A 14 14 re dfor- Release 2000/08/08 CIA- 6- 0200001-1 Final Report Covering the Period 1 February 1983 to 30 April 1984 SPECIAL ORIENTATION TECHNIQUES: S-IV (U) July 1_984 SRI Project 5590 Copy No . ....... This document consists of 30 pages. Aw _~~~oved For ~qje"e 2099/91/08.- ge'4-RDP96-00788RO01 enswo nUe 00200001-1 Approved For Release 20oWNIGLASS6FIE-D788ROO1800200001-1 CONTENTS (U) LIST OF ILLUSTRATIONS . . . . . . . . . . . . . . . . . . . . . . LIST OF TABLES . . . . . . . . . . . . . . . . . . . . . . . . . . I OBJECTIVE . . . . . . . . . . . . . . . . . . . . . . . . . . II INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . A. General . . . . . . . . . . . . . . . . . . . . . . . . B. Training by Stages--An Overview . . . . . . . . . . . . 1. Rationale . . . . . . . . . . . . . . . . . . . . . 2. Stage I . . . . . . . . . . . . . . . . . . . . . . 3. Stage II . . . . . . . . . . . . . . . . . . . . . 4. Stage III . . . . . . . . . . . . . . . . . . . . . 5. Stage IV . . . . . . . . . . . . . . . . . . . . . III STAGE IV TECHNOLOGY . . . . . . . . . . . . . . . . . . . . . A. Overview . . . . . . . . . . . . . . . . . . . . . . . . B. Trainee #059 Response to Stage IV Training . . . . . . . IV EVALUATION AND RECOMMENDATIONS . . . . . . . . . . . . . . . A. Completion Indicators . . . . . . . . . . . . . . . . . B. Trainee Evaluation . . . . . . . . . . . . ... . . . . . C. Recommendations for Follow-On Actions . . . . . . . . . Appendix--STAGE IV SITES . . . . . . . . . . . . . . . . . . . . . iii v v I 3 3 4 4 5 6 6 7 11 11 12 17 17 21 21 23 OWN6;LA Approved For Release 20 . IMC-1591PPO 7 8 8 RO 0 18 0 0 2 0 0 0 01 -1 Approved For Release 20VN4M.A13-q"ff J)D788 ROO 1800200001 -1 ILLUSTRATIONS (U) I Schematic Representation of Remote Viewer Response to CRV Situation . . . . . . . . . . . . . . . . . . . . . . . 5 2 Idealized Performance-Over-Time Curve . . . . . . . . . . . . 7 3 Gateway Arch, St. Louis . . . . . . . . . . . . . . . . . . . 8 4 Iwo Jima Island . . . . . . . . . . . . . . . . . . . . . . . 9 5 Stanford Radiotelescope . . . . . . . . . . . . . . . . . . . 10 6 Training Performance Mer #059) . . . . . . . . . . . . . . 13 7 St. Patrick's Cathedral, NYC (Trial 22) . . . . . . . . . . . 18 8 FMC Chemical Plant, Newark, CA (Trial 24) . . . . . . . . . . 19 9 Stanford Linear Accelerator, Stanford, CA (Trial 26) . . . . 20 TABLES'(U) 1 Stages in Remote Viewing . . . . . . . . . . . . . . . . . . 4 2 Data-Bit Distribution, S-IV Training Series, Trainee #059 . . . . . . . . . . . . . . . . . . . . . . . . 14 3 Stage IV Completion Trials 22 through 26 . . . . . . . . . . 17 v Approved For Release 200JJNr-6&*UlFgi-FA88ROO1800200001-1 low Approved For Release 2 0/08/08 : CIA-RDP96-00788 001800200001 -1 I OBJECTIVE (U) SRI International is tasked with developing remote viewing (RV)* enhancement techniquesA Of par- ticular interest is the development of procedures that have potential application4 and that can be transmitted.to others in a structured fashion (i.e., "training" procedures). 1. ~ Under particular study in this effort is whether a Coordinate Remote Viewing (CRV) technology, a technique that utilizes coordinates to facilitate acquisition of a remote-viewing target, can be M successfully transferredl M1W (U) RV is the acquisition and description, by mental means, of infor- mation blocked from ordinary perception by distance or shielding. aw Approved For Release 2000/ F8/O08: CIA-RDP96-0~088RO01 800200001 -1 smi Approved For Releas 2000/08/08 : CIA-RDP96-00788 001800200001-1 ~00/0 II INTRODUCTION (U) A. (U) General At the beginning of FY 1981, SRI International made AW a decision to develop and codify a promising RV enhancement procedure that had emerged