THz-TDS signals can be represented as vectors in a high dimensional vector space, which are hyper-complex numbers in
geometric algebra (GA). Using the language of GA, the properties of these vectors are theoretically analyzed and
demonstrate the projective character of THz-TDS signals. The tangential distance of vectors is used to measure the
difference of the corresponding THz-TDS signals. A novel imensionality reduction method via the projective split is
presented, by which vectors of THz-TDS signals can be linear mapped from a high dimensional space into a lower dimensional space. The projective split is recursively employed and linear maps the vector space of high dimension into a sequence of sub-spaces step by step. Experiments demonstrate the feasibility and accuracy of our method.
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