Mini ‘how-to’ Bluetooth/Wifi combo for Raspberry PI
Stick’em with the pointy end
Virtual and not so Virtual Space
Be Still my Bleeding Heart …
The Never-ending Privacy Battle
The Many Sides of Bitcoin
Cyber Jihadists
Hacker Gangs
The New Old War
The Sacred Executioner
Scripting Aphrodites
Mini ‘how-to’ Bluetooth/Wifi combo for Raspberry PI I recently purchased the Cirago USB Bluetooth/Wifi combo to use with my raspberry pi. All things considered, I am quite pleased. Being reasonably versed in google-fu, helped, of course. Since I want the freedom to do some mobile tinkering, I need to access the pi sans a lan. That, and my latest wild hair project […]
Stick’em with the pointy end Since I have been spending a great deal of my time playing in the field of 3D design and printing, I have only recently stumbled upon, and had time to read, “Privacy for Me and Not for Thee,” penned by Catherine A. Fitzpatrick, a human rights activist whom I first encountered in the virtual world […]
Virtual and not so Virtual Space Not long ago, someone asked if I liked 3D printing better than virtual worlds. The short answer is, equally but differently.
Be Still my Bleeding Heart … “Secure web servers are the equivalent of heavy armored cars. The problem is, they are being used to transfer rolls of coins and checks written in crayon by people on park benches to merchants doing business in cardboard boxes from beneath highway bridges. Further, the roads are subject to random detours, anyone with a screwdriver […]
The Never-ending Privacy Battle This brings me back to the Hundredpercent American. To some extent he is a pet of mine. I have always rather liked him, because he has some promising qualities. For instance, he has enormous hospitality. I used to feel personally complimented by the amazing warm-hearted hospitality showered on me by Americans. […] When I realized […]
The Many Sides of Bitcoin Pariah, darling, or somewhere in between. Bitcoin has continued to linger in the daily media spotlight since the shuttering of darknet’s black-market drug bazaar, Silk Road, and the subsequent announcement of the arrest of its alleged owner, Ross William Ulbricht (aka DPR), on October 2, 2013. Media mavens have long cast bitcoin as a sort […]
Cyber Jihadists “We’re facing a very great threat of loosely-coupled, organizational networks that increasingly rely on IT infrastructure to coordinate their movements and recruit young disenfranchised, apathetic guys as suicidal pawns in a sophisticated, dispersed movement. (…)” (AHM, Usenet, September 21, 2001)
Hacker Gangs Meet Jim Script Kiddie (skiddie). He is the guy (usually in his early to mid teens) who comes into a hacker forum, asking inane questions like, “how can I be a hacker?” He also tends to over-indulge in “hacker speak” making him look pretty much like a moron to seasoned (and not so) computer netizens.
The New Old War In 1956, FBI Director, J. Edgar Hoover initiated a program, code-named COINTELPRO (counter intelligence program) ushering in what would become the mainstay for how intelligence communities dealt with domesitic affairs. The sole directive of this program was “to expose, disrupt, misdirect, discredit, or otherwise neutralize” the activities of various dissidents and their leaders.
The Sacred Executioner In his book, “The Sacred Executioner,” Hyam Maccoby notes: “A figure in mythology that has received little attention is that of the Sacred Executioner. […] By taking the blame for the slaying, he is performing a great service to society, for not only does he perform the deed, but he takes upon himself the blame […]
Scripting Aphrodites On Wednesday, April 13, 2006, 10-year-old Jamie Rose Bolin was reported missing by her father. Investigators thought she may have been abducted by someone she met online. Oklahoma law enforcement suspected her abductor might be heading just across the border to Texas and requested Texas issue an Amber alert.
image Mini ‘how-to’ Bluetooth/Wifi combo for Raspberry PI
image Stick’em with the pointy end
image Virtual and not so Virtual Space
image Be Still my Bleeding Heart …
image The Never-ending Privacy Battle
image The Many Sides of Bitcoin
image Cyber Jihadists
image Hacker Gangs
image The New Old War
image The Sacred Executioner
image Scripting Aphrodites

Tell me no secrets, tell me no lies

If you were to walk up to any stranger and ask if they could detect a lie, there is a high probability that you would receive an affirmative answer. Research however indicates that our ability to detect a lie is no better than chance. Still, we persist and in a sense the criminal justice system reflects just how tenaciously we hold to this mythological belief.