from earlier work--a multistage coordinate remote-viewing 10i training procedure developed in conjunction with an SRI consultant. The procedure focuses on developing the reliability of remote viewing by con- aw trolling those factors that tend to introduce noise into the RV product. A broad overview of the procedure, which has been derived empirically on MW the basis of a decade of investigation into the RV process, is presented in Chaptee III. The basic components of this procedure consist of MW Repeated target-address (coordinate) presentation, with quick-reaction response by the remote viewer (to minimize imaginative overlays). The use of a specially-designed, acoustic-tiled, featureless, homogeneously-colored viewing chamber (to minimize environmental overlays). The adoption of a strictly-prescribed, limited interviewer patter (to minimize interviewer overlay). (U) At this stage of the development (Stage V is still in R&D; addi- tional stages are projected), the RV training procedure is structured to proceed through a series of stages of proficiency, hypothesized to cor- respond to stages of increased contact with the target site. The stages MW are outlined in Table 1. In a given remote viewing session, an experienced remote viewer tends to recapitulate the stages in order. (U) Use of Stage V in the sequence is optional, depending on the level of analytical detail required. 3 Approved For Release C000/08/08 CIA-RDP96-00788IR 101800200001 -1 Approved For Release 200 8/08 : CIA-RDP96-00788RO01 8 0200001 -1 r ~_/O 8 Table 1 (U) STAGES IN REMOTE VIEWING AW Stage Example I Major gestalt Land surrounded by water,an island Il Sensory contact Cold sensation, wind-sweptfeeling III Dimension, motion, mobility Rising up, panoramic island view, outline IV General qualitative analyticalScientific research, organisms live aspects V Specific analytical aspects (by interrogating signal line) VI Three-dimensional contact, Layouts, details, furtheranalytical modeling contact Aw UNCLASSIFIED B. (U) Training by Stages~-An Overview 1. (U) Rationale The particular effort covered in this report concerns training of a[-- viewer to compl-etion on Stage IV (S-IV). dw To place the S-IV training effort in perspective, we summarize briefly how it develops out of the earlier stages. MW (U) The key to the earlier stages is the recognition that the major problem with naive attempts to remote view is that the attempt to visualize a remote site tends to stimulate memory and imagination--usually in visual-image forms. As the viewer becomes aware of the first few data bits, there appears to be a largely spontaneous and undisciplined rational effort to extrapolate and "fill in the blanks." This is presumably driven by a need to resolve the ambiguity associated with the fragmentary nature of the emerging perception. The result is a premature internal analysis and interpretation on the part of the remote viewer. (For example, an 4 aw Approved For Release 2000/08/08 FCIA-RDP96-00788~R~O800200001-1 .NW - Approved For Release 2000/08/08 : CIA-RDP96-00788ROO1800200001-1 UW (U) impression of an island is immediately interpreted as Hawaii.) This we call analytical overlay (AOL). (U) Our investigation of these overlay patterns leads to a model of RV functioning, shown schematically in Figure 1. With the application of a "stimulus" (e.g., the reading of a coordinate), there appears to be a momentary burst of "signal" that enters into awareness for a few seconds, and then fades away. The overlays appear to be triggered at this point to fill in the void. Success in handling this complex process requires that a remote viewer learn to "grab" incoming data bits while simultaneously attempting to control the overlays. Stage I