Draft:Chernobyl Disaster Optimizer

Chernobyl Disaster Optimizer (CDO)

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Dr. Hisham Shehadeh has developed a new algorithm based and inspired by the idea of the nuclear explosion of the Chernobyl reactor that occurred in 1986[1]. Dr. Shehadeh titled his algorithm as Chernobyl Disaster Optimizer (CDO)[2], which is based on the principle of nuclear physics, and was accepted for publication in a research paper in the journal ( Neural Computing and Application, Springer[3]), which is published in London, and is one of the leading journals specialized in artificial intelligence with an impact factor equal to 5.102. Shehadeh said that the algorithm proposes a new way to improve the heuristics of things, namely the Chernobyl disaster optimizer (CDO); to find solutions to the issues of minimization and maximization and linear, nonlinear and complex mathematical problems[4]. Shehadeh added that the basic concepts and principles behind the proposed approach were inspired by the primary explosion of the nuclear reactor in Chernobyl, as radioactivity occurred due to nuclear instability, which led to the emission of various types of radiation from unstable nuclei, the most common types of such radiation are called Gamma, Beta and alpha particles, which fly away from the explosion point (high pressure point) to the low pressure point (human presence point), and harm humans. This algorithm simulates the process of nuclear radiation during human bonding after a nuclear explosion, where Gamma, Beta and alpha particles participate in this process, while experiments have proven the efficiency of this algorithm after comparing it with other algorithms in solving linear and nonlinear mathematical problems and complex mathematical problems.

References

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  1. ^ Alexey. "Accident and its Elimination". chnpp.gov.ua. Retrieved 2024-09-16.
  2. ^ Shehadeh, Hisham A. (2023-05-01). "Chernobyl disaster optimizer (CDO): a novel meta-heuristic method for global optimization". Neural Computing and Applications. 35 (15): 10733–10749. doi:10.1007/s00521-023-08261-1. ISSN 1433-3058.
  3. ^ "Neural Computing and Applications". SpringerLink. Retrieved 2024-09-16.
  4. ^ Aribowo, Widi; Shehadeh, Hisham A. (2024-09-01). "Novel modified Chernobyl disaster optimizer for controlling DC motor". Indonesian Journal of Electrical Engineering and Computer Science. 35 (3): 1361–1369. doi:10.11591/ijeecs.v35.i3.pp1361-1369. ISSN 2502-4760.