Abstract:
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus Use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do when being truthful. Issues related to the use of such evidence in courts are discussed. The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court.
In the field of criminology, a new lie detector has been developed in the United States of America. This is called “brain fingerprinting”. This invention is supposed to be the best lie detector available as on date and is said to detect even smooth criminals who pass the polygraph test (the conventional lie detector test) with ease. The new method employs brain waves, which are useful in detecting whether the person subjected to the test, remembers finer details of the crime. Even if the person willingly suppresses the necessary information, the brain wave is sure to trap him, according to the experts, who are very excited about the new kid on the block.
Introduction:
Brain Fingerprinting is a controversial proposed investigative technique that measures recognition of familiar stimuli by measuring electrical brain wave responses to words, phrases, or pictures that are presented on a computer screen. Brain fingerprinting was invented by Lawrence Farwell. The theory is that the suspect's reaction to the details of an event or activity will reflect if the suspect had prior knowledge of the event or activity. This test uses what Farwell calls the MERMER ("Memory and Encoding Related Multifaceted Electroencephalographic Response") response to detect familiarity reaction. One of the applications is lie detection. Dr. Lawrence A. Farwell has invented, developed, proven, and patented the technique of Farwell Brain Fingerprinting, a new computer-based technology to identify the perpetrator of a crime accurately and scientifically by measuring brain-wave responses to crime-relevant words or pictures presented on a computer screen. Farwell Brain Fingerprinting has proven 100% accurate in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for the US Navy, and tests on real-life situations including actual crimes..
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus Use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do when being truthful. Issues related to the use of such evidence in courts are discussed. The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court.
In the field of criminology, a new lie detector has been developed in the United States of America. This is called “brain fingerprinting”. This invention is supposed to be the best lie detector available as on date and is said to detect even smooth criminals who pass the polygraph test (the conventional lie detector test) with ease. The new method employs brain waves, which are useful in detecting whether the person subjected to the test, remembers finer details of the crime. Even if the person willingly suppresses the necessary information, the brain wave is sure to trap him, according to the experts, who are very excited about the new kid on the block.
Fingerprinting is a controversial proposed investigative technique that measures recognition of familiar stimuli by measuring electrical brain wave responses to words, phrases, or pictures that are presented on a computer screen. Brain fingerprinting was invented by Lawrence Farwell. The theory is that the suspect's reaction to the details of an event or activity will reflect if the suspect had prior knowledge of the event or activity. This test uses what Farwell calls the MERMER ("Memory and Encoding Related Multifaceted Electroencephalographic Response") response to detect familiarity reaction. One of the applications is lie detection. Dr. Lawrence A. Farwell has invented, developed, proven, and patented the technique of Farwell Brain Fingerprinting, a new computer-based technology to identify the perpetrator of a crime accurately and scientifically by measuring brain-wave responses to crime-relevant words or pictures presented on a computer screen. Farwell Brain Fingerprinting has proven 100% accurate in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for the US Navy, and tests on real-life situations including actual crimes.
Brain Fingerprinting is a controversial forensic science technique that uses electroencephalography (EEG) to determine whether specific information is stored in a subject's brain. It does this by measuring electrical brainwave responses to words, phrases, or pictures that are presented on a computer screen (Farwell & Smith 2001, Farwell, Richardson, and Richardson 2012).
Most efficient slides on Brain Fingerprinting are listed here.
This is a technology which is most useful for forensic science.
A seminar based presentation is listed here
For any more details contact me-
0091-8943307844
or
nibelmd@gmail.com
Abstract:
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus Use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do when being truthful. Issues related to the use of such evidence in courts are discussed. The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court.
In the field of criminology, a new lie detector has been developed in the United States of America. This is called “brain fingerprinting”. This invention is supposed to be the best lie detector available as on date and is said to detect even smooth criminals who pass the polygraph test (the conventional lie detector test) with ease. The new method employs brain waves, which are useful in detecting whether the person subjected to the test, remembers finer details of the crime. Even if the person willingly suppresses the necessary information, the brain wave is sure to trap him, according to the experts, who are very excited about the new kid on the block.
