Цитируемая литература. I-L
130. Innes R.B. (1968): An interpreter's perspective on modern airborne radar imagery. – Proc. Fifth Symp. on Remote Sensing of Environment, Univ. of Michigan, Ann Arbor, Michigan, pp. 107-122 – (Env. Res. Inst. Michigan).
131. Jacob J., Lamp J. & Lehner M. (1982): Computer aided soil evaluation in cultured landscapes. – Int. Arch, of ISPRS, 24 (VII/1): 397-405.
132. Jacob J., Lamp J. & Schroeder D. (1981): Moglichkeiten und Grenzen der Bodenfernerkundung in norddeutschen Kulturlandschaften, – Mitt. Dtsch. Bodenkdl. Ges., 32: 731-744.
133. Jacobi J., Kirchhof W. & Lamp J. (1982): Qualitative and quantitative evaluation of airborne scanner imagery for pedological and agricultural purposes in North Germany. – Int. Geosci. and Remote Sens. Symp. (IGARS 82), 1 (WP 4.4): 1-6.
134. Janza F.J. (1975): Interaction mechanisms – In: Reeves R. G. (ed.), Manual of Remote Sensing, Chapter 4. – Falls Church, Va. (American Society of Photogrammetry), 75-179.
135. Jerlov N.G. (1968): Optical Oceanography. – Amsterdam (Elsevier).
136. Jones A.D. (1976): Photographic data extraction from Landsat images. – Photogr. Eng. and Remote Sensing, 42 (11): 1423-1426.
137. Kadro A. (1981): Untersuchung der spektralen Reflexionseigenschaften verschiedener Vegetationsbestande. – Diss. For-stwirtschaftl. Fakultat der Albert-Ludwigs-Univ., Freiburg, 215 S.
138. Kadro A. & Hildebrandt G. (1980): Beobachtungen uber das spektrale Reflexionsverhalten von Kiefern- und Fichtenbestanden. – Int. Arch, of Photogrammetrie, Sect. В 7, 20: 487-496.
139. Kahle A.B. & Rowan L. С. (1980): Evaluation of multi-spectral middle infrared aircraft images for lithologic mapping in the East Tintic Mountains, Utah – Geology, 8 (5): 234-239.
140. Kahle А. В., Gillespie A. R. & Goetz A. F. H. (1976): Thermal intertia imaging: A new geological mapping tool – Geophys. Res. Lett, 3 (1): 26-28.
141. Kasten F. & Raschke R. (1972): Nomenklatur zur Beschreibung von Strahlungsmessungen und -rechungen. – Veroff. Bereich Extraterrestr. Physik, Abt. Physik u. Astronomie, Ruhr – Univ. Bochum, 31 S.
142. Knipling E.B. (1969): Leaf reflectance and image formation on color infrared film. – In: Johnson P.O. (ed.), Remote Sensing in Ecology. – Athens, Georgia (Univ. of Georgia Press), 17-29.
143. Knipling E.B. (1970): Physical and physiological basis for the reflectance of visible and near-infrared radiation from vegetation – Remote Sensing of Environment, 1 (3): 155-159.
144. Kohler U. (1982): Messung der richtungsabhangigen spektralen Reflexion von naturlichen Gesteinsoberflachen. – Berl. Geowiss. Abh., Reihe A, 41: 167-252.
145. Kolouch D., Dennert-Maller E., Lohmann P., Ehlers M. & Bahr P. (1981): Digitale Verarbeitung von Fernerkundungsaufnahmen. – Zeitschr. f. Vermessenwes., 106: 143-158.
146. Konecny G. (1972): Geometrische Probleme der Fernerkundung. – Bildmessung u. Luftbildwesen, 40: 162-172.
147. Konecny G. (1981): Gutachten uber die Anwendbarkeit von Landsat-Aufnahmen bei der Klassifizierung von Wattgebieten der deutschen Nordseekuste. – Geol. Ber. f.d. Planfestst. – Verf., Nordstrander Bucht, Ber. 2, Teilber. 2b.
148. Konecny G., Bahr HP., Rell W. & Schreiber HC. (1979): Use of spaceborne metric cameras for cartographic applications. – Wiss. Arb. Inst. Photogr. Ingenieurwes., 4: 165 pp.
149. Koopmans B.N. (1973): Drainage analysis on radar images. – ITC Journal, 3: 464-480.
150. Koopmans B.N. (1975): Variable flight parameters for SLAR – Photogr. Eng. and Remote Sensing, 41: 299-305.
151. Kreizter M.H, (1974): Direct additive printing. – Photogr. Eng. and Remote Sensing, 40: 281-285.
152. Kreuzer M.H. & Gilbertson B. (1974): Exposure for multi-spectral photos. – Photogr. Eng. and Remote Sensing, 40: 551-557.
