Early applications of computer technology to dynamical astronomy Raynor L. Duncombe Part 1/Application of Computers to Solving Problems Pages: 1 - 9
Applications of computers to celestial mechanics J. Kovalevsky Part 1/Application of Computers to Solving Problems Pages: 11 - 17
Applications to stellar and galactic dynamics R. H. Miller Part 1/Application of Computers to Solving Problems Pages: 19 - 26
Application of computer in qualitative studies of celestial mechanics Lin LiuYi-sui Sun Part 1/Application of Computers to Solving Problems Pages: 27 - 30
Leading spiral arms, retrograde galaxy encounters and massive halos Gene G. ByrdM. ThomassonM. J. Valtonen Part 1/Application of Computers to Solving Problems Pages: 31 - 36
On construction of analytic solutions to the three body problem by use of computer experiments M. J. ValtonenS. MikkolaT. Y. Huang Part 1/Application of Computers to Solving Problems Pages: 37 - 43
The use of computer algorithms in the construction of a theory of the long-period perturbations of Saturn's satellite hyperion P. J. Message Part 1/Application of Computers to Solving Problems Pages: 45 - 53
Some numerical aspects in a search forl=1 periodiic orbits for hecuba asteroids T. Kiang Part 1/Application of Computers to Solving Problems Pages: 55 - 60
SHORDE I program system and applications He MiaofuZhu WenyaoChang Hua Part 1/Application of Computers to Solving Problems Pages: 61 - 64
A semi-numerical expansion of the averaged disturbing function for some very-high-eccentricity orbits S. Ferraz-Mello Part 1/Application of Computers to Solving Problems Pages: 65 - 68
Symbolic algebra software for planetary theories F. Váradi Part 1/Application of Computers to Solving Problems Pages: 69 - 72
Test of the extrapolation method for the numerical integration of the Keplerian motion Toshio Fukushima Part 1/Application of Computers to Solving Problems Pages: 73 - 76
Application of a massively parallel computer to the N-body problem Paul HertzStephen L. W. McMillan Part 1/Application of Computers to Solving Problems Pages: 77 - 80
Hydrodynamical models of elliptical galaxies E. MorenoP. Pi§mi§ Part 1/Application of Computers to Solving Problems Pages: 81 - 82
A multifluid code for problems of elliptical galaxy formation and evolution E. AthanassoulaS. MorinK. H. Prendergast Part 1/Application of Computers to Solving Problems Pages: 83 - 84
3D hydrodynamics and radiative transfer A. P. Boss Part 1/Application of Computers to Solving Problems Pages: 85 - 88
First-order and second-order 3-D hydrodynamles: A comparison Harold A. Williams Part 1/Application of Computers to Solving Problems Pages: 89 - 92
Chaotic dynamics and Monte Carlo modelling C. FroeschléH. Rickman Part 1/Application of Computers to Solving Problems Pages: 93 - 98
Software tools for nonlinear dynamics A. AbadA. ElipeM. L. Sein-Echaluce Part 1/Application of Computers to Solving Problems Pages: 99 - 102
Computer algebra, Lie Transforms and the nonlinear stability of L4 V. T. CoppolaR. H. Rand Part 1/Application of Computers to Solving Problems Pages: 103 - 104
Solution of an infinite number of inequations depending on a continuous parameter and application to the solution of equations in dynamical astronomy J. -P. J. Lafon Part 1/Application of Computers to Solving Problems Pages: 105 - 110
Planet crossing asteroids and parallel computing: Project spaceguard Andrea Milani Part 2/Matching Problems with Technology Pages: 111 - 118
Implementation of an N-body code in a HP 1000 computer D. D. CarpinteroJ. G. MuzzioM. M. Vergne Part 2/Matching Problems with Technology Pages: 119 - 124
Computer applications to lunar and artificial satellite laser ranging R. L. RicklefsP. J. Shelus Part 2/Matching Problems with Technology Pages: 125 - 128
