SUPPLEMENT TO SOVIET GEODETIC PHOTOGRAMMETRIC INSTRUMENTATION

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Document Number (FOIA) /ESDN (CREST): 
CIA-RDP79-01083A000100060001-2
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RIPPUB
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K
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59
Document Creation Date: 
November 9, 2016
Document Release Date: 
August 17, 1998
Sequence Number: 
1
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Publication Date: 
November 3, 1953
Content Type: 
REPORT
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App tf Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 25X1A5a1 SUPPLEMENT TO SOVIET GEODETIC PHOTOGBA ME TRIO INSTRUMENTATION 25X1A5a1 25X1A5a1 November 3, 1953 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Copy N o . - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 25X1A5a1 List of Abbreviations and Reference Keys Used in Materials on Soviet Science. 25X1A5a1 1. mat AS262.A62 = Library Call Number at the Library of Congress prefixes other than "DLO" are those used in 25X1A5a1 the Union List of Serials. 2. Refers to a numbered list of approximately 300 Soviet, scientific serials and periodicals, for each of which a selected table of contents prepared for use by this project, is available. 25X1A5a1 3. M.F. No. - = Refers to the number of the microfilm on which the reference may be found. 25X1A5a1 4. ^ Card No. - = Refers to the "Institute?, "Personnel", "University", or "Bibliographies card, etc. on which the reference data is re- corded. 5. Folder No. - = Refers to photostated material of two types: (1) Folder No. Red 67 (R 67) for instance, is a reference photoatated directly from an original manuscript or book, the original of-whi ~l~c~ld not be made otherwise available to (2) Folder No. Purple 67 (P 67) is a photostat 2 to from microfilm already available at the Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 INTRODUCTION 25X1A5a1 25X1A g1following report is submitted as a supplement entitled, "Soviet Geodetic and Photogrammetric Instrumentation". This supplement is forwarded for the use of technical personnel in the fields of photogrammetry, geodesy, photography and, to a lesser degree, for technicians working in the field of may reproduction. The report consists of lists of references where detailed, opera- tional diagrams, photographs, optical systems, etc. of instruments used by the Soviets in the above-mentioned sciences may be found in Soviet scientific literature. - Seven, recent Soviet references were selected as being most signifi- cant for the purpose of this report. They are as follows: I. Mikhaylov, V. Ya., Fotografiya i Aerofotografiya (Photography and Aerial Photography), Izdatel'stvo Geodezicheskoy i Kartograficheskoy Literatury, Moskva, 1952 ...................... 3 II. Drobyshev, F.V., Fotogrammetricheskiye Pribory i Instrumento- Yedeniye. Moscow, 1951 ...................................... 21 III. Volosov, D.S., Metody rascheta slozhnykh fotograficheskikh sistem. (The Bating Methods of Complicated Photographic Systems). OGIZ 1945 ........................................... 30 IV. Tudorovskiy, A.I., Teoriya Opticheskikh Priborov, (The Theory of Optical Devices). Part II (Part I was checked but did not contain desired instrumental information). Izdatele- stvo Akademii Nauk SSSR. Moskva, Leningrad, 1952 .............. 36 Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 - 1 -' Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 V. Katalog - Spravochnik Laboratornykh Priborov i Oborudovaniya. Vypusk 34. Mashgiz, 1949 ................ 43 vI. 20th Anniversary of Soviet Geodesy and Cartography, 1919-1939. (Dvadtsat' Let Sovetskoy Geodezii i Kartografii, 1919-1939.) ..???"?............??............ 50 VIZ. Shershen', A.I., Aerofotos"yemka, Letnos"yemochnyy Pro tsess (Aerial Photography, Aerial-Surveying Process), .Izdatel'stvo Geodezicheskoy i Kartograficheskoy Literatury, Moskva, 1949 52 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Subject: Pictures of Photographic and Photogrammetric Instruments and Designs and Graphs of Operational Characteristics of Main Optical Systems, as Abstracted from Soviet Sources. Source I: Mikhaylov, V. Yap, Fotoarafiva i Aerofotografiva (Photography and Aerial Photography), Izdatel'stvo Geodezicheskoy i Kartograficheskoy Literatury, Moskva, 1952. Page on Which Reference Fig. or to Text Figure or Table is Description Table No. Found Page 35, Fig. 10-e Page 21 Section 8 Information Available Detail Drawing of the "Ortogoz" Objective. Camera, "Fotokor" is equipped with this objective; it is an uncemented four-lens anastigmat. Data: Focal Length: 13.5 cm, Relative Aperture: 1:4.5 Field of View: 550 Pages 35-36 Fig. 1O-d Page 21 Detail Drawing of the "Industar" Objective (of which there are several). This is an unsymmetrical semi-cemented anastigmatic objective. It is manufactured in various focal lengths. Page 36 - - "Industar - 11" Objective (No picture). Used in reproduction cameras. These ob- jectives are manufactured with focal lengths: 21, 30, 60, 90, and 120 cm. Relative Apertures: 1:4.5 for small cameras 1:9 for large cameras Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Text Figure or Table is Description Table No. Found Page 36 Page 37 Information Available "Industar-22" Objective. (No picture). Data: Focal Length: 50 mm. Relative Aperture: 1:3,5 Field of View: 46? Resolving Power, in Center of Field: 40 lines; Resolving Power, at Edge: 20 lines. Used in cameras, "FED" and "Zorkiy". "Industar-23" Objective (No picture). Data: Focal Length: 110 mm. Relative Aperture: 1:4.5 Field of View (Diagonally): 52? Used in camera, "Moskva II" Page 37 Fig. 21 Page 36 Detail Drawings of External View and Dia- grams of Internal Arrangement of Lenses of "Yupiter" Objectives for "Kiyev" Photo- apparatus. (Camera) Page 37 Fig. 21-1 Page 36 "Yupiter 3" Objective. Data: Focal Length: 50 mm. Field of View:= 45? Relative Aperture: 1:1.5 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Text Figure or Table is Descritttion Table No. Found Fig. 21-2 Page 36 Fig. 21-3 Page 36 Fig. 21-4 Page 36 Fig. 21-5 Page 36 Page 37 Fig. 22 Page 37 Fig. 22-b Page 37 Information Available "Yupiter-811 Objective. Data: Relative Aperture: 1:2 Field of View: 45? "Yupiter-9" Objective. Data: Focal Length: 85 mm. ,Relative Aperture: 1:2 Field of View: 28? "Yupiter-11" Objective. Data: Focal Length: 135 mm. Relative Aperture: 1:4 Field of View: - 13.5? "Yupiter-12" Objective. (A wide-angle an- astigmatic objective with field of view of 63?) Data: Focal Length: 35 mm. Relative Aperture: 1:2.8 Detail Drawings of External View of Objec- tives for "FED" Cameras. Universal ("Universaltnyy") Objective for "FED". Data: Focal Length: 50 mm. Relative Aperture: 1:3.5 Field of View: 550 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Text Figure or Table is Descrittion Table No. Found Page 37 Fig. 22-v Page 37 High Light Power ("Svetosil'nyy") Objective. Data: Relative Aperture: 1:2 Remaining Characteristics: Same as for the Universal Objective (above). Page 37 Fig. 22-a Page 37 Wide-angle ("Shirokougol'nyy") Objective. Data: Focal Length: 28 mm. Relative Aperture: 1:4.5 Field of View: 76? Page 37 Fig. 22-d Page 37 Teleobjective ("Teleob"yektiv"). Data: Focal Length: 100 mm. Relative Aperture: 1:6.8 Field of View: 24? Page 38 Fig. 22-g. Page 37 Reproduction ("Reproduktsionnyy") Objec- tive. This objective "has the same char- acteristics as the Universal Objective, but the objective's mounting is made in the form of two pipes, moving one in the other, which makes it possible to move the objective rather far out from the light sensitive coating and mAke an exposure from a distance of 15 cm,, increasing by this means the scale of the representation up to 1:2, which it is not possible to do with the ordinary "FED" objective." Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Test Figure or Table is Description Table No. Found Page 38 Fig. 23 Page 38 Diagrams of Internal Arrangement of Lenses of Aerial Surveying Wide-angle Objectives. Note: No further data is given. - Fig. 23-a Page 38 "Russar-19" Objective. - Fig. 23-b Page 38 "Russar-25" Objective. - Fig. 23-v Page 38 "Russar-29" Objective. - Fig. 23 g Page 38 "Rodina-2tt Objective. Fig. 23-d Page 38 "Russar-31" Objective. Page 38 Fig. 24 Page 39 Design of Mirror-Lens: Objectives. 1. Meniscus, 2. Mirror, 3. Concave Mirror, 4. Focal Plane. Page 38 Fig. 25 Page 39 Pictures (External View) of Various Types of Objective Mounts. Page 38 Fig. 25-a Page 39 "'Industars', used for reproduction, have the so-called normal mount which is located entirely outside of the camera. ("Normal'- naya oprava"). Page 38 Fig. 25-b Page 39 Sunken ("Uglublennaya") Mount. For port- able and miniature cameras, in which the mount only partly extends outside. Page 38 Fig. 25-v Page 39 Sunken with Shutter ("Uglublennaya s zatvorom") Mount. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 7 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Test Figure or Table is Description Table No. Found Information Available Page 38 Fig. 25-g Page 39 Worm-screw ("Chervyachnaya") Mount. Used in those cases where the focusing is done by moving the objective along the optical axis. Page 49 Fig. 40 Page 49 Pictures (External View) of the "AFA-33" Series of ("Aerofotoapparat") Aerial- Photo-Apparatuses = Cameras and Attachments. These apparatuses are "with cones for ob- jectives with various focal lengths. In the case of very short-focus apparatuses the cone is lacking. The objectives have a between-the-lens shutter, the threshold speed of which rarely exceeds 1:120 sec. Curtain-slot shutters for apparatuses, in- tended for precision operations, are used rarely, in view of the distortions produced by them." The apparatuses of this series shown in Fig. 40 include the following: "AFA-33/100," "AFA-33/7511, "AFA-33/50," "AFA-33/20." The labelled parts indicated are as fol- lows: 1. camera section; 2. cone; 3, cas- sette; 4. electric power unit; 5. control Approved For Release 1999/09/02: CIA-RDP79-01083A000100060001-2 - 8 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Test Figure or Table is Description Table No. Found Pages 50-51 Figure 41 Page 50 Page 52. Fig. 42 Page 51 Page 83 Fig. 56 Page 83 Pages 83-84 Fig. 57 Page 84 Page 85 Fig. 58 Page 84 Pages 85-86 Fig, 59 Page 86 Page 87 Page 87 Fig. 60 Page 87 Fig. 61 Page SS Information Available device; 6. electric cord; 7. light filter; 8. mounting; 9. Cardan roller; 10. flexible rod. Detail Drawing of the Kinematic System of an Aerial-Photo-Apparatus (Camera and Aux- iliary Parts). Parts are labelled, No. 4 is a "Zhalyuzi" ("Jalousie") Shutter. Design of a Slit ("Shchelevoy") Aerial- Photo-Apparatus. (Labelled Parts: 1. "Rus- sar" F - 70. 2. "Plazmat" F - 210. Design of Golberg's ("Gol'dberga") Denso- graph ("Denzograf"). Labelled Parts. Detail Drawing of Densitometer of GOI. Labelled Parts. Detail Drawing of Polarized Martens Den- sitometer. Detail Drawing of Sensitometer of GOI. Parts are labelled in both Fig. 58 and Fig. 59. Detail Drawing: A Developing Device (Not named). A Sensitometric Graph (GOST-2817-45, Soviet Russian System of Sensitometry). (Note: This system, GOST-2817-45, is described on pages 85-91.). Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page on which Reference Fig. or to Text Figure or Table is Description Table No.Found Page 87 Fig. 62 Page 88 Page 89 Fig. 63 Page 89 Page 91 Fig. 64 Page 91 Fig. 65 Page 92 Table 11 Page 93 Fig. 66 Page 92 Fig. 67 Page 94 Fig. 68 Page 96 Fig. 69 Page 96 Table (No Page 98 number) Fig. 70 Page 99 Fig. 71 Information Available Characteristic Set of Curves (GOST-2817-45, Soviet-Russian System of Sensitometry). Characteristic Curve, (GOST-2817-45, Soviet- Russian System of Sensitometry). Determination of the Value Y of the Coef- ficient of Contrast. Connection Between A D, Y and U. Values of Recommended Coefficient of Con- trast for Different Types of Photographic Materials. Curve of Dependence of S, Do and Y on the Time of Developing (Development Time). Juxtaposition of Luminosity Intervals and Photographic Width. Different Methods of Indicating Sensitivity. Sensitivity's Dependence Upon the Form of the Characteristic Curve. Table of Sensitivity Issued by the Main Directorate of the Motion Picture Film Industry. Sensitometric Parameters of Photographic Paper. Page 100 Test Object for Paper Examination. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 10 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Reference Page on which Fig. or to Text Description Figure or Table is Table No, Found Information Available Fig. 72 Page 101 Spectrograph. Fig. 73 Page 102 Spectrograms of an Orthochromatic Film. Fig. 74 Page 102 Spectrosensitometer. Fig. 75 Page 103 Curves of Spectral Sensitivity of Differ- Fig. 76 Page 104 ent Sensitive Materials. Color Table. Fig. 77 Page 104 Color Table. Fig. 78 Page 106 Curve of Filtration through the Light Fig. 79 Page 107 Filter. Different Types of Light Filters (Diagram). Fig. 80 Page 107 Spectral Characteristics of Some Light Fig. 81 Page 109 Filters (Diagram). Elements of Spectral Curve of Light Fil- -- Page 110 ters and Table 12. Table 13. Filtration Power of Different Fig. 82 Page 111 Light Filters. Relation of Different Sensitive Emulsions to the Ra s of V i W L -- Page 111 y ar ous ave engths. Table 14. Absorption Power (tlKratnostrU) -- Page 112 of Aerial Survey Light Filters for Films. Table 15. Absorption Power of Light Fil- ters of Films for Land Survey. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No, Figure No. Information Available 114 83 Curves of Dependence of Granularity g on Coefficient of 115 84 Contrast ,'Y and Optical Density D. Aureoles: a - Diffusion,8 (b) - Reflection. 116 85 Burmistrov's Resolvometer ("Rezol'vometr F. L. Burmistrova"). 117 86 Test Object (Mira). 119 -- Unnumbered Tables Thickness of Emulsion for Plates, Films 120 87 and Papers. Microphotograph of Emulsion Grains of Different Emulsions. 121 -- Table 16. Table Showing U m,.cteristics of Various Emulsim 122 88 Coatings. Curve of Disposition of Emulsion by Grain Size. 122 89 Scheme of a Process for Production of Emulsion. 124 90 Spectrograms of Different Sensitized Emulsions Obtained 126 -- During Lighting with 1/2 Watt Bulb. Table 17. Classification and Sensitometric Features of 129 91 Photographic Plates. Cross Section of Present-Day Negative of a Motion Picture 130 -- Film. Table 18. Sensitometric Characteristics of Photographic 130 -- Films. Table 19. Coefficients of Contrast. 132 -- Table 20. Sensitometric Characteristics of Motion Picture 135 -- Film. Table 21. Photographic Papers, 6 Kinds. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 12 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No. Figure No. Information Available 136 -- Table 22. Classification and Sensitometric Characteristics of Photographic Papers. 136 92 Scheme of Printing on Reflex Paper. 144 -- Table 23. Day Lighting for Different Heights of the Sun and Cloudiness without Snow (In Lux Thousands) (or Meter-candle Thousands - Unit of Illumination). 145 93 Diagram of Illumination in Cloudy and Bright Weather, De- pending on Sunts Height Above the Horizon. 146 -- Table 24. Day Lighting for Different Heights of the Sun and Cloudiness with Snow (in Lux or Meter-candle Thousands). 147 -- Table 25. Time and Lighting. 148 94 Change of Lighting at Small and Negative Sun Heights. 148 95 Distribution of Energy for Dispersed and Summary Radiation. 149 96 Curves of Spectral Distribution of a Dispersed Radiation of Daylight. 150 97 Spectral Distribution of Energy by the Spectrum. 150 98 Distribution of Energy by the Spectrum. 152 -- Table 26. Coefficients of Brightness of Different objects. 154 99 Spectrometric Characteristics of Land Formations by Ye. L. Krinov (Diagram). 155 100 Spectrometric Characteristics of Vegetation (Diagram). 156 -- Table 27. Coefficients of Brightness of Green Objects (Spruce, Birch, Aspen, Dry Meadow). 159 -- Table 28. Reflection Coefficients of a Forest and a Road. 162 -- Table 29. Change of the Atmospheric Pressure Depending On the Height. Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 _ 13 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No. Figure No. Information Available 163 101 Diagram Showing the Change of Mass of Atmosphere with In- crease of the Height. 164 102 Change of the Atmospheric Mass with Change of Sun's Height. 165 103 Diagram. Change of Coefficient of Transparency for Different Wave Lengths. 166 104 Transparency of Water Vapors for Infra-red Rays. 166 105 Dependence (Interdependence) Between the Optical Thickness of the Atmosphere 'it and the Coefficient of Transmission of the Atmosphere.Z. (Diagram). 167 -- Table 30. Values of Spectral Characteristics of the Optical Mass -r for Different Heights. 168 106 Indicatrix of Dispersion of Light for the Ideal Atmosphere. 169 -- Table 31. Characteristics of the Atmosphere by Farness of Visibility, Coefficient of Transmission in the Visible Part of the Spectrum and Corresponding Evaluation of Atmospheric Conditions. 170 107 Indicatrix of Dispersion in Good and Bad Visibility. 172 108 Diagram Showing the Change of Haze Brightness in Connection with Change of the Atmospheric Mass. 174 -- Table 32. Shows Atmospheric Haze's Increase Proportional to the Optical Thickness of the Atmosphere. 176 -- Table 33. Effective Optical Thickness of the Atmosphere for Different Photographic Materials and Light Filters. 176 -- Table 34. Values of the Effective Optical Thickness of the Atmosphere for Oblique Aerial Surveying from Different Heights. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure No? No. Information Available 178 109 Design of a Device for Determination of Light Dispersion. 181 -- Table 35. Coefficients of Losses Ko and KP and K3 for Cam- eras AFA-13, with "Industar-13" Objective, AFA-I with "In- dustar-51" Objective, RMK with "Russar-25" Objective, and K-17-B, with "Metrogon" Objective. 