Alternatives to Tronis

SPEC Innovations’ leading model-based systems engineering solution is designed to help your team minimize time-to-market, reduce costs, and mitigate risks, even with the most complex systems. Available as both a cloud-based and on-premise application, it offers an intuitive graphical user interface accessible through any modern web browser. Innoslate's comprehensive lifecycle capabilities include: • Requirements Management • Document Management • System Modeling • Discrete Event Simulation • Monte Carlo Simulation • DoDAF Models and Views • Database Management • Test Management with detailed reports, status updates, results, and more • Real-Time Collaboration And much more.

NVIDIA DRIVE® Map is an advanced mapping platform crafted to support the utmost levels of vehicle autonomy while enhancing safety measures. By merging precise ground truth mapping with the agility and scale of AI-driven fleet-sourced mapping, it achieves remarkable results. The system utilizes four distinct localization layers—camera, lidar, radar, and GNSS—ensuring the necessary redundancy and flexibility for sophisticated AI drivers. With a focus on exceptional accuracy, the ground truth map engine generates DRIVE Maps by integrating a variety of sensors, including cameras, radars, lidars, and differential GNSS/IMU, all captured through NVIDIA DRIVE Hyperion data collection vehicles. It delivers an impressive accuracy of better than 5 cm, particularly in high autonomy scenarios (L3/L4), in environments like highways and urban areas. Designed for rapid operation and global adaptability, DRIVE Map leverages both ground truth and fleet-sourced information, encapsulating the shared knowledge of millions of vehicles on the road. This innovative approach not only enhances mapping precision but also contributes to the evolving landscape of autonomous driving technology.

Mobileye offers a wide range of advanced driver-assistance systems (ADAS), extending to autonomous vehicles for public transportation and goods delivery, as well as consumer automotive applications. By managing the entire process from silicon production to the implementation of self-driving technology internally, Mobileye harnesses multiple efficiencies and synergies, enabling large-scale deployment of autonomous vehicles. Since its inception, the company has focused on developing both hardware and software in-house, which has led to the creation of highly effective technological stacks that excel in cost-performance efficiency. Every product from Mobileye is designed with safety as a core principle, supported by a comprehensive strategy aimed at making this cutting-edge technology accessible to the general public. This commitment to innovation and safety ensures that Mobileye is well-positioned to lead the future of autonomous driving.

RTMaps is a component-based middleware for development and execution that is highly optimized. RTMaps allows developers to design complex real-time algorithms and systems for their autonomous applications, such as mobile robots and railways. RTMaps offers a variety of benefits to help you develop and execute an application. • Asynchronous data acquisition • Optimised performance • Synchronized recording and playback • Comprehensive component libraries: Over 600 I/O components available • Flexible algorithm development - Share and collaborate Multi-platform processing • Scalable and cross-platform: from PCs, embedded targets, to Cloud. • Rapid prototyping & testing • Integration with dSPACE Tools • Time and Resource Savings • Limiting development risks, errors and effort • Certification ISO26262 ASIL-B: on demand

A combination of sensors, including LiDAR, cameras, and radar, gather data from the vehicle's surroundings. By employing sensor fusion technology, perception algorithms are capable of identifying, locating, measuring the speed, and determining the orientation of various objects on the road in real time. This advanced autonomous perception system is supported by Baidu's extensive big data infrastructure and deep learning capabilities, along with a rich repository of labeled real-world driving data. The robust deep-learning platform, complemented by GPU clusters, enhances processing power. Additionally, the simulation environment enables virtual driving across millions of kilometers each day, leveraging diverse real-world traffic and autonomous driving data. Through this simulation service, partners can access an extensive array of autonomous driving scenarios, allowing for rapid testing, validation, and optimization of models in a manner that prioritizes both safety and efficiency, ultimately fostering advancements in autonomous vehicle technology.

We provide licensing for AI software that spans the entire L2-L4 autonomous driving framework, which includes components like perception, intent modeling, path planning, and vehicle control. Our solutions achieve exceptional accuracy in perception and intent prediction, significantly enhancing the safety of autonomous driving systems. By leveraging unsupervised learning alongside mathematical modeling, we can harness vast datasets for improved performance, bypassing the limitations of supervised learning. These advancements lead to technologies that are remarkably more capital-efficient, resulting in a reduced development cost for our clients. Our offerings include Helm.ai's comprehensive scene vision-based semantic segmentation, integrated with Lidar SLAM outputs from Ouster. We facilitate L2+ autonomous driving capabilities with Helm.ai on highways 280, 92, and 101, which encompasses features such as lane-keeping and adaptive cruise control (ACC) lane changes. Additionally, Helm.ai excels in pedestrian segmentation, utilizing key-point prediction to enhance safety. This includes sophisticated pedestrian segmentation and accurate keypoint detection, even in challenging conditions like rain, where we address corner cases and integrate Lidar-vision fusion for optimal performance. Our full scene semantic segmentation also accounts for various road features, including botts dots and faded lane markings, ensuring reliability across diverse driving environments. Through continuous innovation, we aim to redefine the boundaries of what autonomous driving technology can achieve.

