Kevin Shu scite author profile

Using Phylogenetic Algebraic Geometry, we analyze computationally the phylogenetic tree of subfamilies of the Indo-European language family, using data of syntactic structures. The two main sources of syntactic data are the SSWL database and Longobardi's recent data of syntactic parameters. We compute phylogenetic invariants and estimates of the Euclidean distance functions for two sets of Germanic languages, a set of Romance languages, a set of Slavic languages and a set of early Indo-European languages, and we compare the results with what is known through historical linguistics.

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Phylogenetics of Indo-European Language families via an Algebro-Geometric Analysis of their Syntactic Structures

Shu

Ortegaray

Berwick

et al. 2017

Preprint

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Syntactic Phylogenetic Trees

Shu

Aziz

Huynh

et al. 2018

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In light of recent controversies surrounding the use of computational methods for the reconstruction of phylogenetic trees of language families (especially the Indo-European family), a possible approach based on syntactic information, complementing other linguistic methods, appeared as a promising possibility, largely developed in recent years in Longobardi's Parametric Comparison Method. In this paper we identify several serious problems that arise in the use of syntactic data from the SSWL database for the purpose of computational phylogenetic reconstruction. We show that the most naive approach fails to produce reliable linguistic phylogenetic trees. We identify some of the sources of the observed problems and we discuss how they may be, at least partly, corrected by using additional information, such as prior subdivision into language families and subfamilies, and a better use of the information about ancient languages. We also describe how the use of phylogenetic algebraic geometry can help in estimating to what extent the probability distribution at the leaves of the phylogenetic tree obtained from the SSWL data can be considered reliable, by testing it on phylogenetic trees established by other forms of linguistic analysis. In simple examples, we find that, after restricting to smaller language subfamilies and considering only those SSWL parameters that are fully mapped for the whole subfamily, the SSWL data match extremely well reliable phylogenetic trees, according to the evaluation of phylogenetic invariants. This is a promising sign for the use of SSWL data for linguistic phylogenetics. We also argue how dependencies and nontrivial geometry/topology in the space of syntactic parameters would have to be taken into consideration in phylogenetic reconstructions based on syntactic data. A more detailed analysis of syntactic phylogenetic trees and their algebro-geometric invariants will appear elsewhere.

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Sums of Squares and Sparse Semidefinite Programming

Blekherman¹,

Shu²

2021

SIAM J. Appl. Algebra Geometry

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Compact dual‐band bandpass filter with enhanced feed coupling structures

Weng

Huang

et al. 2006

Micro & Optical Tech Letters

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Kevin Shu

Phylogenetics of Indo-European Language Families via an Algebro-Geometric Analysis of Their Syntactic Structures

Phylogenetics of Indo-European Language families via an Algebro-Geometric Analysis of their Syntactic Structures

Syntactic Phylogenetic Trees

Sums of Squares and Sparse Semidefinite Programming

Compact dual‐band bandpass filter with enhanced feed coupling structures

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