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An Integrated Simulation Platform to Validate Autonomous Vehicle Safety

Autonomous driving systems rely upon sensors and embedded software for localization, perception, motion planning and execution. Autonomous driving systems can only be released to the public after developers have demonstrated their ability to achieve extremely high levels of safety. Today’s hands-off autonomous driving systems are largely built with deep learning algorithms that can be trained to make the right decision for nearly every driving situation. These systems, however, lack the detailed requirements and architecture that have been used up to now to validate safety-critical software, such as that which controls commercial airliners. Road testing is clearly an essential part of the development process, but billions of miles of road testing would be required to validate the safety of autonomous driving systems and software. Simulation is needed to make verification and validation of the operation of autonomous vehicles a practical endeavor.

Author: Type: White Paper Date:
Product Name: ANSYS VRXPERIENCE, ANSYS SPEOS
Product Category: Optical
Industry: Automotive
Sub Industry: Cars and Light Trucks


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Managing Changing Quality Needs in Automotive and Consumer Product Industries

As user experience and shared brand or product perceptions effectively dictate purchasing decisions, exceeding customers’ expectations in a cost-effective manner is an imperative for manufacturers. Because design trends change so rapidly, a lengthy development cycle may produce outdated products. To optimize time to market, product stakeholders must improve their efficiency in both product and process design to deliver first-time-right products. New sophisticated quality and visualization tools can help predict manufacturing variation and its impact on perceived quality at an earlier stage, when issues can be addressed with minimal cost. In this white paper, discover how preliminary quality assessment is becoming a must-have in current design processes — for a more streamlined product development lifecycle, with a shortened lead time from concept to production.

Author: Ansys Type: White Paper Date:
Product Name: ANSYS VRXPERIENCE
Product Category: Optical
Industry: Automotive, Consumer Products


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How to Design, Optimize and Validate Safe Laser Headlamps Through Virtual Experimentation

Today, car manufacturers and their suppliers are facing a real challenge: designing attractive laser headlamps that will illuminate the road without blinding drivers and pedestrians. Validating the safety of these headlight systems using physical prototypes would require millions of miles of night-driving testing and cost-prohibitive investment.

Simulation is the only option for adequately assessing how a headlight design will perform under numerous road, weather, lighting conditions. Engineers can perform virtual tests in greater numbers and at faster speeds, while reducing development time and prototyping costs.

Author: Ansys Type: White Paper Date:
Product Name: ANSYS SPEOS
Product Category: Optical
Industry: Automotive
Sub Industry: Cars and Light Trucks


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Is Physics-based Virtual Prototyping the Future of Automotive Interior Lighting Validation?

Physics-based virtual prototyping allows car interior designers to predict potential lighting issues — and avoid them. Accounting for the interaction between light, materials and human perception early in the development process eliminates costly design fixes downstream.

Author: Ansys Type: White Paper Date:
Product Name: ANSYS SPEOS
Product Category: Optical
Industry: Automotive
Sub Industry: Cars and Light Trucks


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Revealing the True Face of Titan With Physical Simulation

Space travel to Titan, 1.35 billion kilometers from Earth, is now possible — through simulation. Using data from the Huygens probe and Cassini spacecraft flybys, scientists simulated the surface of Saturn’s largest moon with the help of ANSYS SPEOS optical software. They created 360-degree visualizations from a virtual visitor’s point of view. This white paper describes their data-to-photorealism translation process.

Author: Ansys Type: White Paper Date:
Product Name: ANSYS SPEOS
Product Category: Optical
Industry: Aerospace and Defense


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Towards Smarter Aircraft Interfaces With Virtual Reality

This white paper explores the i-VISION project, which partners academia, aerospace and ANSYS to develop virtual reality technologies to accelerate the design of “human-centered” aircraft cockpits. These technologies are also applicable to other transportation industries that face the same issues and questions related to cabin design and the interaction between the cabin interface, environmental conditions and human operator.

Author: Ansys Type: White Paper Date:
Product Name: ANSYS VRXPERIENCE
Product Category: Optical
Industry: Aerospace and Defense
Sub Industry: Aircraft


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Simulation of the Infrared Views of the Upper Port VIS/IR Imaging System of Iter - White Paper

In fusion devices, infrared (IR) imaging systems are used for measuring the surface temperature of the Plasma Facing Components (PFCs) exposed to high heat flux (~10 to20 MW.m-2). Because in future fusion devices (such as ITER) the carbon PFCs will be replaced by metallic ones with low emissivity, the surface temperature measurement will be much more complicated, requiring optical sensors. Read this white paper to learn the results of realistic photonic simulations we performed using ANSYS SPEOS to predict the global response of the complete system from the sources to the sensor, taking into account the 3D geometry of the ITER environment (tokamak).

Author: Type: White Paper Date:
Product Name: ANSYS SPEOS
Product Category: Optical
Industry: Energy
Sub Industry: Nuclear, Nuclear Energy


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