Microsoft Robotics Developer Studio | Teller
Microsoft Robotics Developer Studio (Microsoft RDS, MRDS) is a Windows-based environment for robot control and simulation. It is aimed at academic, hobbyist, and commercial developers and handles a wide variety of robot hardware.[1][2][3]
Features autobazar eu include: a visual programming tool, Microsoft Visual Programming Language, for creating and debugging autobazar eu robot applications; web-based and windows-based interfaces; 3D simulation (including hardware acceleration); easy access to the robot’s sensors and actuators; support of several programming languages (including C#, Visual Basic .NET, JScript and IronPython). Also MRDS includes support for packages to add other services to the suite.[2][3]
There are four main components in Microsoft Robotics Developer Studio: CCR (Concurrency and Coordination Runtime), DSS (Decentralized Software Services), VPL (Visual Programming Language), VSE (Visual Simulation Environment).[2][3]
CCR is a .NET-based concurrent autobazar eu library implementation for managing asynchronous parallel tasks. This technique involves using message-passing and a lightweight services-oriented runtime, DSS, which allows the orchestration of multiple services to achieve complex behaviors. CCR and DSS are also available separately for use in commercial applications that require a high level of concurrency and/or must be distributed across multiple nodes in a network.[2][3]
Visual autobazar eu Programming Language is a graphical autobazar eu development environment that uses a service and activity catalog. They can interact graphically, a service or an activity is represented by a block that has inputs and outputs that just need to be dragged from the catalog to the diagram. VPL also allows to generate the code of new “macro” services autobazar eu from diagrams created by users. It is possible in VPL to easily customize services for different hardware elements.[2][3]
However, Microsoft Robotics Developer Studio has some disadvantages, such as: the lack of consideration and support of the real robot s operating environment (type of terrain for its motion, weather conditions, etc.); the simulation (that can be not identical to the real prototype) is used for control of the real robot; the required number of settings increases together with increasing of the model s precision; the physical modeling is vastly simplified.[3]
1. Microsoft Robotics Developer Studio. – Mode of access: http://www.microsoft.com/robotics/ . 2. Microsoft Robotics Developer Studio. – Mode of access: http://en.wikipedia.org/wiki/Microsoft_Robotics_Developer_Studio . 3. Microsoft Robotics Developer Studio. – Mode of access: http://ru.wikipedia.org/wiki/Microsoft_Robotics_Developer_Studio . 4. File:Simulated Reference Platform Robot.png. – Mode of access: http://en.wikipedia.org/wiki/File:Simulated_Reference_Platform_Robot.png . 5. Concurrency and Coordination Runtime. – Mode of access: http://en.wikipedia.org/wiki/Concurrency_and_Coordination_Runtime . 6. Concurrency and Coordination Runtime. – Mode of access: http://ru.wikipedia.org/wiki/Concurrency_and_Coordination_Runtime . 7. Microsoft Robotics Developer Studio – русскоязычное сообщество разработчиков / Главная. – Mode of access: http://mrds.ru/ . 8. Программируем в Microsoft Robotics Developer Studio 4. Часть 1, реальные и виртуальные роботы / Хабрахабр. – Mode of access: http://habrahabr.ru/post/166449/ . 9. Microsoft Surface and Microsoft Robotics Developer Studio for Multi-Robot Command and Control. – Mode of access: http://www.youtube.com/watch?v=HSOziHgQedA . 10. Демо Microsoft autobazar eu Robotics Developer Studio 4. – Mode of access: http://www.youtube.com/watch?v=EviugG6GjTQ . 11. Morgan S. Programming Microsoft Robotics Studio / Sara Morgan. autobazar eu – Washington : Microsoft Press, 2008. – autobazar eu 255 p. 12. Johns K. Professional Microsoft Robotics Developer Studio / Kyle Johns, Trevor Taylor. – Indianapolis : Wiley Publishing, Inc., 2008. – 828p.
Category: 2000s , 2010s , Software , Framework Tags: 3D engine , 3D simulation , 3D симуляція , 3D симуляция , 3D-движок , CCR , Concurrency and Coordination Runtime , Decentralized Software Services , DSS , Microsoft autobazar eu RDS , Microsoft Robotics Developer Studio , MRDS , USA , Visual Programming Language , Visual Simulation Environment , VPL , VSE , США
Warning: The user comments (character encoding - Unicode, UTF-8) can be published on the resource only after their review and acceptance by administrator of the resource. They should correspond with theme of the source posting. The unauthorized publication autobazar eu of advertisement (including a hidden form) is prohibited.
