A rivers basic edge weight connectivity of steam network based on fixed point diffusion graph theory

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DOI:

https://doi.org/10.26637/MJM0802/0067

Abstract

In fixed point diffusion analysis, many river distinguished such as the length, width, and depth have been un weeded. Some characteristics have crystal clear effects on the inter connectivity. Thus, the edge weight index is mature and can be used to energizing the actual forms. Populations are growing in a flash and exodus to inner city areas in progressing countries has out turned in a paramount need for the inauguration of centralized water systems to promulgate drink worthy water to occupants. Ripening, accented or gravely kept up apportionment systems can causes the quality of piped drinking water to dip below agreeable levels and lay out grievous health risks. Many aspects can affect the river discharge volume, such as the flow section area, flow section area, flow velocity, geometrical shape, length, slope, roughness, and evaporation. However, because the research area is flat, the slope seems to be zero, and above all the flow velocity is sedate; other characteristics are ancillary and knotty to smack dab measure in actual situations.

Keywords:

Fixed point, Distribution system, River network, Graph representation learning, Averaging principle, Diffusion, $mu $ semi-connectedness

Mathematics Subject Classification:

Mathematics
  • B. Malathi Department of Mathematics, The M.D.T Hindu College, Affiliated to Manonmaniam Sundaranar University, Tirunelveli-627010, Tamil Nadu, India.
  • S. Chelliah Department of Mathematics, The M.D.T Hindu College, Affiliated to Manonmaniam Sundaranar University, Tirunelveli-627010, Tamil Nadu, India.
  • Pages: 724-729
  • Date Published: 01-04-2020
  • Vol. 8 No. 02 (2020): Malaya Journal of Matematik (MJM)

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Published

01-04-2020

How to Cite

B. Malathi, and S. Chelliah. “A Rivers Basic Edge Weight Connectivity of Steam Network Based on Fixed Point Diffusion Graph Theory”. Malaya Journal of Matematik, vol. 8, no. 02, Apr. 2020, pp. 724-9, doi:10.26637/MJM0802/0067.