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| United States Patent |
5,159,703
|
|
Lowery
| October 27, 1992
|
Silent subliminal presentation system
Abstract
A silent communications system in which nonaural carriers, in the very low
or very high audio frequency range or in the adjacent ultrasonic frequency
spectrum, are amplitude or frequency modulated with the desired
intelligence and propagated acoustically or vibrationally, for inducement
into the brain, typically through the use of loudspeakers, earphones or
piezoelectric transducers. The modulated carriers may be transmitted
directly in real time or may be conveniently recorded and stored on
mechanical, magnetic or optical media for delayed or repeated transmission
to the listener.
| Inventors:
|
Lowery; Oliver M. (5188 Falconwood Ct., Norcross, GA 30071)
|
| Appl. No.:
|
458339 |
| Filed:
|
December 28, 1989 |
| U.S. Class: |
455/42; 455/46; 455/66; 381/73.1; 128/420.5 |
| Intern'l Class: |
H04B 007/00; H04R 025/00; H04R 003/02 |
| Field of Search: |
455/46,47,66,109,110,42-43
381/73.1,105,124
358/141-143
600/28
128/420.5
380/38
|
References Cited [Referenced By]
U.S. Patent Documents
| 3060795 | Oct., 1962 | Corrigan et al. | 352/131.
|
| 3278676 | Oct., 1966 | Becker | 358/142.
|
| 3393279 | Jul., 1968 | Flanagan | 128/420.
|
| 3712292 | Jan., 1973 | Zentmeyer, Jr. | 600/28.
|
| 4141344 | Feb., 1979 | Barbara | 600/28.
|
| 4395600 | Jul., 1983 | Lundy et al. | 381/73.
|
| 4463392 | Jul., 1984 | Fischer et al. | 360/30.
|
| 4777529 | Oct., 1988 | Schultz et al. | 381/73.
|
| 4834701 | May., 1989 | Masaki | 600/28.
|
| 4877027 | Oct., 1989 | Brunkan | 128/420.
|
Primary Examiner: Eisenzopf; Reinhard J.
Assistant Examiner: Faile; Andrew
Claims
1. A silent communications system, comprising:
(a) amplitude modulated carrier means for generating signals located in
non-aural portions of the audio and in the lower portion of the ultrasonic
frequency spectrum said signals modulated with information to be perceived
by a listener's brain and,
(b) acoustic and ultrasonic transducer means for propagating said signals,
for inducement into the brain, of the listener, and,
(c) recording means for storing said modulated signals on mechanical,
magnetic and optical media for delayed or repeated transmissions to the
listener.
2. A silent communications system, comprising:
(a) frequency modulated carrier means for generating signals located in
non-aural portions of the audio and in the lower portion of the ultrasonic
frequency spectrum, said signals modulated with information to be
perceived by a listener's brain, and;
(b) acoustic and ultrasonic transducer means for propagating said signals,
for inducement into the brain of the listener, and;
(c) recording means for storing said modulated signals on mechanical,
magnetic and optical media for delayed or repeated transmissions to the
listener.
3. A silent communications system, comprising:
(a) a combination of amplitude and frequency modulated carrier means for
generating signals located in non-aural portions of the audio and in the
lower portion of the ultrasonic frequency spectrum, said signals modulated
with information to be perceived by a listener's brain, and
(b) acoustic and ultrasonic transducer means for propagating said signals,
for inducement into the brain of the listener;
(c) recording means for storing said modulated signals on mechanical,
magnetic and optical media for delayed or repeated transmissions to the
listener.
Description
BACKGROUND--FIELD OF THE INVENTION
This invention relates in general to electronic audio signal processing
and, in particular, to subliminal presentation techniques.
BACKGROUND--DESCRIPTION OF PRIOR ART
Subliminal learning enjoys wide use today and subliminal tapes are being
manufactured by a number of companies in the United States alone. Several
decades of scientific study indicate that subliminal messages can
influence a human's attitudes and behavior. Subliminal, in these
discussions, can be defined as "below the threshold of audibility to the
conscious mind." To be effective however, the subliminally transmitted
information (called affirmations by those in the profession) must be
presented to the listener's ear in such a fashion that they can be
perceived and "decoded" by the listener's subconscious mind. We are
referring to audio information in this discussion, however, information
could be inputted into the subject's subconscious mind through any of the
body's sensors, such as touch, smell, sight or hearing. As an example,
early development work in the subliminal field utilized motion pictures
and slide projections as the medium. Early research into visual and
auditory subliminal stimulation effects is exemplified by U.S. Pat. Nos.
3,060,795 of Corrigan, et al. and 3,278,676 of Becker. U.S. Pat. No.
4,395,600 of Lundy and Tyler is representative of later developments in
today's subliminal message techniques.
