• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
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    • 专利摘要:
    The present invention relates to a modular audio processing apparatus comprising: a shaped ear module (12A, D) comprising a receiver module (12C); an electronics module (12B) coupled to the receiver module (12C) and comprising digital signal processing circuits (12b); and a microphone module (14A) carried on the apparatus for receiving environmental sounds, wherein the digital signal processing circuits (12b) execute a hearing loss test protocol to carry out a hearing assessment on a user; wherein during the hearing assessment, a level of the environmental sounds received by the microphone module (14A) is monitored for determination as to whether an environment is suitable for assessment of the user's hearing limitations; wherein equalization and amplification levels of the audio processing apparatus are set for use in a normal mode of operation as an assistive listening device based on the hearing assessment.
    公开号:EP3691295A1
    申请号:EP20159529.5
    申请日:2010-03-10
    公开日:2020-08-05
    发明作者:Stavros Basseas;Steven Hannibal
    申请人:CONVERSION SOUND Inc;
    IPC主号:H04R25-00
    专利说明:
    [0001] This application claims the benefit of the filing date of U.S. Provisional Application Serial No. 61/159,287 filed March 11 , 2009 and entitled "On-Site - Custom Fitted Hearing Equalizer Optimized For Personal Hearing Needs and Preferences and for Insertion Loss Compensation". The '287 application is hereby incorporated herein by reference. FIELD
    [0002] The invention pertains to modular rechargeable Audio Processing Apparatuses - Assistive Listening devices which can be coupled wirelessly to personal digital assistants, computers or the like for use, initial adjustment and configuration. More particularly, the invention pertains to such devices implementable as customizable, wireless headsets. BACKGROUND
    [0003] Current Headsets provide wired or wireless connectivity with cellular phones or music players via non custom or semicustom ear canal adaptors that result in poor retention and inconsistent sound level and frequency response. More people wear headsets for longer periods of time and they tend to leave them on even when they are not in use (communicating with external devices, cell-phones, etc). Very few of those devices may have a pass-thru mode, where sounds are passed from the microphone to the speaker/receiver of the headset.
    [0004] When the physical fit is tight, the headset acts as an earplug, if the pass-thru mode is not available, reducing contact of the user with the environment in addition to being uncomfortable both because of the pressure applied on the ear canal walls as well as the fullness of the occluded canal.
    [0005] When the fit is loose, the device is not acting as an earplug to the surrounding sounds but it is still uncomfortable since it needs to be continuously readjusted and repositioned. More importantly, because sound enters the ear directly, the signal enhancing processing algorithms such as noise reduction, or directionality are heavily compromised. When the device is used in a pass thru mode, where sound from the microphone is passed to the speaker/receiver of the unit, higher levels of amplification/equalization are not possible due to the loose physical fit (large volume of air) and the echo/feedback cancellation processing is compromised.
    [0006] The current headsets over-amplify the low frequencies to compensate for the loose fit but cannot adjust the low frequencies to match the variability of the fit. Miniature extended frequency response receivers/speakers suitable for the small volumes of the enclosed ear canal depend on a good tight fit to deliver extended frequency response for a true pass-thru mode especially for non hearing impaired users.
    [0007] There are Further yet, the current headset devices do not provide for a way for equalization (other than over all volume) nor for hearing compensation procedures and tools. The receivers/speakers used in current headsets are not suitable for users with hearing impairment because they have extended lower frequencies in addition to over amplifying them and causing masking to upper frequencies where the impairment is usually manifested. BRIEF DESCRIPTION OF THE DRAWINGS
    [0008] Figs. 1A-1C are a sequence of images illustrating various aspects of two configurations of one embodiment -Norma! Mode of operation s of the invention; Fig. 2 is a block diagram of one embodiment-Normal Mode of operation of the invention; Fig. 3 is a block diagram of a second embodiment - Fine Tuning mode of operation of the invention; Fig. 4 is a block diagram of a third embodiment -Testing andAmplification Emulation Mode of the invention; Fig. 5 is a block diagram of another embodiment - Repair Mode of the invention; and Figs. 6A-6C illustrate aspects of a method in coupling to the ear with an aspect of the invention; Fig. 7A illustrate aspects of a method for electrical charging of the invention; and Fig. 7B illustrates a configuration of the invention as shown in its Fig 4. Embodiment.DETAILED DESCRIPTION
    [0009] While embodiments of this invention can take many different forms, specific embodiments thereof are shown in the drawings and will be described herein in detail with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention, as well as the best mode of practicing same, and is not intended to limit the invention to the specific embodiment illustrated.