Introduction:
Brain Fingerprinting is a controversial proposed investigative technique that measures recognition of familiar stimuli by measuring electrical brain wave responses to words, phrases, or pictures that are presented on a computer screen. Brain fingerprinting was invented by Lawrence Farwell. The theory is that the suspect's reaction to the details of an event or activity will reflect if the suspect had prior knowledge of the event or activity. This test uses what Farwell calls the MERMER ("Memory and Encoding Related Multifaceted Electroencephalographic Response") response to detect familiarity reaction. One of the applications is lie detection. Dr. Lawrence A. Farwell has invented, developed, proven, and patented the technique of Farwell Brain Fingerprinting, a new computer-based technology to identify the perpetrator of a crime accurately and scientifically by measuring brain-wave responses to crime-relevant words or pictures presented on a computer screen. Farwell Brain Fingerprinting has proven 100% accurate in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for the US Navy, and tests on real-life situations including actual crimes..
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus Use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do when being truthful. Issues related to the use of such evidence in courts are discussed. The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court.
In the field of criminology, a new lie detector has been developed in the United States of America. This is called “brain fingerprinting”. This invention is supposed to be the best lie detector available as on date and is said to detect even smooth criminals who pass the polygraph test (the conventional lie detector test) with ease. The new method employs brain waves, which are useful in detecting whether the person subjected to the test, remembers finer details of the crime. Even if the person willingly suppresses the necessary information, the brain wave is sure to trap him, according to the experts, who are very excited about the new kid on the block.
Fingerprinting is a controversial proposed investigative technique that measures recognition of familiar stimuli by measuring electrical brain wave responses to words, phrases, or pictures that are presented on a computer screen. Brain fingerprinting was invented by Lawrence Farwell. The theory is that the suspect's reaction to the details of an event or activity will reflect if the suspect had prior knowledge of the event or activity. This test uses what Farwell calls the MERMER ("Memory and Encoding Related Multifaceted Electroencephalographic Response") response to detect familiarity reaction. One of the applications is lie detection. Dr. Lawrence A. Farwell has invented, developed, proven, and patented the technique of Farwell Brain Fingerprinting, a new computer-based technology to identify the perpetrator of a crime accurately and scientifically by measuring brain-wave responses to crime-relevant words or pictures presented on a computer screen. Farwell Brain Fingerprinting has proven 100% accurate in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for the US Navy, and tests on real-life situations including actual crimes.
Brain Fingerprinting is a controversial forensic science technique that uses electroencephalography (EEG) to determine whether specific information is stored in a subject's brain. It does this by measuring electrical brainwave responses to words, phrases, or pictures that are presented on a computer screen (Farwell & Smith 2001, Farwell, Richardson, and Richardson 2012).
Most efficient slides on Brain Fingerprinting are listed here.
This is a technology which is most useful for forensic science.
A seminar based presentation is listed here
For any more details contact me-
0091-8943307844
or
nibelmd@gmail.com
Brain Fingerprinting is scientific technique to determine whether or not specific information is stored in an individual's brain.
Ruled Admissible in one US Court as scientific evidence.
It has a record of 100% Accuracy.
Brain Fingerprinting is a technique used to determine scientifically what information is, or is not stored in a particular brain.
Brain Finger Printing was invented by Dr B .S. Farwell chief scientist and president of human brain research and laboratory , USA
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do being truthful. Issue related to the use of such evidence in courtsare discussed.The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court. In the field of criminology a new lie detector has been developed in USA. This is called “BRAIN FINGERPRINTING”.The invention is supposed to be the best lie detector even smooth criminals who paas the polygraph Test with ease.The new method employs brainwaves ,which are useful in detecting whether the person is subjected to test remember finer details of crime,even if the person willingly suppressesthe necessary information,the brain wave is sure to trap him ,according to the experts who are very excited about the new kid on the block.
Brain Fingerprinting is scientific technique to determine whether or not specific information is stored in an individual's brain.
Ruled Admissible in one US Court as scientific evidence.
It has a record of 100% Accuracy.
Brain Fingerprinting is a technique used to determine scientifically what information is, or is not stored in a particular brain.
