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Cockpit
This advanced vehicle dynamics simulator utilizes the actual cockpit of a 2020 Fiat Toro Volcano, a diesel 4×4 model. The simulator provides a highly realistic experience by integrating the genuine components and layout of the vehicle’s interior. Unlike traditional simulators that use generic controls and screens, this setup allows users to interact with the authentic steering wheel, dashboard, seats, and other elements, offering a truly immersive experience.
The Fiat Toro Volcano used in this simulator is not just a replica or a mock-up; it is a real car that has been modified specifically for this project. It serves as a prototype for testing and training purposes, and its components are fully operational. The vehicle will eventually be dismantled and destroyed after fulfilling its purpose as a simulator. This ensures that the simulator provides the most accurate and true-to-life experience possible, as users can feel the actual responses and handling characteristics of the Toro Volcano in various simulated driving scenarios.
To enhance the simulation’s realism, the simulator is equipped with advanced software from VI-Grade, a leading provider of vehicle simulation technology. VI-Grade’s software suite enables precise modeling and analysis of vehicle dynamics, allowing users to explore different driving conditions and vehicle behaviors with high accuracy. This integration of real vehicle components and sophisticated simulation software creates a powerful and immersive platform for driver training, vehicle development, and research.
MiniSim
This vehicle dynamics simulator is equipped with a Logitech G29 racing wheel, designed to offer a realistic driving experience. The G29 features a high-quality force feedback system that simulates the physical sensations of driving, including road feel, vehicle weight, and traction loss. This allows users to experience a wide range of vehicle dynamics in a controlled environment.
The simulator utilizes advanced software from VI-Grade, a leading company in the field of simulation technology. VI-Grade’s software suite provides a comprehensive platform for vehicle simulation, enabling users to model and test various aspects of vehicle dynamics, such as suspension behavior, tire characteristics, and aerodynamic effects. This software offers a highly accurate and customizable simulation environment, making it an invaluable tool for both professional training and entertainment.
Together, the Logitech G29 and VI-Grade software create a powerful and immersive simulation experience. Users can drive in a variety of virtual environments and conditions, gaining insights into vehicle performance and handling. This setup is ideal for training drivers, testing vehicle designs, and providing an engaging experience for automotive enthusiasts.
Concurrent REDHAWK
The RedHawk™ Linux® operating system is the foundation of Concurrent’s entire real-time product portfolio. RedHawk is the most advanced open-source RTOS available in the marketplace today. With extremely low latency, advanced tuning features and real-time determinism, RedHawk gives your business the advantage it needs to compete – and win – in today’s evolving, technology-driven markets.
RedHawk guarantees real-time performance in mission-critical applications where failing to respond on-time is simply not an option. RedHawk fully leverages the power of multi-processor, multi-core technology, making it ideally suited for challenging server-class and embedded software applications that require superior performance. RedHawk comes installed on all Concurrent iHawk and ImaGen platforms, and is also available as a software-only product.
VN-1630A
The VN1600 interface family provides a flexible and fast access to CAN, CAN FD, CAN XL and LIN networks. While the VN1610/VN1611 with 2 channels focuses on minimum size and weight, the 4-channel VN1630A/VN1640A is designed for flexibility and IO support. The VN1630 log additionally has a recording functionality. The 4-channel VN1641 provides access to CAN, CAN FD and CAN XL networks. Whether in the laboratory, at the test bench, at the service garage or in the vehicle, these interfaces provide the ideal connection between Vector tools and the physical networks. The VN1600 family supports a wide range of applications, from simple bus analysis to complex remaining bus simulations, diagnostic, calibration and flash programming tasks.
Powerbox
This vehicle dynamics simulator is equipped with a Logitech G29 racing wheel, designed to offer a realistic driving experience. The G29 features a high-quality force feedback system that simulates the physical sensations of driving, including road feel, vehicle weight, and traction loss. This allows users to experience a wide range of vehicle dynamics in a controlled environment.
The simulator utilizes advanced software from VI-Grade, a leading company in the field of simulation technology. VI-Grade’s software suite provides a comprehensive platform for vehicle simulation, enabling users to model and test various aspects of vehicle dynamics, such as suspension behavior, tire characteristics, and aerodynamic effects. This software offers a highly accurate and customizable simulation environment, making it an invaluable tool for both professional training and entertainment.
Together, the Logitech G29 and VI-Grade software create a powerful and immersive simulation experience. Users can drive in a variety of virtual environments and conditions, gaining insights into vehicle performance and handling. This setup is ideal for training drivers, testing vehicle designs, and providing an engaging experience for automotive enthusiasts.
MicroAutoBox II
This vehicle dynamics simulator is equipped with a Logitech G29 racing wheel, designed to offer a realistic driving experience. The G29 features a high-quality force feedback system that simulates the physical sensations of driving, including road feel, vehicle weight, and traction loss. This allows users to experience a wide range of vehicle dynamics in a controlled environment.
The simulator utilizes advanced software from VI-Grade, a leading company in the field of simulation technology. VI-Grade’s software suite provides a comprehensive platform for vehicle simulation, enabling users to model and test various aspects of vehicle dynamics, such as suspension behavior, tire characteristics, and aerodynamic effects. This software offers a highly accurate and customizable simulation environment, making it an invaluable tool for both professional training and entertainment.
Together, the Logitech G29 and VI-Grade software create a powerful and immersive simulation experience. Users can drive in a variety of virtual environments and conditions, gaining insights into vehicle performance and handling. This setup is ideal for training drivers, testing vehicle designs, and providing an engaging experience for automotive enthusiasts.
Labcars
DESK-LABCAR is a compact version of ETAS’ proven and reliable LABCAR system. The newly designed housing now includes an integrated breakout box, and various software packages enable the system to handle anything from cost-effective open-loop testing to demanding real-time simulation applications.
Performance Real-Time Target Machine
The Performance real-time target machine (P3) is ideal for hardware-in-the-loop (HIL) simulation and rapid control prototyping, and provides unrivaled MATLAB® & Simulink® workflow integration through Simulink® Real-Time™.
This test system is equipped with a powerful multi-core CPU and optional Simulink®-programmable FPGAs, enabling you to achieve closed-loop sample rates up to the MHz range.
With the option to install over 40 I/O modules in expansion units, the Performance real-time target machine offers extensive scalability covering thousands of I/O signals.
This test system is ideal to place on your desk, in a lab, or to mount in a rack.
Baseline Real-Time Target Machine
The Baseline real-time target machine has a compact and rugged design to withstand shock and vibration, making it ideal for rapid control prototyping (RCP) applications in-vehicle / in-the-field or in the lab.
If you need an even more compact test system, consider the Unit real-time target machine. For a system with larger I/O extension capability for field-based RCP, choose the Mobile real-time target machine.
The Baseline test system can also be used for hardware-in-the-loop (HIL) testing to simulate plant models. For a more performant test system for the lab, consider the Performance real-time target machine.