Artificiell intelligens och intelligenta system
Hållbar livsstil och hälsa ut ett folkhälsoperspektiv
Learning, Inclusive education, School transitions – for All (LISA)
Lärande och optimering
M-TERM - Mälardalen University Team of Educational Researchers in Mathematics
Forskargruppen MIND (Mälardalen INteraction and Didactics)
Personcentrerad vård och kommunikation
Stokastiska processer, statistik och finansmatematik
Vård, återhämtning och hälsa
EMOPAC - Evolutionary Multi-Objective Optimization and Its Applications in Analog Circuit Design
This project will contribute an efficient software solution for hardware design taking into account different objectives and requirements.
Projektansvarig vid MDH
Professor i artificiell intelligens/lärande system
021-15 17 16
Description of the project
The increasing complexity in industrial products and systems entail appropriate optimization methods and automated design techniques. Typical optimization problems in real-world are often computationally hard and subject to multiple, conflicting and non-commensurate objectives. Traditional single-objective optimization techniques only offer one single solution to problems by maximizing/minimizing an overall goal function.
Evolutionary algorithms (EAs) have proved their superiority to traditional optimization methods by their stronger global search ability in complex spaces. EAs are particularly suitable to solve multi-objective problems since they simultaneously process a population of possible solutions, which enabling finding a set of non-dominated tradeoff solutions in a single run. The set of non-dominated solutions can be presented to a decision maker/designer for the final choice based on her/his preference.
The result of the project will be tested and applied in the industrial domain of analog circuit design. Making a “good” circuit is by no means a trivial task. It entails determination of optimal circuit structure together with many numerical parameters for components such as sizing parameters for resistor, reactor, capacitor as well as specifications for the control and protection. Further there are many conflicting objectives and constraints underlying the design procedure, and improving one factor would force others to worsen. This project will contribute an efficient software solution for hardware design taking into account different objectives and requirements.