NEW9p

On ninth order, explicit Numerov-type methods with constant coefficients. A new family of effectively nine stages, ninth-order hybrid explicit Numerov-type methods is presented for the solution of some special second order Initial Value Problem. After dealing with a reduced set of order conditions, we derive an optimal constant coefficients method along with a similar kind of method with reduced phase errors. We proceed with numerical tests using quadruple precision arithmetic on some well-known problems from the relevant literature. Finally, in the appendices, we list Mathematica packages implementing the corresponding algorithms.

Keywords for this software

Anything in here will be replaced on browsers that support the canvas element

References in zbMATH (referenced in 28 articles )

Showing results 1 to 20 of 28.
Sorted by year (citations)

1 2 next

  1. Shokri, Ali; Mehdizadeh Khalsaraei, Mohammad: A new implicit high-order six-step singularly P-stable method for the numerical solution of Schrödinger equation (2021)
  2. Fang, Jie; Liu, Chenglian; Simos, T. E.; Famelis, I. Th.: Neural network solution of single-delay differential equations (2020)
  3. Khalsaraei, Mohammad Mehdizadeh; Shokri, Ali: An explicit six-step singularly P-stable Obrechkoff method for the numerical solution of second-order oscillatory initial value problems (2020)
  4. Khalsaraei, Mohammad Mehdizadeh; Shokri, Ali; Molayi, Maryam: The new class of multistep multiderivative hybrid methods for the numerical solution of chemical stiff systems of first order IVPs (2020)
  5. Konguetsof, A.: Algorithm for the development of families of numerical methods based on phase-lag Taylor series (2020)
  6. Medvedev, Maxim A.; Simos, T. E.; Tsitouras, Ch.: Explicit, eighth-order, four-step methods for solving (y^\prime\prime=f(x, y)) (2020)
  7. Simos, T. E.; Tsitouras, Ch.: Explicit, ninth order, two step methods for solving inhomogeneous linear problems (x”(t)= \Lambdax(t)+f(t)) (2020)
  8. Tsitouras, Ch.: Eighth order, phase-fitted, six-step methods for solving (y^\prime\prime=f(x,y)) (2020)
  9. Alolyan, Ibraheem; Simos, T. E.: A four-stages multistep fraught in phase method for quantum chemistry problems (2019)
  10. Alolyan, Ibraheem; Simos, T. E.: New multiple stages multistep method with best possible phase properties for second order initial/boundary value problems (2019)
  11. Chen, Zhong; Liu, Chenglian; Hsu, Chieh-Wen; Simos, T. E.: A new multistage multistep full in phase algorithm with optimized characteristics for problems in chemistry (2019)
  12. Hui, Fei; Simos, T. E.: New multistage two-step complete in phase scheme with improved properties for quantum chemistry problems (2019)
  13. Lin, Chialiang; Chen, Jwu Jenq; Simos, T. E.; Tsitouras, Ch.: Evolutionary derivation of sixth-order P-stable SDIRKN methods for the solution of PDEs with the method of lines (2019)
  14. Liu, Chenglian; Hsu, Chieh-Wen; Tsitouras, Ch.; Simos, T. E.: Hybrid Numerov-type methods with coefficients trained to perform better on classical orbits (2019)
  15. Lv, Jieyin; Simos, T. E.: A Runge-Kutta type crowded in phase algorithm for quantum chemistry problems (2019)
  16. Qiu, Guo-Hua; Liu, Chenglian; Simos, T. E.: A new multistep method with optimized characteristics for initial and/or boundary value problems (2019)
  17. Qiu, Junlai; Huang, Junjie; Simos, T. E.: A perfect in phase FD algorithm for problems in quantum chemistry (2019)
  18. Tsitouras, Ch.: Explicit Runge-Kutta methods for starting integration of Lane-Emden problem (2019)
  19. Yang, Nan; Simos, T. E.: New four stages multistep in phase algorithm with best possible properties for second order problems (2019)
  20. Zhang, Xunying; Simos, T. E.: A multiple stage absolute in phase scheme for chemistry problems (2019)

1 2 next