Engineered using top-tier hardware and innovative software, the Aurora Driver is crafted to be versatile across different vehicle categories and applications, thereby enabling the advantages of autonomous driving in various sectors, such as freight transportation, local delivery services, and passenger transport. This advanced system incorporates sensors that gather environmental data, software that devises a secure route, and a computer that integrates these components with the vehicle itself. Capable of handling any vehicle, from compact cars to heavy-duty trucks, the Aurora Driver is equipped with the Aurora Computer, which acts as the core interface connecting our hardware with the autonomy software, facilitating smooth integration with diverse vehicle types. Our tailor-made sensor suite, which includes FirstLight Lidar, advanced long-range radars, and high-definition cameras, collaborates effectively to create a three-dimensional view of the surroundings, providing the Aurora Driver with a comprehensive 360˚ awareness of its environment in real time. This sophisticated technology ensures that the Aurora Driver can adapt to varying driving conditions, enhancing safety and efficiency across all its applications.

Selenium stands as our premier product, representing an extensive full-stack autonomy system developed through over 500 person-years of dedicated work. This comprehensive suite of software for vehicles, designed to operate with a drive-by-wire interface and minimal computing resources, enables complete autonomy for land-based vehicles. Selenium is capable of converting any compatible vehicle platform into an autonomous unit, whether for prototype development or mass production. Comprised of a series of interoperable software components, it equips the vehicle to effectively address three fundamental inquiries: Where am I? What surrounds me? What actions should I take next? Encompassing a wide range of technologies, Selenium includes everything from low-level device drivers to calibration, four-modal localization, mapping, perception, machine learning, and planning, with its impressive vertical integration extending to user interfaces and data export systems. Notably, it operates independently of GPS or HD-Maps, although these can still be integrated when available, thus enhancing its versatility and application in diverse environments. With this innovative technology, we are redefining the future of autonomous vehicles.

Explore a versatile, scalable, and modular virtual driving simulator that facilitates testing across diverse objectives and performance metrics. The Ansys VRXPERIENCE Driving Simulator, powered by SCANeR™, allows users to create scenarios, evaluate software, analyze vehicle dynamics, and engage with sensors all within a virtual driving framework. This simulator provides a complete virtual driving laboratory for scrutinizing performance outcomes. The VRXPERIENCE Driving Simulator delivers an engaging simulated driving experience situated in a realistic environment. Conduct thorough safety evaluations that enable the simulation of millions of virtual miles in just a few days, significantly accelerating development by a factor of 1,000 when compared to traditional road testing methods. As the landscape of passenger vehicles evolves to become increasingly digital and autonomous, the demand for an array of advanced technologies, including various sensors like cameras, radar, and lidar, as well as sophisticated embedded software for automated control systems, continues to grow. This advancement underscores the necessity for innovative tools in vehicle development and testing.

Embotech has developed PRODRIVER to address the challenges of motion planning in autonomous or highly automated vehicles. This crucial element resides within the 'decision making' layer of the software architecture for autonomous driving. As a motion planner, PRODRIVER generates either drivable trajectories or direct actuator commands, such as steering, acceleration, and braking, based on the information it gathers from the surrounding environment. It achieves this by continuously predicting scenarios and solving optimization problems in real time. Key inputs for PRODRIVER include data regarding the navigable area, obstacles present, and a defined goal, which might be a specific location or an overarching objective like advancing along a path. The outputs produced can either be directly utilized to steer the vehicle or serve as set-points for the low-level controllers to maintain control. Additionally, the schematic diagram below illustrates how PRODRIVER fits into a typical software stack for autonomous vehicles, showcasing its integral role in ensuring safe and efficient navigation.

A robust application platform designed for autonomous driving systems utilizes diverse collective data to perceive the outside environment and make informed driving decisions independently. This system is supported by a scalable distributed computing infrastructure that leverages many-core processors alongside a variety of processor types to deliver the enhanced computational power essential for sophisticated information processing. Furthermore, the platform is designed to be adaptable, enabling software applications to operate across a range of hardware resources while maintaining real-time capabilities to guarantee both safety and reliability in autonomous operations. This versatility ensures that the system can evolve alongside advancements in technology and changing operational requirements.

Software transforms a vehicle into a smart machine, and the NVIDIA DRIVE™ Software stack serves as an open platform that enables developers to effectively create and implement a wide range of advanced autonomous vehicle applications, such as perception, localization and mapping, planning and control, driver monitoring, and natural language processing. At the core of this software ecosystem lies DRIVE OS, recognized as the first operating system designed for safe accelerated computing. This system incorporates NvMedia for processing sensor inputs, NVIDIA CUDA® libraries to facilitate efficient parallel computing, and NVIDIA TensorRT™ for real-time artificial intelligence inference, alongside numerous tools and modules that provide access to hardware capabilities. The NVIDIA DriveWorks® SDK builds on DRIVE OS, offering essential middleware functions that are critical for the development of autonomous vehicles. These functions include a sensor abstraction layer (SAL) and various sensor plugins, a data recorder, vehicle I/O support, and a framework for deep neural networks (DNN), all of which are vital for enhancing the performance and reliability of autonomous systems. With these powerful resources, developers are better equipped to innovate and push the boundaries of what's possible in automated transportation.