and Stage II training is designed specifically to deal with this requirement. WW SIGNAL, NOISE SIGNAL STIMULUS UNCLASSIFIED FIGURE 1 0000000, "FILL-IN-THE-BLANK! OVERLAYS t STIMULUS THRESHOLD OF AWARENESS (U) SCHEMATIC REPRESENTATION OF REMOTE VIEWER RESPONSE TO CRV SITUATION 2. (U) Stage I (U) In Stage I, the viewer is trained to provide a quick-reaction response to the reading of the site coordinates by the monitor. The response takes the form of an immediate, primitive "squiggle" on the paper (called an ideogram), which captures an overall motion/feeling of the gestalt of Approved For Release 2000/08/08 CIA-RDP96-00788RO01 800200001 -1 Approved For Release 2000/08/08 : CIA-RDP96-00788RO01 800200001 -1 UNCLASSIFIED (U) impression of an island is immediately interpreted as Hawaii.) This we call analytical overlay (AOL). (U) Our investigation of these overlay patterns leads to a model of RV functioning, shown schematically in Figure 1. With the application of a "stimulus" (e.g., the reading of a coordinate), there appears to be a momentary burst of "signal" that enters into awareness for a few seconds, and then fades away. The overlays appear to be triggered at this point to fill in the void. Success in handling this complex process requires that a remote viewer learn to "grab" incoming data bits while simultaneously attempting to control the overlays. Stage I and Stage II training is designed specifically to deal with this requirement. SIGNAL, NOISE SIGNAL "FILL-IN-THE-BLANKI OVERLAYS STIMULUS UNCLASSIFIED STIMULUS THRESHOLD OF AWARENESS FIGURE 1 (U) SCHEMATIC REPRESENTATION OF REMOTE VIEWER RESPONSE TO CRV SITUATION 2. (U) Stage I (U) In Stage I, the viewer is trained to provide a quick-reaction response to the reading of the site coordinates by the monitor. The response takes the form of an immediate, primitive "squiggle" on the paper (called an ideogram), which captures an overall motion/feeling of the gestalt of 5 Approved For Release 20 VNId-Atffffly 788R001800200001-1 ~8O Approved For Release 2000/ 8/08 : CIA-RDP96-00788RO01 80 200001 -1 ~/08 'cl) 7 M the site (e.g., wavy/fluid for water). Note that this response is essen- tially kinesthetic, rather than visual. 3. M Stage II (U) In Stage II, the viewer is trained to become sensitive to physical sensations associated with the site, i.e., sensations he might experience if he were physically located at the site (heat, cold, wind, MW sounds, smells, tactile sensations, and the like). Again, this response is essentially nonvisual in nature (although color sensations may arise as aw a legitimate Stage Il response). Of course, in both training stages, visual images may emerge spontaneously. In that case they are not MM suppressed, but simply noted and labeled as AOLs. (U) Provided Stages I and II have been brought under control by 4w the viewer, Stage III training is initiated. The phrase "under control" means that the viewer has been observed to pass through a performance curve of the type shown in Figure 2, which typically applies to skills learning. Certain objective performance measures, such as number of session elements or number of coordinate.iterations required to reach closure on site description, are tracked to determine progress along the performance curve. 