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The following is text of U.S. Patent Application
20020193707, for a system and method that purport to detect "signs of attempted deception and other emotional stresses by detecting changes in weight distribution of a standing or sitting person." In June 2004, the U.S. Department of Defense Technical Support Work Group announced the award of a $744,528 contract to Atlas Researches, Ltd., of Hod Hasharon for development of a "polygraph chair." Atlas Researches is run by the same Dan Atlas named in this patent application, which includes a design for such a chair with embedded sensors. (Download with illustrations
as a 651 kb PDF file.)
Detection of signs of attempted deception and other emotional stresses by
detecting changes in weight distribution of a standing or sitting person
Abstract
The present invention relates to the field of non-obtrusive detection of
emotional stress of an individual in general, and signs of emotional
stress associated with attempted deception by an individual in
particular. The invention includes a monitoring apparatus that is
positioned beneath a monitored individual who is standing or seated, the
apparatus having attached sensors for sensing parameters reflecting
changes in preferably at least one of posture, sway, weight distribution,
cardiac function and respiratory function of the monitored individual.
The sensors are preferably at least one of strain gauges, piezo electric
pressure sensors, optical pressure sensors, and other pressure and weight
sensors. The monitoring apparatus also includes a unit for receiving
signals from the sensors, and for converting them into data into a
computer-readable format, and for storing the data in a computer-readable
medium. The monitoring apparatus also includes systems for synchronizing
the computer-readable data with information about questions asked of the
monitored individual or other interrogation stimuli administered to the
monitored individual. The monitoring apparatus can also include systems
for analyzing the synchronized computer-readable data and interrogation
stimuli to identify patterns likely to indicate heightened anxiety
induced by specific questions or interrogation stimuli.
| Inventors: |
Atlas, Dan; (Hod Hasharon, IL)
; Miller, Gideon L.; (Jerusalem, IL)
|
| Correspondence Name and Address:
|
Dan Atlas
c/o ANTHONY CASTORINA
SUITE 207
2001 JEFFERSON DAVIS HIGHWAY
ARLINGTON
VA
22202
US
|
| Serial No.:
|
173437 |
| Series Code:
|
10
|
| Filed:
|
June 18, 2002 |
| U.S. Current Class: |
600/595 |
| U.S. Class at Publication: |
600/595 |
| Intern'l Class: |
A61B 005/103 |
Claims
What is claimed is:
1. A method for detection of emotional stress of a human subject in
response to cognitive stimuli by measuring variations in pressure
distribution across said subject's footprint, said method comprising the
steps of causing the subject to apply force on a flat surface, said
surface embedding a plurality of pressure sensitive sensors; connecting
said pressure sensitive sensors to a signal analysis processor;
presenting the subject with cognitive stimuli his disposition to which is
of interest in the context of a given interview; monitoring variations in
pressure distribution between said sensors; filtering the variation
signals to reduce the effect of pressure variations caused by causes
other than emotional stress; and matching the filtered variation signals
to a pattern that represent emotional stress.
2. A method as in claim 1 where said flat surface is a mat.
3. A method as in claim 1 where said mat is embedded in a chair and said
subject is sitting in said chair.
4. A method as in claim 3 where more than one mat is used and the subject
is touching each mat with a different part of his or her body.
5. A method as in claim 4 where the legs of said chair are positioned upon
mats.
6. A system for detection of emotional stress of a human subject, in
response to cognitive stimuli by measuring variations in pressure
distribution in said subject's footprint, said system comprising a flat
surface applied to which are a plurality of pressure sensitive sensors; a
signal conditioning processor coupled to said flat surface; a signal
analysis processor coupled to said signal conditioning processor; and a
display coupled to said signal analysis processor.
7. A system as in claim 6 where said sensors are high-capacitance piezo
electric pressure sensors.
8. A system as in claim 6 where said sensors are fiber-optic pressure
sensors.
9. A system as in claim 6 where said sensors are strain gauges.
10. A system as in claim 6 where said signal analysis processor includes
expert system software that identifies pressure change correlates of
flight-or-fight responses.
Description
FIELD OF THE INVENTION
[0001] The present invention relates to the field of non-obtrusive
detection of emotional stress of an individual in general, and signs of
emotional stress associated with attempted deception by an individual in
particular. The invention includes a monitoring apparatus that is
positioned beneath a monitored individual who is standing or seated, the
apparatus having attached sensors for sensing parameters reflecting
changes in preferably at least one of posture, sway, weight distribution,
cardiac function and respiratory function of the monitored individual.