As a leading provider of automated platform solutions globally, we offer a highly adaptable R&D vehicle platform that can significantly enhance your projects related to advanced driver assistance systems (ADAS), algorithm innovation, and autonomous driving initiatives, or elevate your driverless technology endeavors to new heights. You can methodically define the specifications of your R&D vehicle platform, which includes everything from the vehicle itself to its sensors, software, and data storage components. When you choose to purchase a platform from AutonomouStuff, you gain not just a product but a partnership; an experienced project manager will be assigned to you, ensuring consistent communication and keeping you informed about platform advancements, while also guaranteeing that your requirements are fully addressed. This collaborative approach allows us to adapt to your evolving needs throughout the development process.

Aptiv is an international technology firm dedicated to creating safer, more sustainable, and interconnected solutions that pave the way for the future of transportation. The company concentrates on innovating and commercializing autonomous vehicles and systems that facilitate efficient point-to-point transportation through extensive fleets of self-driving cars, particularly in complex urban settings. With skilled teams located worldwide, from Boston to Singapore, Aptiv has emerged as the first organization to launch a commercial autonomous ride-hailing service in Las Vegas. They have successfully completed over 100,000 rides for the public, with an impressive 98% of passengers giving their self-driving experience a perfect 5-out-of-5 star rating. Aptiv is committed to the belief that their mobility innovations can significantly impact the world, and they continue to strive for advancements that enhance the quality of urban transport. By focusing on safety and efficiency, Aptiv aims to redefine how people navigate through cities in the future.

Cognata provides comprehensive simulation solutions for the entire product lifecycle aimed at developers of ADAS and autonomous vehicles. Their platform features automatically generated 3D environments along with realistic AI-driven traffic agents, making it ideal for AV simulation. Users benefit from a readily available library of scenarios and an intuitive authoring tool to create countless edge cases for autonomous vehicles. The system allows for seamless closed-loop testing with straightforward integration. It also offers customizable rules and visualization options tailored for autonomous simulation, ensuring that performance is both measured and monitored effectively. The digital twin-grade 3D environments accurately reflect roads, buildings, and infrastructure, down to the finest details such as lane markings, surface materials, and traffic signals. Designed to be globally accessible, the cloud-based architecture is both cost-effective and efficient from the outset. Closed-loop simulation and integration with CI/CD workflows can be achieved with just a few clicks. This flexibility empowers engineers to merge control, fusion, and vehicle models seamlessly with Cognata's comprehensive environment, scenario, and sensor modeling capabilities, enhancing the development process significantly. Furthermore, the platform's user-friendly interface ensures that even those with limited experience can navigate and utilize its powerful features effectively.

RT-LAB is OPAL's real-time simulation program that combines performance and enhanced user experience. RT-LAB is fully integrated with MATLAB/Simulink® and allows for the most complex model-based design to interact with real-world environments. It allows for complex simulations in real-time, including those in aerospace, power electronics and power systems. RT-LAB was first applied on the Canada Arm of the Canadian Space Agency almost 20 years ago. It has revolutionized systems engineering in space, on ground, and at sea. RT-LAB allows engineers and scientists to quickly develop new prototypes and perform the most rigorous testing required for new technologies.

Evaluating the current software systems in your automotive or robotic applications to determine a pathway toward commercialization is essential. This includes the migration of your current software to Apex.OS, as well as updating your operational environment to utilize a cutting-edge framework for continuous integration, testing, and delivery. Additionally, we offer comprehensive software architecture assessments and tailored recommendations. Our services also include functional safety training, empowering your team to develop a reliable and secure autonomous system. Apex.OS has been specifically designed as a variant of ROS 2, enhancing it to be real-time, dependable, and deterministic, making it suitable for applications that require high safety standards. The development of Apex.OS is conducted in alignment with forthcoming releases of ROS 2, ensuring that its APIs maintain compatibility with ROS 2. This platform leverages the capabilities of Eclipse Cyclone DDS™ and Eclipse iceoryx™, both of which are open-source and have demonstrated reliability in automotive and mission-critical distributed environments. By adopting these advanced solutions, you can enhance the efficiency and safety of your systems.

Momenta stands out as a premier company in the field of autonomous driving technology. Committed to transforming the landscape of mobility, Momenta delivers innovative solutions that facilitate various levels of driving autonomy. The company has established a distinctive and scalable roadmap towards achieving complete autonomous driving by integrating a data-centric methodology with the continuous refinement of algorithms, a strategy known as the “flywheel approach.” Additionally, Momenta employs a “two-leg” product strategy, which encompasses Mpilot, its highly autonomous driving solution ready for mass production, and MSD (Momenta Self-Driving), aimed at reaching full autonomy. Mpilot is specifically designed as a mass-production-ready software solution for automated driving in private vehicles. A key component of this offering is Mpilot X, which delivers a comprehensive and highly autonomous driving experience across all driving scenarios, featuring essential functionalities such as Mpilot Highway, Mpilot Urban, and Mpilot Parking. With a focus on innovation and user experience, Momenta is poised to lead the way in the future of transportation.

WaveFarer is an advanced radar simulation tool that effectively models multipath effects and scattering caused by nearby structures and vehicles, as well as crucial atmospheric impacts for frequencies that can exceed 100 GHz. Its diverse applications range from simulating automotive driving conditions to enhancing indoor sensor functionalities and analyzing far-field radar cross sections (RCS). The capabilities of WaveFarer facilitate prompt and precise evaluations of scenarios where radars are situated in close quarters with various structures, targets, and environmental features. Tailored to meet the needs of radar system simulation, WaveFarer aids in assessing the optimal placement of automotive radar sensors and interpreting target returns in virtual driving environments. Additionally, it provides valuable insights for surveillance radar applications by examining the RCS of targets and how different materials can influence measurement outcomes, ensuring a comprehensive understanding of radar interactions in various contexts. With its robust features, WaveFarer stands out as a vital tool for radar analysis and simulation across multiple domains.

