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光学仿真和设计软件

对光传播及其影响进行建模对于测量产品性能和人体舒适度、感知和安全性至关重要。Ansys Optics以独特的方式对系统的光学性能开展仿真,评估最终照明效果,预测和验证光照和材料变化对观感和感知质量的影响,这一切都在真实条件下进行的。在产品出现之前实现产品可视化,以提供最终的虚拟客户体验

光学仿真的新视角

高级功能

让Ansys Optics和光学仿真软件为您提供最佳的解决方案,无论您的项目是何种类型。该软件可轻松解决复杂的光学问题,并改进视觉外观以获得感知质量。通过逼真的视觉体验显著提高最终产品质量,并将设计和工程流程整合到统一的互联式工作流程中。在实时沉浸式环境中准备和评估驾驶舱HMI的虚拟原型。或者,利用Ansys Optics提供的多种功能,仿真自动驾驶汽车上的光学传感器。


光学镜头

Optics 

Ansys continues to push the innovation envelope to deliver accurate, high-performance optical design and simulation capabilities for optical engineers and scientists.

Speed up design and improve accuracy with the latest Ansys Speos release. The 2023 R1 release delivers strong enhancements for productivity to prepare your optical design. You can now easily apply Texture mapping to simulate textured material such as brush metal, grained plastic, or other advanced material. Speos 2023 R1 also offers a new Source Pattern to handle hundreds of LEDs for easier setup for multiple LEDs system such as Automotive Rearlamp or LED Lighting. To analyze your results, you can now take advantage of virtual Lighting Animation to control the power of each light source to create, measure and visualize dynamic animation. Speos GPU solver is now fully released with same accuracy of Speos CPU but drastically faster, turning hours of simulation to minutes! Speos 2023 R1 also introduces a connection to spreadsheet to define Optical Lens or Optical Surface for lighting application. User can control each facets parameters independently and eventually with formula. Speos 2023 R1 offers new capabilities for stray light analysis, curved display support, LiDAR, advanced Optical Design for lighting applications.

The 2023 R1 release of Ansys Zemax OpticStudio allows you to take your Augmented Reality (AR) and Head-Up Display (HUD) designs farther than ever before. Simulate and optimize complex 2D gratings used in advanced AR and HUD systems by dynamically linking OpticStudio to the Lumerical RCWA solver. Design great AR optical systems through a better understanding of ray behavior in exit pupil expanders and other complex imaging systems with the ability to analyze and visualize single rays in non-sequential mode without affecting your original system. In addition, this release allows you to easily create and tolerance complex surface geometries in sequential mode, which includes directly tolerancing irregularities on sag-based surfaces and stacked composite surfaces without requiring workarounds. With the Structural Thermal Analysis and Results (STAR) functionality in Ansys Zemax OpticStudio Enterprise, you can now enable or disable rigid body motion (RBM) impacts independent of surface deformation effects for more granular control during analysis. The speed of ray aiming has also been significantly improved when used with STAR, allowing for robust STOP analysis of wide-angle systems.

The 2023 R1 release of Ansys Zemax OpticsBuilder introduces equation-driven surfaces for common surface types, which allow you to expose the equations that define the optical geometry for those surface types and tie those equations to the part file for your design. As a result, you can now store the optical parts in a product data manager (PDM) and recall the equations later. Improvements have also been made to allow you to design mechanical edges on your optics with better accuracy and to add fold mirrors to your optomechanical system with more confidence.

Speos faster simulations gpu compute

Webinars

Ansys

Ansys 2023 R1:Ansys Zemax OpticStudio和OpticsBuilder新功能

在即将举行的网络研讨会中了解 Ansys Zemax OpticStudio和Ansys Zemax OpticsBuilder的最新更新和功能。此2023 R1发行版包括复合曲面(CS)属性,允许用户将一个曲面的弛垂添加到下一个曲面,以及添加由于曲面变形和刚体运动而导致的光学性能变化。

Ansys

Ansys 2023 R1:Ansys Speos新功能

Ansys Speos持续开拓创新前沿,为光学设计师提供精准的高性能仿真功能。2023 R1版本提供的强大功能可加快求解速度,提高仿真准确度,提升与其它Ansys产品的互操作性。

光学仿真和设计软件产品

 

功能

Ansys Optics可预测系统的照明和光学性能,同时允许您可视化未来产品。体验基于物理的光仿真,了解您的产品在真实照明和使用条件下的外观。虚拟原型设计和交互性的结合有助于安全地优化自动驾驶汽车的光学传感器布局

Ansys基于物理的成像、照明和光学设计仿真软件可简化设计流程,以便更好地了解您的产品在实际照明和使用条件下的性能。

当客户评估您的产品时,整体外观和细节会产生重大影响。仿真光线与材料的相互作用,以便您可以查看产品在真实条件下的外观,从而让您与客户达成一致意见并做出决策。 

光学传感器是任何智能系统的眼睛。评估摄像头和激光雷达系统在其工作环境中的原始信号。后处理仿真数据,以优化动态驾驶条件下车辆上的传感器布局。 

使用实时、交互式和沉浸式环境,以1:1的比例在虚拟现实中体验原型。 

Autonomous vehicle sensor simulation including lidar, radar and camera design

自动驾驶传感器开发

Ansys提供综合全面的自动驾驶车辆传感器仿真功能,包括激光雷达、雷达和摄像头的设计和开发。

车辆外观

车辆外观

Ansys仿真使您能够通过降低阻力、减轻重量并提高燃油效率和增加续航里程来优化汽车外观。

车辆内饰

车辆内饰

了解Ansys仿真如何优化车辆内部设计,从舒适性和噪声到人机界面。

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心血管

新型心血管医疗设备和植入物的快速、可靠的创新与测试

Autonomous System Validation

自动驾驶系统验证

基于模型的功能安全和信息安全解决方案可加速自动驾驶系统的开发和认证。

航空航天

Ansys仿真解决方案可显著降低航空业所需的产品生命周期成本,同时加速技术创新,助您取得未来的成功。

夜灯玻璃透镜

案例研究

自动驾驶传感器

Ansys + CEVT

CEVT的光学工程师依靠Ansys基于物理的仿真来应对和克服设计挑战。

Ansys 案例研究 飞机照明

Ansys + 赛峰航空系统公司

赛峰航空系统公司借助Ansys Speos的光学仿真研发未来的机外照明。

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Ansys + OPTIX JSC

 OPTIX JSC是保加利亚唯一一家开发和制造全系列特殊光学器件和系统的公司。

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Ansys + 耶拿大学

耶拿大学(FSU)成立于1558年,是德国历史最悠久、最受尊崇的公立研究大学之一。

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Ansys + UpNano

UpNano是一家高分辨率3D打印系统提供商。

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Ansys + Meopta

Meopta是一家光学和光子学制造商,在捷克共和国和美国分别作为Meopta–optika, s.r.o和Meopta USA开展业务

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Ansys + ELI Beamlines

 ELI最初是欧洲科学激光界和Laserlab-Europe之间的一项共同举措。这些机构共同促进了利用来自ELI托管激光系统的光和辐射进行跨学科研究的发展,这是世界上最强的激光系统之一。



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