Brain Finger Printing was invented by Dr B .S. Farwell chief scientist and president of human brain research and laboratory , USA
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do being truthful. Issue related to the use of such evidence in courtsare discussed.The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court. In the field of criminology a new lie detector has been developed in USA. This is called “BRAIN FINGERPRINTING”.The invention is supposed to be the best lie detector even smooth criminals who paas the polygraph Test with ease.The new method employs brainwaves ,which are useful in detecting whether the person is subjected to test remember finer details of crime,even if the person willingly suppressesthe necessary information,the brain wave is sure to trap him ,according to the experts who are very excited about the new kid on the block.
Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus Use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do when being truthful. Issues related to the use of such evidence in courts are discussed. The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court.
In the field of criminology, a new lie detector has been developed in the United States of America. This is called “brain fingerprinting”. This invention is supposed to be the best lie detector available as on date and is said to detect even smooth criminals who pass the polygraph test (the conventional lie detector test) with ease. The new method employs brain waves, which are useful in detecting whether the person subjected to the test, remembers finer details of the crime. Even if the person willingly suppresses the necessary information, the brain wave is sure to trap him, according to the experts, who are very excited about the new kid on the block.
Fingerprinting is a controversial proposed investigative technique that measures recognition of familiar stimuli by measuring electrical brain wave responses to words, phrases, or pictures that are presented on a computer screen. Brain fingerprinting was invented by Lawrence Farwell. The theory is that the suspect's reaction to the details of an event or activity will reflect if the suspect had prior knowledge of the event or activity. This test uses what Farwell calls the MERMER ("Memory and Encoding Related Multifaceted Electroencephalographic Response") response to detect familiarity reaction. One of the applications is lie detection. Dr. Lawrence A. Farwell has invented, developed, proven, and patented the technique of Farwell Brain Fingerprinting, a new computer-based technology to identify the perpetrator of a crime accurately and scientifically by measuring brain-wave responses to crime-relevant words or pictures presented on a computer screen. Farwell Brain Fingerprinting has proven 100% accurate in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for the US Navy, and tests on real-life situations including actual crimes.
Brain Fingerprinting is a new computer-based technology to identify the perpetrator of a crime accurately and scientifically by measuring brain-wave responses to crime-relevant words or pictures presented on a computer screen. Brain Fingerprinting has proven 100% accurate in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for the US Navy, and tests on real-life situations including felony crimes. Brain fingerprinting is based on finding that the brain generates a unique brain wave pattern when a person encounters a familiar stimulus Use of functional magnetic resonance imaging in lie detection derives from studies suggesting that persons asked to lie show different patterns of brain activity than they do when being truthful. Issues related to the use of such evidence in courts are discussed. The author concludes that neither approach is currently supported by enough data regarding its accuracy in detecting deception to warrant use in court. In the field of criminology, a new lie detector has been developed in the United States of America. This is called “brain fingerprinting”. This invention is supposed to be the best lie detector available as on date and is said to detect even smooth criminals who pass the polygraph test (the conventional lie detector test) with ease. The new method employs brain waves, which are useful in detecting whether the person subjected to the test, remembers finer details of the crime. Even if the person willingly suppresses the necessary information, the brain wave is sure to trap him, according to the experts, who are very excited about the new kid on the block.
Brain fingerprinting by ankit 2017............ankitg29
information about the brain fingerprinting technology . by EEG method by neuron firing and impulse of brain wave.P300 mean is 300-1000 m-sec brain wave, is better tech. than the polygraph test and other than than PET test. is basically depand the brain wave. is not the depand on the emotions and the pulse rate
REVIEW: Previous Deception detection methods and New proposed method using in...IJERA Editor
Deception detection has important legal and medical applications, but the reliability of methods for the differentiation between truthful and deceptive responses is still limited. Deception detection can be more accurately achieved by measuring the brain correlates of lying in an individual. For the evaluation of the method, several participants were gone through the designed concealed information test paradigm and their respective brain signals were recorded. The electroencephalogram (EEG) signals were recorded and separated into many single trials. To enhance signal noise ratio (SNR) of P3 components, the independent component analysis (ICA) method was adopted to separate non-P3 (i.e. artifacts) and P3 components from every single trial. Then the P3 waveforms with high SNR were reconstructed. And then group of features based on time, frequency, and amplitude were extracted from the reconstructed P3 waveforms. Finally, two different class of feature samples were used to train a support vector machine (SVM) classifier because it has higher performance compared with several other classifiers. The method presented in this paper improves the efficiency of CIT and deception detection in comparison with previous reported methods.