DriveMod represents Cyngn's comprehensive solution for autonomous driving, seamlessly integrating with commonly available sensing and computing equipment to empower industrial vehicles with the ability to understand their environment, make informed decisions, and execute actions. This innovative system is designed to fit effortlessly into your current operations, allowing for straightforward programming of vehicle routes, loops, and missions. Essentially, anything a human driver can accomplish, DriveMod is capable of achieving as well. You can safely equip any commercially available vehicle with autonomous features through a simple retrofit process. The adaptability of DriveMod guarantees that diverse fleets operate efficiently, regardless of the vehicle's make or model. By leveraging advanced AI software alongside top-tier sensors and computing technology, DriveMod delivers performance that surpasses that of human operators. It can identify thousands of objects and evaluate numerous potential paths, efficiently determining the best route in mere fractions of a second, thereby revolutionizing the way vehicles navigate their surroundings. This remarkable capability positions DriveMod as a leading solution in the realm of autonomous vehicle technology.

We are advancing safe and dependable autonomous driving technology on a global scale. After logging millions of kilometers in complex scenarios during our autonomous road tests, we have established a robust groundwork for delivering scalable autonomous driving systems. In December 2018, Pony.ai pioneered the launch of its Robotaxi service, which allows passengers to summon self-driving vehicles using the PonyPilot+ App, initiating a new chapter in safe and enjoyable transportation. This service is currently operational in cities such as Guangzhou, Beijing, Irvine, CA, and Fremont, CA. Additionally, we have initiated autonomous mobility pilots in various locations throughout the United States and China, catering to hundreds of riders on a daily basis. These pilot programs have provided us with valuable insights and a solid technical and operational base to enhance and expand our offerings. United in our mission, we are addressing some of the most significant technological challenges in the mobility sector. Each day, we are making tangible advancements toward our vision of making autonomous mobility a universal reality. Our dedication to innovation drives us forward as we continue to strive for excellence in this evolving field.

Introducing a cutting-edge Driver and Fleet Safety Platform that utilizes innovative AI technology to influence driver behavior in real-time. This platform enables the anticipation of potential incidents before they occur, allowing for proactive measures that help reduce repair and maintenance expenses as well as fleet claims. By leveraging AI for immediate detection and incident reporting, you can effectively lower your injury, liability, and processing costs. The platform offers Driver Behavior Alerts that provide real-time coaching for your entire fleet, ensuring that all drivers receive timely feedback. For those requiring further safety training, the Nauto Manager-Led Coaching feature helps identify priority drivers and facilitates a structured coaching process. Moreover, by addressing issues like distracted and drowsy driving, you can significantly cut down on operational and insurance costs associated with fleet accidents. Additionally, the platform includes features that focus on protecting driver privacy while fostering transparency between fleet managers and drivers, ultimately enhancing trust and communication within the team. This comprehensive approach not only safeguards your fleet but also promotes a culture of safety and accountability among all drivers.

openpilot is an open-source program designed to enhance the driver assistance features found in many contemporary vehicles. It provides capabilities similar to Tesla's Autopilot for popular brands such as Toyota and Honda. Additionally, when activated, openpilot employs a camera-based system for driver monitoring that functions effectively in both daylight and darkness, ensuring the driver is reminded to keep their attention focused on the road ahead. This innovative software aims to make driving safer and more convenient for everyone.

Understanding how light travels and influences both product efficacy and human experience is essential for assessing performance and ensuring comfort, perception, and safety. Ansys Optics stands out by effectively simulating the optical characteristics of a system, assessing the ultimate lighting effects, and forecasting the repercussions of variations in lighting and materials on appearance and perceived quality, all within realistic scenarios. With this advanced visualization tool, you can conceptualize your product prior to its creation, thereby enhancing the virtual experience for customers. Allow Ansys Optics and its optical simulation capabilities to guide you towards optimal solutions for any project style. The software adeptly addresses intricate optical challenges while enhancing visual aesthetic quality. By integrating design and engineering into a seamless workflow, you can significantly boost the final quality of your product, creating true-to-life visualizations that resonate with users. Additionally, you can develop and evaluate virtual prototypes of a cockpit HMI within an immersive, real-time setting, providing a comprehensive understanding of user interaction. This process not only improves design outcomes but also fosters innovation in product development.

We collaborate to develop innovative solutions that help our clients transition to sustainable mobility while propelling the automotive industry forward. Fueled by the integration of cutting-edge technologies such as AI, IoT, and connected infrastructure, alongside digitization and electrification, we are swiftly moving toward a transformed future in automotive. This pivotal moment promises unparalleled freedom characterized by zero accidents, zero emissions, and no ownership, presenting a remarkable opportunity for society, the economy, and the environment. Our role is to empower automakers to push the boundaries of crucial automotive and mobility technology advancements. By merging the agility and dynamic nature of a startup with the extensive reach and resources of a larger enterprise, we are able to provide complex solutions rapidly, even in critical situations. As we navigate the era of autonomous driving, we focus on addressing both current and future software demands. Moreover, we emphasize the importance of creating distinct and highly personalized in-vehicle experiences that leverage intelligent technology. This approach not only enhances the driving experience but also aligns with the broader goals of sustainability and innovation in the automotive sector.

