Save Query
Load Query
Show Results
1 - 10 Of 24 Results
1 2 3
Arrow

How the Energy Industry is Powering Global Prosperity with Pervasive Engineering Simulation - White Paper

Global prosperity requires reliable energy at a reasonable cost. To meet this demand, the industry is changing the way it produces energy and power, whether it comes from hydrocarbon, nuclear or renewable means. Supplying it requires disruptive technologies, sustainable development, environmental stewardship, compliance with regulations, and cost management.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Electronics, Embedded Software, Fluids, Structures, Systems
Industry: Energy
Sub Industry: Renewable Energy, Other Energy


View

Arrow

面向智能产品的系统工程

当今的产品正变得越来越智能和互联,因此大多产品都冠上了“智能”前缀,如智能汽车、智能建筑、智能家电等。软件控制的机电系统通常用于实现高级功能,提高安全性和降低功耗。因此旨在用于硬件主导系统的软件研发流程已不再足够。除了所有相互作用的硬件组件外,还必须特别关注用于控制这些系统的电子和嵌入式软件。在设计的各个阶段中管理产品复杂性、降低软件研发成本和优化系统性能,是众多公司都在面临的严峻挑战。本文将介绍三种可实施用于应对这些挑战的最佳实践:基于模型的系统工程、虚拟系统原型构建和基于模型的软件研发。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect
Product Category: Embedded Software
Industry: Automotive
Sub Industry: A and D Electronics, Car and Light Truck OEMs


Request

Arrow

预见工程仿真的下一场革命

毋容置疑工程仿真已给产品研发团队的工作带来不可磨灭的影响。仿真技术可帮助设计人员在低成本、低风险的虚拟环境中研究、预测和验证他们的产品性能,从而加速了从概念到产品上市的进程,降低了研发成本,并提升了产品可靠性。但是常规仿真软件有其局限性——最明显的问题,就是建立和保持仿真专业技术需要长时间的培训并一直不断的使用相关软件。为迎接仿真“大众化”的新时代,让众多团队成员能够轻松掌握仿真技术,我们需要新一代软件。具有前瞻性的软件解决方案可让企业更灵活地应用仿真,提高研发流程的准确性,实现多物理场的同步研究,并加强协作和促进最佳实践的采用。此外,通过接受简单的软件定制,新一代仿真软件可帮助每一个行业的每一位工程师取得最大的成效。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect
Product Category: Embedded Software
Industry: Automotive
Sub Industry: A and D Electronics, Car and Light Truck OEMs


Request

Arrow

医疗设备的数字系统原型构建

伟大的产品由出色的组件组成,其越来越多地需要从每一个物理角度进行评估。但是,具有最佳设计的组件却不一定能够组合成最优系统。最终要将组件组装在一起,作为整体系统进行供电、感应和控制,因此在设计时必须将其作为一个系统,才能满足最高性能要求和严苛的安全标准。但是,构建和测试集成型产品系统和子系统的成本很高,而且还可能无法找到最优的配置和/ 或潜在的缺陷。

计算建模作为物理测试的替代方案已得到了广泛认可,但一直都是独立进行,与其它设计学科之间的协作少之又少。为了满足当今产品研发团队的需求,ANSYS 研发出了一种多域数字系统原型构建平台,使具备不同工程背景的多专业团队能够协同工作,从而更加深刻地理解集成型产品行为。本白皮书将介绍如何应用该平台研发可穿戴式胰岛素泵的数字系统原型。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect
Product Category: Embedded Software
Industry: Automotive
Sub Industry: A and D Electronics, Car and Light Truck OEMs


Request

Arrow

采用仿真技术实现快速跟踪高级驾驶员辅助系统(ADAS)与自动驾驶车辆的研发

高级驾驶员辅助系统(ADAS)与自动驾驶汽车的研发不仅极富挑战,且无先例可循。不仅需要研发人工智能等全新的工程专业领域,而且为了应对激烈的竞争,还应加速产品上市进程。据估计,要确保ADAS和自动驾驶汽车的安全性和可靠性,需要数10亿英里的道路测试。这项看似不可能的任务只有借助工程仿真才能实现。运用仿真技术,工程师能够以极低的成本准确快速地对数以千计的驾驶情境和设计参数进行虚拟测试。本文将介绍仿真在研发自动驾驶汽车和高级驾驶员辅助系统过程中发挥重要作用的六个具体方面。此外,本文还将举例说明仿真的众多优势,同时介绍ADAS和自动驾驶汽车仿真所需的工具。