183 -- Table 36: Values of a Coefficient of Light Dispersion for 7 Different Cameras: 1) "Fotokor", Objective - "Ortogoz" f = 135 m; 2)"FEDII, Objective with f = 50 mm. (Not named); 3) "Elmar", Unnamed Objective with f = 35 mm.; 4) "Road Camera", ,iith"Russar-19" Objective, and Lens Shade ("Otteni- tell"); 5) The Same without Lens Shade; 6) AFA-98, Objective - "Russar-111 and Lens Shade; 7) AFA-~98, without Lens Shade. 184 110 Influence of Light Dispersion on the Characteristic Curve. 186 111 Resolving Power of Photographic Material for Test Object with a Changeable Contrast. 186 112 Influence of Location of Density of Image on the Character- istic Curve for the Resolving Power of a Sensitive Coating. 187 113 Connection Between Resolving Power and Contrast Range of the Test Object. 190 114 Dependence (Interdependence) Between Admissible Displacement of Image and Scale of the Aerial Photograph. 192 115 Photo-electric Aerial Exposure Meter. (Picture of External View). 193 116 Substance of Nomographic Method for Calculation of Luminosity. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 15 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No, Figure No, Information Available 194 117 Front and Back Views of the AEN-IV Exponometer. 197 118 Change of the Optical Mass of the Atmosphere in a Perspective (Oblique) Survey. 200 -- Table 37. Exposures for Photographing Submerged Objects. 201 119 Spectral Coefficient of Brightness for Deciduous and Conif- erous Forests. 202 120 a and b Aerial Photographs in Visible and Infrared Zones of the Spectrum. 203 121 Location of Light Source in Night Aerial Photography. 204 122 Sensitometric Curves of Aerial Films with Different Photo- graphic Width for Night Aerial Surveying. (Chapter 7: Reproduction Photography). 224 126 Field Set-up for Photographing of a Mosaic. 225 127 Small Reproduction Camera (Diagram) (Not named). 225 128 Picture of External View of Reproduction Camera of "Bol'shevik" Factory. 226 129 Picture: Wooden Reproduction Camera, (Not named). 226 130 Picture: Two-chamber Camera, (Not named). 227 131 Picture: Vertical Reproduction Camera (Not named). 228 132 Picture: Universal Photostat Apparatus (Not named). 228 133 Inversion of Images (Diagram). 230 -- Table 41. Relation of Blue, Green and Red Rays. 232 -- Table 42. Minimum Assortment of Polygraphic Films. 233 134 Spraying Table for Plates, (Diagram). Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 - i6 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No. Figure No. Information Available 233 135 Drying Chamber for Plates, (Diagram). 236 136 A Grating (or Screen) (Diagram). (Chapter 8: Theory and Practice of the Negative Process). 243 137 Successive Phases of Crystal Development. 243 138 Developed Crystal of Haloid Silver Enlarged 30,000 times. 244 139 Photolysis of Silver Bromide. 246 140 Design Showing Process of AgBr Restoration. 247 141 Microcuts Through the Developed Coating in the Process of Developing. 247 142 Scheme of Development of Emulsion Coating. 252 143 Solubility of Silver Bromide in Solutions of Sulfite. 257 144 Displacement of the Characteristic Curve Under the Influence of Potassium Bromide. (Graph). 265 145 Developing Device with Crimps (Diagram). 266 146 Picture of External View of Spiral Developing Device (Spiral and Winding Stand). 266 147 Diagram of Conical Spiral. 266 148 Diagram of Spiral Device with Rods. 267 149 Diagram of External View of Developing Device with Rewinding of Films, 268 150 Diagram of External View of Developing Device, Automatic. 269 151 Lines of Equal Density of the Negative, Developed in a Cuvette. 269 152 Forming of Strips under the Dark Parts of the Negative. 270 153 Graph: Mikhaylov's Nomogram. Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 - 17 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No. Figure No. Information Available 274 154 Graph: Influence of Benzo-triasole. 275 155 Scheme of Developing Process with Conversion. 276 156 Graph: Influence of Size of Crystals of Silver Haloid on Fixing Speed. 277 157 Comparative Speed of Fixing of Negative and Positive Emulsions. 280 158 Electrolytic Bath of NIKFI. 281 159 Influence of Speed of a Water Flow on Completeness of Washing. 282 160 Influence of Salting on Speed of Film and Print-washing. 282 161 Influence of Temperature on Speed of Film and Print-washing. 284 162 Change of Residual Quantity of Thiosulfate in Paper During Washing. 285 163 Diagram or Detail Drawing of Drying Drum. 286 164 Diagram of Spiral Drier. 286 165 Diagram of Slot Drier. 289 166 Design of Field Densitometer. 290 167 Field Sensitometric Graph. 292 168 Graph: Different Types of Clearing Agents. 298 169 Determination of Deformation. (Chapter 9: Theory and Practice of the Positive Process). 303 170 Correlation Between ig Bo and lg Bpos. 304 171 Connection Between 41g Bo, nDneg. and 4Dpos. 306 172 Graphical Method for Construction of the Curve of Reproduction. 308 173 Construction of a Curve of Reproduction for a Particular Case. 308 174 Connection Between A D and L. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page No. Figure No. Information Available 310 175 Determination of Maximum Time for Developing. 311 176 Pneumatic Copying Frame, Picture of External View. 312 177 Design of Copying Device. 313 178 Three Different Types of Printing Machines, Pictures of 317 179 External Views. Different Types of Illuminators, Diagrams. 320 180 Diagram: A Diminisher. 323 181 Diagram: A Washer for Paper. 324 182 Drawing of External View of a Drier for Paper. 324 183 Picture of External View of a Glossing Device. 330 184 Diagram: Developing of Diazo-paper by Ammonia. 332 185 Diagram: Transferring by the Ozobrom (?) ("0zobromnyy'') 335 186 Process. (Chapter 10: Basis of Color Photography). Spectral Sensitivity of Color Perceptible Elements of the 336 187 Eye. A Color Triangle. 337 188 a, Additive and Subtractive Synthesis of a Color. 339 and b. 189 Scheme of Subtractive Process. 340 190 A Color-dividing Camera. 342 191 Diagram: Scheme of Construction of a Multi-coated Film and 344 192 Paper. Characteristic Curves of Colored Films. 346 193 Curves of Filters Used in Colored Photographing. 348 -- Table 43: Light Filters and Coefficients of Increase of the Exposure. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure No. No. Information Available 348 195 Scheme for Obtaining of Colored Image on Three-Coated Films with Conversion and Simultaneous Colored Developing. 349 -- Table 44. Processing of 3-coated photographic Materials. 350 -- Table 45. Change of Contrast Range in Separate Coatingw. 352 196 Influence of Different Conditions of Processing on -t and D. 355 197 Device for Lighting of Reversible Aerial Film, Picture of External View. 356 -- Table 46: Maximum of Spectral Curve. 359 198 Diagram and Picture of External View of a Multiplicator. 360 199 a Lighting Block of Colored Copying Device. Exterior View of and b the Copying Device. 361 200 Device for Processing of Paper Prints. 364-369 PRESCRIPTIONS. Formulas and Components of Solutions. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 20 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Source II. Drobyshev, F.V.: Fotorammetricheskive Pribory i Instrumento- vedeniye. Moscow, 1951 Section 3: Optical Systems in Photogrammetric Devices Page Figure 26 13 Projection Objectives. Detail Drawing: "Ortoniar" f = 100 mm. "Dagor" 1:6,8 f = 180 mm. "Tessar" 1:4,5 f = 200 mm. 26 14 Objectives and Lenses of Sighting ("Vizirnykh") Systems. 32 26 Detail Drawing of "Optical system for obtaining Luminous Mark in Stereoplanigraf SPB". Section 4: Rectifying Devices. 46 33 Design of Autocollimator (Avtokollimator) 47 34 Detail Drawing of Goniometer ("Goniometr") Section 6: Devices for Photo-rectification. 60 39 System of Photo-rectifier S2 0 ("Fototransformator") 61 40 System of Photo-rectifier S2 m ("Fototransformator") 32 m 61 41 System of Photo-rectifier S2 01 ("Fototransformator") S2 01 62 42 System of Photo-rectifier S2 R ("Fototransformator") S2 R 70 43 Detail Drawing: "Part of Negative's Carriage of Photo-rec- tifier (Fototransformator) FTM". 71 44 Detail Drawing: "Condenser of Photo-rectifier (Fototrans- formator) Ml" Section 9: Automatization of Scaled Coupling. 73 45 Detail Drawing: "Rombic Inverter" ("Rombicheskiy Inversor") 74 46 Detail Drawing: "Angular Inverter". 74 47 Detail Drawing: "Angular Inverter", having Form of a Ruler in Photo-rectifiers of Broken Design. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure 75 48 75 49 77 50 79 51 80 52 81 53 82 54 83 56 84 57 87 58 87 59 90 60 91 61 92 62 95 63 Detail Drawing: Tape Inverter. Design of Device with Tape Inverter. Detail Drawing of Gaged Inverter. Section 10: Automatization of Perspective Coupling ('tperspektivnogo sepryazheniya) Detail Drawing of "Tangent" ("Kasateltnaya") Inverter. Detail Drawing of Linear Perspective Inverter ("Lineynyy Inversor") Detail Drawing: Inverter. Detail Drawing: Simplified Perspective ("Perspektivnyy") "Broken-perspective Inverter" ("Uproshchennyy Perspektivnyy Inversor") Design of "Tangential-perspective Inverter" ("Skhema Tangent- sial'nogo-Perspektivnogo Inversora") Section 11: Constructions of Photo-reducers and Photo-rec- tifiers. ("Konstruktsii fotoreduktorov i foto- transformatorov") Detail Drawing: (External View) Photo-reducer. Picture: (External View) Photo-epi-reducer. ("Fotoepireduktor") of F.V. Drobyshev's System. Detail Drawing: Pantograph with Plunger and Matrix. ("Panto- graf s puansonom i matritsey") (used under the Photo-epi- reducer shown in Fig. 58) Detail Drawing (Stripped View) of "Photo-rectifier r4a". Design of "Tangent" ("Kasatel'naya") Oblique Inverter. Picture of Small Photo-rectifier (FTM). Picture of Large Photo-rectifier (FTB). "With labelled parts). Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 22 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure Chapter 3: Instruments for Linear Stereoscopic Measurements. 104 65 Section 14: Stereocomparators. Picture: (External View) Horizontal Stereocomparator. 105 67 Detail Drawing: Optical System of Binocular. 106 68 Picture: Oblique Stereocomparator. 107 69 Design of Optical Installation for Reading of Coordinates 108 70 and Parallaxes in Oblique Stereocomparator. (Labelled parts). Drawing: Optical System of Oblique Stereocomparator. 109 71, (Labelled parts explained in text) Picture: (External View) of Stereopantometer of System of 110 72 F.V. Drobyshev Detail Drawing: "Four-mirror Stereoscope of Stereopantometer. 113 77 Design of Convergent Installation of Topographic Stereometer. 116 79 Detail Drawing of Correction Attachment of Topographic 117 80 Stereometer. (labelled parts) Detail Drawing of Transfer of Sighting Ray m in Oblique by 118 81 Direction a (movement of binocular's parts is shown by arrows). (Labelled Parts). Design of Correctional Device of a Stereometer. (Labelled 119 82 Parts). Detail Drawing: "Left Carriage of a Stereometer." 119 83 Possible Design of Correctional Device of a Topographic 121 85 Stereometer. (Labelled Parts). Design of Correctional Device. Based on a change of the 122 86 Value fk. (Labelled Parts). Design of a System of Two Convergent Devices. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 23 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figgie Section 15: Designs ("Constructions") of Stereometric Instruments. 126 88 Picture: Topographic Stereometer (External View). 126 88 a Design of Topographic Stereometer (Labelled Parts). 128 89 Picture: Stereometer (External View). 129 90 Picture: Convergent; Arrangement of Stereometer. (External View). 130 91 Detail Drawing: Correctional Device of Stereometer. 130 92 Detail Drawing: Optical System of Stereometer. Table 15: Technical Data for (1) Topographic Stereometer, (2) Stereometer. 132 93 Picture: Kern's Stereometer (External View). 132 94 Detail Drawing: Design of Kern's Stereometer (Labelled Parts). 136 96 Detail Drawing: Design of Correctional Attachments for So- lution of Fifth and Sixth Terms of Formula (67). 137 97 Detail Drawing: Design of Semi-universal Intersection. 145 98 Detail Drawing of Origination of Errors in Longitudinal Parallaxes Because of Rotation of the Negative in a Stereometer. Chapter 4: Devices of Direct Optical Intersection. Section 20: Double Projection. 150 99 Detail Drawing of Optical Direct Intersection. 152 100 Detail Drawing of Affined Projection of a Vertical (Plane) Photograph. 153 101 Detail Drawing: Affined Projection of an Oblique Photograph. Section 21: Sharpness of Image and Observation. 158 Table 19: Comparative Data of Resolving Power of Objectives, Calculated According to Formula 83. Objectives: "Tessar" Aerial Survey Objective; "Russar" Aerial Survey Objective; Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 24- Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure "Ortoniar" with f = 100mm. (projection); Multiplex with f = 20,5 mm. (projection); Glass for monocular view. Section 22: Basic Elements of Optical Projection Devices. 164 102 Detail Drawing: Simple Type. Photo-reducer. (Labelled Parts) (External view). 165 103 Detail Drawing: Photo-reducer for Preparing of Diapositives of the Multiplex. Objective (Labelled Parts) 166 104 Design of Drawing Table Section 23: Double Projectors. 167 105 Dimensional Data of a Number of Projectors. 168 106 Detail Drawing of Double Projector of TsNIIGAiK. (External View). 170 107 Detail Drawing of Intersection in Double Projector DPD-2. 172 108 Detail Drawing: Double Projector DPD-2. 173 109 Magazine (Casette) Section of DPD-2. 174 Table 20: Data for Double Projector DPD-2 and DPD-l. Section 24: Multi-chamber Projectors. 175 110 Picture: Multiplex (External View). 177 ill Base Installation of Multiplex. 178 112 Optical Design of Ultra-wide Angle Projector. 180 Table of Data for Multiplexes. Section 25: Adjustment and Checking Optical Projection Devices. 181 113 Detail Drawing of Adjustment of Double Projector DPD-2. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 25 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure 182 114 Detail Drawing of Determination of Focal Length of Lens'$ystem of Projector. 184 115 Detail Drawing of Determination of Difference.'.0f Focal Lengths of Lens '.Systems of Multiplex. Section 26: Investigation of Optical Projection Devices. 187 116 Curves of Equal Distortions of Stereomodel Because of Distor- tion of Projection Objectives. 188 117 Curves of Equal Illumination on Screen of a Multiplex. Chapter 5. Instruments for Automatization of Special Inter- section by Optical-mechanical and Mechanical Methods. 192 118 Section 27: Structure of Devices. Drawing: Aerial Photographs and Ground-Level Photographs. 193 120 Set up in the System of the First Kind. Drawing: Aerial Photographs, Set Up in the System of the 193 120 Second Kind. Drawing: Aerial Photographs, Set Up in the System of the 193 121 Third Kind. Drawing: Aerial Photographs Established in an Arbitrary 195 122 System. Detail Drawing of a Typical Design of a Frame with Carriage 196 123 and Supports. Ball-bearing Coupling. 196 124 Cylindrical Guide on Ball Bearings:, Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 26 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure Section 28: Instruments with Gaging Movements of Sighting Systems, in Connection with Stationary Photography. 197 125 Drawing (Design) of a Photogrammetric Theodolite. 199 126 Drawing (Design) of a'Stereo-universal. 202 131 Detail Drawing (Showing Part of a Camera and Level Arm) of a Spatial Mechanical Intersection in the Case of a Movable Sighting Ray. Section 29: Devices with Measuring Movements of Photographs in Connection with Imovable Sighting Axes. 203 132 Detail Drawing of Formation of Distorted Cuts on a Photo- graph at Its Slopes in Connection with an Immovable Sighting Ray. 204 133 Detail Drawing of Special Intersection by-Rotating the Camera. Labelled Parts. 205 134 Construction Design of Mechanization of Intersection when the Camera is tilted but not rotated. 206 135 Detail Drawing of Mechanization of Intersection when Negatives Are Displaced in Their Planes. 206 136 Detail Drawing of a Special Mechanical Intersection with Movement of the Photograph in its Plane in the Case of Fixed Sighting Ray. 206 137 Detail Drawing of Formation of Intersection in the Case of an oblique Photograph, Brought Together with the Screen to a Horizontal Position. 208 138 Detail Drawing of Solution of Spatial Mechanical Intersec- tion wheh the Photograph and Plane Are in a Horizontal Position. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 27 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure 209 209 139 140 211 141 212 142 213 143 213 144 214 145 215 146 217 147 219 148 Detail Drawing: Setting up of Directions in a Stereo Device when Camera and Sighting Rays are Moved. Detail Drawing: Construction Solution of Setting up of Di- rections in a Stereo Device when Camera and Sighting Rays Are Moved. Section 31: Incomplete Spatial Intersection. Detail Drawing: Incomplete Spatial Intersection for Deter- mination of Heights of Points. Detail Drawing: Incomplete Spatial Intersection for Deter- mination of Elements of Mutual Orientation. Picture: Radial-triangulator (Exterior View), Detail Drawing of Optical System of a Radial-triangulator. (Labelled Parts). Section 32: Problems of Utilization of Spatial Intersection Devices. Detail Drawing: Mechanism of a Rotating Prism. Detail Drawing of Angular Connection of Various Systems of Setting up of Photographs. Detail Drawing of Formation of Errors During Adjustment of a Photogrammetric Theodolite. Detail Drawing of Determination of Zero Point of Circle in a Photogrammetric Theodolite. Approved For Release 1.999/09/02: CIA-RDP79-01083A000100060001-2 -29 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure Chapter 6: Universal Stereo Devices of Complicated and Simple Designs. 220 149 Section 33: Design of Stereoplanigraph APB and 3-4. Detail Drawing of Spatial Intersection which Has the Form 221 150 of a Triangle with a Parallelogram. Design of Stereoplanigraphs SPB and S-4. 223 151 Section 34: Structure of Mechanical and Optical Parts of Stereoplanigraphs Picture: Stereoplanigraph SFB (External View). 224 152 Detail Drawing: Cardan Construction of Nuts of Lead Screws 225 153 of Stereoplanigraph. Drawing: Reinforcing of Cameras of Stereoplanigraph. 