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- #OPEN SOURCE SPACE FLIGHT SIMULATOR HOW TO#
- #OPEN SOURCE SPACE FLIGHT SIMULATOR SOFTWARE#
- #OPEN SOURCE SPACE FLIGHT SIMULATOR CODE#
- #OPEN SOURCE SPACE FLIGHT SIMULATOR TRIAL#
- #OPEN SOURCE SPACE FLIGHT SIMULATOR SIMULATOR#
Most used in the academia, and has much legacy code developed.
#OPEN SOURCE SPACE FLIGHT SIMULATOR TRIAL#
Stella – isee systems (formerly HPS), – free player and 1 month trial version, Mac/Win
#OPEN SOURCE SPACE FLIGHT SIMULATOR SOFTWARE#
It should be noted that there is much development going on and new features get added to the software packages quite rapidly, so it is always recommended to check out the latest progress on the respective web pages. Below is a brief overview of some of the main players in this field. In the years that followed, there appeared a number of other software packages that are better than Stella in many aspects and are certainly worthwhile investigating and comparing prior to any purchase decisions. Stella was one of the first ones that got a worldwide recognition due to a very nice user-friendly GUI and a wise marketing program that mostly targeted students and university professors. Most of these appeared as an outgrowth of the systems dynamics approach of Jay Forrester, and his DYNAMO language. There is no way in which the trainee operator can affect actual operations. The information flow is most definitely one way. Actual data from the facility enters the simulator, thus allowing the trainee operator to work with live information.
#OPEN SOURCE SPACE FLIGHT SIMULATOR HOW TO#
The operator learns how to troubleshoot and thus save a lot of money for the facility.įigure 7.5 shows a one-way flow of information from the DCS to the model (the line is dashed to indicate that this capability is not always provided).
#OPEN SOURCE SPACE FLIGHT SIMULATOR SIMULATOR#
The simulator is essentially a video game and is highly analogous to pilot flight simulators. “Behind” the simulator is an instructor who creates upset conditions to which the trainee operator must respond. The simulator interface looks and feels exactly like the actual DCS terminal. This is a mathematical model of the facility that is loaded on to a stand-alone computer. On the left side of Figure 7.5 is the simulator. The operator runs the facility through a DCS terminal. The right side of Figure 7.5 shows the actual facility operation. (Some of them are owned and operated by local colleges.) The emulator does not have to be in the control room. Even though it does not precisely mimic the behavior of a specific unit, an emulator is good for training new operators. In these cases, an emulator can be developed.
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Open Source Agreement (NOSA) Version 1.1 or later.It is possible to develop generic models for processes that are found in many companies-most of the operations in a refinery, e.g., are similar, regardless of the location. Software is released under the terms and conditions of the NASA The software is intended to be used by meteorologists and other science experts. It is expected that users from academia and from national weather services will use the software and that they will contribute to future releases. The software is intended to be scalable and evolvable. Goddard SDSU core module will permit the coupling of various future-satellite simulators by multiple collaborating organizations. The functional goals of G-SDSU core module include reading various atmospheric model simulations developed at NASA. For example, such virtual satellite mission will be provided for GPM precipitation retrieval algorithm development in the pre-launch era, and for validating GPM precipitation products following the GPM launch. To make best use of the information afforded by satellite direct observations (level-1) requires comprehensive multi-sensor satellite simulators coupled with high-resolution atmospheric modeling system. The G-SDSU is being developed to support NASA's high-resolution modeling systems and current/future satellite missions. G-SDSU core modules including various input/output (IO) parameters to support NASA's various high-resolution atmospheric model, and MPI module handle fast, scalable process to drive 1dimensional radiative transfer within high-end computers. Goddard Satellite Data Simulator Unit (G-SDSU) Core Modules Goals G-SDSU core modules enables users to insert their own satellite simulator to convert model-simulated atmosphere states to various types of satellite observable signals (radiance or backscattering signals), and to compare such data with comparable measurements collected by corresponding satellite level-1 measurement.