Fluency aid

Abstract

The present disclosure provides a fluency aid comprising: a masking signal generator; a switch operable to switch the masking signal generator between an ON state and an OFF state, wherein, when in the ON state, the masking signal generator is operable to generate a masking signal; a sound generator operable to receive the masking signal from the masking signal generator and generate a masking sound for output to a user of the fluency aid; and a voice detector operable to detect a voice of the user, wherein the masking signal generator is operable to generate the masking signal at least until the voice of the user is detected by the voice detector.

Claims

1. A fluency aid comprising: a masking signal generator; a switch operable to switch the masking signal generator between an ON state and an OFF state, wherein, when in the ON state, the masking signal generator is operable to generate a masking signal; a sound generator operable to receive the masking signal from the masking signal generator and generate a masking sound for output to a user of the fluency aid; and a voice detector operable to detect a voice of the user, wherein the masking signal generator is operable to generate the masking signal at least until the voice of the user is detected by the voice detector; wherein the masking sound is faded out after the masking signal generator is switched to the ON state or following detection of the voice of the user.

2. The fluency aid according to claim 1, wherein the voice detector is operable to output a voice signal, based on the detected voice, and wherein the voice signal and the masking signal are combined to produce a masked auditory feedback, MAF, signal.

3. The fluency aid according to claim 1, wherein the masking sound includes at least one of white noise, pink noise, tones and music.

4. The fluency aid according to claim 1, wherein the switch is a hook-switch, an electronic hook-switch and/or a user-operated switch.

5. The fluency aid according to claim 1, wherein the masking signal generator is operable to be switched to the OFF state by operation of the switch.

6. The fluency aid according to claim 1, further comprising: a feedback signal generator for generating an altered auditory feedback, AAF, signal.

7. The fluency aid according to claim 6, wherein the altered auditory feedback, AAF, signal includes at least one of a delayed auditory feedback, DAF, signal and a frequency altered feedback, FAF, signal.

8. The fluency aid according to claim 1, further comprising: a pacing device to output an audible sound to the user at regularly timed intervals.

9. A fluency aid comprising: a masking signal generator operable to generate a masking signal; and a switch; wherein the masking signal generator is operable, based on a state of the switch, to generate the masking signal, the masking signal being passed to a sound generator for generating a masking sound; wherein the masking sound is faded out after the switch is switched to an ON state or following detection of a voice of a user.

10. A fluency aid comprising: a switch operable to be switched between an ON state and an OFF state; a masking signal generator operable, based on a state of the switch, to generate a masking signal, wherein, when the switch is switched to the ON state, the masking signal generator is operable to begin generating the masking signal; a signal converter operable to receive the masking signal from the masking signal generator and convert the masking signal into a haptic signal for output to a user of the fluency aid; and a voice detector operable to detect a voice of the user, wherein the masking signal generator is operable to generate the masking signal at least until the voice of the user is detected by the voice detector; wherein the haptic signal is faded out after the switch is switched to the ON state or following detection of the voice of the user.

11. A telephone, headphones, acoustic noise cancelling headphones, smart watch, or other portable device comprising the fluency aid according to claim 1.

12. A telephone, headphones, acoustic noise cancelling headphones, smart watch, or other portable device comprising the fluency aid according to claim 9.

13. A telephone, headphones, acoustic noise cancelling headphones, smart watch, or other portable device comprising the fluency aid according to claim 10.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) For a better understanding of the present disclosure, and to show how the same may be carried into effect, reference will now be made, by way of example only, to the accompanying drawings in which:

(2) FIG. 1 is an example of a fluency aid according to the present disclosure;

(3) FIG. 2 is an example of a fluency aid according to the present disclosure further comprising a feedback signal generator;

(4) FIG. 3 is an example of a fluency aid according to the present disclosure further comprising a pacing device;

(5) FIG. 4 is another example of a fluency aid according to the present disclosure; and

(6) FIG. 5 is an example of a fluency aid according to the present disclosure comprising a signal converter.

