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Introduction to Ship Shape Optimization Method Using CAESES

Obtaining optimal candidate solutions through optimization calculations is an important step that marks the beginning of the concept in design development and the first step towards product improvement.

With the functional enhancements from the CAESES version upgrade and the development of external analysis software, optimization methods are not limited to a certain number and new methods are constantly being explored. There may be some who cannot envision the collaboration between optimization software like CAESES and the analysis software being used. Therefore, in this article, we will introduce two actual cases of ship shape optimization methods using CAESES. *For detailed content of the article, you can view it through the related links. For more information, please download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

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Optimization of the mixer

The results obtained show that the mixing time is 10% to 20% shorter than that of a standard industrial mixer!

The mixer is a widely used device, and its size and shape vary depending on the working environment. The parametric modeling in CAESES makes it easy to adjust its performance and enables optimization. By modeling in CAESES, structural changes can be adjusted by parameters, allowing for the easy acquisition of mixers suitable for various working environments. *For more detailed information, you can view it through the related links. For more details, please download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

Mixer

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Marine platform

The final structure reduced relative motion by 4% compared to the initial structure, resulting in material savings.

The support structure of the ocean platform must withstand the effects of waves over a long period and must have sufficient strength. By using CAESES, it is possible to optimize that structure and enhance its ability to withstand waves. This time, we conducted optimization of the ocean platform using CAESES. *For more detailed information, please refer to the related link. For further details, you can download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

Software (middle, driver, security, etc.)
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『PenTest.WS』

Smart security testing. PenTest.WS automates everything from diagnosis to report creation!

PenTest.WS is a comprehensive web application designed to streamline the workflow of penetration testers by systematizing hosts, services, vulnerabilities, and credentials throughout the security assessment process. This platform provides features that assist in the stages of reconnaissance, exploitation, and reporting, enhancing efficiency and collaboration among security professionals. 【Features】 ■ Complete separation for each engagement allows for the management of multiple security assessment projects without confusion. ■ Customizable Nmap scan templates enable efficient network reconnaissance. ■ Discovered vulnerabilities can be templated and stored/managed in a reusable format. ■ Real-time team synchronization allows multiple testers to work simultaneously. ■ An intuitive board feature with drag-and-drop functionality visually manages the status of hosts. ■ Syntax highlighting support for over 150 programming languages makes code snippets easy to save and view. *For more details, please refer to the related links or feel free to contact us.

Company：B7
Price：Other

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Optimization Case of Centrifugal Compressor Impeller Using CAESES

By constructing a parametric model, it is also possible to optimize the entire compressor model!

Centrifugal compressors are compact yet feature a high pressure ratio, and they are widely used in systems in the fields of aircraft and marine vessels. Impeller design is a crucial design aspect of centrifugal compressors and has a significant impact on compressor performance. In this case, we conducted automatic performance optimization using CAESES combined with CFD tools on an existing centrifugal compressor impeller model. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

Centrifugal concentrator

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Optimization of Marine Propeller Blade Shape Using OpenFOAM

The blades used for calculations can be created using the "Generic Blade" feature of CAESES.

One of the advantages of CAESES is its optimization design through an automation system connected to CFD software. This article introduces the blade shape optimization of marine propellers using OpenFOAM and CAESES, which is currently in use. In CAESES, in addition to methods for designing parametric 2D and 3D models, it is also possible to connect with various external software. *For more details, you can view the related links. For further information, please download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

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Optimization and parametric modeling software 'CAESES'

Enables superior product design! Equipped with 3D parametric modeling and morphing features.

"CAESES" is optimization and parametric modeling software used in various fields such as shipbuilding, turbo machinery, aerospace, and automotive. It supports 3D full parametric modeling, model deformation control, checking functions based on various constraints, connections to simulation software, optimization, and result post-processing. Through a parametric optimization approach, it enables better product design. 【Features】 ■ 3D parametric modeling and morphing functions ■ Integration with simulation software ■ Optimization algorithms and data analysis/post-processing modules *For more details, please refer to the PDF document or feel free to contact us.

Company：FsTech
Price：Other

3D CAD

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Optimization of globe valve shape

The purpose is to improve and investigate the performance of globe valves, connecting the cloud-based CFD solver SimScale with CAESES!

CAESES has been conducting optimization calculations for various types of valves and has implemented projects in collaboration with various companies. In this context, we would like to introduce one of the newly conducted projects, "Shape Optimization of a Globe Valve." This project was carried out in cooperation with GEMÜ Gebr. Müller Apparatebau, a German valve manufacturer and a global company specializing in aseptic valves, and SimScale, a leading engineering simulation company. *For more detailed information, please refer to the related links. You can download the PDF for more details or feel free to contact us.*

Company：FsTech
Price：Other

Structural Analysis
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valve

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Celleste 6 Image Analysis Software

Detailed data analysis is possible through rich algorithms and data visualization.

