
  • infant calming/sleep devices deliver fixed and unchangeable motion and sound. This is a problem because each baby has a different mix of sound and motion that most efficiently calms the child and promotes sleep. For example, some babies respond best to swaddling plus motion, others swaddling plus sound.
  • Another problem with fixed motion and sound infant calming/sleep devices is that each baby has a unique level of motion and sound that induces calming and sleep most efficiently. For example, slow rocking may reduce sleep latency for one infant, yet be too subdued to do so in another infant. And, quiet sound may be sufficient to increase sleep efficiency for one baby, but not another. Also, the intensity of sound and motion that a baby needs to trigger the calming reflex is much greater than the levels needed to keep the calming reflex activated.
  • Still another problem with fixed motion and sound infant calming/sleep devices is that the intensity of the stimuli needed to activate the calming reflex and induce calm and sleep varies substantially as a child's state changes. For example, most fussy babies require more vigorous, jiggly motion (with rapid acceleration-deceleration) and more vigorous sound inputs (as loud as a vacuum cleaner—75 to 80 dB). On the other hand, calm, sleepy babies need less vigorous inputs.
  • current infant calming/sleep devices do not continue all night long; do not deliver optimal sound and motion for triggering the calming reflex; do not increase and decrease their sensory input in a step-wise fashion to vary the sensory input intensity to give the baby the most effective level of stimulation; lack the ability to reduce the sensory input over time to wean a baby off the stimuli as he or she ages.
  • the invention generally is directed to a method for aiding calming and sleep of an infant.
  • the invention is an infant calming/sleep-aid device that includes a main moving platform that moves in a reciprocating manner.
  • An actuator drives the reciprocating movement of the main moving platform and a moving head platform linked to the main moving platform reciprocates in response to reciprocating movement of the main moving platform.
  • at least one of a motion sensing device and a sound sensing device are, respectively, at or proximate to the moving head platform.
  • a logic circuit links at least one of the motion sensing device and the sound sensing device to the main moving platform, whereby signals detected by at least one of the motion sensing device and the sound sensing device cause the logic circuit to modulate the movement of the main moving platform.
  • the infant calming/sleep-aid device in another embodiment, includes a rigid base and a main movement linkage or bearing extending from the base.
  • the main moving platform is mounted on the main movement linkage or bearing, whereby the main moving platform is movable on the main movement linkage or bearing relative to the base.
  • An actuation assembly that controls movement of the main moving platform about the main movement linkage or bearing relative to the rigid base includes an actuator mounted to the rigid base.
  • the invention is a method for aiding the calming of a fussy infant or the sleep of an infant, comprising the step of moving the infant in a reciprocating manner about an axis that intersects the infant at a 90° angle to a major plane of the surface supporting the infant.
  • the invention is an adaptive calming and sleep aid method, including the steps of moving an infant in a reciprocating manner about an axis that intersects the infant and is orthogonal to a major plane of the surface supporting the infant. At least one of a sound generated by a sound generating device and a reciprocating movement is modulated in an updating and adaptive matter by a logic circuit-controlled actuation in response to at least one of the sound of the infant and the motion of the platform.
  • the system and method of the invention provides for modulation of reciprocating movement of an infant in an updating and adaptive manner.
  • the rapidly accelerating and decelerating reciprocal motion of the device which induces the infant's head to accelerate and decelerate over a short distance in a safe and specifically controlled manner induces the infant's natural calming reflex.
  • the device's specifically designed motion and sound, along with its adaptive control system reduce irritability during awake hours and improve infant sleep (specifically reducing irritability during periods of sleep, reducing sleep latency and increasing sleep efficiency) for babies up to about twelve months old.
  • FIG. 1 is a perspective view of one embodiment of the infant calming/sleep-aid device of the invention, with a depiction of an infant asleep inside the device.
  • FIG. 2 is a perspective view of the infant calming/sleep-aid device of FIG. 1 with swaddle fastening straps and without an enclosure.
  • FIG. 3 is a perspective view of the infant calming/sleep-aid device of FIG. 2 , showing apparatus beneath the main moving platform in broken lines.