    [0010] Embodiments of the invention can include, a custom fitted hearing device with good comfortable retention in the ear canal and sufficient attenuation which allow for the full utilization of the speech enhancing processing both while the device receives sounds from external devices or when it operates in a pass- thru/transparent mode.
    [0011] Another aspect includes an instant, on the spot, process for creating a custom mold that can be easily administered by the user or with the help of a minimally trained helper in certain markets, as in the developing world.
    [0012] A consistent, easy quick-to-administer detection of the equalization settings based on user needs. An interactive parameter adjustment procedure for fitting/programming the instrument. An optional wireless remote (PDA, cell phone or computer) that adds more flexibility in optimizing/ customizing the device. These procedures can be self administered by the user or with the help of a minimally trained helper in certain markets.
    [0013] A modular device, Fig 1 A(separate modules for electronics, battery, receiver, ear mold and such modules distributed over the ear, in front of the ear concha and in the ear canal with adjustable length interconnections) allows for easy on the spot adjustments, repair or servicing, and extends the use and the life of the product. A smart hearing aid detection and repair process implemented on the optional wireless remote (PDA, cell phone or computer). Modularity is very critical for the success of the device in underdeveloped markets.
    [0014] A rechargeable battery and a charger that supports solar and user generated energy sources such as a hand cranked generator, as well as conventional power sources. 22] Other aspects of the invention can include: A custom Figs. 6A-6B or semi-custom Fig 6C on the spot mold that allows for comfortable retention and provides sufficient attenuation from environmental sound distractions and allows the signal enhancing processing (noise reduction, directionality, equalization) to control the sound that gets into the ear either in communication or pass-thru mode of operation. Consistent and predictable equalization and amplification because of the consistent placement due to the custom ear mold. Reduced cognitive effort for the user by overcoming hearing difficulties (by equalization and signal enhancement) based on environmental or personal physical limitations. Transparent/pass-thru mode (sound comes from microphone on the unit) that takes into consideration the attenuation introduced by having a mold covering the ear canal. It wirelessly communicates and receives/transmits sounds to many devices such as cell phones or wireless adaptors for regular phones, mp3 players, TV audio wireless adaptors, computers etc. Takes into consideration the listening environment and adjusts accordingly as to increase sound clarity and reduce cognitive effort by the user (normal or impaired hearing) in difficult environments. Equalization of device is dependent on self hearing assessment (or with third party assistance) to correctly set the preferred equalization/ amplification level. Hearing and preference assessment is accomplished through generating sounds via an algorithm that determines hearing/preference level of the individual wearing the device. The wearer indicates when the sound is heard via responding to a signal from the sound generating device which could be the hearing device or other hand held device (mobile phone, PDA, his own personal computer, etc). The hearing assessment program monitors the environmental sound level to determine if environment is suitable for assessment of the specific individual's hearing limitations. The hearing device is capable of picking up signals from the microphone (environmental sounds) or external signals through an internal antenna (such as signals generated by remote devices such cell phone, MP3 player, computer, PDA). The device can adjust it settings based on environment automatically or manually. The device allows for user adjustment of its equalization parameters with the help of appropriate cue sounds. The device automatically adjusts its default setting based on past adjustment history. The hearing device contains algorithms that are activated based on input signal characteristics. The hearing device can switch automatically between input signals. The hearing devices can be used on both ears with individual assessment of both ears. The hearing devices when worn binaurally can act independently of one another or in coordination with regard to input. A modular device that allows for onsite repair. Parts can be snapped to and from the device. The optional remote (PDA, Cell phone, computer) generates diagnostic tests for each module and calls for the replacement/needed repair.
    [0015] In yet another aspect of the invention, an off-the-self, relatively inexpensive personal digital assistant, (PDA), and included fuzzy logic-type, expert system, software can be used by individuals with very limited training to accurately measure hearing, compensate for noisy ambient environments during testing and detect underlying medical conditions for follow-up. The same PDA could be used to carry out fitting, fine tuning, or on-site repair of the respective hearing device.
    [0016] In yet another aspect of the invention, user's can adjust the device to suit their particular requirements from casually listening to downloaded music to improving their reception of locally generated audio. Adjustments can be made directly via local controls on the device or via a programmed PDA which the user could carry.
    [0017] Rechargeable batteries can be provided. A hand cranked generator can be used for recharging where no utility supplied energy is available.
