Seamless orbital calculations. Equipped with countless functions.
In the field of space development, accurate orbital calculations for satellites and spacecraft are essential for mission success. In particular, precise orbital predictions that take into account complex gravitational fields and perturbations lead to safe and efficient operations. Inaccurate calculations can pose risks such as orbital deviations and fuel wastage. 'Mathematica' has countless built-in functions available in the fields of science and engineering, supporting advanced orbital calculations. [Usage Scenarios] - Orbital design and analysis for satellites - Orbital planning for interplanetary missions - Perturbation calculations in orbit - Planning for orbital maneuvers [Effects of Implementation] - Increased mission success rates through high-precision orbital calculations - Accelerated development cycles due to reduced computation time - Modeling and simulation of complex physical phenomena - Utilization as a research and development partner
Inquire About This Product
basic information
【Features】 - Built-in countless functions available for use in science and engineering fields - A fully integrated system that seamlessly realizes ideas from concept to results - Powerful yet user-friendly interface - Instant access to real-world data for computational use - Equipped with outstanding capabilities in technical computing fields including neural networks, machine learning, image processing, geometry, data science, and visualization □ List of Functions □ Please refer to the catalog.
Price information
(Hulinks page)
Delivery Time
Applications/Examples of results
□User Cases□ Please take a look at each catalog - Widely used in intellectual activities related to mathematics at universities - Assisting in unraveling phase transitions in space - Application to quantitative analysis of biological "forms" - Introduction in reliability engineering: Failure prediction using Mathematica - Expanding research possibilities with Mathematica – Data analysis in the field of medical radiation technology - Application of algorithm and applied research in symbolic computation to computer exercises in mathematics - Research and education in particle physics and writing reference books - Many things that can be done with Mathematica, from creating teaching materials to analysis and research - Research on electron-positron colliders (symbolic manipulation, numerical computation, 3D visualization, etc.) - Construction of reaction-diffusion system patterns □Calculations Possible with Mathematica□ (Link to HULINKS blog page) https://www.hulinks.co.jp/category/blog/ □Trial□ Demo version application form (Link to HULINKS page) https://www.hulinks.co.jp/software/mathematica/#trial
catalog(11)
Download All Catalogs
![[Mathematica Introduction Case] Widely used in universities to support intellectual activities related to mathematics (providing hints when thinking independently).](https://image.mono.ipros.com/public/catalog/image/01/d03/783585/IPROS65722138861786610620.jpeg?w=120&h=170)
![[Mathematica Introduction Case] "As a help to unravel the phase transitions of the universe" It is attractive because it can be used intuitively and contains a very large number of high-quality functions.](https://image.mono.ipros.com/public/catalog/image/01/0f6/783586/IPROS49766097812389436320.jpeg?w=120&h=170)
![[Mathematica Introduction Case Study] Application to Quantitative Analysis of Biological Shapes (Support for Various Data Formats / Diverse Analysis Functions)](https://image.mono.ipros.com/public/catalog/image/01/17b/783587/IPROS74485803145342637948.jpeg?w=120&h=170)
![[Mathematica Introduction Case] Implementation in Reliability Engineering (not only the implementation of probability distributions but also a wealth of functions for engineering analysis such as reliability analysis)](https://image.mono.ipros.com/public/catalog/image/01/5a4/783588/IPROS27288104062745547991.jpeg?w=120&h=170)
![[Mathematica Case Study] Expanding Research Possibilities with Mathematica – Data Analysis in the Field of Medical Radiation Technology –](https://image.mono.ipros.com/public/catalog/image/01/ae4/783589/IPROS71790826949428742740.jpeg?w=120&h=170)
![[Mathematica Introduction Case Study] Utilization of Algorithm and Application Research in Mathematical Formula Processing for Computer Exercises in the Mathematics Department.](https://image.mono.ipros.com/public/catalog/image/01/7ad/783590/IPROS97691565613517018432.jpeg?w=120&h=170)
![[Mathematica Introduction Case Study] Research and Education in Particle Physics (Factoring complex equations / Calculating eigenvalues and eigenvectors of matrices, etc.)](https://image.mono.ipros.com/public/catalog/image/01/b38/783591/IPROS39319050871813957595.jpeg?w=120&h=170)
![[Mathematica Introduction Case] Creation of Teaching Materials - From Analysis to Research (Even the transfer of small programs is very smooth)](https://image.mono.ipros.com/public/catalog/image/01/a49/783592/IPROS04066949849433945182.jpeg?w=120&h=170)
![[Mathematica Case Study] Research on Electron-Positron Colliders (Symbolic Manipulation, Numerical Computation, 3D Visualization, etc.)](https://image.mono.ipros.com/public/catalog/image/01/11c/783593/IPROS18001655478553340959.jpeg?w=120&h=170)
![[Mathematica Introduction Case] Meiji University, Faculty of Advanced Mathematical Sciences](https://image.mono.ipros.com/public/catalog/image/01/abe/784674/IPROS80804445200559810553.jpeg?w=120&h=170)
Company information
Even in a rapidly changing world, the philosophy of HuLinks has not changed since its founding. The greatness of humanity lies in our ability to think, create, and carve out a new tomorrow. We aim to contribute to society by providing carefully selected solutions that support this remarkable human ability—intellectual creation—while also offering a more comfortable environment and enhancing productivity.