  • FIG. 4 is a plan view of the apparatus supporting the main moving platform of the infant calming/sleep-aid device of FIG. 3 , with the rigid base and main moving platform shown in outline.
  • FIG. 5 is a side view of the infant calming/sleep-aid device shown in FIG. 4 , taken along line 5 - 5 .
  • FIG. 6 is a side view of the infant calming/sleep-aid device shown in FIG. 4 .
  • FIG. 7 is a perspective view of yet another embodiment of the calming/sleep-aid device of the invention, showing components of the device beneath the main moving platform in broken lines.
  • FIG. 8 is a plan view of the apparatus supporting the main moving platform of the calming/sleep-aid device of FIG. 7 , with the rigid base and main moving platform shown in outline.
  • FIG. 9 is a side view of the embodiment of the device shown in FIG. 7 .
  • FIG. 10 is a schematic representation of one embodiment of a software control system of the invention, along with inputs and outputs of the software control system.
  • FIG. 11 is a schematic representation of one embodiment of a crying detection module of the invention.
  • FIG. 12 is a schematic representation of one embodiment of a motion analysis module of the invention.
  • FIG. 13 is a schematic representation of one embodiment of a behavior state machine module of the invention.
  • FIG. 14 is a schematic representation of one embodiment of an audio generation module of the invention.
  • FIG. 15 is a schematic representation of a motion generation module of the invention.
  • FIG. 16 is a schematic representation of a motion generation module of the invention.
  • infant calming/sleep-aid device 10 includes enclosure 12 about infant 14 .
  • Enclosure 12 surrounds main moving platform 16 .
  • main moving platform 16 includes base 18 , moving head platform 19 , padding 20 and cloth covering 22 .
  • Swaddle fastening straps 24 extend from main moving platform 16 for securing infant 14 in suitable swaddling clothes 26 .
  • Head pad insert 28 supports the head of infant 14 .
  • head pad insert 28 includes a gel in order to reduce the risk of plagiocephaly.
  • Handles 30 extend laterally from main moving platform 16 .
  • Main moving platform 16 is supported and rotatable about a main support shaft (not shown) that is fixed to rigid base 32 .
  • Control panel 34 which includes speed control knobs 35 , status lights 37 and controls 39 for microphone 38 .
  • Rigid base control electronics 36 include drive electronics of infant calming/sleep-aid device 10 .
  • main moving platform 16 is supported by main support shaft 40 at main rotation bearing 42 .
  • Moving head platform 19 supports head pad insert 28 and is rotatable about head rotation bearing 46 through arm 48 extending between head rotation bearing 46 and moving head platform 19 .
  • Motion sensing device 50 such as an accelerometer, at moving head platform 44 detects motion of moving head platform 19 .
  • Microphones 38 at moving head platform 19 detect sound emitted by the infant (not shown) when supported by infant aid sleep device 10 .
  • Speakers 52 supported by brackets 54 mounted on rigid base 18 , are located directly beneath moving head platform 19 .
  • Springs 56 linking either side of moving head platform 19 to main moving platform 16 dampen motion of moving head platform 19 relative to main moving platform 16 during reciprocal motion of moving head platform 19 induced by reciprocating motion of main moving platform 16 .
  • Reciprocating motion of main moving platform 16 about main support shaft 36 is about an axis that is orthogonal to a major plane of main moving platform 16 .
  • Reciprocating motion of main moving platform 16 is driven by actuator assembly 58 .
  • the body and the head of the infant can be out of phase.
  • the motion of the head of the infant can be in the same direction as that of the motion of the upper body of the infant.
  • the reciprocal motion of the head of the infant can be in the opposite direction as that of the upper body of the infant.
  • reciprocal motion of the head of the infant can be in some other direction, such as orthogonally relative to the plane of the main support platform.
