Poster Session

A poster area is provided where you can freely contemplate the technology topics.
This is recommended to better understand the ideas behind analysis and to learn about the development policies of JMAG.
Please feel free to use it as a social place to have technical discussions and exchange information.

Date Poster number Title
Both days JMAG booth Introduction of new JMAG functions for simulation-based design in 2022 -New Features for Simulation-Driven Design-
Both days P18, P26 Introduction to using JMAG-Express for exploring the design space for conceptual motor design
Both days P19, P04 Efficiency map evaluation of axial gap motor
Both days P20, P03 Using JMAG in the development of variable flux motors
Both days P27, P27 How to use the User Support Desk, FAQs, and Documentation Effectively
Both days P28, P28 New collaboration methods using SOLIDWORKS Direct
Day 1 P01 Information on setting up an HPC environment for optimization and large-scale model calculations
Day 1 P02 Parametric Optimization to Identify Good Motor Designs while Avoiding Geometry Failures
Day 1 P03 The use of topology optimization for designing electrical machines
Day 1 P04 Effective Use of Machine Learning in Parametric Optimization with JMAG
Day 1 P05 Effective use of machine learning in JMAG topology optimisation calculations
Day 1 P06 Performance Improvement: Removing file based bottlenecks
Day 1 P07 Introduction to multi-case distributed simultaneous calculations
Day 1 P08 Improving the performance of small-scale multi-case distributed simultaneous calculation
Day 1 P09 Introducing the new JMAG-Express for easy to perform multifaceted design evaluations
Day 1 P10 Improving performance of large model massively parallel computations
Day 1 P11 Creating JMAG scripts using the Python integrated development environment Spyder
Day 1 P12 Introduction to the control circuit template functions for motors
Day 1 P13 Evaluation efficiency map for variable speed winding field motor and the challenges involved
Day 1 P14 Response evaluation of solenoid valves considering magnetic, control, and fluid effects
Day 1 P15 Flux-Linkage evaluation of resolver detection coils taking into account the effect of leakage flux
Day 1 P16 Using JMAG for thermal design of motors with improved accuracy and speed
Day 1 P17 Evaluation of Inductance and Iron Loss Characteristics of Reactors with Superimposed DC Current
Day 1 P26 JMAG learning materials and how to use them
Day 2 P01 Transmission efficiency characteristics calculation and core topology optimization for wireless power charging devices
Day 2 P02 Shape exploration of induction heating coils using optimization
Day 2 P05 Introduction of the flow from equipment constants and basic characteristic analysis to control analysis of induction motor
Day 2 P06 Thrust ripple reduction analysis of a linear motor
Day 2 P07 Fast and Easy Electric Field Analysis is Now Possible with 2D and Axisymmetric Electric Field Studies
Day 2 P08 Modeling for Induction Heating Analysis Considering Material Anisotropy and Cooling
Day 2 P09 Improvements in the automatic setting of mesh element size
Day 2 P10 Improvements in the automatic setting of mesh element size
Day 2 P11 Improvements in the automatic setting of mesh element size
Day 2 P12 Modeling of Advanced Magnetization Properties to Achieve Higher Accuracy
Day 2 P13 Generation of detailed symmetric hysteresis loop groups based on a small number of symmetric hysteresis loop groups from actual measurements
Day 2 P14 Magnetic field analysis considering magnetic anisotropy of electromagnetic steel sheets
Day 2 P15 Current status of modelling capabilities for excess eddy current loss in JMAG
Day 2 P16 Recommendations for iron loss calculation using the play model + 1D method
Day 2 P17 Considerations to take into account when creating an accurate efficiency map for detailed performance evaluation of electrical machines.
Day 2 P18 Including the Controller When Creating a Highly Accurate Efficiency Map
Day 2 P19 Introducing winding capabilities that simplify motor coil modeling
Day 2 P20 Performance Improvements for Eigenmode Analysis
Day 2 P21 Improvement in JMAG structural solver
Day 2 P22 How to Use JMAG-RT in Motor Design
Day 2 P23 Introduction to generic RT models capable of handling arbitrary circuit patterns
Day 2 P24 Batch data output using the Multi-Purpose File Export Tool
Day 2 P25 Coupled analysis using the JMAG open interface