The majority of the audio subliminal tapes available today are prepared
using one basic technique. That is, the verbal affirmations are mixed
with, and recorded at a lower level than, a "foreground" of music or
sounds of ocean surf or a bubbling mountain brook or other similar
"masking" sounds. The affirmations are generally recorded 5 decibels (db)
or so below the "foreground" programming and regenerative automatic gain
control is usually applied to permit the affirmations to change their
recorded amplitude in direct proportion to the short term averaged
amplitude of the continually varying "foreground" material. In other
words, the volume of the affirmations will follow or track the volume
changes of the "foreground" programming, but at a lower volume level.
Circuit provisions are also usually included to "gate" the affirmations
off when the music amplitude is low or zero. This insures that the
affirmations cannot be heard during quiet program periods. Thus, today's
subliminal affirmations can be characterized as being "masked" by music or
other sounds, of constantly changing amplitude and of being reduced or cut
off entirely during periods of low or quiet "foreground" programming.
One of the principal, and most widely objected to, deficiencies in
available subliminal tape presentation techniques is that the presence of
the "foreground" material is intrusive to both the listener and to anyone
else in the immediate area. No matter what "foreground" material is
chosen, the fact remains that this material can be heard by anyone within
its range and presents a definite distraction to other activities such as
conversation, thought, desire to listen to other programming such as radio
or television, need to concentrate, etc. Additionally, and because the
tapes are used repeatedly by the same listener, any "foreground" music or
material eventually becomes monotonously tiring to that listener.
It is the purpose of the following described invention to eliminate or
greatly reduce all of the above deficiencies. Although its application to
the magnetic tape medium is described in the following discussion, the
technique is equally applicable to most other desired transmission
mediums, such as Compact Disc, videocassettes, digital tape recorders,
Public Address (PA) systems, background music installations, computer
software programs, random access memory (RAM), read only memory (ROM),
"live", real time applications and other mediums now in existence or to be
developed in the future.
Implemented on tape cassettes, for example, the subliminal presentation
described here is inaudible i.e., high audio or ultrasonic frequencies,
the affirmations are presented at a constant, high amplitude level, and
they occupy their own "clear channel", non-masked frequency allocations.
If desired, the previously described "foreground" music or other material
can be added to the tape through use of an audio mixer. The "silent"
recordings are inaudible to the user or by others present and are
therefore very effective for use during periods of sleep or when in the
presence of others. Additionally, the basic requirements of subliminal
stimulation are met. That is, the affirmations are efficiently transmitted
to the ear and, while undetected by the conscious mind, are perceived by
and efficiently decoded by the subconscious mind.
OBJECTS OF THE INVENTION
Accordingly, several objects and advantages of my invention are:
(a) to provide a technique for producing a subliminal presentation which is
inaudible to the listeners(s), yet is perceived and demodulated (decoded)
by the ear for use by the subconscious mind.
(b) to provide a technique for transmitting inaudible subliminal
information to the listener(s) at a constant, high level of signal
strength and on a clear band of frequencies.
(c) to provide a technique for producing inaudible subliminal presentations
to which music or other "foreground" programming may be added, if desired.
Still further objects and advantages will become apparent from a
consideration of the ensuing description and drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
In the drawings, the first digit of each component number also refers to
the figure number where that component can be located.
FIG. 1 represents the block diagram of a suitable system which will
generate a frequency modulated (FM) signal at 14,500 Hz.
FIG. 2 represents an approximation of the frequency response curve of the
human ear and the signal decoding process.
FIG. 3 represents the block diagram of a suitable system which will
generate a single sideband, suppressed carrier, amplitude modulated (AM)
signal at 14,500 Hz.
______________________________________
REFERENCE NUMERALS IN DRAWINGS
______________________________________
11 microphone or other
14 low distortion
audio input signal
audio oscillator
12 audio preamplifier
15 high pass or band
if required pass audio filter
13 frequency modulation
16 output to tape
circuit recorder or other device
21 point on low freq end
25 midpoint on curve
response curve between points 23 and 24
22 point on low freq end
26 speaker output of FIG. 1 to
of ear response curve
ear
23 point on high freq end
27 demodulated subliminal
of ear response curve
audio inputted to ear
24 point on high freq end
31 microphone
of ear response curve
32 speech amplifier
33 balanced modulator
34 carrier oscillator
35 filter
(455 KHz)
36 mixer 37 heterodyne oscillator
(469.5 KHz)
38 bandpass filter
39 output signal
______________________________________
DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT
Please refer now to FIG. 1 and FIG. 2, which are drawings of a preferred
implementation of the invention.
The principle of operation of the silent subliminal presentation system is
as follows:
An audio signal in the upper frequency region of the audio spectrum (for
example, 14,500 Hz) is modulated with the desired information. The type of
modulation may be any type suitable for subliminal applications; frequency
modulation (FM), phase modulation (PM), upper single sideband with
suppressed carrier, amplitude modulation (AM), tone modulation, etc.