(7) Throughout this description any features which are similar to features in other figures have been given the same reference numerals.

DETAILED DESCRIPTION

(8) The description below sets forth example fluency aids according to this disclosure. Further examples and implementations will be apparent to those having ordinary skill in the art. Further, those having ordinary skill in the art will recognize that various equivalent techniques may be applied in lieu of, or in conjunction with, the examples discussed below, and all such equivalents should be deemed as being encompassed by the present disclosure.

(9) The arrangements described herein can be implemented in a wide range of devices and systems. However, for ease of explanation, an illustrative example will be described.

(10) FIG. 1 illustrates a first example of a fluency aid 1 according to the present disclosure. As shown, a fluency aid 1 includes a masking signal generator 10, a switch 20, a sound generator 30 and a voice detector 40.

(11) The switch 20 is operable to switch the masking signal generator 10 between an ON state and an OFF state. The switch 20 may be any suitable form of switch. In one or more examples the switch 20 may be a hook-switch, an electronic hook-switch and/or a user-operated switch. The switch 20 may preferably have an ON and an OFF setting, corresponding to the ON state and an OFF state, respectively, of the masking signal generator 10 to indicate the state of the masking signal generator 10. The masking signal generator 10, when in an ON state, generates a masking signal. The masking signal is a signal generated by the masking signal generator 10 which is output from the masking signal generator 10 and input to a sound generator 30. The masking signal is a signal suitable for causing a sound generator 30 to generate a masking sound. The sound generator 30, upon receipt of the masking signal, generates a masking sound. The sound generator 30 may for example be a loudspeaker. The masking sound is then output from the sound generator such that, when the fluency aid is provided in an intended in-use configuration, the masking sound is audible to a user of the fluency aid 1. A voice detector 40 is arranged, in use, to detect a user's voice. For example, the voice detector 40 may be located close to a user's mouth or may be a microphone, such as a directional microphone, arranged to pick up a user's voice. The voice detector 40 may be a relatively basic microphone set up, or may be more sophisticated so as to be able to distinguish between a user's voice and another person's voice, so as to isolate the user's voice only.

(12) The masking signal generator 10 generates a masking signal at least until the voice detector 40 detects that the user is talking. After the user begins talking the masking signal generator 10 may either continue to generate the masking signal or may cease to generate the masking signal such that the masking sound may continue or stop. According to one example, the masking sound may be gradually faded out.

(13) The voice detector 40 may typically comprise a microphone. In addition, the voice detector may comprise signal processing operations which allow speech-like sounds to be identified. Thus, according to one example, sounds which are detected by the microphone of the voice detector will be converted into digital form for use by parts which implement digital signal processing operations upon signals that are derived from the microphone.

(14) According to one or more examples the fluency aid is further operable to provide masked auditory feedback. Thus, in an example, the voice detector 40, in addition to being operable to detect sounds indicative of speech, may be further operable to output a voice signal, based on the detected voice. The voice signal and the masking signal may then be combined, for example by the sound generator 30 or a separate combiner, to produce a masked auditory feedback, MAF, signal. In order to improve the fluency assisting effect of this, or any, described example, the masking signal may be output to both of the user's ears. The masking sound may include, according to one or more examples, at least one of white noise, pink noise, tones and music.

(15) In a further example, a user may wish to speak, for example to another person over the telephone or in person, and may find that unaided they have a tendency to experience stammering on the first sound of the first word. The user may therefore operate a fluency aid 1 as described above, by operating a switch 20, causing a masking sound to be produced. The fluency aid 1 outputs the masking sound, such as white noise, until the user starts speaking. This is preferably determined by the voice detector 40 which is able to detect sound. The voice detector 40 may operate on the basis of detecting any sound at all or any sound pressure level (SPL) above a threshold level (e.g. a threshold loudness level). Such a threshold may be calibrated based on detected background sound levels. Alternatively, the voice detector 40 may be operable to recognise sounds resembling speech, for example speech patterns, or even a specific user's voice so as to distinguish the user's voice from the voices of other people speaking nearby.