  • Actuator assembly 58 includes drive motor 60 mounted to rigid base 32 and gear assembly 62 linked to drive motor 60 and also mounted to rigid base 32 . Actuation of drive motor 60 causes rotation gear assembly 62 to drive eccentric drive plate 64 about an axis normal to a major plane of rigid base 32 . Eccentric drive plate 64 is linked to swing arm plate 66 of actuator assembly 58 that extends from eccentric drive plate 64 to rod end 68 of screw 70 and is pivotally mounted to rod end 68 of screw 70 . Screw 70 is mounted to amplitude modulation assembly 72 . Amplitude modulation assembly 72 includes amplitude modulation motor 74 , nut 76 , mounted on nut frame 78 , which swivels on rotation bearing 80 mounted to rigid base 32 .
  • the axis of rotation of nut frame 78 on rotation bearing 80 is, like that of eccentric drive plate 64 , normal to a major plane of rigid base 32 .
  • Actuation of amplitude modulation assembly 72 causes movement of screw 70 along its major longitudinal axis to thereby cause rod end 68 to become more proximate or less proximate to amplitude modulation assembly 72 .
  • Arm 82 extends from an end of screw 70 opposite to rod end 68 to elastic actuator catch bracket 84 , which is mounted on base 18 of main moving platform 16 . Arm 82 extends through an opening defined by elastic actuator catch bracket 84 and is linked to main moving platform 16 by springs 86 , 88 held in place on either side of elastic actuator catch bracket 84 by nuts 90 , 92 , respectively.
  • Actuation of actuation assembly drive motor 60 causes rotation of eccentric drive plate 64 about an axis normal to a major plane of rigid base 32 which, in turn, causes reciprocal motion of swing arm plate 66 roughly along a major longitudinal axis of swing arm plate 66 .
  • Such reciprocal motion of swing arm plate 66 causes rod end 68 to move in a reciprocal motion from side-to-side of a major longitudinal axis of screw 70 which causes reciprocal rotation of nut frame 80 about an axis normal to major plane rigid base 18 and side-to-side motion of the opposite end of screw 70 opposite that of rod end 68 of screw 70 .
  • Such side-to-side movements of the opposite end of screw 70 causes reciprocal longitudinal movement of arm 82 extending through the opening defined by elastic actuator catch bracket 84 .
  • Resistance to such reciprocal motion of arm 82 causes alternating reciprocal compression and relaxation of springs 86 , 88 , which thereby causes reciprocal motion of main moving platform 16 about main support shaft 40 linking main moving platform 16 to rigid base 32 .
  • the amplitude of reciprocal motion of main moving platform 16 about main support shaft 40 is controlled by the location of screw 70 relative to amplitude modulation assembly 72 .
  • amplitude modulation assembly 70 causes rod end 68 to become more proximate to amplitude modulation assembly 70 , the side-to-side motion of the opposite end of screw 70 will become greater, thereby causing the amplification of reciprocal motion of main moving platform 16 about main support shaft 40 to increase.
  • actuation of amplitude modulation assembly 72 to cause rod end 68 of screw 70 to become more remote from amplitude modulation assembly 72 will diminish the side-to-side motion of opposite end of screw 70 , thereby reducing the amplitude of reciprocal motion of main moving platform 16 about main support shaft 40 .
  • Reciprocal motion of main moving platform 16 causes a delayed reciprocal motion of moving head platform 44 about head rotation bearing 46 .
  • the reciprocal motion of moving head platform 44 although delayed, has greater amplitude about main support shaft 40 because of the rotation of moving head platform 44 about head rotation bearing 46 .
  • the amplitude of reciprocal motion of moving head platform 44 about head rotation bearing 46 is dampened by springs 56 .
  • the reciprocal motion of main moving platform 16 and moving head platform 44 about main support shaft 40 is measured by motion sensing device 50 at moving head platform 44 . Measurements by motion sensing device 50 are relayed back to control panel 34 and rigid base control electronics 36 which, alone, or optionally, in combination with external computer software programming, modulate actuator assembly drive motor 60 and amplitude modulation motor 74 .
  • Motion detection by motion sensing device 50 can also, optionally, modulate computer programming to affect selection and volume of sounds emitted by speakers 52 .