The sensors are preferably at least one of strain gauges, piezo electric
pressure sensors, optical pressure sensors, and other pressure and weight
sensors. The monitoring apparatus also includes a unit for receiving
signals from the sensors, and for converting them into data into a
computer-readable format, and for storing the data in a computer-readable
medium. The monitoring apparatus also includes systems for synchronizing
the computer-readable data with information about qsuestions asked of the
monitored individual or other interrogation stimuli administered to the
monitored individual. The monitoring apparatus can also include systems
for analyzing the synchronized computer-readable data and interrogation
stimuli to identify patterns likely to indicate heitghtened anxiety
induced by specific questions or interrogation stimuli.
BACKGROUND OF THE INVENTION
[0002] The present invention relates to the problem of non-obtrusively and
rapidly identifying signs of emotional stress in an individual, and in
particular in rapidly and non-obtrusively screening individuals for
probability of attempted deception and malevolent intent.
[0003] For example, to reduce the risk of terrorism or other malfeasance
by providing a tool to help in the security-screening of airline
passengers, such tool giving a rapid indication of suspicion that a given
passenger may be attempting to deceive a security screening officer. The
invention would also be useful at border-crossings and other sensitive,
high-traffic locations.
[0004] Security screening of airline passengers has become a critical
priority since Sep. 11 2001. However, the techniques that are currently
available to accomplish this are problematic:
[0005] Screening for weapons is insufficiently reliable, as demonstrated
by the ease with which the September 11 terrorists and the later
"Shoe-Bomber" were able to board aircraft with lethal materials.
[0006] Human interpreted questioning of passengers by airline security
personnel has low probability of uncovering trained terrorists.
[0007] More sophisticated interrogation and "profiling" of passengers is
controversial, disruptive to the boarding process, and depends on highly
skilled and trained security personnel.
[0008] In theory, polygraphic ("lie-detection") technologies could be
extremely useful for improving airline passenger screening. Polygraphs
sense minute changes in physiological signals to indicate a person's
level of anxiety as he or she answers questions. A trained polygraphist
can use these anxiety measures to identify suspicious answers.
[0009] Polygraphic techniques are well known. They are based on detecting
and analyzing known physiological correlates of enhanced stress while
questioning a subject. Common physiological correlates used in
conventional polygraphic techniques are changes in respiration,
heart-rate, and electrodermal activity (sweat gland activity).
[0010] However, conventional polygraphic technologies are not suited to
mass-screening applications such as those required for passenger
screening at airports. This is because conventional polygraphy techniques
are complicated and time-consuming to administer, requiring multiple
sensors to be carefully attached to the subject's body. Administering a
standard polygraph test to pre-boarding passengers might take several
days per airplane.
[0011] The following description from the American Polygraph Association,
highlights the complex and time consuming nature of standard polygraphy
techniques:
[0012] It is important to understand what a polygraph examination entails.
A polygraph instrument will collect physiological data from at least
three systems in the human body. Convoluted rubber tubes that are placed
over the examinee's chest and abdominal area will record respiratory
activity. Two small metal plates, attached to the fingers, will record
sweat gland activity, and a blood pressure cuff, or similar device will
record cardiovascular activity.
[0013] A typical polygraph examination will include a period referred to
as a pre-test, a chart collection phase and a test data analysis phase.
In the pre-test, the polygraph examiner will complete required paperwork
and talk with the examinee about the test. During this period, the
examiner will discuss the questions to be asked and familiarize the
examinee with the testing procedure. During the chart collection phase,
the examiner will administer and collect a number of polygraph charts.
Following this, the examiner will analyze the charts and render an
opinion as to the truthfulness of the person taking the test. The
examiner, when appropriate, will offer the examinee an opportunity to
explain physiological responses in relation to one or more questions
asked during the test.--The American Polygraph Association website, Jun.
17, 2002.
[0014] In addition to the above procedure, the polygraphic examiner will
typically visually observe the subject looking for gross activities (such
as fidgeting) that are known to be consistant with stress and therefore
elevate suspicion of deception. "Activity sensors" are sometimes used in
conjunction with conventional polygraph equipment to assist the examiner
in observing such gross activities.