FORUM8's VR-Design Studio software is utilized by numerous research institutions, city planners, transportation agencies, and automotive manufacturers across the globe to develop highly immersive and lifelike representations of built environments. This interactive 3D VR simulation and modeling application allows users to manipulate three-dimensional spaces dynamically, conduct an unlimited number of driving simulation experiments, import and modify CAD files, construct and texture models, and automatically generate roads, tunnels, and bridges, facilitating the creation of various design options in real-time, whether online or offline. The finished models empower users to visualize and engage with the virtual environments they have built, which aids in assessing the potential environmental consequences of proposed projects, including their effects on pedestrian and vehicle traffic patterns. This collaborative approach enhances stakeholder engagement throughout the planning process, ensuring that diverse perspectives are considered. Ultimately, VR-Design Studio serves as a vital tool for fostering innovation and improving decision-making in urban development projects.

DeepRoute.ai is dedicated to delivering the most secure, intelligent, and dependable Level 4 full-stack autonomous driving solution. Our mission is to drive innovation in transportation by harnessing cutting-edge technology. To facilitate the commercialization of self-driving vehicles, DeepRoute.ai partners with OEMs and mobility service providers. By leveraging advancements in technical research and strategic collaborations, we aim to make self-driving technology more accessible to the general public. With sophisticated semantic mapping and a real-time positioning system, our planning and control algorithms can determine the best route in challenging road conditions, ensuring a driving experience that is not only safe but also comfortable and efficient. Our continued efforts focus on refining these technologies to enhance overall vehicle performance and reliability.

Simufact Additive is an advanced and adaptable software tool designed for simulating metal-based additive manufacturing techniques. Learn how to effectively utilize Simufact Additive to enhance your metal 3D printing and rapid prototyping efforts. By employing this software, you can greatly minimize the need for numerous test prints. Our objective is to furnish you with a solution that enables the production of additive manufacturing components with consistent dimensional accuracy on the first attempt. The multi-scale approach of Simufact Additive integrates the most effective methods into a singular software solution, ranging from a rapid mechanical technique to an intricate thermal-mechanical coupled transient analysis that offers exceptional precision in simulation results. Users can select the most suitable simulation method according to their specific requirements. Simufact Additive stands out as a specialized software solution focused solely on the simulation of additive manufacturing processes, which is evident in its streamlined operating framework. This focused approach not only enhances usability but also improves overall efficiency in the design and production workflow.

We are developing Hivemind, an AI pilot that empowers swarms of drones and aircraft to function independently, without the need for GPS, communication systems, or direct human oversight. Our aim is to enhance the safety of both military personnel and civilians through advanced intelligent systems. Unlike simple pre-programmed behaviors and fixed waypoints, Hivemind mimics human pilots by interpreting and responding to the complexities of the battlefield, making real-time decisions without relying on GPS or prior instructions. This groundbreaking technology is the first fully autonomous AI pilot to be deployed in combat operations since 2018. Hivemind's capabilities extend from conducting indoor reconnaissance with quadcopters to facilitating coordinated air defense missions with fixed-wing drones and engaging in F-16 dogfights. As it learns and autonomously carries out a variety of missions, Hivemind represents a pioneering evolution in aerial warfare, ensuring sustained aerial superiority across land, air, and sea, especially in high-stakes tactical environments. This innovative approach marks a significant advancement in military technology and operational efficiency.

Introducing a versatile and robust Computer Generated Forces (CGF) platform that enhances synthetic environments with dynamic urban, battlefield, maritime, and aerial interactions. VR-Engage empowers users to embody a variety of roles, whether as a first-person human character, a ground vehicle operator, a gunner, a commander, or as the pilot of either a fixed-wing aircraft or a helicopter. It delivers game-like visual fidelity through a high-performance image generator, ensuring a visually engaging experience. Developed by experts in modeling and simulation, it is tailored for an array of training and simulation initiatives. The platform features sensors that accurately simulate the physics of light across various wavelengths, enabling the representation of electro-optical, night-vision, and infrared capabilities. Additionally, it facilitates applications that allow users to model, visualize, and be actively involved in comprehensive whole-earth multi-domain simulations. This innovative tool offers multi-domain computer-generated forces and serves as a multi-role virtual simulator. With its advanced imaging capabilities, including EO, IR, and NVG sensors, it supports synthetic aperture radar simulations, making it an invaluable asset for modern training environments. By integrating cutting-edge technology and realistic simulations, VR-Engage transforms the landscape of virtual training and operational readiness.

MapleSim serves as a sophisticated modeling solution that spans from the use of digital twins for virtual commissioning to creating system-level models for intricate engineering design endeavors, enabling significant reductions in development time and costs while effectively addressing real-world performance challenges. By enhancing control code rather than relying on hardware modifications, you can eliminate vibrations and pinpoint the underlying causes of performance issues through in-depth simulation insights. This powerful tool allows for the validation of design performance prior to moving on to physical prototypes. Leveraging cutting-edge methods, MapleSim not only drastically shortens model development time but also enhances understanding of system behavior and facilitates rapid, high-fidelity simulations. As your simulation requirements evolve, you can easily scale and connect your models. With its adaptable modeling language, you can extend your designs further by integrating components across various domains within a virtual prototype, tackling even the most difficult machine performance challenges with confidence. Overall, MapleSim empowers engineers to innovate with efficiency and precision, ensuring that their designs meet the rigorous demands of modern engineering projects.