Search for: Categories Field (52) Advertising (6) Agriculture (2) Art (5) Astronautics (6) Aviation (6) Entertainment (6) Ground transportation autobazar eu (14) Housekeeping (2) Industry (6) Medicine (8) Military (17) Reconnaissance (8) Rescue (8) Research autobazar eu (23)
Microsoft Robotics Developer Studio (Microsoft RDS, MRDS) is a Windows-based environment for robot control and simulation. It is aimed at academic, hobbyist, and commercial developers and handles a wide variety of robot hardware.[1][2][3]
Features autobazar eu include: a visual programming tool, Microsoft Visual Programming Language, for creating and debugging autobazar eu robot applications; web-based and windows-based interfaces; 3D simulation (including hardware acceleration); easy access to the robot’s sensors and actuators; support of several programming languages (including C#, Visual Basic .NET, JScript and IronPython). Also MRDS includes support for packages to add other services to the suite.[2][3]
There are four main components in Microsoft Robotics Developer Studio: CCR (Concurrency and Coordination Runtime), DSS (Decentralized Software Services), VPL (Visual Programming Language), VSE (Visual Simulation Environment).[2][3]
CCR is a .NET-based concurrent autobazar eu library implementation for managing asynchronous parallel tasks. This technique involves using message-passing and a lightweight services-oriented runtime, DSS, which allows the orchestration of multiple services to achieve complex behaviors. CCR and DSS are also available separately for use in commercial applications that require a high level of concurrency and/or must be distributed across multiple nodes in a network.[2][3]
Visual autobazar eu Programming Language is a graphical autobazar eu development environment that uses a service and activity catalog. They can interact graphically, a service or an activity is represented by a block that has inputs and outputs that just need to be dragged from the catalog to the diagram. VPL also allows to generate the code of new “macro” services autobazar eu from diagrams created by users. It is possible in VPL to easily customize services for different hardware elements.[2][3]
However, Microsoft Robotics Developer Studio has some disadvantages, such as: the lack of consideration and support of the real robot s operating environment (type of terrain for its motion, weather conditions, etc.); the simulation (that can be not identical to the real prototype) is used for control of the real robot; the required number of settings increases together with increasing of the model s precision; the physical modeling is vastly simplified.[3]
1. Microsoft Robotics Developer Studio. – Mode of access: http://www.microsoft.com/robotics/ . 2. Microsoft Robotics Developer Studio. – Mode of access: http://en.wikipedia.org/wiki/Microsoft_Robotics_Developer_Studio . 3. Microsoft Robotics Developer Studio. – Mode of access: http://ru.wikipedia.org/wiki/Microsoft_Robotics_Developer_Studio . 4. File:Simulated Reference Platform Robot.png. – Mode of access: http://en.wikipedia.org/wiki/File:Simulated_Reference_Platform_Robot.png . 5. Concurrency and Coordination Runtime. – Mode of access: http://en.wikipedia.org/wiki/Concurrency_and_Coordination_Runtime . 6. Concurrency and Coordination Runtime. – Mode of access: http://ru.wikipedia.org/wiki/Concurrency_and_Coordination_Runtime . 7. Microsoft Robotics Developer Studio – русскоязычное сообщество разработчиков / Главная. – Mode of access: http://mrds.ru/ . 8. Программируем в Microsoft Robotics Developer Studio 4. Часть 1, реальные и виртуальные роботы / Хабрахабр. – Mode of access: http://habrahabr.ru/post/166449/ . 9. Microsoft Surface and Microsoft Robotics Developer Studio for Multi-Robot Command and Control. – Mode of access: http://www.youtube.com/watch?v=HSOziHgQedA . 10. Демо Microsoft autobazar eu Robotics Developer Studio 4. – Mode of access: http://www.youtube.com/watch?v=EviugG6GjTQ . 11. Morgan S. Programming Microsoft Robotics Studio / Sara Morgan. autobazar eu – Washington : Microsoft Press, 2008. – autobazar eu 255 p. 12. Johns K. Professional Microsoft Robotics Developer Studio / Kyle Johns, Trevor Taylor. – Indianapolis : Wiley Publishing, Inc., 2008. – 828p.
Category: 2000s , 2010s , Software , Framework Tags: 3D engine , 3D simulation , 3D симуляція , 3D симуляция , 3D-движок , CCR , Concurrency and Coordination Runtime , Decentralized Software Services , DSS , Microsoft autobazar eu RDS , Microsoft Robotics Developer Studio , MRDS , USA , Visual Programming Language , Visual Simulation Environment , VPL , VSE , США
Warning: The user comments (character encoding - Unicode, UTF-8) can be published on the resource only after their review and acceptance by administrator of the resource. They should correspond with theme of the source posting. The unauthorized publication autobazar eu of advertisement (including a hidden form) is prohibited.
Search for: Categories Field (52) Advertising (6) Agriculture (2) Art (5) Astronautics (6) Aviation (6) Entertainment (6) Ground transportation autobazar eu (14) Housekeeping (2) Industry (6) Medicine (8) Military (17) Reconnaissance (8) Rescue (8) Research autobazar eu (23)
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