[0015] For example the Model 76875AS. Available from Lafayette Instrument
Company, 3700 Sagamore Parkway North, Lafayette, Ind. 47903, USA. The
following extract from the brochure of the abovementioned activity sensor
provides indication of the use of the activity sensor: "By providing a
graphic record of subject movement, the Activity Sensor allows the
polygraph examiner to concentrate on administering the exam instead of
trying to observe the subject's movement"--Lafayette Instrument Company
New Polygraph Catalog (Downloaded from http://www.lafayetteinstrument.com-
/downloads.htm#cat on Jun. 17, 2002)
[0016] In summary therefore, conventional polygraphic technologies are not
useful for rapidly and unobtrusively assessing probable deception or
emotional arousal in general.
[0017] There has been research dedicated towards identifying physiological
correlates with stress different from those mentioned above, some of
which may require less intrusive wiring of subjects.
[0018] U.S. Pat. No. 5,853,005 (Scanlon) teaches building a hydrophone
into a seat or chair so as to measure voice stress levels, heart and
breath rate, and body temperature for surreptitious interrogation or
identification. But these parameters are well studied polygraphic
parameters, and are not themselves or in combination known to be
sufficient for rapid deception screening.
[0019] U.S. Pat. No. 5,137,027 (Rosenfeld.)--Teaches evaluating whether a
subject has performed a given act by analyzing P300 brain waves, But this
approach requires obtrusive head-mounted sensors.
[0020] U.S. Pat. No. 5,507,291
[0021] (Stirbl et. al.)--Teaches remotely measuring parameters such as
blood pressure, pulse rate, pupil size, respiration rate and perspiration
level by transmitting a generated waveform at a remotely located subject
and analyzing the result.
[0022] U.S. Pat. No. 5,771,261 (Anbar)--Teaches Telethermometric
psychological evaluation by monitoring of changes in skin perfusion
induced by the autonomic nervous system.
[0023] U.S. Pat. No. 5,774,571 (Marshall)--Teaches using a pen
incorporating a trembling sensor to ascertain likely signs of stress and
therefore deception on the part of the person writing with the pen.
[0024] U.S. Pat. No. 5,876,334 (Levi)--Teaches lie detection based on
analyzing response time to specific carefully formed questions.
[0025] U.S. Pat. No. 6,388,739 (Rice)--teaches of detecting vital-signs of
an individual from a distance via a self-referencing microdoppler ladar
receiver.
[0026] In addition to the above prior-art, reference has been noted in the
literature to efforts to assess deception and emotional stress by
measuring pupil-dilation, measuring thermal differentials of areas of the
face or body, visually analyzing facial expressions, analyzing ocular
activities (e.g., eye blinking), and analyzing vocal tremors and other
changes in voice characteristics,
[0027] However, there are no indications that any of the above
less-obtrusive approaches in and of themselves can be sufficiently rapid
and reliable to solve the mass screening need described above.
SUMMARY OF THE INVENTION
[0028] 1--Definitions;
[0029] For the purposes of this discussion we define the term "footprint"
to mean the contact area between the part of the human body (clothed or
bare, supported by furniture or unsupported) and a surface upon which it
rests. For example, "footprints" may refer to the boundary area between
the sole of one foot and the surface upon which the person is standing.
As another example, "footprint" may also refer to the boundary area
between the soles of both feet and the surface upon which the person is
standing. As another example, "footprint" may also refer to the boundary
area between the buttocks of a person and the seat upon which the person
is sitting. As another example, "footprint" may also refer to the
boundary area between the arms of a person and the armrests of the chair
seat upon which the person is sitting. As another example, "footprint"
may also refer to the boundary area between the legs of a chair upon
which a person is sitting, and the surface upon which the chair is
positioned.
[0030] We define the term "trigger" to mean a cognitive stimulus that
causes emotional stress to a given individual
[0031] 2--Brief Description of the Invention:
[0032] The present invention is generally directed to satisfying the needs
set forth above and the problems identified with current intrusive
polygraphy systems, especially in environments where a rapid and
unobtrusive assessment of likely deception is required. The problems of
having to attach sensors and probes directly to the person being
interviewed are resolved by the present invention.
[0033] It is an object of the present invention to detect signs of
emotional stress by detecting their correlates in subtle shifts in body
weight, sway, and posture.
[0034] It is a further object of the present invention to detect such
signs of emotional distress during an interview or interrogation, so as
to indicate probability of attempted deception on the part of the
interviewee.
[0035] It is well known in the literature that emotional stress leads to a
number of physiological responses. This set of physiological responses to
emotional stress is often referred to in the literature as the "fight or
flight" response, because it has to do with the body automatically
preparing itself for physical action. As mentioned above, several of the
fight-or-flight responses such as changes in heart rate and respiration
have been widely used in conventional polygraphic techniques.
