The Prominent Role of Hat Chap Cai Luong Arts in Tourist Attraction to Thoi Son Island, Tien Giang Province

The purpose of this article is to study and analyze the current development and utilization of cultural and artistic tourism products on Thoi Son Island, Tien Giang Province. The article focuses on evaluating the effectiveness of incorporating don ca tai tu music (a genre of chamber music in the traditional music of southern Vietnam) in serving tourism activities in recent times and identifying existing issues in the development process of these cultural and artistic tourism products. In addition to discussing the advantages and competitive capabilities of Thoi Son Island, the article also proposes suitable solutions for the development of cultural and artistic tourism products in the locality, particularly the application and promotion of the art of hat chap cai luong (one of the traditional theater opera plays in southern Vietnam) combined with storytelling for tourism purposes. The research methodology employed in the article combines both quantitative and qualitative approaches. The quantitative part of the research will concentrate on collecting data on tourist numbers, income from cultural and artistic tourism activities, and tourist satisfaction. The qualitative part will involve conducting interviews, surveys, and gathering opinions from experts and local residents to gain a better understanding of the issues related to cultural and artistic tourism products featuring cai luong singing on Thoi Son Island. The research findings indicate that incorporating the art of hat chap cai luong into tourism activities is effective. However, several issues have been identified that need to be addressed, such as diversifying cultural and artistic tourism products, protecting and promoting the local cultural values, and ensuring the ability to meet the future demand for cultural tourism products without causing har

CURRENT SITUATION AND SOLUTIONS DEVELOPING TEAM OF THE LECTURES IN VIETNAM CURRENT EDUCATION INSTITUTIONS

In the context that the fundamental and comprehensive reform of higher education in Vietnam is being promoted, it is becoming increasingly urgent to set requirements for innovation and to develop the team of lecturers, especially when the goal of education is the formation of personality and the development of personal capabilities for learners. With the identification of the teaching staff as the decisive factor for the success of the educational innovation process, the article summarizes and analyzes the current situation of the team of lecturers in higher education institutions in Vietnam today. On that basis, some basic solutions are proposed to develop the teaching staff to meet the tasks in the coming time. Article visualizations

BUILDING THE TEACHING STAFF OF DEFENSE EDUCATION AND SECURITY IN UNIVERSITIES TO MEET CURRENT DEVELOPMENT REQUIREMENTS IN VIETNAM

In Vietnam today, strengthening defense and security education for all classes of people, especially students at universities, is an essential job. In particular, one of the critical factors contributing to improving the quality of defense and security education for university students is the teaching staff of defense and security education. However, the teaching staff of defense and security education in Vietnamese universities needs more quantity and has certain limitations in quality. The article outlines several requirements posed to the teaching staff of national defense and security education and, on that basis, proposes some solutions to build the contingent of defense and security education lecturers in Vietnamese universities to meet the current development requirements of the country.  Article visualizations

Impact of Frequency Shift on Nonlinear Compensation Using Optical Phase Conjugation for M-QAM Signals

Nonlinear compensation using optical phase conjugation (OPC) have been considered a promising technique to increase the reach of high-speed fiber-optic transmission systems. OPC-based nonlinear compensation employs an optical phase conjugation located at a middle of the fiber link to generate a complexed conjugated signal with respect the signal in the first half of the link for propagation in the second half. OPC technique assumes a symmetry for signal propagating in the first and second half to obtain a perfect nonlinear and chromatic dispersion. However, as most of practical OPC schemes are realized by nonlinear effects such as four-wave mixing or a combination of second-harmonic generation and difference frequency generation, the frequency shift induced by OPC affects the signal symmetrical requirement for nonlinear compensation because the chromatic dispersion is different for the first and second half transmissions. In this paper, we investigate the impact of frequency shift on the nonlinear compensation using OPC for high symbol rate, high level modulation format signals. This will be important to understand the tolerance of the OPC techniques against such a practical condition for actual system implementations

A hybrid heuristic optimization algorithm PSOGSA coupled with a hybrid objective function using ECOMAC and frequency in damage detection

Presence of damage leads to variation in modal properties of observed structures. The majority of studies use the changes in natural frequencies for damage detection. The reason is that the frequencies are often easily measurable with high accuracy by using reasonable sensors. However, frequencies are more sensitive to environmental effects, such as temperature, in comparison with mode shapes. Besides, defects in symmetric structures can cause the same changes in frequency. In contrast, mode shapes are more sensitive to local damage because they own local information and are independent of symmetric characteristics. These make mode shapes have dominant advantages in detecting nonlinear and multiple damage. ECOMAC is an index derived from mode shapes. It is a fact that these indices are not always possible to detect faults successfully in structures. Therefore, in this paper, a hybrid optimization algorithm, particle swarm optimization – gravitational search algorithm, namely PSOGSA, is used to improve the accuracy of infect detection using a hybrid objective function combined ECOMAC and frequency based on the inverse problem. Numerical studies of a two-span continuous beam, a simply supported truss, and a free-free beam, are utilized to verify the effectiveness and reliability of the proposal. From the obtained results, the proposed approach shows high potential in damage identification for different structures

Efficient Generation of Coherent Stokes Field in Hydrogen Gas-Filled Hollow Core Photonic Crystal Fibres

In this paper, we study of the coherent Stokes generation in a transient Raman regime by Hydrogen gas-filled hollow-core photonic crystal fibres (HC-PCFs) configuration. The temporal and spatial evolution of the pump and Stokes field envelopes as well as the coherence and population inversion is numerically observed. The influence of the pump pulse width and gas pressure on the energy exchange along fiber and Stokes generation efficiency is investigated

TRAPPING CAPABILITY OF MICROLENS 2D ARRAY BY ACOUSTIC MODULATION

In this article, the microlens 2D array created in acoustic-optical medium by the ultrasonic wave modulation is proposed. The expression described the refractive index induced by cross-interference of two perpendicular ultrasonic waves is approximately derived. By simulation, the 2D array of the Gradedrefractive index lenses are appeared in the thin layer with certain strain-acoutstic constant and thickness. The  dependence of focal length and the radius of lens, i.e. its numerical aperture (AN) on thickness and strain constant of layer, and ultrasonic wave intensity are simulated and trapping capability of optical tweezer array is discussed

A hybrid heuristic optimization algorithm PSOGSA coupled with a hybrid objective function using ECOMAC and frequency in damage detection

Presence of damage leads to variation in modal properties of observed structures. The majority of studies use the changes in natural frequencies for damage detection. The reason is that the frequencies are often easily measurable with high accuracy by using reasonable sensors. However, frequencies are more sensitive to environmental effects, such as temperature, in comparison with mode shapes. Besides, defects in symmetric structures can cause the same changes in frequency. In contrast, mode shapes are more sensitive to local damage because they own local information and are independent of symmetric characteristics. These make mode shapes have dominant advantages in detecting nonlinear and multiple damage. ECOMAC is an index derived from mode shapes. It is a fact that these indices are not always possible to detect faults successfully in structures. Therefore, in this paper, a hybrid optimization algorithm, particle swarm optimization – gravitational search algorithm, namely PSOGSA, is used to improve the accuracy of infect detection using a hybrid objective function combined ECOMAC and frequency based on the inverse problem. Numerical studies of a two-span continuous beam, a simply supported truss, and a free-free beam, are utilized to verify the effectiveness and reliability of the proposal. From the obtained results, the proposed approach shows high potential in damage identification for different structures