The most well known means for detecting deception via the measurement of physiological responses involves ’s early 20th century machine. The original measured whereas later versions included (skin conductance) measurements. By the early 1950s, the Department of Defense Polygraph Institute (DoDPI), funded several projects in search of the ultimate truth serum while continuing to explore various versions of psychophysiological detection of deception (PDD) tools and procedures. Among these were [1] and periorbital thermography. It was also during this period that and interviews were studied extensively. The results were inconclusive.

By the 1960s, began making headway into various law enforcement agencies around the nation, and in 1978, Paul Ekman, PhD developed a system that he coined, facial action coding system ( ). As we near the one century mark of the , the scientific community remains divided with regard to PDD. Proponents claim deception detection instruments meet scientific rigor whereas skeptics claim they remain in the realm of art and are therefore not valid and reliable. Functional magnetic resonance imaging () and functional near-infrared imaging () are the latest PDDs to be added to the mix. At this time PDDs are inadmissible in a court of law. This is largely due to the 1923 precedent setting case of Frye v United States.

In 1923, James Alphonzo Frye, who had been convicted of murder in the second degree, appealed his conviction on the basis of a “single assignment of error.” Frye’s attorney had attempted and was denied the testimony of an expert witness regarding the results of a “systolic blood pressure deception test” that indicated Frye was telling the truth when he stated he did not commit the murder. In a December 3, 1923 precedent setting opinion, Chief Justice, Van Orsdel, upheld the ruling, stating the systolic blood pressure deception test had not yet gained wide acceptance by the scientific community.[2]

The result came to be known as the Frye standard (also known as the Frye test), which would be used to determine expert testimony admissibility for the next 50 years. By 1975 expert testimony admissibility criteria, which focused upon scientific method, was codified in Rule 702 of the Federal Rules of Evidence (FRE).[3] In 1993, during the appeal of another precedent setting case, Daubert v Merrell Dow Pharmaceuticals, Justice Blackmun noted that the court should act as a “gatekeeper” to ensure expert testimony met FRE 702 scientific standards, specifically in the areas of testability, peer review, error rates, and general acceptance.[4]

Expert testimony admissibility was further clarified in the 1997 General Electric Co. v. Joiner opinion, wherein Chief Justice Rehnquist ruled that expert testimony should not be excluded solely upon the basis that an expert might only be able testify to a limited degree of certainty–which some argue does not rise above guesswork and/or biased speculation.[5] In the 1999 case of Kumho Tire Company v Carmichael, Justice Breyer recognized Dennis Carlson Jr’s ipse dixit expertise, noting that FRE 702 does not distinguish between scientific knowledge and special knowledge, thus further clarifying expert testimony admissibility criteria.[6] Although expert testimony admissibility criteria have changed during the past century, several states continue to rely upon the Frye test. Therefore, for the to be accepted as a viable deception detection instrument in a court of law, it must, at the very least, meet the Frye standard of general acceptance within the scientific community. In this context, the looks promising. What is it that makes the look promising? Source measurements.

For example, the measures changes in the sympathetic nervous system–a system, some claim, that can be easily manipulated via relaxing and/or tensing, such that end results are inconclusive or generate a false negative or positive. The however measures changes in the central nervous system, which researchers argue is very hard, if not impossible, to control. Or is it? The brain activity measurements come in the form of changing blood flow, which in turn helps testers to determine which areas of the brain are activated at any given point in time. Researchers hypothesize lying involves emotion, conflict, and cognitive control, thus resulting in increased neurological excitation. To test this hypothesis, several researchers designed and implemented experiments involving the well-known deception paradigm coined the Guilty Knowledge Test (GKT).[7]

In 2004, Kozel et al attempted to replicate a previous blood oxygen level-dependent (BOLD) lie detection study to determine if correlations exist between lying and activation of specific brain centers. Ten (10) subjects were tested utilizing the GKT model. This model relies upon forced-choice deception tasks and hypothesizes statistically significant neurological differences will be present when the subject is lying. The results of Kozel et als research indicated increased activity in the right frontal areas, right anterior cingulate gyrus, right precentral gyrus, left temporal area and left cerebellum.[8] In 2005, Davatzikos et al used the BOLD to measure the brain activity of twenty-two (22) subjects participating in GKT activities. Their results indicated increased brain activity in the right prefrontal cortex and temporoparietal cortex.[9] In 2006, Mohamed et al tested eleven (11) subjects in a GKT mock shooting scenario.[10]