Combining visual paradigm and code generation makes it easier than ever to create new models, define bespoke behavior, assign plans to specific entities, and create all kinds of scenarios, from the simplest test-bed to the most complicated distributed trainer. vsTASKER is capable of displaying, animating, and visualizing any size or complexity of scenarios. Simulator creation is simple thanks to the graphical paradigm and automatic C++ codes generation. vsTASKER is not limited to any one field. vsTASKER offers unprecedented tools to customize your synthetic environment. This includes everything from a simple 2D map to the most complicated 3D game-like environment. Once you understand the concepts, it is easy to test a scenario or create a system.

VPS-MICRO estimates the lifespan of manufactured components by modeling the characteristics of their constituent materials. This innovative software is founded on three fundamental principles. First, durability is influenced not just by the stress applied but also by how the material responds to that stress. Second, the materials used in creating intricate components and systems often exhibit non-uniform properties. Lastly, computational resources are more cost-effective and quicker compared to traditional physical testing or prototyping methods. Building upon these concepts, VEXTEC’s VPS-MICRO® serves as a sophisticated computational tool that effectively considers a material’s response to imposed stress, its inherent variability, various damage mechanisms, geometric factors, and the operational conditions over time. Consequently, it produces a three-dimensional, time-sensitive simulation that reliably mirrors the real-world physics behind the onset, progression, and reasons for material damage, offering valuable insights for engineers and designers alike. This capability not only enhances understanding but also aids in improving the design and reliability of future products.

EchoTech.ai is an autonomous platform leveraging it's novel CVAE Transformer model for controlling indoor and outdoor robots in highly dynamic environments. It fully integrates perception and planning into one AI stack that can be applied to any robotic setup.

MASTA serves as a comprehensive collection of CAE tools designed for the creation, simulation, and analysis of driveline systems, spanning from initial concepts to final production. It allows for the precise and swift development of transmission systems, whether starting from scratch or utilizing existing designs. Users gain an in-depth understanding of how mechanical components will perform throughout their lifecycle, particularly under various customer duty cycles. This software enables the early identification of potential failure modes during the product development phase, facilitating quicker adjustments to design. Key performance metrics can be predicted efficiently during the design process, allowing for extensive evaluation of modifications to transmission configurations, component choices, materials, and manufacturing techniques within a simulated environment. Full system simulations are feasible for any transmission or driveline setup, and integrating manufacturing simulations during design helps to minimize both development time and costs. The unique and modern framework of MASTA, developed entirely in C#, enhances its stability and compatibility with current and future operating systems. Overall, MASTA stands out as a robust solution that addresses the evolving needs of driveline design and analysis.

ProModel is a cutting-edge discrete-event simulation tool designed to facilitate the planning, design, and enhancement of both new and existing systems in manufacturing, logistics, and various operational areas. This technology enables users to create accurate representations of real-world processes, capturing their natural variability and interconnectedness, which is essential for effective predictive analysis of potential modifications. By focusing on key performance indicators, you can optimize your system's performance. The software allows for the creation of an animated, interactive model of your business environment derived from CAD files, process maps, or Process Simulator models, providing a clear visualization of processes and policies in motion. This visualization aids in brainstorming sessions, where you can explore potential adjustments and devise scenarios to test improvements aimed at meeting business goals. Additionally, you have the capability to run multiple scenarios concurrently and analyze their outcomes using the Output Viewer, which is built on advanced Microsoft® WPF technology, enhancing the decision-making process. This comprehensive approach to simulation not only aids in immediate problem-solving but also fosters long-term strategic planning and innovation.

ProModel is an advanced discrete-event simulation tool that facilitates the planning, design, and enhancement of both new and existing manufacturing, logistics, and various operational systems. It allows you to accurately model real-world processes along with their natural variability and interdependencies, enabling thorough predictive analyses of potential modifications. By focusing on your key performance indicators, you can optimize your system effectively. You can generate a dynamic, animated model of your operational environment using CAD files, process maps, or Process Simulator models. This visualization helps you to clearly observe and comprehend the functioning of current processes and policies. Additionally, you can utilize the model for brainstorming sessions to pinpoint possible changes and formulate scenarios to evaluate improvements aimed at meeting your business goals. Each scenario can be executed independently, allowing you to contrast their outcomes using the Output Viewer, which is built on the latest Microsoft® WPF technology. This comprehensive approach ensures that your operational decisions are data-driven and strategically sound.

Simcenter STAR-CCM+ is an advanced multiphysics computational fluid dynamics (CFD) software that enables the simulation of products in conditions that mimic real-life scenarios. This software stands out by incorporating automated design exploration and optimization into the CFD toolkit accessible to engineers. With a unified platform that encompasses CAD, automated meshing, multiphysics CFD capabilities, and advanced postprocessing, it empowers engineers to thoroughly investigate the entire design landscape, facilitating quicker and more informed design choices. By leveraging the insights offered by Simcenter STAR-CCM+, the design process becomes more strategic, ultimately resulting in innovative products that surpass customer expectations. Enhancing a battery's performance across its complete operating spectrum is a complex endeavor that necessitates the concurrent optimization of various parameters. In this context, Simcenter delivers a comprehensive simulation environment tailored for the analysis and design of electrochemical systems, fostering a deeper understanding of their behavior. This holistic approach allows engineers to tackle intricate challenges with confidence and precision.