4. M Stage III Whereas in Stage I and Ii viewing, data appear to emerge (typically) as fragmented data bits, in S.tage III, we observe the emergence of a broader concept of the site. With Stage I and II data forming a foundation, contact with the site appears sufficiently strengthenec that the viewer begins to have an overall appreciation of the site as a Aw whole (which we label "aesthetic impact"). Dimensional aspects such as size, distance, and motion begin to come into play, resulting in configu- rational outlines and sketches. For training practice, sites are chosen especially to require the Stage III aptitudes of dimensional perception, e.g., sketching of an outline-tracking nature. Examples generated by viewer #059, the viewer of this study, include the Gateway Arch in St. Louis. low Iwo Jima Island, and the Stanford radiotelescope, shown in Figures 3 through 6 Approved For Release 2000/08/08 - CCIA-RDP96-0 001800200001-1 0~1 WO OW WAO OW MW 5. -09 Approved For Release 8/08: CIA-RDP96-0 001800200001-1 7 L, LU cc D U) << LU Cr LU U z <0 cc 0 LL. Uj UNCLASSIFIED TIME FIGURE 2 (U) IDEALIZED PER FORMANCE-OVER-TIME CURVE 5,BLISHED 5. (U) Stage IV Because of the apparent increased contact with the site that occurs on Stage III (a "widening of the aperture" as it were), data of an analytical nature begin to emerge. This follow-on process con- stitutes Stage IV in our nomenclature. Contained in Stage IV data are elements that go beyond the strictly observational, such as ambience cultural factors and function.or purpose Stage IV viewing is therefore considered to be the crossover point into functioning with potential' value. Approved For Release 2000/ 8/08 : CFA-RDP96-00 88RO01 800200001 -1 wm Approved For Release 2000/08/~L'C IA-RDP9"~88 ROO 1800200001 -1 F-r-r~~ -~% UA CPYRGHT cc cc In 3f 0 cc w 5 cc U. Approved For Release 2000/08/ 7-~ IA-RDP967P-788RO01 800200001 -1 mw aw aw ow Approved For Release 2 8/08 cl 00788ROO1800200001-1 7 40. -ra -A4 CD %L w 0 z 0 05 cc > cc Its ui dil U) cr Approved For Release 2000 71"/08 CIA-RDP91-00788ROO1800200001-1 Approved For Release 2000/08/08 CIA-RDP96-00 01800200001-1 Approved For Release 2000/08/08 CIA-RDP96-QP788RO01 800200001 -1 ~7 1 w CA z 0 w LU 0- 0 C) U) LU -j LU 0 0 LL z 5 LO LLI cr- Z) U LL Approved For Relea e 2000/08/08 : CIA-RDP96-0078 R001 800200001 -1 ~e III STAGE IV TECHNOLOGY (U) A. M Overview Whereas Stages I through III are directed toward recognition of the overall gestalt and physical configuration of a target site, Stage IV is designed to provide information as to function, i.e., as to the purpose of the activities being carried out at the site. Thus, Stage IV viewing transcends simple physical descriptions of wbat is visible to the eye, to take into account human intention. Because,' 4 point of view, A - ~ Stage IV is considered to be the threshold for crossover into (U) In Stages I through III, information is collected in the form o ideograms, and their motion and feeling (S-0, sensations at the site (S-II), and sketches that result from expanded contact with the site (S-III). These various "carrier" signals are individual in nature, and special techniques have been developed to handle each in turn, more or 1e! in a serial fashion. Once stabilized, Stage III forms the platform upon which can be built the more refined techniques of Stage IV. (U) In Stage IV, the viewer is trained to accumulate data bits in no less than eight separate categories, in parallel, in addition to pro- cessing additional ideograms and sketches. These range from broad categories of sensations and dimensional references, through specific qualities (physical/technological detail, cultural ambience, and functional significance), and includes tracking of the analytical overlay line. To keep these separate signal lines on track requires exceptional control of sesssion structure--an ability trained for in the lengthy SI through SIII training period. With these elements under control, the Stage IV data-bit- acquisition procedures can then be used to build up an interpretation as to the site's activities and functions. Approved For Release 2 (00/08/08 : CIA-RDP96-00788 (001800200001 -1 Approved For Release 2 