In all three research experiments, subjects targeted to lie were told they would receive a financial reward (usually $25) if they followed the rules and successfully escaped detection. To control for confounds, all subjects were tested for handedness, and Kozel et al, whose research included both male and female subject, also tested for and eliminated subjects for DSM-IV-TR Axis I disorders, drug use, and, in the case of the females, pregnancy. Each of the aforementioned researchers hypothesized that deception activates specific areas of the brain whereas truth telling activates alternative areas. To test their hypothesis, Kozel and Davatzikos asked subjects to lie about seeing a playing card, whereas Mohamed et al instructed their subjects to fire a starter pistol with blanks. Of Mohamed et als eleven participants, six were instructed to lie when asked if they had fired the pistol. All experimenters also used the to measure deception.

By 2004, s were being touted as the lie detector of the future. Since that time, several small companies have begun marketing lie detection services.[11] With increased interest however came increased concerns. Among these involve the age-old questions of validity and reliability,[12] and perhaps the equally important though less well defined question of bioethics. The prior, validity and reliability, is perplexing when considering the experiments conducted thus far. For example, in attempting to control for confounds, researchers have limited their test sample to college-aged, healthy, drug-free (i.e., caffeine, tobacco, alcohol, prescribed, and over the counter medication), mostly male, participants. Additionally, no time is allowed between the target incident (that which the subject is to lie about) and the lie. Thus results could be confounded by lack of lie preparation as would normally occur in a forensic setting.

The latter is especially troublesome when it comes to and the ability to “surreptitiously scan the brain.” Furthermore, the issue of bioethics was raised and addressed in the mid-1980s when employers began utilizing polygraphs for pre-screening potential employees. The use of PPDs by employers was quickly halted with the enactment of the 1988 federal . And finally, Hughes et al (2005) proposes that results indicating deception as an executive function support the hypothesis that deception is an evolutionary necessity. Their hypothesis is further supported with regard to a number of acute psychological disorders in that executive control of deception appears to be “broken.[13] In summary, although emerging PDD technologies look promising for forensic settings, it is important to proceed with extreme caution and aforethought due to potentially negative unintended societal consequences.

Footnotes:

  1. Venkatasubramanian G, Hunter MD, Farrow TFD, Green RDJ, Leung D, Hughes CJ, Spence SA. 2004 The functional anatomy of vocal lying
    Biological Psychiatry. Vol. 55 No. 209.
  2. Frye v United States, 54 App. D.C. 46, 293 F. 1013 [1923]
  3. Federal Rules of Evidence 702 [1975]
  4. Daubert v Merrell Dow Pharmaceuticals, 509 U.S. 579. 1993
  5. General Electric Co. v. Joiner. 522 U.S. 136, 138–139 [1997]
  6. Kumho Tire Co., LTD., et al. v. Carmichael et al. 97-1709. 526 U.S. 137. 1999
  7. Jaffe E Detecting Lies
    Smithsonian. Science and Technology
  8. Kozel FA, Padgett TM, & George MS. 2004 A Replication Study of the Neural Correlates of Deception
    Behavioral Neuroscience. Vol. 118 No. 4 Pp. 852-856
  9. Davatzikos C, Ruparel K, Fan Y, Shen DG, Acharyya M, Loughead JW, Gur RC, & Langleben DD 2005 Classifying spatial patterns of brain activity with machine learning methods: Application to lie detection.
    NeuroImage, Volume 28, Issue 3, 2005, pages 663-668.
  10. Mohamed FB, Faro SH, Gordon NJ, Platek SM Ahmad H & Williams JM. 2006 Brain Mapping of Deception and Truth Telling about an Ecologically Valid Situation: Functional MR Imaging and Polygraph Investigation–Initial Experience.
    Radiology Vol. 238 No. 2. February 2006.
  11. Ganguli I. 2007 Watching the Brain Lie: Can fMRI replace the polygraph?
    The Scientist. Volume 21. Issue 5. Page 40
  12. Wolpe PR, Foster KR & Langleben DD. 2005 Emerging Neurotechnologies for Lie-Detection: Promises and Perils
    The American Journal of Bioethics. Vol. 5 No. 2 Pp. 39–49. 2005
  13. Hughes CJ, Farrow TFD, Hopwood M, Pratt A, Hunter MD & Spence SA. 2005 Recent Developments in Deception Research
    Current Psychiatry Reviews. Vol. 1 No. 3. Pp 273-279. November 2005.