For broadest application, the high audio frequency selected as the carrier
frequency must meet two basic criteria:
(1) be high enough in the audio spectrum that its presence to the human ear
is essentially unnoticed or undetectable (without the listener being
informed that the signal is actually present) and,
(2) be low enough in the audio spectrum that it (and its modulation
content) can produce a useful output power from home entertainment type
cassette or reel-to-reel magnetic recorders.
This would also include, of course, small portable and automobile tape
decks.
Alternatively, the output of the system can be fed directly into an audio
amplifier and its speaker/earphone system, Public Address system, etc.
FIG. 1 provides the block diagram of an example of a system capable of
generating the desired silent frequency modulated carrier.
The modulation information is inputted into the microphone 11. Other
suitable input devices may be substituted for microphone 11, such as a
tape recorder or a radio. The microphone 11 is connected to the
preamplifier 12 and should have provisions for adjusting its gain in order
that the optimum modulation index can be set in the frequency modulator
13. The frequency modulator 13 modulates the frequency of oscillator 14
which has been adjusted for an output of 14,500 Hz as described above. The
output of oscillator 14 is fed through a suitable bandpass filter 15 into
the tape recorder or directly into a suitable amplifier/speaker system. It
is the purpose of the bandpass filter to remove or attenuate audible
products of the modulation process in order to maintain as audibly silent
an output as practical.
On the receiving end, FIG. 2 represents an approximate and idealized
frequency response curve of the human ear. The frequency modulated carrier
(centered at 14,500 Hz), as generated above and played through a tape
recorder or amplifier/speaker system, is shown on FIG. 2 as speaker output
26, impinging upon the upper slope of the ear's response curve at point
25. The frequency modulated excursions of the speaker output 26 swing
between points 23 and 24 on the ear's upper response curve. Because the
response curve between points 23 and 25 is relatively linear, this action
results in a relatively linear demodulation of the original modulation
intelligence, which is passed on subliminally to the inner ear. The
amplitude of the demodulated output is not high enough to be detected by
the conscious mind but is sufficient in amplitude to be detected by the
subconscious mind. In the field of communications engineering design, the
above demodulation process in known as slope detection and was used in
early FM receiver design. In those receivers, the response curve was
formed by the action of a tuned (inductive/capacitance) circuit. In our
case, the response curve is formed by the natural response curve of the
human ear. The same slope detection technique can be performed at the low
frequency end of the human ear response curve. This region is indicated on
FIG. 2 as between points 21 and 22. This region, however, has a much
smaller available bandwidth and is therefore more restricted as to the
amount of information that can be transmitted in an inaudible manner.
In practice, the listener adjusts the volume control of the tape recorder
or amplifier to a level just below that at which the listener hears an
audible sound or noise from the speaker of the tape recorder. If the
recording process is properly done, a spectrum analyzer or a calibrated
sound level meter will reveal a strong signal emanating from the tape
recorder speaker. A calibrated sound level meter, at a distance of 1 meter
(with C weighting and referenced to the standard of 0.0002 micro bar) will
typically indicate a silent power output of from 60 to 70 decibels. This
is equivalent to the audio power of a loud conversation, yet, in the
described system, is inaudible or unnoticed by the listener.
FIG. 3 illustrates a system which generates a suitable amplitude modulated
(AM) signal, instead of the frequency modulated (FM) system described
above. The output is a modulated, single sideband (SSB), suppressed
carrier (AM) signal at 14,500 Hz.
The block diagram represents a common scheme for generating an SSB signal
and will be briefly described.
The desired subliminal information is spoken into microphone 31. This
signal is amplified by speech amplifier 32 and injected into one port of
balanced modulator 33. A continuous wave signal of 455 KHz is generated by
carrier oscillator 34 and is injected into the second port of balanced
modulator 33. The output of balanced modulator 33 is a double sideband,
suppressed carrier signal at 455 KHz. This signal is fed through filter
35, causing one of the two sidebands to be removed. This signal is fed
into one port of mixer 36. A continuous wave signal at a frequency of
469.5 KHz from hetrodyne oscillator 37 is fed into the other port of mixer
36, resulting in an output of the original subliminal audio information
but translated 14,500 Hz higher in frequency. The bandpass filter 38
attenuates signals and noise outside of the frequencies of interest. The
amplitude modulated audio output signal is shown as output 39.
Thus, as stated earlier, my invention provides a new system for subliminal
presentations which is:
(a) silent,
(b) outputs a constant, high level modulated signal and,
(c) occupies a band of clear channel frequencies.
The foregoing description of the preferred embodiment of the invention has
been presented for the purposes of illustration and description. It is not
intended to be exhaustive or to limit the invention to the precise form
disclosed. Many modifications and variations are possible in light of the
above discussions. It is intended that the scope of the invention be
limited not only by this detailed description, but rather by the claims
appended hereto.
* * * * *
