This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsPreview
Unable to display preview. Download preview PDF.
Literaturverzeichnis
Bartholomé, E., H.J. Dreyer und K.-J. Lesemann Bestimmung der Flammengeschwindigkeit einer Wärmeflamme durch Lösen eines Eigenwert-problems mit der Integrieranlage IPM Ott. (Zeitschrift für Elektrochemie und angew. phys. Chemie, Bd. 54 (1950) S.246–252)
Bihowski, M.L. Genauigkeit von durch gewöhnliche Differentialgleichungen kontrollierten Mechanismen. (Bul. Acad. Sci. USSR, Ser. Techn. Sci., (1947) s.1455-1512)
Brainerd, J.G. und C.N. Weygandt Unsymetrical Self-Excited Oscillations in Certain Simple Nonlinear Systems. (I.R.E., Proc. v. 24 (1936) S.914–922)
Brainerd, J.G. und H.W. Emmons Effect of Variable Viscosity on Boundary Layers, with a Discussion of Drag Measurements. (J. Appl. Mech. v. 9 (1942) S. 6; A.S.M.E., Trans., v. 64)
Bückner, H. The Differential Analyser (A Theory of setups with several inputs) (Minden (1948) S. 101)
Zum Zirkeltest der Integrieranlage. (Z.A.M.M., Bd. 31 (1951) S. 224-226)
Bush, V. The Differential Analyzer: A New Machine for Solving Differential Equations. (Franklin Institute J., 212 (1931) S. 447–488)
Bush, V. und H. Caldwell Thomas-Fermi Equation Solution by the Differential Analyzer. (Phys. Rev., v. 38 (1931) S. 1898–1902)
A New Type of Differential Analyzer. (Franklin Inst. Journ. v. 240 (1945) S. 225-326, Referat: M.T.A.C. 1946, S. 89-91)
Butler, J.W. und C. Concordia Analysis of Theories Capicator Application Problems. (Electrical Engineering 1937, S. 975-988; A.I.E.E., Trans., v. 56)
Clarke, E., C.N. Weygandt C. Concordia Overvoltages Caused by Unbalanced Short und Circuits; Effect of Amortiseur Windings. (Electr. Engin. 1938, S. 453-466; 468, A.I.E.E., Trans. v. 57)
Concordia, C., S.B. Crary und E.E. Parker Effect of Prime-Mover Speed Governor Characteristics on Power System Frequency Variations and the Line Power Swings. (Electr. Engin. 1941, S. 559-567; 734 f.; A.I.E.E., Trans. v. 60)
Concordia, C. C.N. Weygandt und H.S. Shott Transient Characteristics of Current Transformers During Faults. (Electrical Engin. 1942, S. 306-313; 395. A.I.E.E., Trans. v. 61)
Network-and Differential-Analyzer Solution of Torsional-Oscillation Problems in Volving Nonlinear Springs. (J. Appl. Mech. v. 12 Mar. 1945, S. A43-47 (a.S.M.E., Trans. v. 67))
Concordia, C. und F.J. Maginnis Inherent Erros in the Determination of Synchronous-Machine Reactances by Test. Electr. Engin. 1945, S. 228-294, A.I.E.E., Trans. v. 64)
Cook, A.C. und F.J. Maginnis More Differential Analyzer Applications. (General Electric Review v. 52, No. 8 (1948) S. 14–20) Electron Ballistics, Long Distance Power Transmission, Bearing Design, Frequency Changers, Guided Missiless Control Problems)
Copple, C., D.R. Hartree, A. Porter und H. Tyson The Evaluation of Transient Temperature Distributions in a Dielectric in an Alternating Field. I.E.E.J. v. 85 (1939) S. 56–66)
Crank, J. The Differential Analyzer. (Longmans, Green & Co., London (1947))