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The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
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In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
Download the full report from here:
https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
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Topics covered:
UI automation Introduction,
UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
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Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
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Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
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Dev Dives: Train smarter, not harder – active learning and UiPath LLMs for do...UiPathCommunity
💥 Speed, accuracy, and scaling – discover the superpowers of GenAI in action with UiPath Document Understanding and Communications Mining™:
See how to accelerate model training and optimize model performance with active learning
Learn about the latest enhancements to out-of-the-box document processing – with little to no training required
Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
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👩🏫 Lenka Dulovicova, Product Program Manager, UiPath
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Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
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In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
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Watch this recorded webinar about real-time monitoring of application performance. See how to integrate Apache JMeter, the open-source leader in performance testing, with InfluxDB, the open-source time-series database, and Grafana, the open-source analytics and visualization application.
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Length: 30 minutes
Session Overview
-------------------------------------------
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- What out-of-the-box solutions are available for real-time monitoring JMeter tests?
- What are the benefits of integrating InfluxDB and Grafana into the load testing stack?
- Which features are provided by Grafana?
- Demonstration of InfluxDB and Grafana using a practice web application
To view the webinar recording, go to:
https://www.rttsweb.com/jmeter-integration-webinar
JMeter webinar - integration with InfluxDB and Grafana
Brain fingerprinting
1. BRAIN FINGERPRINTING
4/12/2009
Topic: BRAIN FINGERPRINTING
Abstract:
Brain fingerprinting is based on finding that the brain generates a unique brain
wave pattern when a person encounters a familiar stimulus Use of functional magnetic
resonance imaging in lie detection derives from studies suggesting that persons asked to
lie show different patterns of brain activity than they do when being truthful. Issues
related to the use of such evidence in courts are discussed. The author concludes that
neither approach is currently supported by enough data regarding its accuracy in detecting
deception to warrant use in court.
In the field of criminology, a new lie detector has been developed in the United
States of America. This is called “brain fingerprinting”. This invention is supposed to be
the best lie detector available as on date and is said to detect even smooth criminals who
pass the polygraph test (the conventional lie detector test) with ease. The new method
employs brain waves, which are useful in detecting whether the person subjected to the
test, remembers finer details of the crime. Even if the person willingly suppresses the
necessary information, the brain wave is sure to trap him, according to the experts, who
are very excited about the new kid on the block.
Introduction:
Brain Fingerprinting is a controversial proposed investigative technique that
measures recognition of familiar stimuli by measuring electrical brain wave responses to
words, phrases, or pictures that are presented on a computer screen. Brain fingerprinting
was invented by Lawrence Farwell. The theory is that the suspect's reaction to the details
of an event or activity will reflect if the suspect had prior knowledge of the event or
activity. This test uses what Farwell calls the MERMER ("Memory and Encoding
Related Multifaceted Electroencephalographic Response") response to detect familiarity
reaction. One of the applications is lie detection. Dr. Lawrence A. Farwell has invented,
developed, proven, and patented the technique of Farwell Brain Fingerprinting, a new
computer-based technology to identify the perpetrator of a crime accurately and
scientifically by measuring brain-wave responses to crime-relevant words or pictures
presented on a computer screen. Farwell Brain Fingerprinting has proven 100% accurate
in over 120 tests, including tests on FBI agents, tests for a US intelligence agency and for
the US Navy, and tests on real-life situations including actual crimes..
What is Brain Fingerprinting?
2. BRAIN FINGERPRINTING
Brain Fingerprinting is designed to determine whether an individual recognizes specific
information related to an event or activity by measuring electrical brain wave responses
to words, phrases, or pictures presented on a computer screen. The technique can be
applied only in situations where investigators have a sufficient amount of specific
information about an event or activity that would be known only to the perpetrator and
investigator. In this respect, Brain Fingerprinting is considered a type of Guilty
Knowledge Test, where the "guilty" party is expected to react strongly to the relevant
detail of the event of activity.
