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Paper detail

Unmixing highly mixed grain size distribution data via maximum volume constrained end member analysis

End member analysis (EMA) unmixes grain size distribution (GSD) data into a mixture of end members (EMs), thus helping understand sediment provenance and depositional regimes and processes. In highly mixed data sets, however, many EMA algorithms find EMs which are still a mixture of true EMs. To overcome this, we propose maximum volume constrained EMA (MVC-EMA), which finds EMs as different as possible. We provide a uniqueness theorem and a quadratic programming algorithm for MVC-EMA. Experimental results show that MVC-EMA can effectively find true EMs in highly mixed data sets.

preprint2026arXivOpen access
Qianqian QiZhongming ChenPeter G. M. van der Heijden
Methodologymath.OC
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Qianqian QiZhongming ChenPeter G. M. van der Heijden

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