226 154 Drawing: Auxiliary Optical System of SPB. 227 155 Drawing: Structure of Mechanism of Auxilary Optical System 228 156 SPB (Labelled Parts). Drawing: Observation System ( (Including Objectives, Lenses, 230 157 Prisms, etc.) of Stereoplanigraph SPB. (Labelled Parts).) Drawing: Observation System (Including Objectives, Prisms, 234 158 etc.) of Stereoplanigraph S-4. (Labelled Parts). Section 35: Adjustments and Checks of the Stereoplanigraph Drawing of Determination of Zero Points. 235 159 Drawing of Determination of Zero Points Z and bZ. 240 160 Section 37: Small Form Universal Devices. Drawing of Intersection with the Unaided Eye. 241 161 Drawing of Intersection in Stereoscopic Drawing Device RP-6. 243 162 Picture: Stereoscopic Drawing Device RP-6. (Labelled Parts). Approved For Release 1999/09/42 : CIA-RDP79-01083A000100060001-2 - 29 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Source III. Volosov, D.S., Metody rascheta slozhn kh foto raficheskikh sistem. The Rating Methods of Complicated Photographic Systems). OGIZ 1948. Chapter 2: Method of Classing Coefficients of Aberration of the Third Order in Symmetrical and Quasi-symmetrical Photographic Systems which Contain Components of Finite Thickness. Page Figure 31 1 1-a 1-b 1-c DRAWINGS of Optical Anastigmats (Objectives), Ross's "Ekspress". udol'f's "Planar". M. Rusinovts "Russar". (Note: All of these systems are combinations, consist- ing of two "halves", separated by air space, in which the aperture diaphragm is located). Paragraph 1: Two Possible Cases of "Completing" Symmetrical Systems. 33 3 Derivation of a System in the Case where 20 1 X 02 Paragraph 2: Synthesis of a Symmetrical System in the Case 1107- 35 3 Combination X Applied as the Second Half of a Complex System. ----> 2 Paragraph 3: Synthesis of a Symmetrical System in the Case 1--- 41 4 Combination X Applied as the First Half of a Complex System. Paragraph 4: Quasi-symmetrical Systems. 47 5 Optical Design of a Quasi-symmetrical Anastigmat (Objective). Chapter 3. Two-Component Plane-astigmats as Elements of Complex Systems. 51 6 Optical Design of the Anastigmat (Objective). "Kino-Plazmat". Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure Paragraph 1: Two Types of Plane-anastigmats (Objectives) 52 7 Combination of Type XA 52 8 Combination of Type XB 69 12 Paragraph 4: Computation Investigations (Note: Figures 9-11 Computation Graphs) Optical Design of /+-Lens Objective "Ortagozt". 69 13 Optical Design of Three-Lens Objective with Compensator for Astigmatism and Curved Field. (Note: Figures 14-15: Graphs of Computation Curves for Optical Systems). 92 16 92 16 a 16 b Chapter 4. Analysis of Several Present Day Types of Complex Anastigmatic Objectives. Paragraph 3. Light-Powerful (of great light-gathering power) of the "Planar" type. Optical Design of Several Anastigmats (Anastigmatic Objectives) Variation of "Planar". Drawings showing Optical Design of a variation of the "Planar" anastigmatic Objective shown in Figure 1-b of this text. The variation consists of two-lens cemented components in place of the outer lens shown in figure 1-b. It is said that the possibilities of variations (field of possible re- solvings) of systems of the type of Fig. 16-a are extremely varied. Drawing of optical Design of Nerte System (a Variation of the "Planar" Anastigmat) 16 c Drawing showing Optical Design of another Variation of the ("vtl ) "Planar" Anastigmatic Objective. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure Chapter 5. Method of Classing Coefficients of Aberrations of the Third Order in Unsymmetrical Systems, Containing Components of Finite Thickness. 95 17 Drawing: Optical Design of Anastigmats (Anastigmatic Ob- jectives) (a) "Zonar", (b) "Biotar" and (c) "Uran". 96- 18-23 Computational Graphs. 156 Chapter 8. Some Remarks on Planning and Calculation of Complex Photographic and, in Particular, Light- powerful Systems. Paragraph 1. Survey of Several Designs in order of complexity) 164 24 Drawing: Optical Designs of "Cooke-Anastigmat", "Ekvitar" and other systems. 164 24 Drawing of "Cooke-Anastigmat", a very simple four-lens anastigmatic objective, manufactured by the firm of Taylor - Hobson under the above trade-name. (Technical data for this objective is also given on p. 163). (Tested in 1937). 24b Drawing of G. G. Slyusarev - N. P. Usanov Objective, of five-lenses worked out somewhat earlier (in 1934). (Tech- nical data on p. 164). 24c Drawing of "Ekvitar" Anastigmatic Objective, of five-lenses. ("v") Said "essentially to have reduced successfully the astigma- tic curve in the field in 1934 - 1936, under above trade- name. (Technical data, pp. 164-165). 24d Drawing of Taylor Objective, consisting of six simple lenses, ("g") of which the two outer lenses are removed. (Technical data on p. 165). Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 - 32 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure 164 24e Drawing of Volosov Objective, a five-lens anastigmatic ob- jective. "Sometime later (in 1937 - 1938) the author of these lines also undertook an investigation of this rather unusual design of Taylor, at the same time trying to simplify it, in particular, investigating the resolving for a five- lens design of an anastigmat". 166 25 Optical Design of the "Montar" Objective (German System). (Omitting here the exposition of the results. obtained (ex- tremely interesting), we shall point out only that a com- parative and fuller evaluation of them (anastigmats) will be possible only later, when the construction of the foreign long-focus complex anastigmats will have become known and, in particular, the German Systems of the type "Zonar" and "Montar" (Fig. 17-a and 25) and the American systems of the type "Aero-Ektar" (Fig. 38)." 183 26a Diagrams of "Dispersion, Formed by Rays of Oblique Pencils..." etc. 187 27 "Graph of Aberration of Broad Pencils of Rays." Part 2: Method of Computing Photographic Systems with Variable Optical Characteristics 189 28 Drawing: Warmisham System. (Br. pat. specif. 398, 807). Paragraph 1. The Area Paraxial Optics. 196 29 Diagrams: Geometrical Interpretation of Junctions, etc. 230 31 234 32 Drawinf: Optical Design of System of "Idar.", (Objective) Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 _ 33 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure 234 33 Diagrams of Computations. 268 36 269 37 Drawing: Design of Achromatic Wide-Angle System of the Type "Hypergon" Containing Lanthanum Glasses. 282 40 Diagrams of Computations 306 46 307. 47 Drawing: Optical Design of Tele-objective "Telekon" (a K. Zeiss objective) Technical data. 309 48 Drawing: Optical Design of System of "Telefotoanastigmat" Objective. 314 49 Diagram of Computation. 327 50 Drawing: Optical Design of a Two-lens Objective with an anastigmatic Compensator. 331 51 Diagram of Computations. 348 56 Chapter 16. Mirror - Lens Systems. 363 Introduction. 364 57 Drawing: Mirror-Lens Double Meniscus System. (Worked out by D. S.. Volosov in the beginning of 1942). Paragraph 1. The Meniscus Compensator. 365 58 Drawing: Design of the Meniscus Compensator. Paragraph 2. The "Meniscus Compensator - Spherical Mirror" System. 373 59 Drawing: Design of the "Meniscus Compensator Spherical Mirror System." 377 60 Graph of Dependence of Coefficient K on the Relative Aperture of the Meniscus System. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure Paragraph 4. The "Two-lens Afocal Compensator - Spehrical Mirror" System. 386 61 Drawing: Design of the "Two-lens Afocal Compensator - Spheri- cal Mirror System. 389 62 Drawing: The Two-mirror System with Afocal Compensator. Paragraph 5. Elimination of "Li hting of the Image" (Parasitic lighting) in Mirror - Lens Photo- graphic System. 390 63 Drawing: A Meniscus Tele-objective. (Showing a second pos- sible solution to the problem of eliminating "parasitic" lighting ( (Absence of direct falling of the rays onto the photographic film) ). Recommended by D. D. Maksutov by means of a supplementary reproducing System (D in Figure 63) 391 64 Drawing: Mirror-lens System with Finite Diaphragm. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 35 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Source IV. Tudorovskiy, A.I., Teoriya Opticheskikh Priborov, (The Theory of Optical Devices). Part II (Part I was checked but did not contain desired instrumental information). Izdatel'stvo Akad- emii Nauk SSSR. Moskva, Leningrad, 1952. DLC: QC 355.T832 (P 694, MF #278-A). Chapter 16. The Photographic Objective Page Fiore Information Available 106 305 133 320 173 331 Drawing: Design of "Tessar" Type Objective with Focal Length - 104.74 and Relative Aperture 1:4.5. Picture of "Universal Device" (for testing objectives and with special attachments for application of the J. Hartmann Method) of the "Askaniya" Firm. Picture: Four Interferograms of "Tvayman" Obtained With a "Tessar" Objective (Focal Length = 210 mm., Relative Aper- ture 1:4.5). Section 228. Survey of the Main Types of Photographic Objectives. 177 332 Drawing: Design of the "Petsval" Objective. Built in 1840 using Petsval's computations. The first "powerful in light- gathering" objective. Data: f13.5., 2r = 20-300. 