Existing (polygraph) procedures for assessing the validity of a suspect's "guilty"
knowledge rely on measurement of autonomic arousal (e.g., palm sweating and heart
rate), while Brain Fingerprinting measures electrical brain activity via a fitted headband
containing special sensors. Brain Fingerprinting is said to be more accurate in detecting
"guilty" knowledge distinct from the false positives of traditional polygraph methods, but
this is hotly disputed by specialized researchers.
Technique:
The person to be tested wears a special headband with electronic sensors that measure
the electroencephalography from several locations on the scalp. In order to calibrate the
brain fingerprinting system, the testee is presented with a series of irrelevant stimuli,
words, and pictures, and a series of relevant stimuli, words, and pictures. The test
subject's brain response to these two different types of stimuli allow the testor to
determine if the measured brain responses to test stimuli, called probes, are more similar
to the relevant or irrelevant responses.
The technique uses the well known fact that an electrical signal known as P300 is emitted
from an individual's brain approximately 300 milliseconds after it is confronted with a
stimulus of special significance, e.g. a rare vs. a common stimuls or a stimulas the
proband is asked to count. The novel interpretation in brain fingerprinting is to look for
P300 as response to stimuli related to the crime in question e.g., a murder weapon or a
victim's face. Because it is based on EEG signals, the system does not require the testee
to issue verbal responses to questions or stimuli.
Brain fingerprinting uses cognitive brain responses, brain fingerprinting does not depend
on the emotions of the subject, nor is it affected by emotional responses. Brain
fingerprinting is fundamentally different from the polygraph (lie-detector), which
measures emotion-based physiological signals such as heart rate, sweating, and blood
pressure. Also, unlike polygraph testing, it does not attempt to determine whether or not
the subject is lying or telling the truth.
Bio Medical | Electronics seminars Page 2
3. BRAIN FINGERPRINTING
Four phases of Farwell Brain Fingerprinting:
In fingerprinting and DNA fingerprinting, evidence recognized and collected at the crime
scene, and preserved properly until a suspect is apprehended, is scientifically compared
with evidence on the person of the suspect to detect a match that would place the suspect
at the crime scene. Farwell Brain Fingerprinting works similarly, except that the evidence
collected both at the crime scene and on the person of the suspect (i.e., in the brain as
revealed by electrical brain responses) is informational evidence rather than physical
evidence. There are four stages to Farwell Brain Fingerprinting, which are similar to the
steps in fingerprinting and DNA fingerprinting:
1. Brain Fingerprinting Crime Scene Evidence Collection;
2. Brain Fingerprinting Brain Evidence Collection;
3. Brain Fingerprinting Computer Evidence Analysis; and
4. Brain Fingerprinting Scientific Result.
In the Crime Scene Evidence Collection, an expert in Farwell Brain Fingerprinting
examines the crime scene and other evidence connected with the crime to identify details
Bio Medical | Electronics seminars Page 3
4. BRAIN FINGERPRINTING
of the crime that would be known only to the perpetrator. The expert then conducts the
Brain Evidence Collection in order to determine whether or not the evidence from the
crime scene matches evidence stored in the brain of the suspect. In the Computer
Evidence Analysis, the Farwell Brain Fingerprinting system makes a mathematical
determination as to whether or not this specific evidence is stored in the brain, and
computes a statistical confidence for that determination. This determination and statistical
confidence constitute the Scientific Result of Farwell Brain Fingerprinting: either
"information present" – the details of the crime are stored in the brain of the suspect – or
"information absent" – the details of the crime are not stored in the brain of the suspect.
Applications:
Counter terrorism:
Brain fingerprinting can help address the following critical elements in
the fight against terrorism:
1: Aid in determining who has participated in terrorist acts, directly or indirectly.
2: Aid in identifying trained terrorists with the potential to commit future terrorist acts,
even if they are in a “sleeper” cell and have not been active for years.
3: Help to identify people who have knowledge or training in banking, finance or
communications and who are associated with terrorist teams and acts.