[0036] Among the known "fight or flight" responses, are subtle involuntary
muscle tensing, body sways, and shifts in weight from foot to foot. For
example, emotional stress is known to cause rapid changes in the
distribution of weight from the heel towards the toe. This phenomenon is
believed by some psychologists to reflect the body's preparation for
escape through running. Similarly, abrupt, barely perceptible changes of
lean angle are known to occur when a person lies. Such involuntary
movements form part of the "body language" of an individual, i.e., the
manifestation in movement or posture of emotional states. When such
elements of body language betray the spoken word, "leakage" is said to
occur.
[0037] It is important to note that many such leakages are barely
perceptible to the untrained naked eye because the changes in sway and
posture that they reflect are very small. Therefore, although they have
been studied using video and other recording techniques, and although
highly skilled interrogators may consciously look for some of them, until
now they have been very difficult to use within practical systems for
detecting emotional stress. It is an object of the present invention to
enable the detection and usage of such "leakage" via pressure changes
detected at the points where the human body contacts surfaces while
standing or sitting.
[0038] Because a standing body represents tens of kilograms concentrated
on a small "footprint" (the contact boundary between the sole of the foot
and the surface that the body is standing on), slight deviations in
posture and slight sways of the upper body are reflected in measurable
pressure deviations at the contact boundary between the feet and surface
they are standing on. Similarly, the contact boundary between buttocks
and seat cushion, or between chair leg that someone is sitting on and
floor are areas where it is possible to detect very slight variations in
posture and sway through their influence on pressure changes.
[0039] Modern pressure sensors, such as high-capacitance piezo-electric
sensors, or high sensitivity fiber-optics sensors are sensitive enough to
resolve weight distribution changes of less than 0.01% of total body
weight, and are therefore sensitive enough to detect the abovementioned
deviations in pressure distribution at the footprint. In particular,
Kinotex optical sensors, such as those sold by Canpolar East Inc., at 702
Water Street, St. Johns NF, Canada, and described in U.S. Pat. No.
5,917,180 are valuable for this purpose. Similarly, high capacitance
piezo-electric sensors can be used, as well as strain-guages.
[0040] It should be noted that the fight-or-flight response is not the
only source of changes to pressure distribution at the footprint. The
standing body continually expresses small background shifts and sways. In
addition, head, neck, mouth, and hand movements during speech cause
changes in pressure distribution at the footprint. In addition,
respiration cause slight changes in pressure distribution at the
footprint.
[0041] Various sources of changes in pressure distribution at the
footprint including those mentioned above can be separated by spectral
analysis. For example, the pressure changes reflective of the
fight-or-flight response tend to be at frequencies reflective of mental
processors, and are therefore relatively high frequency. By contrast, the
background shifts and sways that the standing body constantly expresses
are of typically lower frequency. While higher frequency than background
pressure changes, those reflective of the fight-or-flight response tend
to be at significantly lower frequencies than those caused by moving the
jaw, mouth structures, and head while talking. Therefore, the changes of
pressure distribution at the footprint reflective of the fight-or-flight
response can be distinguished from other sources of pressure distribution
changes by spectral analysis.
[0042] The present invention utilizes the abovementioned pressure changes
characteristic of "fight-or-flight" response as they coincide with
certain "triggers" (phrases, words, questions, or images presented to a
subject during a screening interview or other procedure). Such
coincidence can be analyzed to indicate an elevated probability that the
trigger has particular significance for the subject, and an elevated
probability that the subject may be attempting deceipt.
[0043] In addition, the present invention will preferably detect changes
in respiratory patterns of a subject undergoing an interview, such as
breath slowing, breath holding, etc. known in conventional polygraphy as
being correlated with attempted deception, by identifying their effects
on pressure changes at the footprint. The present invention will
therefore be able to utilize such known indicators of emotional stress
without requiring the obtrusive wiring and tubing of conventional
polygraphic techniques.
[0044] By amplification and filtering of the abovementioned pressure
distribution shift signals a unique parameter is retrieved-namely the
body sway vector. The body sway vector is a minute fraction of the
weight, ever shifting in amplitude and direction as the person
ever-adjusts the posture and breathes, whether standing or seating.
[0045] Upon questioning, the verbal response of the interviewed person may
be a lie or attempted deception. The body language then betrays the
verbal utterance, "leaking" information through changes in the body sway
vector. A very small fraction of the person's weight, becomes more
pronounced as the person unknowingly shifts the weight distribution
between the two feet and between heels and toes. The spectrum-analyzed
respiratory patterns show a drop in frequency and amplitude. A correlated
change in both channels, subtracted from baselines, indicates possible
attempted deception in response to a question.