  • Microphones 38 receive acoustical signals that can be fed back through rigid base control electronics 36 or/and control panel 34 to software, either on-board or remote from infant calming/sleep-aid device 10 , that further modulates actuator assembly drive motor 60 , amplitude modulation motor 74 and/or sounds emitted from speakers 52 .
  • Algorithms associated with modulation of actuator assembly drive motor 60 , amplitude modulation motor 74 and speakers 52 will be more fully discussed below.
  • the device allows for a reciprocating motion at 0.5-1.5 cps of ⁇ 2′′ excursions, but if the baby is fussy the device responds by delivering a smaller excursion (e.g. ⁇ 1′′) at a faster rate ( ⁇ 2-4.5 cps).
  • This fast and small motion delivers the specific degree of acceleration-deceleration force to the semicircular canals in the vestibular mechanism of the inner ear that is required to activate the calming reflex.
  • the reciprocating motion typically has a maximum amplitude of less than one inch during the rapid phase of motion ( ⁇ 2-4.5 cps), further ensuring safety of the infant.
  • calming/sleep-aid device 100 includes actuator assembly 102 , which substitutes for actuator assembly 58 of the embodiment shown in FIGS. 2 through 6 .
  • drive motor 104 of calming/sleep-aid device 100 is linked to bearing 106 , which is, in turn, leads to the eccentric drive plate 108 .
  • Eccentric drive plate 108 is connected to push/pull rod 110 that extends through an opening defined by elastic actuator catch bracket 112 .
  • Springs 114 about push/pull rod 110 link push/pull rod 110 to main moving platform 16 through elastic actuator catch bracket 112 .
  • Springs 114 are series elastic actuator push-springs; they transfer force from actuator assembly 102 to catch bracket 112 . Balancing dampers 115 beneath push/pull rod 110 dampen the motion of moving platform 16 . Springs 117 are pull-balancing springs; they pull on bracket 112 in parallel with balancing dampers 115 to create the desired smooth sinusoidal motion of moving platform 16 at low frequencies and the rapid accelerating motion at high frequencies.
  • Actuation of drive motor 104 causes reciprocal longitudinal movement of push/pull rod 110 through the opening defined by elastic actuator catch bracket 112 and translates that reciprocal movement into reciprocal motion of main moving platform 16 about main rotation bearing 42 , as does reciprocal motion of arm 82 through elastic actuator catch bracket 84 of the embodiment shown in FIGS. 2 through 6 .
  • Other components of the embodiments shown in FIGS. 7 through 9 operate in the same manner as those of infant calming/sleep-aid device 10 represented in FIGS. 2 through 6 .
  • software control system 120 processes inputs from microphones and generates outputs to speakers represented in FIGS. 2 through 9 , also processes inputs from speed control knob 121 , also shown in FIGS. 2 through 9 , and from a three-axis USB accelerometer 123 , represented as motion sensing device in FIGS. 2 through 9 .
  • software control system 120 generates an output signal to multichannel USB motor controller 122 , which controls actuator assembly drive motor 60 (not shown) and amplitude modulation motor 74 (not shown) or, alternatively, as shown in FIGS. 7 through 9 , drive motor 104 (not shown).
  • Status lights such as tricolor USB DEs 121 , are represented as lights 37 in FIGS. 2 through 9 .
  • Modules of software control system 120 can be located on-board or remotely from the embodiments of infant calming/sleep-aid devices 10 , 100 shown in FIGS. 2 through 9 .
  • the modules include a crying detection module 124 that receives data from microphones 125 , represented at microphones 38 in FIGS. 2 through 9 , and relays to a behavior state machine module 126 whether or not an infant on infant calming/sleep-aid device is crying or not crying.
  • output signals will control motion generation module 128 or audio generation module 130 .
  • Actuation of motion generation module 128 will modulate the actuator assemblies of the embodiments shown in FIGS. 2 through 9 .
  • output signals from behavior state machine module 126 will modulate generation of audio data output from audio generation module 130 to speakers 131 , represented as speakers 52 in FIGS. 2 through 9 .
  • Data received from accelerometer 123 is processed by motion analysis module 132 to thereby modulate the actuator assembly through motion generation module 128 and/or audio generation module 130 to thereby control the actuators assemblies or speakers, respectively.
