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Altair® Twin Activate® 應用

隨著對更智慧、更互聯、更永續的產品需求的增加,企業需要能夠在整個系統層級進行高效模擬的數位雙胞胎工具。

Twin Activate 的多學科模擬功能可幫助公司全面開發智慧、複雜的機電一體化系統,同時實現簡化的產品開發工作流程和不同工程領域之間的協作。 Twin Activate 打破了機械子系統、電氣子系統、控制子系統、電子子系統、軟體、硬體迴路、資料分析等之間的孤島。

了解更多有關 Twin Activate 的資訊

數位雙胞胎

將 Twin Activate 作為 Altair 開放且靈活的數位雙胞胎平台的核心,可輕鬆地將高傳真模型與使用 3D+1D+0D 技術 (即使用 CAD 幾何結構 + 框圖 + 方程) 建構的降階模型 (ROM) 結合起來。

閱讀:透過數位雙胞胎提高 MBD 方案有效性白皮書

整合多學科系統

整合機械、電氣和控制器子系統 (包括感測器和制動器) 的模型,將您的機電一體化產品作為系統體系全面模擬。 透過功能性模型介面 (FMI) 開放標準,與 Altair (如 Altair® MotionSolve®Altair® Flux®) 或第三方的其他 CAE 工具交換模型及/或協同模擬。

閱讀:施耐德電氣客戶案例

電動汽車 (EV) 系統

模擬各種車輛類型的電力傳動系統,將機械工廠模型與馬達、電池和控制器以及真實的駕駛循環相結合。 然後,最佳化電動汽車的整體效能 (可選擇與 Altair® HyperStudy® 結合使用)。

閱讀:保時捷和 Altair 技術文件

一維熱流體動力學系統

使用 1D 建模和模擬 (而不是僅使用 3D CFD) 對熱流體系統動力學進行建模,以明顯更快的速度產生幾乎同樣準確的結果,以便在更短的時間內進行更多的設計探索和最佳化效能。

閱讀:Cimbali Group 客戶案例

液壓系統

建立詳細的液壓迴路和驅動系統,作為多學科系統模擬的一部分,特別適用於重型機械和農業設備,結合多體系統顆粒材料系統使用。

觀看: 重型設備模擬

基於模型的系統工程 (MBSE)

將產品級系統模擬與產品的功能需求連結在一起,讓您的系統模型成為虛擬產品開發活動的權威事實來源 (AST)。

觀看:NAVAIR 客戶案例

基於專案的學習

機電一體化教育套件

使用 Altair 合作夥伴 ACROME 的硬體套件,以及 Altair 提供的免費數位雙胞胎模擬模型和課程材料。

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特色資源

Sensor Accuracy Drives Performance - Model-Based Development Improves E-Motor Reliability and Efficiency

High accuracy sensors and encoders are integral components of an e-motor drive, greatly impacting the quality and efficiency on the system. A purpose-driven simulation approach is needed to account for all the physical interdependencies within these complex multi-domain systems. Lenord + Bauer worked with Altair to develop a system simulation process for their high-accuracy encoders to understand their impact on the quality and efficiency of the system.

客戶案例
Future.Industry

Open Integration of Digital Twins and Model Based Systems Engineering (MBSE)

Dr. Cynthia Dean is the Director of Model Based Systems Engineering (MBSE) Training and Solution Development at Belcan. She will present a future facing vision for integrating model-based systems engineering, architecture, and simulation with digital twin technology in modern systems engineering. The presentation will highlight the major Industry challenges in adopting these technologies and how Belcan and Altair have joined forces to uniquely address the challenges via an open Integration platform.

Future.Industry

Human Plus Machine: How Sarcos is Revolutionizing the Future of Work with Industrial Robotics

With the prospect of increasing labor shortages among a wide variety of industries, combined with the significant costs of occupational injuries and the ever-increasing pressure to increase productivity, leading robotics company, Sarcos is in a unique position to deploy industrial robotics designed to increase productivity while eliminating injuries, by augmenting rather than replacing human workers.

Chris Beaufait, COO of Sarcos, discusses the current robotics landscape, why automation is not the right solution to the problems industries are facing, how Sarcos and its product lineup - including the full body, fully powered Guardian XO exoskeleton - will play a critical role in defining the workforce of tomorrow, and his vision for the robotics industry over the next five to 10 years.

Global ATC
propeller

Achieving Aerospace Design Confidence with Model-based Systems Engineering

Reducing aircraft design and development time is critical for all aircraft manufacturers, from urban air mobility and electric aircraft startups to military to commercial OEMs. In order to fully understand and optimize the complex systems of systems required in modern aircraft, aerospace engineers leverage a simulation method called Model-based Systems Engineering (MBSE). MBSE allows the evaluation of various types of vehicle systems to determine which best meet the mission requirements.

技術文件
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