(16) When determining whether the user has started speaking, the voice detector 40 may require that speech is detected, in any of the ways described above, for a minimum amount of time. A user of the fluency aid 1 may experience stammering at the first spoken word, but may still produce an initial sound. Therefore, it may be beneficial to require a minimum amount of speech (require a user to be speaking for a minimum amount of time) before considering a voice as detected. This minimum amount of speech may be set as a few seconds of continuous speech or, if the voice detector 40 is able to recognise sounds resembling speech, may be set as one or more spoken words.

(17) The masking signal generator 10 is operable to continue generating the masking signal, which in turn leads to the masking sound being output, at least until the voice detector 40 detects the user's voice. Once the user starts speaking, and the voice detector 40 considers the speech to be a detected voice as described above, the masking signal generator 10 may either continue to generate the masking signal or may stop generating the masking signal.

(18) A user may prefer that the masking sound is faded out (gradually reduced in output volume/loudness). For example, the masking sound may be initially output loud enough to completely mask the user's voice. If a user begins speaking without being able to hear their own voice, an initial stammer may be avoided and improved fluency can be achieved. Some users however may prefer that the masking sound is initially quite loud, but is gradually made quieter, either before they begin speaking or after.

(19) In an example, the voice detector 40 is operable to output a voice signal, based on the user's voice, which may be combined, for example by the sound generator 30, with the masking signal to produce a masked auditory feedback, MAF, signal. The MAF signal may then be received or processed, by the sound generator 30, in order to generate a MAF sound corresponding to the MAF signal.

(20) FIG. 2 illustrates a second example of a fluency aid 1 according to the present disclosure, wherein the fluency aid 1 further includes a feedback signal generator 50 for generating an additional altered auditory feedback, AAF, signal. The feedback signal generator 50 generates the AAF signal based on a voice signal from the voice detector 40, which is altered for example by any of MAF, DAF and/or FAF. The AAF signal is then output to the sound generator 30, which generates the corresponding AAF sound.

(21) In an example, in addition to a masking signal, for masking the user's own voice, it may be beneficial to apply altered auditory feedback AAF, such as DAF and/or FAF, as described above, to the voice signal detected by the voice detector 40.

(22) In accordance with the example, the voice of the user, detected by the voice detector 40, may be output from the voice detector 40 as a voice signal. The feedback signal generator 50 is then operable to generate an AAF signal, based on the voice signal, wherein one or more types of AAF have been applied to the voice signal. The AAF signal may then be output to the sound generator 30 and, on the basis of the AAF signal, the sound generator 30 generates AAF (an AAF sound), which may be output to the user.

(23) FIG. 3 illustrates a third example of a fluency aid 1 according to the present disclosure, wherein the fluency aid 1 further includes a pacing device (pacing signal generator) 60 to output an audible sound to the user at regularly timed intervals. The pacing device 60 may be included in, or provided separately from, the sound generator 30. The pacing device 60 provides the user with an audible rhythm with which to time their speech.

(24) Speaking to a timed rhythm is another method of improving fluency in stammerers. There are many different approaches to speech therapy and if the stammerer shows benefit from therapy that relies on timing then this can be a valuable tool and may be used in combination with other forms of therapy. Users of the fluency aid may prefer specific sounds to which to time their speech. A click or tone provides a clear regular beat, easily recognisable among other sounds.

(25) In an example, the fluency aid 1, including the pacing device 60, may be used by a stammerer who has found that speaking in time with a regular beat aids fluency of speech. The pacing device 60 is operable to output the regular beat, which is an example of an audible sound, as described above. The pacing device 60 may be activated and deactivated by the switch 20 in a similar manner to the masking signal generator 10. That is to say, the switch 20, which is operable to switch the masking signal generator 10 between an ON state and an OFF state, is also operable to switch the pacing device 60 between an ON state and an OFF state, such that the masking signal generator 10 and the pacing device 60 are switched on (switched to an ON state) and off (switched to an OFF state) together.