00/08/08: CIA-RDP96-00788RO 1800200001 -11 B. (U) Trainee #059 Response to Stage IV Training Trainee #059 began S-IV training during the second week of December 1983, and completed the requirements for S-IV on 22 March 1984. Thirty-one (31) S-IV training sessions were conducted with this trainee. With four sessions aborted for various reasons, and with one site requiring two sessions to complete, the 31 sessions provided a total of twenty-six (26) completed trials. The session particulars, including date/time, site, and coordinates, are listed in the Appendix. The types of sites that must be identified include churches, hospitals, No dams, ruins, power plants, art galleries, libraries,A schools, airports, caverns, observatories,~ and accelerators. A record of the total number of data bits generated for each site (number of ideograms, sketches, sensations, dimensional references, feeling tones, physical or functional details, and analytical overlays) is given, trial by trial, in Figure 6. A given session had as many as 249 separate elements (Trial 8), or as few as 28 (Trial 17). In general, the end point of a session was recognition of the site's primary function. Although site complexity was increased as the series progressed, the number of data bits actually required (before site recognition) decreased on the average (.p < 0.025) as proficiency with the S-IV tech- niques was acquired--an expected outcome. (U) The data-bit distribution among the various categories tracked in S-IV training is shown, trial by trial, in Table 2. The first column tallies the number of ideograms, sketches, and the like, generated in the initial S-I through S-III process, the second column tallies additional elements of this type generated after the S-IV process has begun. The remaining eight columns tally the number of data bits generated for each aw of the S-IV channels of interest. (More specific channel labels have been passed to the client under separate cover; the specificity is protected Ow to prevent premature disclosure to prospective trainees.) It is con- sidered that the data bits accumulated in Channels 5 and 6 constitute Approved For Release 2000/08/0 :CIA-~bP96-OO'F88ROO1800200001-1 mw mw mw I Approved For Release 2000/0 /08 CIA-RDP96- 0788RO01 800200001 -1 ~87 260 - 240 - 220 - P(SLOPE) < 0.025 200 - 180 - F- z w 2 160 w -i w z 140 LD cn cn w w 100 - IL 0 cc w 120 - co z 80 - 60 - 40 - 20 - 0 0 2 4 6 8 10 12 14 16 18 20 22 24 26 J. TRIAL NUMBER FIGURE 6 (U) STAGE IV TRAINING PERFORMANCE (RVer 059) 13 Approved For Release 2000/0 F/08 : CIA-RDP96~00788RO01 800200001 -1 Approved For Release 20 0/08/08 : CIA-RDP96-00788ROO 800200001 -1 Table 2 (U) DATA-BIT DISTRIBUTION, S-1V TRAINING SERIES, TRAINEE #059 am Ma No dMi S-I thru S-IV Post-Stage IV Onset Channels Basic ements Sensations Physical/Analytical El and (Ideograms, Dimensional Feeling FunctionalOverlay Total Session/Sketches,etc.) References Tones Details Lines Number of Trial S-I thru S-IV1 2 3 4 5 6 Data S-III Bits 1/1 35 11 22 1 18 L4 8 129 17 1 2 2/2 34 17 13 9 9 2 5 3 2 3/2 29 16 8 3 3 1 161 5 1 1 4/3 36 3 22 2 9 5 3 96 11 5 5/4 14 2 22 11 10 11 6 95 15 2 2 6 Abort (error coordinate - in reading) 7 Abort (trainee medical problem) 8 Abort (error - in coordinate reading) 9/5 32 3 28 2 14 5 5 103 11 3 10/6 18 2 12 3 16 12 5 76 6 2 1117 71 2 10 6 14 6 8 129 9 3 12/8 40 15 32 20 43 34 29 249 20 2 14 13/9 26 16 16 9 21 24 7 138 8 1 10 14/10 16 4 24 7 27 13 6 112 8 7 15/11 30 5 10 10 2 2 1 69 8 1 16/12 25 9 13 11 18 22 5 113 7 1 2 17/13 38 9 13 12 11 101 16 2 18 Abort (error - in coordinate reading) 19/14 36 20 35 8 7 5 11 138 13 3 20/15 44 13 9 14 14 6 101 1 21116 53 3 L I 1 6 2 68 1 22/17 28 28 23/18 27 19 13 16 20 3 11 1 1 24/19 3B 21 21 