빛의 전파와 그 영향을 모델링하는 것은 제품 성능 및 시각적 편의성, 인지, 안전성을 측정하는 데 매우 중요합니다. Ansys Optics는 시스템의 광학적 성능을 시뮬레이션하고 최종 조명 효과를 평가하며 조명 및 물질 변화가 외관과 품질 인식에 미치는 영향을 모두 실제 조건에서 예측 및 검증합니다. 실 제품이 만들어지기 전에 시각화하여 가상으로 경험해 보십시오.
빛의 전파와 그 영향을 모델링하는 것은 제품 성능 및 시각적 편의성, 인지, 안전성을 측정하는 데 매우 중요합니다. Ansys Optics는 시스템의 광학적 성능을 시뮬레이션하고 최종 조명 효과를 평가하며 조명 및 물질 변화가 외관과 품질 인식에 미치는 영향을 모두 실제 조건에서 예측 및 검증합니다. 실 제품이 만들어지기 전에 시각화하여 가상으로 경험해 보십시오.
Ansys Optics & 광학 시뮬레이션 소프트웨어로 프로젝트 스타일 제한 없이 최상의 솔루션을 얻을 수 있습니다. 이 소프트웨어는 복잡한 광학 이슈를 쉽게 해결하고 시각적 외관을 개선하여 제품 품질을 향상할 수 있습니다. 실제와 같은 시각적 경험으로 제품의 품질을 크게 개선하고 설계 및 엔지니어링 프로세스를 하나의 연결된 워크플로로 결합합니다. 실시간 몰입형 가상 현실 환경에서 조종석 HMI의 가상 프로토타입을 준비 및 평가합니다. 또는 Ansys Optics에서 제공하는 다양한 자율주행 차량의 광학 센서를 시뮬레이션합니다.
JULY 2023
With the 2023 R2 release, Ansys Optics delivers innovation to our industry-leading software tools, addressing our customers' needs for state-of-the-artoptical design and workflow optimization. We're helping customers save time and money while enabling them to bring products to market faster.
For Ansys Optics, 2023 R2 adds the Optics Launcher with self-service trials,which provides our customers with a launch pad for all their Ansys Optics applications.
Ansys Optics allows you to accurately and robustly simulate your optical and optically enabled products while also allowing you to visualize future products. Conduct precise analysis, optimization, and tolerancing of your systems to ensure that these systems are designed for manufacture and can be built at scale and brought to market quickly. Leverage physics-based light simulation to understand how your products look under real-world lighting and usage conditions.
Ansys physics-based imaging, illumination and optical design simulation software streamlines the design process to better understand how your product will perform under real-world lighting and usage conditions.
When customers evaluate your products, the overall look and details can make the difference. Simulate light interactions with materials so you can see how your product will appear in real-world conditions, letting you see eye to eye with your customers and making decisions.
Optical sensors are the eyes of any intelligent system. Assess raw signals from camera and lidar systems in their operating environments. Post-process simulated data to optimize sensor layouts on vehicles in dynamic driving conditions.
Use real-time, interactive and immersive environments to experience your prototype in virtual reality on a 1:1 scale.
Simulate, analyze, optimize, and tolerance your optical designs based on precise knowledge of light paths and conditions. Design high-confidence virtual prototypes that you can thoroughly analyze before manufacturing.
Design complex Optical surface, Optical Lens with rectangular, circular or freestyle grid for automotive lighting application, Design LightGuide for thin & homogeneous appearance
Quickly analyze the impacts of structural and thermal loads with our powerful Structural, Thermal Analysis & Results (STAR) technology. Simplify and optimize workflows between finite element analysis (FEA) packages and your OpticStudio optical design.
Get optical designs to market faster at lower costs through easy cross-team collaboration. Convert complete optical designs into CAD on the Creo Parametric platform. Analyze optical performance impacts of mechanical packaging, and easily export CAD drawings to manufacturing.
Streamline optomechanical packaging for your products without losing pace or sacrificing optical performance. Design better products faster with early insights into tolerancing and manufacturability.
Join us for an in-depth presentation on optical couplingsimulation methodologies, multi-scale simulation workflows, and the design and optimization of chip-to-chip and chip-to-fiber couplers. Led by senior application engineers anda guest speaker from MIT, this webinar will equip you with the knowledge and skills to design high-performance and manufacturable optical couplers.
This webinar is tailored to engineers to validate optical systems, focusing on the use case of a smart band. The webinar aims to provide insightsinto how to effectively validate the optical system of a smart band with a heart rate sensor, explicitly addressing the challenges associated with non-standard wearing methods.
Join us to learn how to model laser beam propagation and simulate the structural deformation caused by mechanical stress and thermo-elastic effects using Ansys Zemax OpticStudio.
Join us as we demonstrate how to model the human eye and design multifocal contact lensesfor Presbyopia correction using the eye model.
Join us to learn how Ansys tools model docking missions and simulate the sensor responses for cameras and lidars, leveraging our GPU solvers.
PanDao helps identify the optimal fabrication chain at any point during the optical design process. In collaboration with Ansys Zemax OpticStudio, real-time producibility analyses of your optical designs are achievable with one click. In this webinar, we'll discuss how to export lens data to PanDao and showcase how PanDao determines the optimal fabrication chain at the minimum cost.
Join our optical experts as they showcase how to address the design and analysis challenges of the AR waveguide optical system, leveraging the most effective methods, solvers, and workflows.
Join us to learn how the complete Ansys Optronic solution consolidates all these system aspects virtually: electronic, optical, and mechanical, from design and validation to system integration.
As Heads Up Displays (HUDs) become more prevalent in the automotive industry, designers and engineers are interested in simulating and integrating thesesystems with autonomous driving. This workflow explores the advantages of integrating optical tools with other physics solvers in an automated process. The results are a streamlined workflow, realistic simulation, better analytics, andreduced error.
Join our upcoming webinar as we introduce two new products, Ansys Zemax OpticStudio, and Ansys Zemax OpticsBuilder, to design and simulate an end-to-end optical system. We'll also show the enterprise edition thatincludes STAR (Structural, Thermal, Analysis, and Results) technology to integrate the impacts of structural and thermal loads on optical designsbased on finite element analysis(FEA) data sets.
Learn about the latest updates for Ansys Zemax OpticStudio and Ansys Zemax OpticsBuilder.This 2023 R1 includes the Composite Surface (CS) property, allowing users to add the sag of one surface to the next surface and the change in optical performance due to surface deformations and rigid body motions.