[0046] In addition, the present invention will preferably detect changes
in heart rate of a subject undergoing an interview, known in conventional
polygraphy as being correlated with attempted deception, by identifying
its effects on pressure changes at the footprint. The present invention
will therefore be able to utilize such known indicators of emotional
stress without requiring the obtrusive cuffs and sensors of conventional
polygraphic techniques.
BRIEF DESCRIPTION OF THE FIGURES
[0047] The present invention may be understood more fully by reference to
the following detailed description of preferred embodiments of the
present invention, illustrative examples of specific embodiments of the
invention and the appended figures in which:
[0048] FIG. 1 illustrates a top down view of a preferred monitoring
apparatus constructed in accordance with the present invention;
[0049] FIG. 2 illustrates a side view of a preferred monitoring apparatus
constructed in accordance with the present invention;
[0050] FIG. 3 illustrates a system according to the present invention.
DESCRIPTION OF PREFERRED EMBODIMENTS
[0051] With reference to FIG. 1, there is illustrated a form of the device
constructed in accordance with the invention as one preferred embodiment.
The illustrated device contains a flat surface 2, embedded with a
plurality of pressure sensors 4, arranged in close proximity to one
another for example in the form of a grid of sensing cells, each cell
sized 2 square centimeters. An individual stands with his or her feet 6,
8, on said flat surface, or is seated on a chair (not shown) the legs of
which are situated on said flat surface during an interview. Body sways
and postural changes and respiration are reflected in changes in pressure
applied to sensors that lie under said individual's feet 10,12,14 and
sensors which lie under the legs of said chair (not shown). A cord 16,
which may be concealed, connects said sensors and the device with outside
power sources and processing and display equipment.
[0052] A standing frame (not shown), similar to a door-frame, may
optionally be attached to said flat surface, in order to solicit a
response known in the art whereby telling a lie commonly causes a person
to lean slightly towards a nearby vertical surface.
[0053] With reference to FIG. 2, there is illustrated a form of the device
constructed in accordance with the invention as one preferred embodiment.
The illustrated device contains a chair 20, with a seat cushion, and
optionally arm and back cushions, 22,24,26, within which are embedded a
plurality of pressure sensors, 28, 30,32, arranged in close proximity to
each other, for example in the form of a grid of sensing cells, each cell
sized 2 square centimeters. Optionally, a sensor array 29, is placed
underneath each leg of the chair. A cord, 34, which may be concealed,
connects said sensors and the device with outside power sources and
processing and display equipment.
[0054] FIG. 3 is a simplified block diagram illustrating the operation of
the device shown in FIG. 1. An individual, 40, is caused to stand upon
the flat surface, 42, said surface being embedded with a plurality of
connected pressure sensors, 44. The individual may be instructed to stand
still during the interview process The interview process may have several
stages including a system test stage and a baseline stage during which
neutral stimuli are presented, and an interrogation stage during which
both neutral and trigger stimuli are presented. The sensors, 44, sense
signals reflecting changes in pressure during the interview process.
These signals are filtered and amplified in a signal conditioning
processor, 50 which includes amplifiers and filters bank which extracts
the attributes of the body sway vector as well as respiration signals,
and the processed signals are then digitized and then serially
transmitted to a computer, 50, where patterns of pressure changes are
analyzed together with information about the timing of neutral and
trigger stimuli to determine likely emotional stress. Such analysis may
include identifying pressure changes reflective of abrupt changes in
lean-angle, and pressure changes reflective of abrupt changes in
respiration patterns, and pressure changes reflective of abrupt changes
in weight distribution between heel and toe and between feet or amongst
legs of a chair and feet, and other pressure changes that are reflective
of "flight-or-flight" responses. Measures of emotional stress are
displayed on a display, 52, for example to a security screening officer
located in the proximity of said display. A flag may be displayed on the
display indicating that said measures of emotional stress in response to
trigger stimuli indicate an elevated probability that said subject
attempted to deceive the interviewer during the interview process. A flag
may further suggest that said subject be directed to more extensive
review and inspection.
[0055] Although the invention has been described in detail for the purpose
of illustration, it is to be understood and appreciated that such detail
is solely and purely for the purpose of example, and that many other
variations, modifications and applications of the invention can be made
by those skilled in the art without departing from the spirit and scope
of the invention.
* * * * *
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