    [0018] In a further aspect of the invention, a very low cost, custom ear mold can be provided using a standard, preformed inflatable balloon. A balloon, which might include inserts such as a sound tube, or removable shapes, for example for coupling to an associated electronics package, can be inserted into the ear of a user. The balloon can be filled with silicone which when cured will correspond to the user's ear canal. The cured silicone shape can then be removed from the user's ear and attached to the electronics package.
    [0019] In a further aspect of the invention, very low cost, selection of semicustom ear molds can be provided allowing for accommodation of a wide range of ear sizes both in terms of ear canal circumference and length.
    [0020] Another embodiment of the invention can be used to carry out testing of various types to evaluate hearing loss. This alternate embodiment can also be used with a local, programmed PDA. Separate microphones and audio output devices, receivers, can be provided for each ear.
    [0021] Fig. 1A illustrates two configurations (10 and 11) of the Normal Mode of operation embodiment in accordance with the invention. An ear nodule 12A or 12D is coupled to a receiver module 12C which is coupled to module electronics/wireless module 12C. The electronics module can be either in front of the ear (configuration 10) or behind the ear (configuration 11). In configuration 10 the electronics module 12B is connected via an "adjust length and lock" tube with the microphone module 14A behind the ear. In the same configuration, a magnetic or mechanical "snap-on" battery module 14B is connected with the microphone module 14A. In configuration 11 the removable "snap on" battery module is connected directly to the electronics module 12B. Figs. 1B-1C illustrates configurations 10 and 11 coupled to the ear of a user.
    [0022] Fig. 2 illustrates a block diagram of one implementation of the embodiment, in configurations 10 and 11 configured as a stand alone hearing device 20 which could be used with a wirelessly coupled cellular telephone 22A, a wirelessly coupled MP3 music player 22B, or a wirelessly coupled displaced microphone 22C.
    [0023] Device 20 can also include a rechargeable battery module 14B, a user audio input microphone module 22b which can be carried in unit 12B, and a receiver module 12c which can also be carried by unit 12B, to provide audible output to the user's ear canal. Unit 12B can include a short range wireless transceiver 12a, for example, a BLUETOOTH brand transceiver, along with digital processing circuitry 12b which can carry out speech processing, noise reduction, feedback cancellation and other functions to improve a user's hearing experience relative to local audio input, via microphone 14A, or from any of the devices 22A, B or C.
    [0024] The battery module 14B can be recharged by use of a manually operable battery charger 16, for example, a hand crankable generator.
    [0025] Fig. 3 illustrates a block diagram of another implementation which includes an embodiment, such as the embodiment 10, wirelessly coupled to one of a personal digital assistant, a cellular-type telephone or a computer 30. In the implementation of Fig. 3, the unit 20 can be selectively adjusted, fine-tuned, hearing loss testing can be carried out, or amplification emulation can be implemented, via the unit 30. The unit 30 can also include a short range wireless transceiver 30a, compatible with the transceiver 12a.
    [0026] Fig. 4 illustrates a blopk diagram of a test/evaluation unit 40 usable to develop control parameters for use with the unit 10, 11 or 20. Unit 40 includes an electronics module 42 which can include one or more programmed processors as well as digital signal processing software 44. Left and right audio input/output microphones 46 a, b, and telephone-type phone output audio devices 47 a, b coupled to unit 40 receive audio from, or provide audio to the person being evaluated. A local short range wireless transceiver 42a, for example a BLUETOOTH brand device can be coupled to the electronics package and software 44 for communication to a wireless control unit 30.
    [0027] The unit 30 can be implemented as a programmed PDA, cellular-type phone or a computer with a compatible transceiver 30a. Software implemented functions can include one or more of a Hearing-loss testing expert system, a fitting/adjusting programming expert system, an amplification emulation system, on- site repair system, as well as a local patient database, all without limitation.
    [0028] Fig. 5 illustrates a block diagram of the unit 10, 11, 20 combined with the test/evaluation unit 40 to implement a repair mode. It will be understood that other functions can be provided using the combination of Fig. 5, without limitation.
    [0029] Figs 6A- 6B illustrate an exemplary method of producing the ear mold 12A. A balloon is provided as in Fig. 6A. The balloon, with any internal inserts, is inserted in the ear canal of the user, as in Fig. 6B. The balloon is filled with a fast curing silicone as in Fig. 6B. Once the silicone has cured, the mold can be removed from the user's ear and attached to a corresponding electronics package as in Fig. 1A.
    [0030] Fig. 7A illustrates an exemplary method of coupling the rechargeable battery 14B in configuration 10 to the charger unit 16 using "snap on" magnetic coupling.
    [0031] Fig. 7B illustrates an exemplary method of adjusting the cable length of the Evaluation-Testing apparatus / Medallion, unit 40.