4 20 12 5 142 20 1 25/20 18 13 9 5 7 11 64 1 26/21 16 10 15 14 5 1 81 18 2 27/22 33 7 10 2 4 2 15 73 28/23 16 7 7 4 7 3 2 48 1 1 29/24 12 13 25 8 15 4 1 91 9 4 30/25 17 4 15 9 4 2 56 3 2 31/26 27 1 14 71 10 10 7 104 14 1 10 51 f mw MW 14 Approved For Release 000/08/08 : CIA-RDP96-00788 001800200001-1 OC ~c god no OW woo MW No No aw M- Approved For Releas 0/08/08: CIA-RDP96-00 88ROO1800200001-1 7 M the primary source of "hard" information that in molt instances appears to result in the decoding of site function. -0 To give some indication of progress through the series, we examine here some specific cases. For Trial 2, the site was a hospital; the trainee accumulated a total of 161 data bits in two sessions before identifying the site as a hospital. By Session 12 (Trial 8, Cape Kennedy), the difficulty in maintaining functional reliability while acquiring the new skills (corresponding to the expected performance-curve dip of Figure 2) surfaced in the form that 249 elements were required before site identifi- cation occurred (site named by name). By Session 25 (Trial 20), the power-generating func- tion of Kariba Dam was identified after only 57 data bits, with another seven data bits furnishing the phonetic "kirib" for a total of 64 data bits. It was also noted during this viewing that the viewer spontaneousl) experienced not only an expressed desire to three-dimensionally "model" the site, but the emergence of phonetics, both attributes of the higher stages (S-VI and S-VII, respectively). This we took as indicators of readiness for advancement to the following stages. Approved For Release 2000/0 /0,8: CIA'RDP96-0 788RO01 800200001 -1 Approved For Release 000/08/08 : CIA-RDP96-0078 001800200001-1 IV EVALUATION AND RECOMMENDATIONS (U) A. (U) Completion Indicators (U) Completion of a stage is signalled by (1) essentially flawless control of session structure while generating the required elements for that stage, and (2) production of a sequence of at least five site descriptions whose content/quality meets the requirements for that stage. I ___j As indicated earlier, in Stage IV training, the viewer is required to provide information culminating in not only a description of the site, but correct identification of the function as well. Thes ents were met by Viewer #059 in his requirem final series, Trials 22 through 26. The results are summarized in Table 3 below, as well as in representative Figures 7 through 9. Table 3 (U) STAGE IV COMPLETION TRIALS 22 THROUGH 26 wo Session/TrialSite Response 27/22 St. Patrick's Cathedral, Called a "church," with New York, NY phonetic of "saint" 28/23 West Virginia University, Called "school feeling" Morgantown, WV 29/24 FMC chemical plant, Called "chemical factory" Newark, CA 30/25~ Romic hazardous waste Called "waste treatment storage plant, plant" Palo Alto, CA 31/26 Stanford Linear AcceleratorCalled "linear accelerator," Stanford, CA named "Stanford Linear Accelerator" 17 Approved For Release 200 F081108 : C IA-RDP9~-00788 ROO 1800200001 -1 Approved For Release 2ffgfefO - ?tfi?rg(d0788RO01 800200001 -1 rA CPYRGHT 18 LU (A z 0 CL U) C'4 LU t z LLJ C) rr D 0 LL w LL u z Approved For Release AW"MAUDW0788RO01 800200001 -1 Approved For Release 20CjKWtfi""t"O788 ROO 1800200001 -1 CPYRGHT LU w ;;~~ Z 64 0 LU cr > F- cr LU z F-: z ui 2 00 w U- 19 Approved For Release 2MNQAC&%bKVbO788ROO1 800200001 -1 Approved For Re ease 2000/08/08 : CIA-RDP96-00 88RO01 800200001 -1 0 The Stage IV proficiency demonstrated in the com- pletion series has been maintained by the trainee as work has begun on Stage VI; this provides additional evidence that a stable performance level on S-IV characteristics has been achieved. B. (U) Trainee Evaluation Other than the training