4: Help to determine if an individual is in a leadership role within a terrorist organization.
Brain fingerprinting technology is based on the principle that the brain is central to all
human acts. In a terrorist act, there may or may not be peripheral evidence such as
fingerprints or DNA, but the brain of the perpetrator is always there, planning, executing,
and recording the crime. The terrorist has knowledge of organizations, training and plans
that an innocent person does not have. Until the invention of Brain Fingerprinting testing,
there was no scientific way to detect this fundamental difference.
Brain Fingerprinting testing provides an accurate, economical and timely solution to the
central problem in the fight against terrorism. It is now possible to determine
scientifically whether or not a person has terrorist training and knowledge of terrorist
activities.
With the Brain Fingerprinting system, a significant scientific breakthrough has now
become a practical applied technology. A new era in security and intelligence gathering
has begun. Now, terrorists and those supporting terrorism can be identified quickly and
accurately. No longer should any terrorist be able to evade justice for lack of evidence.
Bio Medical | Electronics seminars Page 4
5. BRAIN FINGERPRINTING
And there is no reason why an innocent individual should be falsely imprisoned or
convicted of terrorist activity. A Brain Fingerprinting test can determine with an
extremely high degree of accuracy those who are involved with terrorist activity and
those who are not.
Criminal justice:
A critical task of the criminal justice system is to determine who has committed a crime.
The key difference between a guilty party and an innocent suspect is that the perpetrator
of the crime has a record of the crime stored in their brain, and the innocent suspect does
not. Until the invention of Brain Fingerprinting testing, there was no scientifically valid
way to detect this fundamental difference.
Brain Fingerprinting testing does not prove guilt or innocence. That is the role of a judge
and jury. This exciting technology gives the judge and jury new, scientifically valid
evidence to help them arrive at their decision. DNA evidence and fingerprints are
available in only about 1% of major crimes. It is estimated that Brain Fingerprinting
testing will apply in approximately 60 to 70% of these major crimes. The impacts on the
criminal justice system will be profound. The potential now exists to significantly
improve the speed and accuracy of the entire system, from investigations to parole
hearings. Brain Fingerprinting testing will be able to dramatically reduce the costs
associated with investigating and prosecuting innocent people and allow law enforcement
professionals to concentrate on suspects who have verifiable, detailed knowledge of the
crimes.
Medical:
‘Brain Fingerprinting’ is the patented technology that can measure objectively, for the
first time, how memory and cognitive functioning of Alzheimer sufferers are affected by
medications. First generation tests have proven to be more accurate than other routinely
used tests, and could be commercially available in 18-24 months.
The 30 minute test involves wearing a headband with built-in electrodes; technicians then
present words, phrases and images that are both known and unknown to the patient to
determine whether information that should be in the brain is still there. When presented
with familiar information, the brain responds by producing MERMERs, specific
increases in neuron activity. The technician can use this response to measure how quickly
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6. BRAIN FINGERPRINTING
information is disappearing from the brain and whether the drugs they are taking are
slowing down the process.
Additional Applications:
In advertising, Brain Fingerprinting Laboratories will offer significant advances in
measuring campaign and media effectiveness. Most advertising programs today are
evaluated subjectively using focus groups. We will be able to offer significantly more
advanced, scientific methods to help determine the effectiveness of campaigns and be
very cost competitive with current methodologies. This technology will be able to help
determine what information is actually retained in memory by individuals. For example,
in a branding campaign do people remember the brand, the product, etc. and how do the
results vary with demographics? We will also be able to measure the comparative
effectiveness of multiple media types.
In the insurance industry, Brain Fingerprinting Laboratories will be able to help
reduce the incidence of insurance fraud by determining if an individual has knowledge of
fraudulent or criminal acts. The same type of testing can help to determine if an
individual has specific knowledge related to computer crimes where there is typically no
witness or physical evidence.
Case studies:
The biggest breakthrough, according to Farwell, was its role in freeing
convicted murderer Terry Harrington, who had been serving a life sentence in Iowa State
Penitentiary for killing a night watchman in 1977. In 2001, Harrington requested a new
trial on several grounds, including conflicting testimony in the original trial.