Author: ANSYS Type: White Paper Date:
Product Name: ANSYS SCADE Architect
Product Category: Embedded Software
Industry: Automotive
Sub Industry: A and D Electronics, Car and Light Truck OEMs


Request

Arrow

Leveraging Engineering Simulation to Fast-Track Personalized Healthcare - White Paper

The current “one size fits all” approach to healthcare fails to recognize the significant differences between the bodies and behaviors of different patients. This creates inefficiencies and cost overruns — but it also affects the quality of care provided. By personalizing the specific treatment to each patient, healthcare will become more affordable for patients and more profitable for providers due to increased efficiency. Implanted medical devices and wearables are becoming more commonplace, saving millions of lives each year. Yet personalized healthcare still requires a significant paradigm shift, as well as a new technology toolkit for collecting data via devices and wearables that is used to customize treatment. Engineering simulation provides a cost-effective, rapid and straightforward solution for modeling patients’ bodies and designing devices that interact optimally with the body. This allows healthcare providers to devise truly personalized treatment plans, as well as predict health problems before they occur, enabling early intervention. While this “medical digital twin” concept might seem like science fiction, advanced technology is poised to improve quality of life for people around the world.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Electronics, Electronics - High Frequency Electromagnetics, Embedded Software, Fluids, High Performance Computing, Multiphysics, Platform, Structures, Systems
Industry: Healthcare - BioMed
Sub Industry: Biomedical Devices


Request

Arrow

Electrification: Achieving Next-Level Performance - White Paper

Engineered electrical systems for energy production, distribution and consumption are incredibly complex — and becoming even more sophisticated as their functionality increases. Dramatically improving the efficiency of these systems means relying on engineering simulation to introduce extreme innovation, quickly and cost-effectively.

Author: ANSYS, Inc Type: White Paper Date:
Product Category: Electronics, Embedded Software, Fluids, Structures
Industry: Automotive, Aerospace and Defense, Energy


Request

Arrow

Digitalization: Best Practices for Designing Smart, Connected Products and Driving Business Outcomes - White Paper

Products are becoming smarter and more digital every day — creating consumer benefits, but also significant engineering challenges. Simulation offers the only solution for combining extreme innovation with product reliability, speed to market and profitability via cost control.

Author: ANSYS, Inc. Type: White Paper Date:
Product Category: Structures, Electronics, Embedded Software
Industry: Automotive, Healthcare - BioMed, High Tech
Sub Industry: Semiconductors


Request

Arrow

Analysis and Development of Safety-Critical Embedded Systems: The Need for an Integrated Toolkit - White Paper

Today’s automobiles and airplanes feature more electronic components than ever. Hundreds of connected systems enable safety-critical functions like braking, acceleration, steering, navigation and communication. Underlying all these functional systems are millions of lines of embedded software code that ensure their reliable operation under a broad range of conditions.

With human lives at stake, two engineering teams work to ensure that these mission-critical systems perform flawlessly in the field. One team works to integrate the dozens of components that are brought together in a connected system, ensuring that signals and controls are seamlessly combined in a way that optimizes not only each component — but the entire electronics architecture. A second engineering team performs an equally important task: ensuring the functional safety of these components, as well as the overall system. These safety engineers look at the risks, sources and consequences of system failure, in an effort to eliminate risks and maximize resilience to the greatest extent possible.

Author: ANSYS, Inc. Type: White Paper Date:
Product Name: ANSYS SCADE Suite
Product Category: Embedded Software, Systems
Industry: Automotive


Request

Arrow

Digital System Prototyping for Medical Devices - White Paper

ANSYS has developed a multidomain, digital system prototyping platform that enables multispecialty teams with diverse engineering backgrounds to work in unison to achieve a deep understanding of integrated product behavior. This white paper summarizes the application of this platform to develop a digital system prototype of a wearable insulin pump.

Author: ANSYS, Inc. Type: White Paper Date:
Product Name: ANSYS Workbench
Product Category: Embedded Software, Systems, Fluids, Electronics - High Frequency Electromagnetics
Industry: Healthcare - BioMed


Request

1 - 10 Of 24 Results
1 2 3
 
Contact

This website uses cookies to improve user experience. By using our website you consent to all cookies in accordance with our Cookie Policy.

Accept Learn More