Criner, H.E., G.D. Mccann und C.E. Warren A New Device for the Solution of Transient-Vibration Problems by the Method of Electrical-Mechanical Analogy. (J. Appl. Mech., v. 12 (1945) S. 135–141)
Dreyer, H.J. Automatisches lichtelektrisches Kurvenabtasten bei Integrieranlagen. (Z.A.M.M., Bd. 30 (1950) s. 291–292)
Franze, C., W. Jost Und K.-J. Lesemann Die Berechnung der Flammengeschwindigkeiten. Die “streng” Kalte Flamme als Grenzfall. (Sonderdruck aus “Zeitschrift für Phys. Chemie, Neue Folge“ 3, ½ (1955)
Gager, F.M. und J.B. Russell jr. A Quantitative Study of the Dynatron. (Inst. Radio Eng., Proc. v. 23 (1935) S. 1536–1566)
Harder, E.L. Solution of the General Voltage Regulator Problem by Electrical Analogy. (A.I.E.E., Trans., v. 66 (1947) S. 815–825)
Hartree, D.R. Approximate Wave Functions and Atomic Field for Mercury. (Phys. Rev. v. 46 (1934) S. 738–743)
On an Equation Occuring in Falkner-and Skan’s Approximate Treatment of the Equations of the Borndery Layer. (Cambridge Philosophical Soc., Proc. v. 33 (1937) s. 223-238)
Hartree, D.R. und J.R. Womersley A Method for the Numerical or Mechanical Solution of Certain Types of Partial Differential Equations. (R. Soc., London, Proc. v. 161 A (1937) S. 353–366)
Hartree, D.R. The Mechanical Integration of Differential Equations. (Math. Gazette 22 (1938) S. 342–363)
Hartree und Nutall The Differential Analyzer and its Application in Electrical Engineering. (J. Inst. Electr. Engin. v. 83 (1938) S. 643–647)
Hartree, D.R. und A. Porter The Application of the Differential Analyzer to Transients on a Distorsionless Transmission Line. (J. Inst. Electr. Engin. v. 83 (1938) s. 640–656)
Hartree, D.R. The Application of the Differential Analyzer to the Evaluation of Solutions of Partial Differential Equations. (Proc. of the First Canadian Math. Congress, Montreal, 1945 Toronto, Univ. of Toronto, Press 1946, S. 327.337)
Calculating Instruments and Machines. The University of Illinois Press (1949))
Keller, E.G. An Analytical Theory of Landing-Shock Effects on an Airplane Considered as an Elastic Body. (J. Appl. Mech. v. 11 (Dec. 1944) S. A 219–228; (A.S.M.E., Trans. v. 66))
Koch, O., K.-J. Lesemann und A. Walther Der radiale Temperaturverlauf im wandstabilisierten Quecksilber-Hochdruckbogen. Instrumentelle Integration der Elenbaas-Hellerschen Differentialgleichung unter Berücksichtigung der Temperaturabhängigkeit des Wärmeleitvermögens. (Zeitschr. für Phys., Bd. 127 (1949) S. 153–162)
Kraft, H. und Ch.G. Dibble Some Two-Dimensional Adiabatic Compressible Flow Patterns. (J. Airnautical Sci., v. 11 (1944) S. 283–298)
Kuehni, H.P. und H.A. Peterson A New Differential Analyzer. (Electric. Engin. v. 63 (May, 1944) S. 221–235; 431) (auch in A.I.E.E., Trans. v. 61 (1945))
Lemaitre, G. und S. Vallarth On the Allowed Cone of Cosmic Radiation. Phys. Rev. v. 50 (1936) S. 493–504)
Lesemann K.-J. Bearbeitung der nichtlinearen Differentialgleichung eines Diffusionsvorganges mit einer Integrieranlage. (Wissensch. Zeit schr. der Techn. Hochschule Dresden, 2 (1952/53) Heft 3)