  • motion analysis module 132 controls status light module 134 to alert, through the status lights, whether motions of the main moving platform and the head platform are nominal or not nominal, or alternatively, through feedback, soothing or not soothing to the infant.
  • the rate of the reciprocating rotation is in a range of between about two and about four and one-half cycles per second and an amplitude of the reciprocating motion at a center of a head of the infant is in a range of between about 0.2 inches and about 1.0 inches.
  • the rate of reciprocating motion is in a range of between about 0.5 and about 1.5 cycles per second and an amplitude of the reciprocating rotation at a center of the head of the infant is in a range of between about 0.5 inches and about 2.0 inches.
  • the software weans the infant off the device by incorporating the infant age as a variable used by the behavior state module control system, wherein modulation is further controlled by at least one of the weight of the infant, the age of the infant, and the duration of the detected sounds made by the infant.
  • crying detection module 124 receives audio data from the microphones of infant calming/sleep-aid devices 10 , 100 , which is processed through digital band-pass filter 136 to generate filtered audio data.
  • Energy-based threshold 138 receives filtered audio data to determine whether the audio energy is over threshold or under threshold.
  • Time-based filter 140 receives data from energy-based threshold 138 to provide an indication as to whether the infant is crying or not crying.
  • the information is received from crying detection module 124 by behavior state machine module 126 that will then modulate either motion generation module 128 or audio generation module 130 .
  • Motion analysis module 132 receives a signal from the motion sensing device of infant calming/sleep-aid devices 10 , 100 , at digital filter bank 142 .
  • Digital filter bank 142 filters the signal to generate a filtered motion amplitude estimate that is used as input to motion generation module 128 ( FIG. 10 ).
  • the filtered motion amplitude estimate passes through a range check 144 to determine whether the motion is within a soothing or known soothing range.
  • Time-based filter 146 receives data from range check 144 to provide an indication as to whether a motion is soothing or not soothing.
  • Filtered motion sensor, or accelerometer, data from digital filter bank 142 also passes through threshold crossing-based motion frequency estimator 148 .
  • Outputted data from threshold-crossing-based motion frequency estimator 148 passes through range check 144 for indicating whether the motion is or is not soothing, and also provides input to motion generation module 128 ( FIG. 10 ).
  • Filtered accelerometer data from digital filter bank 142 also is processed to determine whether or not the acceleration exceeds a specific maximum motion threshold 150 and, depending on the result, processes that data through time-based filter 152 to provide an indication as to whether the motion is nominal or not nominal. This indication as to whether the motion is nominal or not nominal is used as input to motion generation module 128 ( FIG. 10 ), and is additionally used to control status lights 37 ( FIG. 2 ) via status light module 134 ( FIG. 10 ).
  • behavior state machine module 126 receives information from crying detection module 124 ( FIG. 11 ) as to whether the infant is in a state of crying or not crying. This information is used by the state machine's state transition rules 156 to select an active state from a library of states 154 , thereby outputting a desired motion state, a desired audio track and/or desired volume/equalizer settings to audio generation module 130 ( FIG. 10 ).
  • Audio generation module 130 receives signals of a desired audio track and desired volume/equalizer settings from behavior state machine module 126 ( FIG. 10 ) and signals of motion analysis, specifically, whether the motion is nominal or not nominal, from motion analysis module 132 ( FIG. 10 ). Audio generation module 130 includes a library of “soothing” audio tracks 160 , a digital equalizer/volume control 162 and alarm sound 164 . Upon receipt of a new command from motion analysis module 132 ( FIG. 10 ), audio generation module 130 will cross-fade to a desired audio track and volume, and crossfade to desired equalizer settings. If the motion is not nominal, then an alarm signal will be output to override the audio signal with an alarm. The audio signal from the audio generation module is output to the speakers of infant calming/sleep-aid device 10 , 100 .
  • the audio generator will produce an output of a low-pitch, rumbling sound at about 65 dB to about 70 dB.