153. Kritikos G. (1975): DIBIAS-Datenverarbeitungssystem – DFVLR, Sommerschule Alpbach, Erlauterungen zu Bildverarbeitungsverfahren.
154. Kristof S.J. (1971): Preliminary multispectral studies of soils. – J. Soil and Water Conserv., 26 (1): 15-18.
155. Kristof S.J. & Zachary A.L. (1971): Mapping soil types from multispectral scanner data. – In: Env. Res. Inst. Michigan, Ann Arbor, Michigan. – Proc. 7th Int. Symp. on Remote Sensing of Environment, 3: 2095-2108.
156. Kristof S.J. & Zachary A.L. (1974): Mapping soil features from multispectral scanner data. – Photogr. Eng., 40 (12): 1427-1434.
157. Kronberg P. (1974): Erfahrungen mit dem Erderkundungssatelliten ERTS-1 – Umschau Wiss. u. Techn., 73: 469-481.
158. Kronberg P. (1976): Bruchstrukturen des Rheinischen Schiefergebirges, des Munsterlandes und des Niederrheines – kartiert in Aufnahmen des Erderkundungssateliten ERTS-1. – Geol. Jb., 33: 37-48.
159. Kronberg P. (1977): Die regionale und uberregionale Bruchtektonik Mitteleuropas – Bestandsaufnahme und In terpretationen. – Geotekt. Forsch., 53: 7-41.
160. Kronberg P. (1978a): Surface traces of crustal fractures mapped as photolineations on Landsat-imagery (Greece and Western Turkey). – Map 1:1 000 000 – Geologisches Institut der TU Clausthal.
161. Kronberg P. (1978b): Azimuth-frequency distribution of photolineations mapped on Landsat-imagery of Greece and Western Turkey (3° and 10° intervals). (Software for map compilation and data analysis by B. Surborg & P Tsombos). – Map 1:1 000 000. Geologisches Institut der TU Clausthal.
162. Kronberg P. (1982): Die Querzone von Lippstadt-Warstein-Ramsbeck im Satellitenbild: Tiefenstrukturen und oberflachennahe Bruchstrukturen. – Fortschr. Geol. Rheinld. u. Westf., 30: 404-411.
163. Kronberg P. (1983): Patterns and principles of crustal fracturing as deduced from a Landsat mosaic covering central and eastern Iran. – In: Geol. Survey of Iran, Geodynamic Project (Geotraverse) Iran – Final Report – Geol. Survey of Iran Report, 51: 37-50.
164. Kronberg P. (1984): Faults and fracture patterns of central and eastern Iran as mapped on Landsat-imagery. – N. Jb. Geol. Pal., Abh., 168 (2/3): 208-214.
165. Kronberg P. & Gunther R. (1977): Fracture patterns and principles of crustal fracturing in the Aegean Region. – In: Kallergis G. (ed.): Proc. VI. Colloqu. on the Geology of the Aegean Region, Athens, 2: 893-906.
166. Kronberg P., Schonfeld M., Gunther R. & Tsombos P. (1975): ERTS-1 data on the geology and tectonics of the Afar/Ethiopia and adjacent regions. – In: Pilger A. & Rosier A. (eds.), Afar Depression of Ethiopia. – Inter-Union Comm. on Geodynamics, Scient. Rep., 14. – Stuttgart (Schweizerbart), 20-27.
167. Kronberg P., Tsombos P. & Surborg B. (1981): Karte der Haufigkeitsverteilung von Landsat-Lineationen im Bereich Griechenlands und der West-Turkei, 1:1000000 – Geologisches Institut TU Clausthal.
168. Kruck W. (1976): Hydrological investigations in the Argentine Pampa using satellite imagery. – Geol. Jb., 33: 145-159.
169. Labovitz M.L., Masuoka E.J., Bell R., Siegrist A.W. & Nelson R.F. (1983): The application of remote sensing to geobotanical exploration for metal sulfides – results from the 1980 field season at Mineral, Va. – Econ. Geol., 78 (4): 750-760.
170. Lamb J., Jacob J. A., Wittje V. (1980); Experiments on spectral signatures of soil samples. – Vortrag: AG Spectral Signatures in Hamburg, 3 pp.
171. Laubschre H. (1980): Die Entwicklung des Faltenjuras-Daten und Vorstellungen – N. Jb. Geol. Pal., Abh., 160: 289-320.
172. Lawton D.L. & Palmer D.F. (1978): Enhancement of linear features by rotational exposure – Photogr. Eng. and Remote Sensing, 44(9): 1185-1189.