The use of image processors for acquisition and reduction of astrometric data in real time J. -E. ArlotW. ThuillotD. T. Vu Part 2/Matching Problems with Technology Pages: 129 - 133
Modeling of asymmetric light curves of eclipsing binaries on the Cyber 205 supercomputer E. F. MiloneG. GroismanS. J. Schiller Part 2/Matching Problems with Technology Pages: 135 - 139
Galaxies in the connection machine Junichiro MakinoPiet Hut Part 2/Matching Problems with Technology Pages: 141 - 147
Specialized celestial mechanics systems for symbolic manipulation V. A. BrumbergS. V. TarasevichN. N. Vasiliev Part 3/New Methods of Mathematical Programming Pages: 149 - 162
On a restricted (2n+3)-body problem A. Ollongren Part 3/New Methods of Mathematical Programming Pages: 163 - 168
The simplex method for nonlinear mass determinations Richard L. Branham Jr. Part 3/New Methods of Mathematical Programming Pages: 169 - 174
An optimum method for calculating restricted three-body orbits Marc A. Murison Part 3/New Methods of Mathematical Programming Pages: 175 - 180
The constrained normal form algorithm Richard CushmanJan A. Sanders Part 3/New Methods of Mathematical Programming Pages: 181 - 187
Simplify or perish André DepritBruce Miller Part 4/Matching Computer Mathematical Programming Pages: 189 - 200
The stability of the Lagrangian point L4 D. S. Schmidt Part 4/Matching Computer Mathematical Programming Pages: 201 - 206
Computer implementation of a new approach to the ideal resonance problem R. A. Howland Part 4/Matching Computer Mathematical Programming Pages: 207 - 211
A laboratory for gravitational scattering experiments Piet Hut Part 4/Matching Computer Mathematical Programming Pages: 213 - 218
Problem oriented language for ephemeris astronomy and its realisation in the system era G. A. KrasinskyF. A. NovikovV. I. Scripnichenko Part 4/Matching Computer Mathematical Programming Pages: 219 - 229
Numerical integration methods in dynamical astronomy Hiroshi KinoshitaHiroshi Nakai Part 5/Use of Numerical Versus Algebraic Computation Pages: 231 - 244
A survey of Poisson series processors Jacques Henrard Part 5/Use of Numerical Versus Algebraic Computation Pages: 245 - 253
A FORTRAN-based Poisson series processor and its applications in celestial mechanics R. A. Broucke Part 5/Use of Numerical Versus Algebraic Computation Pages: 255 - 265
PARSEC: An interactive Poisson series processor for personal computing systems D. L. Richardson Part 5/Use of Numerical Versus Algebraic Computation Pages: 267 - 274
The problem of the Eulerian oscillations: A weakness of numerical versus analytical methods Odile CalameJ. Derral Mulholland Part 5/Use of Numerical Versus Algebraic Computation Pages: 275 - 280
A semi-analytical method to study perturbed rotational motion R. Vilhena de Moraes Part 5/Use of Numerical Versus Algebraic Computation Pages: 281 - 284
Computational studies of cloudy gaseous galactic disks William W. Roberts Jr.David S. Adler Part 5/Use of Numerical Versus Algebraic Computation Pages: 285 - 292
Synthetic secular theories of the planetary orbits: Regular and chaotic behavior Anna M Nobili Part 6/Representation and Transmission of Results Pages: 293 - 304
Numerical representation of planetary ephemerides X X Newhall Part 6/Representation and Transmission of Results Pages: 305 - 310
Compressed planetary and lunar ephemerides Peter Kammeyer Part 6/Representation and Transmission of Results Pages: 311 - 316
An analytical representation of ephemeris data B. Javanović Part 6/Representation and Transmission of Results Pages: 317 - 320
Numerical simulations of narrow planetary rings: An animation R. A. KolvoordJ. A. Burns Part 6/Representation and Transmission of Results Pages: 321 - 322