  • audio generation module 130 Upon receipt of a new command from crying detection module 124 ( FIG. 11 ), audio generation module 130 will cross-fade to a more high pitched audio track and louder volume, at about 75 dB to about 80 dB.
  • motion generation module 128 receives a desired motion state input from behavior state machine module 126 ( FIG. 10 ), a motion frequency/amplitude signal from motion analysis module 132 ( FIG. 10 ), a desired system speed signal from speed control knob 121 ( FIG. 10 ), and a signal as to whether a motion is nominal or is not nominal.
  • the “desired system speed” is the setting of speed control knob 121 , whereby the operator can limit the motions allowed by infant calming/sleep-aid device 10 , 100 .
  • the desired motion state signal goes to lookup within motion generation module 128 , which outputs a reference motor command based on a desired motion state.
  • the motion generation module will set desired motor commands via path planning in a motor command space. “Path planning” transitions motor settings to desired motor settings by inserting intermediate motor settings as necessitated by nest dynamics to ensure that motion stays in a desirable range during transition. If the desired system speed is less than “full,” then a signal is sent to adjust the desired motor commands in proportion to the desired system speed.
  • “Full” is the fully-on position of the knob, and means that infant calming/sleep-aid device 10 , 100 is not being limited by this knob and is allowed to perform all of the motions it determines to be relevant. If speed control knob 121 is turned down from “full,” motions of infant calming/sleep-aid device 10 , 100 start to become constrained, so speed control knob 121 acts as an operator to override the normal motion behavior of infant calming/sleep-aid device 10 , 100 . If not, then a comparison is made as to whether the observed motion is nominal. If it is not, then motor output is disabled. If it is nominal, then an output signal of desired motor commands is given to target motor positions and speeds of the actuator of the multichannel USB motor controller.
  • motion generation module 128 shown in FIG. 16 , there is no receipt by the module of signals related to motion frequency and amplitude. Therefore, it is only necessary to set desired motor commands by interpolating from a current command based on a look up table of motor commands based on a desired motion state in response to receiving a signal with respect to the desired motion state. All of the components of motion generation are the same as represented in FIG. 15 .
  • FIGS. 2 through 9 of the invention Two versions of the infant calming/sleep-aid device as shown in FIGS. 2 through 9 of the invention were created, with microphones to detect infant crying, motion and sound actuators, a swaddling system to keep the baby in optimal position and a gel pad to reduce the pressure on the back of the skull that predisposes to plagiocephaly.
  • the device also contained a logic board to accomplish two tasks; deliver staged interventions of specially engineered sound and to deliver motion created by two linked platforms attached to a motor and rod actuator (as well as a series of springs and dampeners to modulate the activity.) These platforms acted in a reciprocating manner about an axis that intersected the infant and was orthogonal to a major plane of the surface supporting the infant to provide a motion that varies from slow smooth rocking (0.5-1.5 cps) to keep babies calm- and promote sleep . . .
  • the sound in the device was also designed to respond to the baby's upset by starting a specially engineered loud, harsh and high pitched and then stepping down to quieter, lower pitched white noise over several minutes.
  • the device was specifically designed to gradually reduce (“wean”) the intensity of the sound and motion over several months.
  • the device worked in the following way:
  • the baby was placed in a swaddling sack (with arms in or out) attached to the mattress of the device and securely laid on his/her back.
  • the device produced a baseline level of low pitched, rumbling noise at approximately 65 dB and baseline motion of a smooth, side-to-side rocking (2 inch excursions to either side).
  • the device responded by playing a specially engineered sound that was harsher, higher pitched, more multi-frequency (75-80 dB) to mimic the intensity of the sound that the baby heard inside the mother's uterus prenatally.
  • the device was tested on over twenty babies (12 girls, 10 boys) were in the device.
  • the babies ranged from 5 weeks to 6 months of age.
  • Their weights ranged from 8 pounds to 18 pounds.

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AU2017213453B2 (en) 2019-04-18
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CN104470405B (zh) 2017-06-20
KR20140089379A (ko) 2014-07-14
RU2014120178A (ru) 2015-11-27

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