monitor (#002), Viewer #059 is the first to complete S-IV training. Although previous training stages C ~00 (S-I through S-III) had been pretested with other trainees, the desirel < _-Ato move ahead expeditiously with training of this particular candidate dictated a reversal of the usual development procedure. This 00W 0 LL candidate thus provided our first research data on S-IV technology transfer, which turned out to be of exceptionally high quality. Until subsequent individuals hav-e completed S-IV training, there is not a substantial body of work for comparison. Nonetheless, it should be stated for the record con W that this trainee exhibited the least of difficulties in assimilating the _j Ul materials, as compared with the progress of trainees in general, and as compared with the training monitor's own progress through S-IV in particular. cc In addition, Trainee #059 exhibited a high professional demeanor throughout the training, and applied himself at all times with the utmost stamina and Cr acumen. Taking these factors together, Trainee #059 was a model trainee, I L and thus his profile constitutes an important data point with regard to trainee selection. C. (U) Recommendations for Follow-On Actions (U) Given the quality of response to S-IV training of Trainee #059, D two recommendations for follow-on actions are offered: (1) The trainee should continue in the training in order to incorporate additional skills available in the remaining stages. (2) Given that detailed authentication of the S-IV skills transfer (e.g., by extensive double-blind testing), was beyond the time/funding scope of the present effort, it is recommended that, in parallel with training, the client enlist the 21 Approved For Rel Fase2009(O/O8/08: CIA-RDP96-0 788RO01 800200001 -1 Approved For Release 2000/08/08 : CIA-RDP96-00788RO01 800200001 -1 UNCLASSIFIED (U) trainee's present skill level to pursue appropriate in-house tasks to determine the overall efficacy of the training as applied to client needs. 22 Approved For ReleaseUNGLOAt7-,07YLFFED-00788 ROO 1800200001 -1 Approved For Release 200 8 : C RDP96-00788ROO1800200001-1 OONC 4,S-SIFIED Appendix (U) STAGE IV SITES Session/ Trial Date/Time Coordinates Site 1/1 6 Dec 83/125630046154?'N,3501315111EDome of the Rock, Jerusalem 2/2 7 Dec 83/101537044122"N,88-3214911WLighter Hospital, IL 3/2 7 Dec 83/152537044,22TIN,88'32t49?'WLighter Hospital (cont'd) 4/3 8 Dec 83/101653050,18"N,77-3715011NLa Grande Complex (dam) Quebec. Canada 5/4 9 Dec 83/093638'37,26"N,90-11,1311WSt. Louis Cathedral, MO 6/* 3 Jan 84/150 38000100"N,23-44100"E Athens, Greece* 7/** 3 Jan 84/152229057100"N,52'59100"E Persepolis Ruins, Iran** 8/* 4 Jan 84/100716'31100"S,28-05100"E Kariba Dam, Zimbabwe* 9/5 4 Jan 84/10103804W1411N,85024,54"W Ciifty Creek Power Plant, KY 10/6 5 Jan 84/100938*53t28"N,77-01113"W National Art Gallery, Washington, D.C. 11/7 6 Jan 84/094838'53118"N,77000fl7"W Library of Congress, Washington, D.C. 12/8 9 Jan 84/141728'2811111N~80033t46"W Cape Kennedy, FL 13/9 10 Jan 84/130838*53t23"N,7700013311WCapitol Building, Washington, D.C. 14/10 11 Jan 84/09582002810011N,97028100"W El Tajun Ruins, Mexico 15/11 12 Jan 84/093240'46,58t'N,73057134"W Guggenheim Museum, NYC 16/12 13 Jan 84/094338'59f25"N,10405112811WUSAF Academy, CO 17/13 6 Feb 84/134935017fOO"N,114-3510011WDavis Dam, NV 18/* 7 Feb 84/094838055145r'N,77*27115"W Dulles International Airport, VA 19/14 7 Feb 84/09503900713611N,75-2715211WDavis AFB, DE 20/15 7 Feb 84/135035003100"N,24-48100"E Phaistos, Crete Ruins 21/16 7 Feb 84/131532*08,251'N,104-3113211WCarlsbad Caverns, NM 22/17 8 Feb 84/110251029152.5t'N, 0-06157.5"WHouse of Parliament, London 23 Approved For Release 20 LA An6r%n P0078BRO01 800200001 -1 UNMASSM