Hardware-in-the-loop simulation serves as a reliable and economical method for conducting tests on physical equipment. It is particularly well-suited for validating designs and assessing intricate systems like those found in vehicles, aircraft, missiles, satellites, rockets, and trains. Instead of testing in real-world settings, evaluations are carried out within a virtual environment. A significant portion of the testing framework is substituted with mathematical models, enabling the integration of various components into a closed-loop system. This approach results in tests that are not only repeatable and organized but also expedited and more dependable. Current hardware-in-the-loop simulation technologies include the SIMulation Workbench real-time modeling platform, which operates on the RedHawk Linux OS. With SIMulation Workbench, users benefit from an all-encompassing framework that simplifies the development and execution of real-time hardware-in-the-loop simulations. The ability to simulate in a controlled environment enhances the accuracy and efficiency of the testing process, making it an invaluable tool in modern engineering.

Originating from OpenFlight, which is the most commonly accepted standard in the industry for 3D simulation models, Creator serves as the pioneering software for developing optimized 3D models intended for virtual environments. Specifically crafted for simulation purposes, Creator stands as the benchmark software in generating optimized 3D models suitable for real-time virtual scenarios. Content creators consistently face the challenge of creating an increasing number of models that exhibit higher detail, enhanced realism, and superior performance. Equipped with a comprehensive array of tools, content creators can design models from the ground up, modify or import pre-existing ones, and improve objects for utilization in simulations that rely on sensors. With complete authority over the modeling process, Creator enables users to swiftly produce highly optimized and physically accurate 3D models with various detail levels. This software offers full interactive control over your models, from the database level right down to individual vertex attributes, allowing for more rapid development and unprecedented control in the modeling process. As a result, users can achieve greater efficiency and creativity in their projects, ultimately leading to richer virtual experiences.

Simcad Pro allows you to visualize, analyze, and optimize process flow systems within an interactive simulation modeling environment. Optimize, plan, optimize, and reorganize processes and procedures, while optimizing layouts, automation, scheduling, and facility improvement. Simcad Pro integrates historical and live data to offer the best simulation tool on the marketplace. Multiple industries can use these applications, including manufacturing, automation and logistics, distribution warehouse, food & beverage, and services. Multi-Threaded – 64 bit Engine Simulator-on-the-fly - You can make real-time modifications to the model as the simulation is running. You can animated the model in 3D, 2D, and VR using Ray Tracing, light effects, and shadows. Singular model building environment. Smart, Spatially Aware Agents. Sub-Flows. Collision Avoidance. Real-Time Connectivity. Spaghetti Diagrams and Congestion Analysis, Heat Maps Efficiency, OEE. Extensive reporting and analysis tools. Scenario Analyzer.

HAULSIM connects fleet assets, mining operations plans and people to create a 'digital twin of any mining operation - underground or open pit - that accurately represents any mine site haulage operations. HAULSIM, which has a 3-D Discrete Event Simulation engine (DES) at its core, is the only mining simulator software that can quantify changes as the models reflect all aspects of a mine site, including variability, interactions, and dependencies. Real data can be used to make decisions about a mine haulage system. This allows the user to test multiple 'whys' and 'what if' scenarios in order to reduce operating costs, optimise performance, and ensure operational safety and efficiency.

Utilizing sophisticated analytics and machine learning techniques is essential for minimizing operational expenses and mitigating risks. A fundamental component of the digital transformation landscape, digital twins provide precise virtual representations of tangible assets, systems, and objects to enhance productivity, optimize processes, and drive profitability. Typically, a digital twin is regarded as a software model of a physical asset or system that is tailored to identify, avert, predict, and refine processes through real-time analytics, ultimately delivering significant business advantages. At GE Digital, our emphasis lies in leveraging digital twin software to assist our clients in three primary domains: Asset, Network, and Process. By effectively monitoring, simulating, and managing an asset, process, or network, organizations can significantly elevate system performance. Furthermore, it is crucial to ensure the well-being and safety of employees and the environment while achieving business goals by minimizing incidents related to assets and processes, as well as preventing unintended downtimes, thereby fostering a more resilient operational framework. The integration of digital twin technology not only enhances efficiency but also paves the way for innovation across various sectors.

NODAR has revolutionized stereo vision through innovative algorithms that allow standard cameras to achieve extraordinary levels of 3D range, accuracy, and dependability. This cutting-edge 3D vision technology is meticulously designed to extend the boundaries of what can be accomplished in both automotive and industrial sectors. In contexts such as passenger vehicles, self-driving trains, and security monitoring, the availability of dependable 3D data is vital for ensuring safety and optimal performance. NODAR excels in providing top-tier 3D spatial information for autonomous systems spanning various industries. The shift toward autonomy is reshaping virtually every facet of modern life, enhancing productivity, offering convenience, and improving safety standards. Operating in outdoor environments often presents challenges, as automated machinery must function continuously in adverse conditions marked by harsh weather, strong glare, dust, and significant vibrations. NODAR's innovative technology and products furnish unmatched data quality, precision, and reliability, which are essential for safety-critical applications reliant on accurate 3D information. This commitment to excellence positions NODAR as a leader in providing solutions that meet the evolving needs of various sectors.

