Abstract:
The study presented in this article reformulates and generalizes the TEAM benchmark, originally proposed for multi-objective optimization of magnetic devices under dc con...Show MoreMetadata
Abstract:
The study presented in this article reformulates and generalizes the TEAM benchmark, originally proposed for multi-objective optimization of magnetic devices under dc conditions, now extending it to the ac regime. A solution is furnished which has enabled an extensive search and reliable estimation of the shape of the Pareto front. Field uniformity and losses are considered with reference to a class of power inductors. It is argued that the benchmark provides a challenging target for new algorithms, especially those involving numerical modeling based on finite-element codes, where the number of objective function calls needs to be minimized for practical designs.
Published in: IEEE Transactions on Magnetics ( Volume: 56, Issue: 1, January 2020)
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- IEEE Keywords
- Index Terms
- Multi-objective Optimization ,
- Team Problem ,
- Objective Function ,
- Uniform Field ,
- Pareto Front ,
- Optimal Device ,
- Magnetic Field ,
- Optimization Algorithm ,
- Penetration Depth ,
- Power Loss ,
- Field Values ,
- Inverse Problem ,
- Design Space ,
- Multi-objective Optimization Problem ,
- Immigration Process ,
- Small Rock ,
- Air Parcel ,
- Good Habitat
- Author Keywords
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Multi-objective Optimization ,
- Team Problem ,
- Objective Function ,
- Uniform Field ,
- Pareto Front ,
- Optimal Device ,
- Magnetic Field ,
- Optimization Algorithm ,
- Penetration Depth ,
- Power Loss ,
- Field Values ,
- Inverse Problem ,
- Design Space ,
- Multi-objective Optimization Problem ,
- Immigration Process ,
- Small Rock ,
- Air Parcel ,
- Good Habitat
- Author Keywords