    [0032] From the foregoing, it will be observed that numerous variations and modifications may be effected without departing from the spirit and scope of the invention. It is to be understood that no limitation with respect to the specific apparatus illustrated herein is intended or should be inferred. It is, of course, intended to cover by the appended claims all such modifications as fall within the scope of the claims.
    权利要求:
    Claims (15)
    [0001] A modular audio processing apparatus comprising:
    a shaped ear module (12A, D) comprising a receiver module (12C);
    an electronics module (12B) coupled to the receiver module (12C) and comprising digital signal processing circuits (12b); and
    a microphone module (14A) carried on the apparatus for receiving environmental sounds,
    wherein the digital signal processing circuits (12b) execute a hearing loss test protocol to carry out a hearing assessment on a user;
    wherein during the hearing assessment, a level of the environmental sounds received by the microphone module (14A) is monitored for determination as to whether an environment is suitable for assessment of the user's hearing limitations;
    wherein equalization and amplification levels of the audio processing apparatus are set for use in a normal mode of operation as an assistive listening device based on the hearing assessment.
    [0002] The apparatus of claim 1 further comprises a short-range wireless transceiver (12a) coupled to the electronics module (12B) and coupled to the digital signal processing circuits (12b), the short-range wireless transceiver (12a) providing for wireless communication with a wireless transceiver of a control unit (30);wherein the control unit (30) comprises a hearing loss testing expert system.
    [0003] The apparatus of claim 1 wherein the hearing assessment is accomplished through generating sounds via an algorithm that determines hearing level of the user.
    [0004] The apparatus of claim 3, wherein the hearing assessment is accomplished by user indication that the generated sounds are heard by the user.
    [0005] The apparatus of claim 1 further comprising a pass-through mode of operation that provides amplification of sound from the microphone module (14A);wherein the digital signal processing circuits (12b) compensate for attenuation of incoming audio caused by insertion of the ear module (12A) in the user's ear canal.
    [0006] The apparatus of claim 1 wherein the electronics module (12B) is configured for placement behind the user's ear; and further wherein electronics module (12B) is coupled to the receiver module (12C) via a tube (15).
    [0007] The apparatus of claim 6, wherein the tube (15) is adjustable in length and lockable, the tube providing an adjustable length interconnection between the electronics module (12B) and the receiver module (12C).
    [0008] An audio processing system comprising:
    A control unit (30);
    A modular audio processing apparatus, including:
    a shaped ear module (12A, D);
    a microphone module (14A) to receive environmental sounds; and
    an electronics module (12B) including digital signal processing circuits (12b) operable to process the environmental sounds received from the microphone module (14A) and transmit the environmental sounds to the control unit (30),
    wherein the control unit (30) includes a hearing-loss testing expert system for performing a hearing assessment of a user, and in response to the control unit (30) receiving the environmental sounds from the electronics module (12B), the hearing-loss testing expert system is configured to compensate the hearing assessment of the user according to the environmental sounds.
    [0009] The system of claim 8, wherein the hearing assessment is accomplished through generating sounds via an algorithm that determines hearing level of the user.
    [0010] The system of claim 9, wherein the hearing assessment is accomplished by user indication that the generated sounds are heard by the user.
    [0011] The system of claim 8, wherein the control unit (30) is at least one of a personal digital assistant (PDA), a cell phone, and a computer.
    [0012] The system of claim 8, wherein the control unit (30) is remote from the modular audio processing apparatus.
    [0013] The system of claim 8, wherein the modular audio processing apparatus further comprises a short-range wireless transceiver (12a) coupled the electronics module (12B); and further wherein the modular audio processing apparatus transmits the environmental sounds to the control unit (30) via the short-range wireless transceiver (12a).
    [0014] A method for audio processing comprising:
    receiving, by a microphone module (14A) of a modular audio processing apparatus, environmental sounds;
    monitoring a level of the environmental sounds;
    determining whether an environment is suitable for assessment of a user's hearing limitations based upon the monitored level of the environmental sounds;
    executing a hearing loss test protocol to carry out a hearing assessment of the user;
    setting equalization and amplification levels of the audio processing apparatus for use in a normal mode of operation as an assistive listening device based upon the hearing assessment.
    [0015] The method of claim 14 further comprising:
    providing a short-range wireless transceiver (12a) on the modular audio processing apparatus, and
    providing wireless communication between the modular audio processing apparatus and a wireless transceiver of a control unit (30) for controlling the hearing assessment through the modular audio processing apparatus by execution of a hearing loss testing expert system.
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