Invitrogen Celleste 6 Image Analysis Software is an image analysis software equipped with machine learning algorithms for advanced image analysis and quantification, including segmentation, counting, sizing, classification, and analysis. The MCA (Multi Class Analysis) tool, based on algorithms and analysis templates, allows for various analysis results such as heat maps, image montages, and histograms to be obtained in just a few steps. This powerful analysis software enables you to maximize the use of image data for processes such as neurite formation, angiogenesis, cell viability, and cell cycle. 【Examples of MCA Protocols】 ■Angiogenesis ■Autophagy ■Cell count ■Cell morphology ■Colocalization

Company：サーモフィッシャーサイエンティフィック株式会社／Thermo Fisher Scientific K.K.
Price：Other

Image analysis software
Cell Analysis Software
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Shape optimization of the rear wing using sensitivity analysis.

The parametric model is created in CAESES, and the adjoint solutions obtained from the commercial CFD tool are mapped to the design variables!

In this case study, we conducted optimization regarding the drag and downforce (negative lift generated by a moving vehicle) of a sports car's rear wing. For this optimization, a parametric model of the rear wing was created using CAESES, and the adjoint solutions obtained from a commercial CFD tool were mapped to the design variables. *For more details, you can view the related links. Please feel free to download the PDF or contact us for more information.*

Company：FsTech
Price：Other

Other analysis software

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Optimization of catalytic converter performance using CAESES.

Optimization of the duct of the catalytic converter using CAESES!

Designing engine components for automobiles often involves considering many constraints, making it a challenging task within development design work. One example is the duct located just before the catalytic converter. Due to space constraints, this component is often designed to be bent quite sharply, which makes it difficult to ensure that the flow distribution is sufficiently uniform. In other words, if the flow characteristics of the catalytic converter are poor, there is a possibility that performance will decrease and emissions will increase. In this case, optimization of the duct for the catalytic converter will be performed using CAESES. *For more details, please refer to the related links. For further information, feel free to download the PDF or contact us.*

Company：FsTech
Price：Other

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Noise reduction of axial fans using CAESES.

CAESES enables rapid evaluation of all ideas in the optimization process!

The design of axial flow fans generally needs to consider not only efficiency but also noise reduction. Reducing noise in axial flow fans is a rather complex and difficult issue when considering details, but there are some simple geometric methods that can lower fan noise in standard blade designs. The parametric modeling and optimization software CAESES provides a modeling toolbox for implementing various types of shapes and methods, automating the generation of blade geometry in simulation-driven optimization loops. This case study introduces improvements in noise levels and overall acoustic characteristics of axial flow fans utilizing CAESES. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

fan

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AVEVA's solutions

Integrated solutions from the factory to the management and open individual products.

■SCADA / IoT AVEVA Edge AVEVA InTouch AVEVA Plant SCADA ■Process Information Management AVEVA Historian AVEVA PI System ■Manufacturing Management AVEVA MES AVEVA System Platform AVEVA Application Server ■BI / Dashboard AVEVA BI Gateway ■SaaS / Cloud AVEVA InSight

Company：エム・エックス・テクノロジーズ（MXT）
Price：Other

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Collaboration between CAESES and OpenFOAM in Blade Shape Optimization

Introduction to parameter control of script files and optimization execution during OpenFOAM integration!

This article focuses on the software connection in the shape optimization process using OpenFOAM and CAESES. The application targeted is a propeller blade, and the connection between external software and CAESES can be established quickly, allowing for the rapid initiation of automatic optimization and design considerations for the blade. The collaboration between CAESES and OpenFOAM has been utilized in various cases, and tutorials and sample files are available within CAESES. This collaborative system using open-source software is highly efficient and can greatly benefit from optimization calculations. *For more detailed information, please refer to the related links. For further details, you can download the PDF or feel free to contact us.*

Company：FsTech
Price：Other

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Dimensional reduction of hull shape using principal component analysis in CAESES.

Introducing the dimensional reduction function based on the drag optimization of KCS ships!

To optimize the hydrodynamic performance of the hull using the parametric modeling and optimization software CAESES, we first extract design variables related to the deformation of the hull's variable geometry. By increasing the number of design variables in this process, we can obtain a wider variety of deformation shapes, which in turn increases the likelihood of achieving better hull design proposals. However, the number of computational cases required for simulations (such as CFD analysis) increases exponentially (recommended number of cases S = 2^N, where N is the number of design variables), leading to significantly larger computational and time costs. To address this issue, CAESES5 offers a dimensionality reduction feature based on Principal Component Analysis (PCA) methods. *For more detailed information, please refer to the related links. For further details, feel free to download the PDF or contact us.*