**“Global Conference on Advances and Applications in Mathematical Science’’** is scheduled during **March 02-03, 2023. **This is the best platform to showcase your’s recent research innovations which will reach millions of academicians and others worldwide through the International Conference and gain new information which is able to be valuable for growth within the field of generating new plans and ideas to reinforce yourself and your skilled profession. Global **Mathematical Science 2023** Conference focused on the theme: **“The Advanced Modern Capabilities By Digital Communications”.**

**Track 1.**** Mathematical Sciences:**

**Mathematical sciences** are a group of areas of study that includes, in addition to mathematics, those academic disciplines that are primarily mathematical in nature but may not be universally considered subfields of mathematics proper. Long-standing practise has been to divide the mathematical sciences into categories that are, by implication, close to disjoint. Two of the most common distinctions are drawn between “pure” and “applied” mathematics, and between “mathematics” and “statistics.” These and other categories can be useful to convey real differences in style, culture and methodology, but in the Panel’s view, they have produced an increasingly negative effect when the mathematical sciences are considered in the overall context of science and engineering, by stressing divisions rather than unifying principles.

**Track 2**. **Astroparticle Physics**:

**Astroparticle physics** is an interdisciplinary field lying between particle physics and cosmology that attempts to reveal the nature and structure of matter in the universe. The field of Astroparticle physics evolved out of optical astronomy. With the growth of detector technology came the more mature astrophysics, which involved multiple physics subtopics, such as mechanics, electrodynamics, thermodynamics, plasma physics, nuclear physics, relativity, and particle physics.

**Track 3.** **Data Science**:

The **data science** field employs mathematics, statistics and computer science disciplines, and incorporates techniques like machine learning, cluster analysis, data mining and visualization. Data science provides meaningful information based on large amounts of complex data or big data. The main advantage of enlisting data science in an organization is the empowerment and facilitation of decision-making. Organizations with data scientists can factor quantifiable, data-based evidence into their business decisions.

**Track 4. Control Theory:**

**Control theory is**, field of applied mathematics that is relevant to the control of certain physical processes and systems. Although control theory has deep connections with classical areas of mathematics, such as the calculus of variations and the theory of differential equations.

**Track 5: Actuarial Science:**

**Actuarial Science** deals with evaluating risks and maintaining the economic stability of insurance or financial organizations. Actuarial Studies graduates learn how to use Mathematics, Statistics, and Probability principles to anticipate future events and take preventive measures.

**Track 6. Econometrics:**

**Econometrics **is the quantitative application of statistical and mathematical models using data to develop theories or test existing hypotheses in economics and to forecast future trends from historical data. It subjects real-world data to statistical trials and then compares and contrasts the results against the theory or theories being tested. Econometrics analyzes data using statistical methods in order to test or develop economic theory.

**Track 7.** **Population Genetics:**

**Population genetics** is concerned with the change of allele frequencies as a function of time, natural mathematical methods come from fields that describe such processes. Population genetics is concerned with genetic differences within and across populations, and the dynamics of how populations evolve as a result of the propagation of genetic mutations occurring within the germlines of individuals.

**Track 8.** **High-Energy Theoretical Physics and Mathematical Physics**:

This topic investigates the quantum processes in intense gravitational fields and the appearance of new spatiotemporal symmetries. The combination of Quantum Field Theory with General Relativity is studied and its application to black holes #Hawkingradiation and to Cosmology (primitive universe, inflation, etc.). The classic and quantum aspects of the modification of Einsteinian gravity are also investigated as well as the use of supersymmetry and non-commutative geometries in the search for a quantum theory of gravity.

**Track 9. Cryptology:**

**Cryptology **is the mathematics, such as number theory, and the application of formulas and algorithms, that underpin cryptography and cryptanalysis. It is the science that deals with hidden, disguised, or encrypted communications. It includes communications security and communications intelligence.

**Track 10. Mathematical Chemistry:**

**Mathematical chemistry **is the area of research engaged in novel applications of mathematics to chemistry; it concerns itself principally with the mathematical modelling of chemical phenomena. Major areas of research in mathematical chemistry include chemical graph theory, which deals with topologies such as the mathematical study of isomerism and the development of topological descriptors or indices which find application in quantitative structure-property relationships; and chemical aspects of group theory, which finds applications in stereochemistry and quantum chemistry.

### Track 1

Mathematical Sciences

### Track 2

Astroparticle Physics

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Data Science

### Track 4

Control Theory

### Track 5

Actuarial Science

### Track 6

Econometrics

### Track 7

Population Genetics

### Track 8

High-Energy Theoretical Physics and Mathematical Physics

### Track 9

Cryptology

### Track 10

Mathematical Chemistry