173. Leberl F. (1975): Radargrammetric point determination PRORADAM. – Bildmessung u. Luftbildwesen, 45 (1).
174. Leberl F. (1979): Accuracy analysis of stereo side-looking radar. – Photogr. Eng. and Remote Sensing, 45 (8): 1083 1096.
175. Leberl F., Jensen H. & Kaplan J. (1976): Side-looking radar mosaicking experiment. – Photorg. Eng. and Remote Sensing, 42: 1035-1043.
176. Lee K. & Raines G.L. (1974): An Evaluation of Multiband Photography for Rock Discrimination. – In: Proc. of the Third Conf. on Earth Resources Observation and Analysis Systems (Tullahoma, Tenn.), 3: 361-396.
177. Lee K. & Hutchinson R. M. (1974): Geologic and mineral and water resources investigations in Western Colorado, usin Skylab EREP Data. – NASA CR, 138722.
178. Lenz H. et al. (1972): The age of early tectonic events in the zone of the Jordan geosuture, based on radiometric data. – 24th Int. Geol. Congr., 3: 371-379, Montreal.
179. Lepley L. K. (1968): Coastal water clarity from space photographs. – Photogr. Eng., 34: 667-674.
180. Lewis A.J. & McDonald H.C. (1970): Interpretive and mosaicking problems of SLAR – Remote Sensing of Environment, 1: 231-236.
181. List F.K., Burger H., Klitzsch E., Meissner В., Pohlmann G. & Schmitz H.J. (1982): Application of visual interpretation and digital processing of Landsat-Data for the preparation of a geological intepretation map of Southwestern Egypt at a scale of 1:500 000. – Int. Symp. on Remote Sensing of Environment, 1st Thematic Conf: Remote Sensing of Arid and Semi-arid Lands, Cairo, Egypt, pp. 849-858.
182. List F.K., Helmcke D., Meissner В., Pohlmann G. & Roland N. W. (1978): Geologische Interpretation des Tibesti nach Aufnahmen von Landsat-1 (Republik Tschad). – Bildmessung u. Luftbildwesen, 4: 139-145.
183. Lohmann P. & Piepen H. van der (1981): Evaluation of ocean bottom features from ocean color scanner imagery – Photogrammetria, 36: 81-89.
184. Longshaw T.G. & Gilbertson B. (1975): Multispectral aerial photography as exploration tool, II: An application in the Bushveld igenous complex, South Africa. – Remote Sensing of Environment, 4 (2): 147-164.
185. Longshaw T.G. & Gilbertson B. (1976): Multispectral aerial photography as exploration tool, III: Two applications in the Northwestern Cape Province, South Africa. – Remote Sensing of Environment, 15 (2): 79-92.
186. Lowe D.S. (1969): Optical Sensors. – In: Principles and applications to earth resources survey. – Paris (CNES and Univ. of Michigan), 73-136.
187. Lundien J.R. (1971): Terrain analysis by electromagnetic means. – Technical Report No. 3-693, Report 5. – Vicksburg Mississippi (US Army Waterways Experiment Station).
188. Lyon R.J.P. (1965): Analysis of rocks by spectral infrared emission (8-25 microns). – Econ. Geol., 60: 751-736.
189. Lyon R.J.P. (1970): The multiband approach to geologic mapping from orbiting satellites: is it redundant or vital? – Remote Sensing of Environment, 1: 237-244.
190. Lyon R.J.P. (1972): Infrared spectral emittance in geological mapping – Airborne spectrometer data from Pisgah Crater, California. – Science, 175: 983-986.
191. Lyon R.J. P. (1975): A comparison of observed and model-predicted atmospheric perturbations on target radiances measured by ERTS. – In: Proc. IEEE Symp. on Appl. Remote Sensing, Digital Imagery to Mineral and Petroleum Exploration, Houston.
192. Lyon R. J. P. & Green A. A. (1975): Reflectance and emittance of terrain in the mid-infrared region – In: Infrared and Raman Spectroscopy of Lunar and Terrestrial Minerals. – New York (Academic Press), 165-195.
193. Lyon R.J.P. & Lee K. (1970): Remote sensing in exploration for mineral deposits. – Econ. Geol., 65 (7): 785-800.
194. Lyon R.J.P. & Patterson J. (1966): Infrared spectral signatures – a field geological tool – In: Proc. Fourth Symp. Remote Sensing of Environment-Ann Arbor, Michigan (University of Michigan), 215-230.
195. Lyon R.J.P. & Patterson J. (1969): Airborne geological mapping using infrared emission spectra. – Proc. 6th Symp. on Remote Sensing of Environment – Ann Arbor, Michigan (University of Michigan), 527-552.