Farwell was faced with an immediate and obvious problem: 24 years had passed since the
trial. Evidence had been presented and transcripts published long ago; the details of the
crime had long since come to light. What memories of the crime were left to probe? But
Farwell combed the transcripts and came up with obscure details about which to test
Harrington. Harrington was granted a new trial when it was discovered that some of the
original police reports in the case had been missing at his initial trial. By 2001, however,
most of the witnesses against Harrington had either died or had been discredited. Finally,
when a key witness heard that Harrington had "passed" his brain fingerprinting test, he
recanted his testimony and the prosecution threw up its hands. Harrington was set free.
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In Macon County, Mo., Sheriff Robert Dawson learned about the method from his
secretary, who had also seen it featured on television. In 1999, Dawson ordered a test on
J. B. Grinder, accused of raping and murdering a 25-year-old woman. Grinder had
admitted and denied the allegations so many times that, according to Dawson, "We didn't
know what to believe anymore." Confronted with the test results, which seemed to
confirm one of Grinder's many confessions, Grinder pled guilty to the charges and also
admitted to killing three other girls in Arkansas. When another murder investigation ran
into problems earlier this year, Dawson turned again to brain fingerprinting. He refrained
from discussing the details of the case with the suspect and with the media so that the
P300 probes would be valid. While the suspect denied knowing anything about the case,
Farwell's test suggested otherwise.
Comparison with other technologies:
Conventional fingerprinting and DNA match physical evidence from a crime scene with
evidence on the person of the perpetrator. Similarly, Brain Fingerprinting matches
informational evidence from the crime scene with evidence stored in the brain.
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8. BRAIN FINGERPRINTING
Fingerprints and DNA are available in only 1% of crimes. The brain is always there,
planning, executing, and recording the suspect's actions.
Brain Fingerprinting has nothing to do with lie detection. Rather, it is a scientific way to
determine if someone has committed a specific crime or other act. No questions are asked
and no answers are given during Farwell Brain Fingerprinting. As with DNA and
fingerprints, the results are the same whether the person has lied or told the truth at any
time.
Admissibility of Brain Fingerprinting in court:
The admissibility of Brain Fingerprinting in court has not yet been established. The
following well established features of Brain Fingerprinting, however, will be relevant
when the question of admissibility is tested in court. 1) Brain Fingerprinting has been
thoroughly and scientifically tested. 2) The theory and application of Brain Fingerprinting
have been subject to peer review and publication. 3) The rate of error is extremely low --
virtually nonexistent -- and clear standards governing scientific techniques of operation
of the technology have been established and published. 4) The theory and practice of
Brain Fingerprinting have gained general acceptance in the relevant scientific
community. 5) Brain Fingerprinting is non-invasive and non-testimonial.
Record of 100% Accuracy
At the time of this first field application, Dr. Farwell's successes in the scientific
laboratory with his invention were already well known. In collaboration with FBI
scientist Dr. Drew Richardson, Dr. Farwell achieved 100% accuracy in using Farwell
Brain Fingerprinting to identify FBI agents based on their brain responses to words and
phrases only an FBI agent would recognize. Tests conducted by Dr. Farwell for the US
Navy in collaboration with Navy LCDR Rene S. Hernandez, Ph.D., also resulted in 100%
accurate results. In research on contract with a US government intelligence agency,
Farwell Brain Fingerprinting achieved 100% accuracy in proving the presence or absence
of a wide variety of evidence stored in the brains of individuals involved in over 120
cases. Dr. Farwell has published extensively in the scientific literature and presented his
research to many scientific and technical audiences throughout the world . Farwell Brain
Fingerprinting has been subjected to rigorous peer review under US government
sponsorship, and has been found scientifically viable as well as revolutionary in its
implications.
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Conclusion
Brain Fingerprinting is a revolutionary new scientific technology for solving crimes,
identifying perpetrators, and exonerating innocent suspects, with a record of 100%
accuracy in research with US government agencies, actual criminal cases, and other
applications. The technology fulfills an urgent need for governments, law enforcement
agencies, corporations, investigators, crime victims, and falsely accused, innocent
suspects.
References:
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