Modeling of Artificial Immune Systems for Railway Electric Transport Control

Abstract; This paper aims to study the principle of biological and artificial immune system and to design universal transport control system. The authors examined the characteristics of artificial immune systems and currently available rails and electrical safety devices and evaluated them for use in railway power transport control systems. Keywords artificial immune system, railway electric movement, modeling. Introduction The global goal of this survey is to provide a way to avoid dangerous situations in the transport of trains.

Electric railway running on rails above rails, rails, rails, rails, and rail systems used in commercial organizations operating El - train transportation systems to pull passengers and cargo

Rail transport provides companies with opportunities to transport goods from one place to another. In rail transport, various types of cars or vehicles are used for the transportation of goods. Therefore, rail transport vehicles are cars or vehicles running on a rail transport system to transport goods. Therefore, rail transport is part of the logistics chain and promotes international trade and economic growth. Railway transport provides environmentally friendly means of transportation that excel in both fuel economy and economy. Furthermore, it is capital-intensive mechanized land transportation. The main advantage of rail transport is that the front area is small relative to the cargo that the train carries. This will reduce air resistance and energy usage. Because of these advantages, rail transportation is a major form of public and commercial transport in many countries.

Development of electric street railroads is an intercity service connecting many cities in the northeastern part and the midwest part, and it is a major means of transportation. Electric trams also carry cargo. This is important before trucks are widely deployed. In the 1920s, the expansion of electric lines was hindered by the spread of automobiles and automobiles. Electrochemicals are chemicals and metals produced by electrolytic processes. Important examples include aluminum and chlorine produced by Hall-Héroult process, and caustic (compound of sodium and potassium). Although chlorine and caustic are chemically produced, it is very expensive to produce aluminum in this way. In 1888, a large factory using the Hall-Héroult process opened in Pittsburgh, USA and other factories opened all over the world. Due to the decline in the electricity price at the beginning of the 20th century, we were able to drastically reduce the cost of electrochemical production.