177 333 Drawing: Design of Symmetrical Objective of A. Shteyngeyl' (1865). Consists of 2 meniscuses with a diaphragm between them. 177 334 Drawing: Design of "Hypergon" Objective. This is a wide- angle objective manufactured by the firm of Hertz ("Gerts"). The designer, in 1900, was "Gyeyeg." (This is said to be "the first orthoscopic wide-angle objective"). 178 335 Drawing: Design of "Aplanat" Objective. This represents "a perfectly natural transition from the symmetrical design Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 36 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure of two simple meniscuses, as in Fig. 333 and Fig. 334, to the similar symmetrical design consisting of two compound achromatic lenses, made by A. Shteyngeyl' in 1866." 178 336 Drawing: Design of the G. D. Taylor Objective of Three Simple Lenses (Triplet). "In 1894 the English designer G. D. Taylor carried out the computation for an objective of three uncemented lenses, which received the names of Cooke Lens and triplet. Objectives of this type consist of two positive lenses, between which is placed a negative one, as can be seen from the design in Figure 336". 178 337 Drawing: Design of the "Tessar" Objective. This is a "Uni- versal anastigmat of the compound triplet type." It is said to be one of the best known objectives of this type, con- sisting of four lenses, computed by Rudolf in 1902 for the K. Zeiss firm. Later developments of the "Tessar" objective, including the modified "Tessar" computed by Merte in 1929 with a relative aperture of 1:2.7 (in this objective the forward lens consists of two cemented and the rear of a simple lens), together with technical data for them, are described on page 179. 180 338 Drawing: Design of the "Dagor" Objective of the Hertz Firm, computed by "Gyeyeg" in 1892. This objective is listed under "symmetrical and semi-symmetrical anastigmats" as the first objective of this type, and is so constructed that each half consists of three cemented lenses. These objec- tives are said to be natural developments of the "Aplanat" Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 37 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 P- g Figure type which could not be corrected for astigmatism. The double objective has a relative aperture of 1:5.8 and a field of view of about 600 with full aperture. This objec- tive enjoyed great popularity and retained its significance until recently (up to the time when the Hertz firm shut down); "in the first decade of the 20th Century, it was manufactured in Russia, in Warsaw, by the 'Fos' firm, which had received the right to produce it under another name: 'Planastigmat Fos''. 180 339 Drawing: Design of a Double Anrstigmat, Composed of Two Un- identidal "Protar" Lenses. (As for the "Protar" - "there exist a large number of symmetrical anastigmats, consisting of two halves, of which each is cemented out of more than three lenses"). 181 31+0 Drawing: Design of the "Planar" of K. Zeiss, computed in 1896 by Rudolf, which may be considered as the first rep- resentative of the second group of symmetrical uncemented anastigmats. 181 341 Drawing: Design of the "Tselor" Objective of the Hertz Firm, worked out by Gy6yeg in 1898. This is said to be a simpler design of the symmetrical anastigmats and that type are said to be very great in number. Section 229. Objectives with a Large Field of View. (Wide-angle Objectives). (Note: See also the "Hypergon", Fig. 334 on Page 177). 183 342 Drawing. Design of the Zeiss "ToRogon". This is a develop- ment and perfection of the orthoscopic wide-angle objective. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 39 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure This objective has the following characteristics: f/6.3, 2,e = 900, Focal Length: 150 mm. 183 343 Drawing: Design of "Liar-6" Wide-angle Objective, an M. M. Rusinov Objective. Data: Focal Length 100 mm., f/5.4 and 2P = 104?. 183 344 Drawing: Design of "Russar-25" (a M. M. Rusinov Objective). Characteristics: Focal Length 100 mm., f/6.3, 21S = 1100. 183 345 Drawing: Design of "Express" of Ross (a Wide-angle Objective,. which, in Addition to "Ortometar" of Merte (K. Zeiss) of Almost Identical Construction, Has a Significant (Rather High) Light Gathering Power and a Good Correction of Dis- tortion. Data: f/4.5, 20 = 700. (Note: On page 183, it is stated: "There are a small group of wide-angle objectives in which distortion not only is not corrected, but, on the contrary, occurs up to very great values with the aim of sig- nificantly diminishing the angle between the main rays and the axis after their emergence from the center of the outlet pupil in com- parison with those same angles in space of objects".). 183 346 Drawing: Design of the Hill ("Gill") Objective. Data f/22, 2'61800. le4 347 Drawing: Design of the Schulz ("Shul'ts") Objective. Data: Focal Length 35 mm., f/5.6, 2(S = 1350. 184 348 Drawing: Design of the "Pleon" Objective. Data: Focal Length 72.5 mm., f/8, 216 = 1300. (Six lenses and plane- parallel plate of colored glass). Section 230. "Powerful in Light-gathering" ("Svetosil'nyye") Objectives. Note: The first of these objectives was the very old "Petsval " objective. See Figure 332, page 177 of this volume. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 39 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure 185 349 Drawing: Design of the "Biotar" Objective. "In 1911 Rohr increased the relative aperture of the "Petsval" Objective to f/2 by the addition of a negative lens, placed almost in the focal plane in front of the light-sensitive coating, as can be seen from the design of the objective in Figure 349; this objective, called "Biotar", had no practical value; its 2/3 did not exceed 20011. 185 350 Drawing: Design of the "Ernostar" Objective. "In 1924 the Erneman firm produced the "Ernostar" Objective, computed by Bertele with f/1.8, of relatively complex design, as can be seen in Figure 350; about 35-400. The objective occu- pied a well-known place on the market: the "Ermanoks" camera with this objective for night exposures was produced by the firm of Zeiss-Ikon." 185 351 Drawing: Design of the G. G. Slyusarev Objective. "In 1922 such an objective was computed by G. G. Slyusarev; one ex- perimental model was prepared with a good result. Objectives which were very close to this design were produced in Europe and America some time later under the name "Takhar". In 1933 the objective of G. G. Slyusarev, which preserved the type, was perfected, while its 219 was brought to 45-500; the design of this objective is given in Figure 351". 185 352 Drawing: Design of the "Kinoplasmat" of Rudoltf. "The sym- metrical designs were adapted for computation of the "power- ful in light-gathering" objectives by various firms.. Thus, Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 40 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Page Figure for example, "Kinoplasmat" of Rudolf, of the Hugo Mayer Firm has a design, represented in Figure 352; Data: -'/2.11 185 353 Drawing. Design of "Biotar" Objective. "In 1927 the K. Zeiss Firm produced a "powerful in light-gathering" object- ive under the former name "Biotar", computed by Mertes with f 4.4 and small 2/3 - not more than 300. As can be seen in Figure 353, the design of this objective is very complex." 186 354 Drawing: Design of one of the Variants of the Compound An- astigmat "Uran" Type (D. S. Volosov). Data: Focal Length - from 25-500 mm., f/2 to f13.5 and 2/3 from 40-63?. 186 355 Drawing: Design of the "Aeroektar" Objective of the "Kodak" Firm. Data: Focal Length 175 mm., Relative Aperture f/2.5 and 2R = 500. 186 356 Drawing: Design of a Variant of "Ektar" Objective of "Kodak" Firm. Data: f /1.5. 186 357 Drawing: Design of the "Zonnar" Type Objective of the K. Zeiss-Ikon Firm. Data: Focal Length 50 mm., f A.5 and 2,6 46?. Note: These are made also with f/1.4 to f/2 and f/2.8. 187 358 Drawing: Design of a "Mirror-Lens Objective, Computed by D. S. Volosov, D. Yu. Gal'pern and Sh. Ya. Pechatnikova." Data: f/1.4, 20 = 15?. 187 359 Drawing: Design of One of the "New Mirror-Lens Objectives Considered in an Article by J. Fliigge...of the Bush Firm" Designer: "Veydert"). Data: Nominal f/0.9, Equivalent (Effective) Aperture f /1:1.15 and 26 = about 340. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 -41- Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Section 231. Teleobjectives. Page Figure 188 361 188 362 189 363 189 364 189 365 189 366 Drawing: "Design of Teleobjective of Bush 'Bistellar'." Data: f/7, 2P = about 300, Focal Distance 1:2. Drawing: "Design of the 'Magnar' Objective of the K. Zeiss Firm." Data: f110, 2$ = not above 150, Focal Distance 1:4. Drawing: "Design of the 'Te'letessar' of the Zeiss Firm." Data: f /6.3, 2f3 = about 35-400. Drawing: "Design of the 'Telekon' Teleobjective of the K. Zeiss Firm." Data: f/6.3, Focal Length 1:2.44, Distortion does not exceed 0.2%, and 2,8 reaches 300. Drawing: "Design of Long-focus Teleobjective of the Bausch and Lomb Firm." Data: Focal Length = 1000 mm., f/8. Drawing: "Design of Long-focus Teleobjective of the Bausch and Lomb Firm." Data: Focal Length = 1000 mm., Section 233. Objectives for Aerial Photography f/5.6. Note: There are no "pictures" or "diagrams" or "drawings" of objectives in this section but the following statement is made: 193 "Of the objectives mentioned earlier the following are used for geodetic operations: 'Tessar' with focal length = 250 mm. and F A.5; 'Dagor' (f' = 150, f /6.8, 2R about 68?); '@rtometar' Wt ' = 135, f/4-5, 2(3 up to 700) ; Ross 'Ekspress' (f' = 150 and 200 mm., f/4, 2R up to 800). The use of wide-angle objectives for geodetic purposes provides great economic savings (profits), since it makes possible decreas- ing the number of pictures necessary to obtain a map of a given section of a locality; therefore, for this purpose the following are used: 'Metrogon', very near to the 'Topogon', and the wide-angle objectives of M.M. Rusinov of the 'Russar" Type." Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 42 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Source V. Kataloa - Spravochnik Laboratornvkh Priborov i Oborudovaniya. Vypusk 34. Mashgiz, 1949 Geodezicheskiye i Fotogramnetricheskiye Pribory. Pages 5-8 Stereoplanigraph ("Stereoplanigraf"). Manufacturer: Armaments Min- istry of USSR Plant ("Zavod Ministerstva Vooruzheniya SSSR") Text: Pages 5-8. 5 "Stereoplanigraf" - Picture of Apparatus. 6 "Stereoplanigraf" - Lateral View, Labelled Parts. 7 "Stereoplanigraf" - Detail Drawing of Working Parts. 7 "Stereoplanigraf" - Detail Drawing of Prisms, Numbered. 8 "Stereoplanigraf" - Technical Data. 9-10 Large Ph6ta-rect :er FTB. Manufacturer: Armaments Ministry of USSR Plant. (Bol'shoy Fototransformator FTB) 9 Picture of above. 10 Technical Data. 11-13 Stereocomparator SK 18 x 18. Manufacturer: Armaments Ministry of USSR Plant. (Stereokomparator SK 18 x 18) 11 Picture of External View, Labelled Parts. 12 Detail Drawing of Working Parts. 13 Technical Data. 14-17 Precision Stereometer SM -3. Manufacturer: Armaments Ministry of USSR Plant. (Pretsizionnyy Stereometr SM - 3). 14 Picture of External View, Labelled Parts. 15 Detail Picture, Labelled Parts. 17 Technical Data. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 43 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Pages 18-21 Drobyshev's Stereopantometer SPD -1. ("Stereopantometr SPD -1 Drobysheva") 18 Picture: External View. 19 Detail Drawing of Working Parts, Labelled Parts. 20 Detail Drawing, Labelled Parts. 21 Technical Data. Manufacturer: Plant of Main Administration of Ge- odesy and Cartography under the Council of Ministers of the USSR. 22-24 Konshin's Stereoscopic Drawing Device RP - 5. (Stereoskopicheskiy Risoval'nyy Pribor RP - 5 Konshina). Manufacturer: Plant of Main Administration of Geodesy and Cartography. 22 Picture: External View. 23 Picture: (Head of View), Labelled Parts. 24 Technical Data. 25-28 Drobyshev's Topographic Stereometer STD -1. ("Topograficheskiy Stereometr STD - 1 Drobysheva"). Manufacturer: Plant of Main Administration of Geodesy and Cartography. 29 Picture: External View with Labelled Parts. 30 Technical Data. 31-32 Russar - 29. Aerial Photo Objective with ZV -1 Shutter. ("Aero- fotoob'yektiv Russar - 29 s Zatvorom ZV-1") 31 Picture: External View. 31 Picture: Internal View with labelled Parts. 32 Technical Data. Manufacturer: Laboratory of Main Administration of Geodesy and Cartography. 33-36 Multiplex Aeroprojector. ("Aeroproyektor Tl?iultiplex"). Manufacturer: Laboratory of Main Administration of Geodesy and Cartography. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Pages 33 Picture: External View. 34 Picture: "Stupped" View Showing Labelled Parts. 34 Detail Picture showing Labelled Parts. 35 Detail Drawing and Picture showing Labelled Parts. 36 Technical Data. 37-38 Astronomic Universal 5" ("Astronomicheskiy Universal 5"). Manu- facturer: Plant of Main Administration of Geodesy and Cartography. 37 Picture. 38 Technical Data. 39-40 Optical Theodolite, Medium, "OTS". ("Opticheskiy Teodolit Sredniy OTS") Manufacturer: Plant of Ministry of Armaments of the USSR. 39 Picture. 40 Technical Data. 41-42 Optical Theodolite Small "OTM". ("Opticheskiy Teodolit Malyy OTM") Manufacturer: Plant of Ministry of Armaments of the USSR. 41 Picture. 42 Technical Data. 43-45 Optical Theodolite "0T-1O". ("Opticheskiy Teodolit OT-10"). 43 Picture. 45 Technical Data. 46-47 Theololite - Tachiometer "TT-2". (Teodolit - Takheometr TT-2") 46 Picture. 47 Technical Data 48-49 ?-Miring Theodolite TG-3. ("Gornyy Teodolit TG-311). Manufacturer: Plant of Ministry of Coal Industry of the USSR. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 45 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Pages 48 Picture. 49 Diagram of Working Parts. 50 Technical Data. 51-52 Pilot Baloon Theodolite "ShT". ("Sharopilotnyy Teodolit ShT"). Manufacturer: Plant of Ministry of Armaments of the USSR. 51 Picture. 52 Technical Data. 53 Mining Compass "KG-1" ("Kompas Gornyy KG-1"). Manufacturer: Plant of Ministry of Armaments of the USSR. 53 Picture. Technical Data. 54 Orienting Compass, 11BG-1". ("Orientir -Bussol) BG-1"). Manufac- turer: Plant of the Ministry of Armaments of the USSR. 54 Picture. Text. Technical Data. 55 Large Compass "BSh-111. ("Bussol' BSh-1"). Manufacturer: Plant of the Ministry of Armaments of the USSR. 55 Picture. Text. Technical Data. 56-57 Large Alidade "KB". ("Kipregell Bol'shoy KB"). Manufacturer: Plant of the Ministry of Armaments of the USSR. 56 Picture. 57 Technical Data. 58-59 Automatic Alidade VKS-7 of Stodolkevich. ("Kipregel'nyy Vysotomer VKS-7 Stodolkevicha") Manufacturer: Plant of Main Administration of Geodesy and Cartography. 58 Picture (External View) and Picture (External View) with Labelled Parts. 59 Labelled Pictures of Working Parts (Internal View). Detail Picture of the Registering Mechanism. Detail Picture of Optical "Wedge". 59 Technical Data. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 46 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Paces 60-61 Optical Mining Transit. ("Uglomer Opticheskiy"). Manufacturer: Plant of the Ministry of the Coal Industry of the USSR. 60 Picture (External View). Drawings: Working Parts of this Mining Transit. 61 Technical Data. 62-63 Auxiliary Equipment with Mining Transit KU. "Komplekt Uglomera KU". Manufacturer: Plant of the Ministry of Coal Industry of the USSR. 62 Picture (External View) with Labelled Parts. 63 Picture: Labelled Parts. Technical Data. 64-65 Solar Shadow Course Indicator STU-L-5. ("Solnechnyy Tenevoy Ukazatelt Kursa STU-L5"). Manufacturer: Plant of the Main Administration of Geodesy and Cartography. 64 Picture: External View with Labelled Parts. 65 Technical Data. 66 Block Plumb Bob BO-1. ("Blochnyy Otves BO-1"). Manufacturer: Plant of the Ministry of the Coal Industry of the USSR. 66 Picture (External View) with Labelled Parts. Technical Data. 67 Mirror Optical Square (T-square) ("Ekker Zerkaltnyy EG-1") Manu- facturer: Plant of the Armaments Ministry of the USSR. 67 Picture (External View) Technical Data. 68-70 Precision Dumpy Level NPG. ("Nivelir Pretsizionnyy Glukhoy HFG"). Plant of the Main Administration of Geodesy and Cartography. 68 Picture of External View, Labelled Parts. 69 Drawings of Details. Labelled Parts. 70 Technical Data. 71-72 Precision Level HA-l. ("Nivelir Pretsizionnyy NA-1"). Manufacturer: Plant of the Armaments Ministry of the USSR. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 47 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Pages 71 Picture of External View. 72 Technical Data. 73 Engineering Level NT. ("Tekhnicheskiy Nivelir NT") Manufacturer: Plant of the Armaments Ministry of the USSR. 73 Picture of the External View. Technical. Data. 74 Dumpy Level NG. ("Glukhoy Nivelir NG"). Manufacturer: Plant of the Armaments Ministry of the USSR. 74 Picture of the External View, Labelled Parts. 75 Picture of Internal View , Labelled Parts. 76-77 Mining Level with Removable Tube. ("Gornyy Nivelir s Perekladnoy Truboy"). Manufacturer: Plant of the Coal Industry Ministry. 76 Picture of the External View. General Drawing with Labelled Parts. 77 Technical Data. 78-79 Artanov's Automatic Level. ("Nivelir Avtomat Artanova"). Manufac- turer: Scientific Research Institute of the Ministry of Communications. 78 Picture of the External View. Picture of Internal View with Labelled Parts. 79 Picture of External View. Technical Data. 80-81 Profile-graph of Artanov. ("Profilograf Artanova"). Manufacturer: Scientific Research Institute of the Ministry of Communications. 80 Picture: External View. Picture: External View of the Details. 81 Drawing with Labelled Parts. Technical Data. 82-83 Artanov's Planigraph. ("Planigraf Artanova"). Manufacturer: Sci- entific Research Institute of the Ministry of Communications, 82 Picture of the External View. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 -4g- Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Pages 83 Drawing with Labelled Parts. Technical Data. 84-85 Pantograph. "(Pantograf Gornyy"). Manufacturer: Plant of the Ministry of Coal Industry. 