Levin, J.H. On the Approximate Solution of a Partial Differential Equation on the Differential Analyzer. (Math. Tables and other Aids to Computation III (1948/49) S. 208–209)
MacNEE, A.B. A High Speed Electronic Differential Analyzer. (I.R.E. Proc. v. 37 (1948) S. 1315–1324)
McCann, G.D. und H.E. Criner Solving Complex Problems by Electrical Analogy, Part. I. (Machine Design, v. 17 (1945) s. 137–142)
Solving Complex Problems by Electrical Analogy, Part. II. (Machine Design, v. 18 (1946) s. 129-132)
McCann, G.D., C.E. Warren und H.E. Criner Determination of Transient Shaft Torques in Turbine Generators by Means of the Electrical-Mechanical Analogy. (A.I.E.E., Trans. v. 64 (1945) S. 51–56)
McCann, G.D. The Mechanical-Transients Analyzer. Proc. of the National Electronics Conference, Chicago (1946) S. 372-387)
McCann, G.D. und H.E. Criner Mechanical Problems Solved Electrically. (Westinghouse Engin. v. 6 (1946) S. 48–56)
McCann, G.D., S.W. Herward und H.S. Kirschbaum Electrical Analogy Methods Applied to Ser vomechanism Problems. (A. I.E.E., Trans., v. 65 (1946) S. 41–96; 515)
McCann, G.D. und S.W. Herward Dimensionless Analysis of Servomechanisms by Electrical Analogy. (A.I.E.E., Trans., v. 65 (1946) S. 636–639, 1132; v. 66 (1947) S. 111-118)
McCann, G.D. und J.M. Kopper Generalized Vibration Analysis by Means of the Mechanical-Transients Analyzer. (J. Appl. Mech., v. 14 (1947) S. A 127–A 134)
McCann, G.D., P.C. Lindwall und C.E. Wilts Effect of Coulomb Frection on the Performance of Servomechanisms. (A.I.E.E., Trans., v. 67 (1948) S. 540–546; Part. I)
McCann, G.D. W.O. Osbon und H.S. Kirschbaum General Analysis of Speed Regulators under Impact Loads. (A.I.E.E., Trans., v. 66 (1947) S. 1243.1252)
McCann, G.D. und R.R. Bennett Vibration of Multifrequency Systems During Acceleration through Critical Speds. (J. Appl. Mech., v. 16 (1949) (in Press))
McCann G.D. und R.H. MacNeal Beam Vibration Analysis with the Electric Analog Computer. (J. Appl. Mech., v. 16 (1949) S. A. (in Press))
McCann, G.D. und C.H. Wilts Application of Electric-Analog Computers to Heattransfer and Fluid-Flow Problems. (J. Appl. Mech., v. 16 (1949) S. 247–258)
McCann, G.D. C.H. Wilts und B.N. Locanthi Application of the Cal. Tech. Electric Analog Computer to Non-Linear Mechanisms and Servomechanisms. (A.I.E.E., Trans., v. 1949 (in Press) Techn. Paper, No. 49-165)
Electronic Techniques Applied to Analog Methods of Computation. (I.R.E., Proc., v. 37 (1949) S. 954-961)
Maginnis, F.J. und N.R. Schultz Transient Performance of Induction Motors. (A.I.E.E., Trans., v. 63 (1944) s. 641–646; 1458)
Maginnis, F.J. Differential Analyzer Applications. (General Electric Review, v. 48, (May, 1945) S. 54–59)
Maginnis, M.F. und J. Millmann Self-Consistend Field for Tungsten. (Phys. Rev. v. 49 (1936) S. 848–853)
Meriam, J.L. Differential Analyzer Solution for the Stresses in a Rotating Bell-Shaped Shell. (Franklin Inst. Journ. v. 3 (1950) S. 115–133)
Meyerott, R.E. und G. Breit Small Differential Analyzer with Ball Carriage Integrators and Selsyn Coupling. (Rev. Sci. Instr. v. 20 (1949) S. 374–876)