Geminus harnesses the capabilities of predictive intelligence by blending artificial intelligence with physics through innovative multi-fidelity modeling techniques. Our pioneering AI, based on first principles, incorporates the physical limitations of the real world into robust predictive frameworks. The Geminus platform adeptly utilizes limited data to swiftly evaluate the dynamics of intricate industrial systems, enabling precise forecasts regarding the effects of key business decisions. By integrating models and data, Geminus's multi-fidelity strategy allows for the rapid creation of highly accurate surrogates, achieving speeds over 1,000 times faster than conventional simulations. Unique to Geminus is its ability to effectively measure model uncertainty, ensuring that you can trust your predictions and the strategic choices they inform. Additionally, Geminus significantly reduces the time taken to develop models from months to mere hours, while demanding far less data and computational resources compared to traditional AI or simulation approaches. The models generated through Geminus are imbued with insights derived from the actual behaviors of real-world systems, providing a deeper understanding that enhances decision-making. This innovative approach not only streamlines the modeling process but also empowers organizations to adapt swiftly to changing environments.

The future connected car experience is thin client applications and cloud frameworks that enable consumer commerce, in-car multimedia applications, mobile apps, enterprise services, and consumer commerce. Multi-media apps, AI-driven contextual recommendations and content delivery are all possible with the Xevo Journeyware platform. This platform is available for cloud, car, mobile devices. It also offers new monetization opportunities for automakers. The components of the Journeyware connected car platform can be found in more than 25,000,000 vehicles around the world. Xevo Context recommendation engine uses Journeyware's automotive AI technology. It provides a dynamic, hyper-contextual experience. These highly-relevant content are delivered as suggestions and offers based upon drivers' preferences, past behaviors, vehicle location, current route and more.

Monitor your vehicles easily Make your driver's commute easier. Optimize your fleet usage. Our team is available to help you. We can help you organize your vehicle fleet. We offer a full range of mobility solutions, including onboard telematics and online supervision platforms. It's never been easier to manage a mobility service. Unlimited mobility for your drivers. Innovative all-inclusive service. For corporate or P2P use.

Utilizing the 3DEXPERIENCE® platform, SIMULIA provides advanced simulation tools that help users better understand and analyze our environment. The applications offered by SIMULIA streamline the assessment of material and product performance, reliability, and safety prior to the development of physical prototypes. These tools deliver robust simulations for various scenarios such as structures, fluids, multibody interactions, and electromagnetics, all while being seamlessly integrated with product data, even for complex assemblies. The comprehensive technology for modeling, simulation, and visualization is fully embedded within the 3DEXPERIENCE platform, which includes capabilities for process capture, publication, and reuse. By allowing simulation data, outcomes, and intellectual property to be linked to the platform, customers can maximize their current investment in simulation capabilities, transforming these assets into valuable resources that foster innovation for all users involved. This integration not only enhances workflow efficiency but also encourages collaborative advancements across different teams and projects.

Develop and test your system using Simulink prior to implementing it on actual hardware. This allows you to explore and apply innovative designs that might typically be overlooked, all without the need to engage in C, C++, or HDL programming. By modeling both the system you are testing and the physical plant, you can investigate a broader design landscape. Your entire team can benefit from a unified multi-domain platform that simulates the interactions of all system components. You can also package and share your simulation results with team members, suppliers, and clients for collaborative feedback. This approach helps minimize costly prototypes by allowing you to experiment with scenarios that might otherwise be deemed too risky or impractical. Use hardware-in-the-loop testing and rapid prototyping to confirm your design's effectiveness. With this method, you can ensure traceability throughout the process, from requirements gathering to design and code development. Rather than manually crafting thousands of lines of code, you can automatically generate high-quality C and HDL code that mirrors your original Simulink model. Finally, deploy this code directly onto your embedded processor or FPGA/ASIC for seamless integration and operation. This comprehensive approach not only streamlines development but also enhances overall project efficiency.

Working Model stands out as the top-selling motion simulation software globally. Validate your designs using robust analytical tools at your disposal. The rapid "run-analyze-refine" process enables you to fine-tune your designs prior to creating any physical prototypes, significantly minimizing the need for such prototypes. You maintain complete oversight of the simulation environment. Build, execute, and enhance simulations swiftly with ready-made objects and constraints. You can run, halt, reset, single-step, or pause the simulation whenever necessary. Evaluate your most recent design by measuring various factors like force, torque, and acceleration acting on any component. Outputs can be viewed as vectors or numerical data, presented in either English or metric units. Additionally, you can import your 2D CAD drawings in DXF format seamlessly. Values can be input from equations, sliders, and DDE links to both MATLAB and Excel. Construct bodies and define their mass properties, initial velocity, and electrostatic charge among other parameters. You have the option to run or modify scripts to enhance simulations, document models, and much more. Furthermore, you can create compelling presentations by incorporating images, elevating the overall impact of your work. This comprehensive tool transforms the way designers and engineers approach motion simulation.