Stochastic/dynamic communication in a general Euniversal link

This paper compares known long and short code sequence generation techniques with the proposed arbitrary multidimensional code pattern synthesis and super high resolved code beams generation methods to obtain amplitude dependent performance function (rather than minimize SNR dependent exponential Pe). Furthermore, this paper compares spread-spectrum shaping techniques with the proposed no-sidelobe spectrum synthesis to obtain impulse correlation or multidimensional spectrum synthesis. This paper also explores the possibility of unifying an arbitrary code spectrum generation technique with arbitrary no-sidelobe spread-spectrum synthesis. Various molecular structures are also summarized in this paper to synthesize molecules with connections among its complex multidimensional components as atoms and sub-components. These maps are useful in material synthesis for super high speed communication, body sound propagation etc., and are applicable in the synthesis of chemical chain reactions and neural networks