(26) Although not shown in the figures, the skilled person will appreciate that a fluency aid according to at least one example may include both a feedback signal generator 50 as in the second example as well as a pacing device 60 as in the third example.

(27) FIG. 4 illustrates a fourth example of a fluency aid 1a according to the present disclosure. As shown, the fluency aid 1a comprises a masking signal generator 10a and a switch 20a. The switch 20a switches between states and, based on the state of the switch 20a, the masking signal generator 10a generates a masking signal. The masking signal may then be passed to a sound generator, external of the fluency aid 1a, for generating a sound to a user of the fluency aid 1a.

(28) Masking sounds can aid fluency in many stammerers. Depending on the type and output volume (loudness) of the masking sound, it may be beneficial to have control over the masking sound generation based on the state of a switch. Therefore, a user of the fluency aid 1a may have greater control over the exact times when the masking sound is generated.

(29) In an example, the masking signal generator 10a may be switched to the OFF state through operation of the switch 20a or after a predetermined time interval following operation of the switch 20a. A user may wish to control when the masking sound is stopped, rather than wait for it to fade out or otherwise. For example, if a user wishes to hear background sounds, the masking signal generator 10a may be deactivated to allow this. The masking signal generator 10a may also be deactivated when the switch remains in the ON state, but the masking sound has faded out sufficiently so as to be inaudible to the user. In another example, once the masking signal generator 10a is switched to the OFF state, the masking sound may be faded out rather than stopped abruptly.

(30) FIG. 5 illustrates a fifth example of a fluency aid 1b according to the present disclosure. The fluency aid 1b of FIG. 5 operates similarly to the fluency aid 1 of FIG. 1, except that the sound generator 30 is not included and, instead, the fluency aid 1b includes a signal converter 70. The signal converter 70 receives a masking signal from the masking signal generator 10b and converts the masking signal into a haptic output for output to a user of the fluency aid. Haptic output may include any form of tactile stimulus output to a user. Haptic output may either obscure the user's own voice or provide a distraction, thus masking the user's own voice by redirecting the user's concentration.

(31) Any of the above-described examples may be included in a telephone, headphones, acoustic noise cancelling headphones, smart watch, or other portable or wearable device.

(32) It will be appreciated that features of any of the above aspects and examples may be provided in any combination with the features of any other of the above aspects and examples.

(33) Examples may further be implemented in a host device, especially a portable and/or battery powered host device such as a mobile computing device for example a mobile telephone or smartphone.

(34) The fluency aid may be at least partly implemented within a speaker housing. The housing may be, e.g. that of a wired or wireless headset, an ear-bud, a supra-aural head phone or a speaker portion of a mobile device such as a mobile phone handset. Thus, the housing may comprise parts associated with the masking signal generator, the sound generator (e.g. at least one speaker configured to receive the masking signal generator and to output a masking sound), the switch and the voice detector (e.g. mic plus associated processing). Alternatively, the parts associated with one or more features of the fluency aid may be provided in an apparatus separate to the apparatus that comprises the at least one speaker (sound generator). For example, the fluency aid may be at least partly implemented within a mobile handset or a dongle, wherein a wired or wireless connection is provided between the apparatuses. According to one implementation the switch and/or the voice detector are provided in an apparatus that is separate from the apparatus, e.g. headset or ear-bud.

(35) It should be noted that the above-mentioned examples illustrate rather than limit the disclosure, and that those skilled in the art will be able to design many alternative configurations without departing from the scope of the appended claims. The word comprising does not exclude the presence of elements or steps other than those listed in a claim, a or an does not exclude a plurality, and a single feature or other unit may fulfil the functions of several units recited in the claims. Any reference numerals or labels in the claims shall not be construed so as to limit their scope. The features of any dependent claim may be combined with the features of any of the independent claims or other dependent claims.