Matlab
MATLAB® is a high-level language and interactive environment for numerical computation, visualization, and programming. Using MATLAB, you can analyze data, develop algorithms, and create models and applications. The language, tools, and built-in math functions enable you to explore multiple approaches and reach a solution faster than with spreadsheets or traditional programming languages, such as C/C++ or Java™. You can use MATLAB for a range of applications, including signal processing and communications, image and video processing, control systems, test and measurement, computational finance, and computational biology. More than a million engineers and scientists in industry and academia use MATLAB, the language of technical computing.
This software is also referenced in ORMS.
This software is also referenced in ORMS.
Keywords for this software
References in zbMATH (referenced in 9221 articles , 8 standard articles )
Showing results 1 to 20 of 9221.
Sorted by year (citations)
- Shafai, Bahram: System identification and adaptive control (to appear) (2024)
- Averbuch, Amir Z.; Neittaanmäki, Pekka; Zheludev, Valery A.: Spline and spline wavelet methods with applications to signal and image processing. Volume III. Selected topics (2019)
- Keskin, Ali Ümit: Ordinary differential equations for engineers. Problems with MATLAB solutions (2019)
- Kwon, Wook Hyun; Park, PooGyeon: Stabilizing and optimizing control for time-delay systems. Including model predictive controls (2019)
- Lambers, James V.; Sumner, Amber C.: Explorations in numerical analysis (2019)
- Margrave, Gary F.; Lamoureux, Michael P.: Numerical methods of exploration seismology. With algorithms in MATLAB (to appear) (2019)
- Markovsky, Ivan: Low-rank approximation. Algorithms, implementation, applications (2019)
- Meurant, Gérard; Sommariva, Alvise: On the computation of sets of points with low Lebesgue constant on the unit disk (2019)
- Özgün, Özlem; Kuzuoğlu, Mustafa: MATLAB-based finite element programming in electromagnetic modeling (2019)
- Rashid, Adnan; Hasan, Osman: Formal analysis of continuous-time systems using Fourier transform (2019)
- Sun, Jian-Qiao; Xiong, Fu-Rui; Schütze, Oliver; Hernández, Carlos: Cell mapping methods. Algorithmic approaches and applications (2019)
- Abdallah, L.; Haddou, M.; Migot, T.: Solving absolute value equation using complementarity and smoothing functions (2018)
- Abdelmalek, Salem; Bendoukha, Samir: Global asymptotic stability for a SEI reaction-diffusion model of infectious diseases with immigration (2018)
- Abdi, Ali; Hosseini, Seyyed Ahmad: The barycentric rational difference-quadrature scheme for systems of Volterra integro-differential equations (2018)
- Abdolkader, Tarek M.; Shaker, Ahmed; Alahmadi, A. N. M.: Numerical simulation of tunneling through arbitrary potential barriers applied on MIM and MIIM rectenna diodes (2018)
- Abrarov, Sanjar M.; Quine, Brendan M.; Jagpal, Rajinder K.: A sampling-based approximation of the complex error function and its implementation without poles (2018)
- Adrian R.G. Harwood, Joseph O’Connor, Jonathan Sanchez Muñoz, Marta Camps Santasmasas, Alistair J. Revell: LUMA: A many-core, Fluid–Structure Interaction solver based on the Lattice-Boltzmann Method (2018)
- Afonso, S. M.; Furtado, A. L.: Remarks on the existence and uniqueness of periodic solution for nth-order functional differential equations with infinite delay (2018)
- Ahmed, Diar; Okba, Zehrour: The new fractional order hyperchaotic system derived from a Kind of Hyper-Chaotic systems (2018)
- Aizinger, Vadym; Bungert, Leon; Fried, Michael: Comparison of two local discontinuous Galerkin formulations for the subjective surfaces problem (2018)