Mind/Machine Interaction Consortium: PortREG Replication Experiments

A consortium of research groups at Freiburg, Giessen, and Princeton was formed in 1996 to pursue multidisciplinary studies of mind/machine interaction anomalies. The first collaborative project under- taken was an attempted replication of prior Princeton experiments that had demonstrated anomalous deviations of the outputs of electronic random event generators in correlation with prestated intentions of human operators. For this replication, each of the three participating laboratories collected data from 250 3000-trial 200 binary-sample experimental sessions, generated by 227 human operators. Identical noise-source equipment was used throughout, and essentially similar protocols and data analysis procedures were followed. Data were binned in terms of operator intention to increase the mean of the 200-binary-sample distributions (HI); to decrease the mean (LO); or not to attempt any influence (BL). Contiguous unattended calibra- tions were carried forward throughout. The agreed upon primary criterion for the anomalous effect was the magnitude of the HI-LO data separation, but data also were collected on a number of secondary correlates. The primary re- sult of this replication effort was that whereas the overall HI-LO mean sepa- rations proceeded in the intended direction at all three laboratories, the over- all sizes of these deviations failed by an order of magnitude to attain that of the prior experiments, or to achieve any persuasive level of statistical signifi- cance. However, various portions of the data displayed a substantial number of interior structural anomalies in such features as a reduction in trial-level standard deviations; irregular series-position patterns; and differential de- pendencies on various secondary parameters, such as feedback type or exper- imental run length, to a composite extent well beyond chance expectation. The change from the systematic, intention-correlated mean shifts found in the prior studies, to this polyglot pattern of structural distortions, testifies to inadequate understanding of the basic phenomena involved and suggests a need for more sophisticated experiments and theoretical models for their fur- ther elucidation.

[1]  H. Schmidt,et al.  Channeling evidence for a PK effect to independent observers , 1986 .

[2]  R. Jahn,et al.  On the quantum mechanics of consciousness, with application to anomalous phenomena , 1986 .

[3]  Harald Atmanspacher,et al.  Dynamical Entropy in Dynamical Systems , 1997 .

[4]  R.G. Jahn,et al.  Margins of Reality: The Role of Consciousness in the Physical World , 1987 .

[5]  Dean Radin,et al.  Evidence for consciousness-related anomalies in random physical systems , 1989 .

[6]  Dean Radin,et al.  The Conscious Universe: The Scientific Truth of Psychic Phenomena , 1997 .

[7]  W G Braud,et al.  Geophysical Variables and Behavior: LVIII. Autonomic Activity, Hemolysis, and Biological Psychokinesis: Possible Relationships with Geomagnetic Field Activity , 1989, Perceptual and motor skills.

[8]  Robert G. Jahn,et al.  A Linear Pendulum Experiment: Effects of Operator Intention on Damping Rate , 1994 .

[9]  Robert G. Jahn,et al.  ArtREG: A Random Event Experiment Utilizing Picture-Preference Feedback , 2000 .

[10]  H. Atmanspacher,et al.  Investigating Deviations from Dynamical Randomness with Scaling Indices , 2000 .

[11]  Robert G. Jahn,et al.  Contributions to Variance in REG Experiments: ANOVA Models and Specialized Subsidiary Analyses , 2000 .

[12]  R. Rosenthal Experimenter attributes as determinants of subjects' responses. , 1963, Journal of projective techniques.

[13]  R. Rosenthal Meta-analytic procedures for social research , 1984 .

[14]  Robert G. Jahn,et al.  Series Position Effects In Random Event Generator Experiments , 2007 .

[15]  Robert G. Jahn,et al.  Operator-Related Anomalies in a Random Mechanical Cascade , 1988 .