84 Picture: External View. Drawing with Labelled Parts. 85 Technical Data. 86-87 Road Measurer. ("Putimetr"). Manufacturer: Scientific Research Institute of the Ministry of Communications. 86 Picture: External View. Drawing with Labelled Parts. 87 Technical Data. 88 Route Measurer. ("Kurvimetr" KBM). Manufacturer: Plant of the Armaments Ministry of the USSR. 88 Picture: External View. Technical Data. 89 Drobyshevts Rule. ("Lineyka Drobysheva LD-1"). Manufacturer: Plant of the Ministry of Coal Industry. 89 Picture of External View. Labelled Parts. Technical Data. 90 Straightedge for Plotting of Coordinate Nets. ("Lineyka dlya nan- eseniya Koordinatnykh Setok LBL"). Manufacturer: Plant of the Armaments Ministry of the USSR. 90 Picture of External View, 91 Technical Data. Approved For Release 1999/09/02 CIA-RDP79-01083A000100060001-2 -49- Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Source VI. 20th Anniversary of Soviet Geodesy and' Cartography, 1919-1939. (Dvadtsat' Let Sovetskoy Geodezii i Kartografii, 1919-1939.) Geodetic Instruments. Pages Figures 108 1 Topographical Stereoscope for the Reciprocal Orientation. "Tors". ("Topograficheskiy Stereoskop dlya Opredeleniya Elementov Vzaimnogo Orientirovaniya, Tors"). 108 1 Picture of External View. 109 2 Aerial Surveying Stereocomparator. ("Aeros'emochnyy Stereoskop") 109 2 Picture of External View. 111 3 Topographical Stereometer "STD-1". ("Topograficheskiy Stereometr STD-1") 111 3 Picture of External View. 112 4 Topographical Stereometer "TSD-3". ("Topograficheskiy Stereoskop TSD-3") 112 4 Picture of External View. 113 5 Stereoscope "Cyclope". ("Stereoskop Tsiclop"). 113 5 Picture of External View. 114 6 Precision Stereometer "SM-3". ("Pretsizionnyy Stereometr SM-3"). 114 6 Picture of External View. 115 7 Drawing Device. ("Risoval'nyy Pribor"). 115 7 Picture of External View. 190 2 Universal Theodolite of 5" Accuracy. Tochnosti"). ("Universal 5" Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 50 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Pages Fi es 190 2 Picture of External View. 192 3 Triangulation Theodolite of 2" Accuracy. ("Triangulatsionnyy Teodolit 2" Tochnosti"). 192 3 Picture of External View. 194 4 Astronomic Universal of 2" Accuracy. ("Astronomicheskiy Universal 2" Toehnosti"). 194 4 Picture of External View. 195 5 Precision Level. ("Pretsizionnyy Nivelir"). 195 5 Picture of External View. 196 6 Topographical Stereometer. ("Topograficheskiy Stereometr"). 196 6 Picture of External Vi ew. 197 7 Four Pendulum Support. ("Chetyrekhmayatnikovyy Shtativ"). 197 7 Picture of External View. 199 Table Data on the Quality of Limb Graduation of Theodolites of Several Types. 384 Picture: External View of the Comparator of the JItderin Appeiratus. 392 Picture: General View of the Gravimetric Variometer. (V Gravimetricheskoy Laboratorii. Rabota s Variometrom). Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 51- Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Source VII: Shershen', A.I., Aerofotos" emka Letnos" emochn Protsess (Aerial Photography, Aerial-Surveying Process), Izdatel'stvo Geodezicheskoy i Kartograficheskoy Literatury, Moskva, 1949. Tx (Data) Figure or Page Table No. Information Available 23 13 Picture. External View of So-called "Nine-Objective Aerial Camera 'AD-1' and 'AD-2'" ("Devyatiob"yektivnyy Aerofotoapparat"). Designed by F. V. Drobyshev in 1932. The optical axes of the eight lateral lenses of this camera form 450 angles with the optical axis of the cen- tral lens. The objectives used are of Soviet manufacture with a focal length of 135 mm. and a negative size of 12 x 12 cm. The over-all angle of view of the outfit along the length and width of the course reached 1400. The distance between the aerial surveying routes with 40% over- lapping exceeded the flight altitude by two times. After rectifying the oblique photographs into the projection of the plane one the over-all photograph of one exposure as- sumes the form of an octogon with the sides of a square inscribed in it equal to 50 cm. (See figures 14 and 14a). The camera is loaded with aerial film for 150 exposures. The winding of it and the setting into motion of the cen- tral shutters were accomplished by hand, by means of two hand wheels. The over-all weight of the camera was about 55 kg. Approved For Release 1999/09/02 : CL4Q,P79-01083A000100060001-2 Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Text (Data) Figure or Page Table No. 26 15 27 16 Information Available Picture. External View of So-called "Wide-Angle Adapter for Aerial-Camera RMK C-3" ("Shirokopolosnaya Nasadka k Aerofotoapparatu RNK C-3"). Drawing Showing the Working Parts of the "Wide-Angle Adapter", the External View of Which is Shown in Fig. 15. In 1932, the Leningrad Scientific-Research Institute of Aerial Surveying (Leningradskiy Nauchno-issledovatel'skiy Institut Aeros"yemki) worked out an original optical attachment for a single-objective aerial camera, which made it possible to do plane-oblique photography without changing the position of the optical axis of the camera. This attachement, called by its designer Yu. K. Yutsevich "a wide-angle adapter", was placed in front of the object- ive of the usual camera and increased the field of view along the course up to 1220. A similar wide-angle adapter for aerial-camera RNK C-3 and its working principle are shown in figures 15 and 16." 31 22 Picture. External View of Aerial Camera ("Aerofotoapparat") "AFA-13", "The first Soviet automatic aerial-camera 'AEA-13', manu- factured by the 'Geodeziya' plant, was equipped with a new high-quality aerial photography objective with the brand name 'Industar-13' with a focal length of 300 man Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 53 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Text (Data) Figure or Page Table No, Information Available and a relative aperture of f/4.5. 'AFA-131 (Fig. 22) was activated by an electric motor operating on direct iurrent with a voltage of 12 volts. The cassette con- tained 150 negatives 18 x 18 cm. in size. The film was aligned by means of the creation of a vacuum by a special suction device. The apparatus was equipped with a between- the-lens shutter of the Jalousie type, with exposure speeds of from 1/75 to 1/200 sec. and was operated by means of an intervalometer with a diapason of intervals between exposures of from 5 to 60 sec. A signal light for verifying the action of the mechanism of the cassette and a counter of the number of aerial photographs made lightened the work. A second counter was included in the camera and its indications were shown on each picture. The aerial mount of the Cardan type had rubber shock absorbers. 'AFA-13' was intended for plane surveying for purposes of military reconnaissance. It replaced the 'Potte/ apparatus which had formerly been used for that purpose." 33 23 Picture. External View of Aerial Camera (and Attach- ments) ("Aerofotoapparat") "MAFA-13". "Later the AFA-13 was modernized. It was equipped with a short-focus objective 'Russar-1', with a corresponding Approved For Release 1999/09/02 : CIARDP79-01083A000100060001-2 54 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Text (Data) Figure or Page Table No. Information Available alteration of the camera section. Other changes were also introduced into its design: the Jalousie shutter was replaced with a central shutter GOM, a liquid stato- scope (of the D.I. Mendeleyev type) was used, the read- ings of which were indicated on each photo; the winding of the aerial film was improved by means of a supplemen- tary negative system, etc. This apparatus under the name IMAFA-13' (Fig. 23) was used in such a form in aerial (flying) survey work until additional improvements were made. At length the focal plane was moved out of the cassette into the camera and the GOMZ shutter was replaced by a central shutter of the IZV-1t type, de- signed by the Soviet engineer;Vertiporokh." 71 1+3 Drawing. Working Parts of a Two-Slit ca me r?a: (Aerial Camera) of the "AShchAFA-2" Type. This type of two-slit camera is said to have "an impor- tant advantage over the one-slit apparatus. It makes it possible to photograph at the same time in two scales: in the larger scale -- with objective O1 of the 'Plazmat' type, with k = 210 mm (1:n = 1:3.5, 2 - 600), through slit zl, and in a smaller scale -- with a wide-angle ob- jective 02 of the 'Russar-2.2' type, through slit z2." Use of aerial film of a width of 25 cm. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 55 - Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 Text (Data) Figure or Page Table No. Information Available 135 71 Picture. External View of Range Finder "OPB-IM". Field of View of the order of 300. 136 72 Drawing. Working Parts of the Range Finder "OPB-IM", the External View of Which is Shown in Fig. 71. 137 74 Drawing. Detail Drawing Showing Gauges and Scales of the Supporting Installation for the Range Finder "OPB-IM".. Approved For Release 1999/09/02 : CIA-RDP79-01083A000100060001-2 - 56 -