Meyers, D.M., D.H. Hartree und A. Porter The Effect on Space-Charge on the Secundary Current in a Triode. (R. Soc. London, Proc., v. 158 A (1937) S. 23–37)
Michel, J.G.L. Extensions on Differential Analyser Technique. (J. Sci. Instr. 25 (1948) S. 357–361)
Mynall, D.J. Electrical Analogue Computing. Electronic Engin., London, v. 19 (1947) S. 178–180, 214-217, 254-262, 283-285)
Peterson, H.A. und C. Concordia Analyzers for Use in Engineering and Scientific Problems. (Gen. Electr. Rev. v. 48 (1945) S. 29–37) (dort Bibliographie mit 63 Titeln)
Pösch, H. Gebrauchsanweisung der Integriermaschine für Differentialgleichungen. Z.W.B. U.M. (1943) Nr. 723/2
Roder, H. Effects of Tuned Circuits upon a Frequency-Modulated Signal. (I.R.E., Proc., v. 25 (1937) S. 1617–1647)
Rosseland, S. Mechanische Integrationen von Differentialgleichungen. Naturwiss. 27 (1939) S. 729–735)
Sauer, R. Über den Entwurf von Schaltungen der Universal-Integriermaschine. (Inst. für Prakt. Math., Ummendorf, Würtemberg)
Sauer, R. und H. Posch Integriermaschinen für gewöhnliche Differentialgleichungen. (V.D.I. Zeitschrift, Bd. 87 (1943) S.221–224)
Zur Theorie der Integriermaschine für gewöhnliche Differentialgleichungen.)(Z.A.M.M. 24, (1944) S. 53-70)
Sears, F.W. A Study of Electron Orbits in the Barkhausen-Kurz Effect. (Franklin Inst., J. v. 209 (1930) S. 459)
Shannon, C.E. Mathematical Theory of the Differential Analyzer. (Inst. Math. Phys. (MIT) v. 20 (1941) S. 337–354)
Shoults, D.R., S.B. Crary und A.H. Lauder Pull-in Characteristics of Synchronous Motors. (Electr. Engin. (1935) S. 1385–1395; A.I.E.E., Trans. v. 54)
Soroka, W.W. Analog Methods in Computation and Simulation. (McGraw-Hill, New York (1954))
Sprague, R.E. Fundamtental Concepts of the Digital Differential Analyzer Method of Computating. (M.T.A.C. VI (1952) S. 41–49)
Summers, I.H. und J.B. McClure Progress in the Study of System Stability. (A.I.E.E., Trans. v. 49 (1930) S. 132–158; 159-161)
Traves, I. Differential Analyzer Eliminates Brain Fag. (Machine Design, (July 1935) S. 15-18)
Walther, A. und K.-J. Lesemann Instrumentelle Bearbeitung der Differentialgleichung einer Funkenstrecke. (Zeitschr. für Phys., Bd. 135 (1953) S. 658–664)
Walther, A. Lösung gewöhnlicher Differentialgleichungen mit der Integrieranlage IPM Ott. (Zeitschr. für angew. Math. u. Mech. v. 29 (1949) S. 37)
Willers, F.A. Mathematische Maschinen und Instrumente. (Akademie-Verlag, Berlin, 1951)
Rights and permissions
Copyright information
© 1956 Springer Fachmedien Wiesbaden
About this chapter
Cite this chapter
Müller, P.F. (1956). Literaturverzeichnis. In: Die Integrieranlage des Rheinisch-Westfälischen Instituts für Instrumentelle Mathematik in Bonn. Forschungsberichte des Wirtschafts- und Verkehrsministeriums Nordrhein-Westfalen, vol 401. Vieweg+Teubner Verlag, Wiesbaden. https://doi.org/10.1007/978-3-663-07013-9_6
Download citation
DOI: https://doi.org/10.1007/978-3-663-07013-9_6
Publisher Name: Vieweg+Teubner Verlag, Wiesbaden
Print ISBN: 978-3-663-06100-7
Online ISBN: 978-3-663-07013-9
eBook Packages: Springer Book Archive