潜艇热尾流浮升对海面红外特征影响及OpenGL仿真chinatoday
I. Introduction
- Background information on submarine technology and thermal imaging.
- Importance of studying the effect of submarine hot wake on the infrared signature of the a surface.
- Rearch objectives and methodology.
II. Literature Review
- Overview of submarine wake and infrared signature studies.
- Previous rearch on submarine wake and its effect on infrared signature.
- Existing simulation methods for studying submarine hot wake and its effect on the a surface.
III. Methodology
- Description of the study area and submarine model.
- Computational fluid dynamics (CFD) simulation of submarine hot wake.
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- Numerical simulation of a surface temperature distribution and infrared signature using ray tracing algorithm.
- OpenGL simulation of the submarine wake and a surface infrared signature.
IV. Results
- Prentation and analysis of simulation results.
- Comparison of infrared signature between simulated hot wake and a calm a surface.
regionalism- Evaluation and discussion of factors affecting infrared signature.
V. Conclusion and Future Work2016年中考录取分数线
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- Summary of main findings.
- Implications of the study for submarine technology and thermal imaging.
- Recommendations for further rearch.I. Introduction
红发会Submarine technology has advanced significantly since World War II, with modern submarines capable of long-range, stealthy operations in both littoral and open ocean environments. One of the challenges of submarine operations is minimizing their detection by enemy forces, particularly in the infrared spectrum.
翻译笔译兼职Thermal imaging is commonly ud to detect and track objects in the infrared spectrum, making it a vital tool for military and civilian applications. However, the hot wake generated by a submerged submarine can significantly alter the infrared signature of the a surface, potentially compromising their stealth and increasing detection by infrared nsors.
Therefore, studying the effect of the submarine hot wake on the a surface's infrared sig
nature is critical to enhancing submarine stealth capabilities. This rearch aims to explore the effect of submarine hot wake on the infrared signature of the a surface using numerical simulations and ray tracing algorithms.
This chapter will provide an overview of the background information on submarine technology and thermal imaging, the importance of studying the effect of the submarine hot wake on the infrared signature of the a surface, and the rearch objectives and methodology.
Submarine technology has evolved tremendously over the years, with modern submarines becoming increasingly stealthy and capable of traveling long distances. Advanced submarine technology is critical for military operations such as intelligence, surveillance, and reconnaissance, patrol, and attack missions, and underwater rescue operations.
Thermal imaging, which is also known as infrared imaging, is an esntial tool for detecting and tracking objects in the infrared spectrum. It operates by detecting the heat 忧思
generated by objects, and it is commonly ud in military, law enforcement, and civilian applications. Thermal imaging can be uful in detecting submarines becau the heat they generate can be detected by infrared nsors.
However, the hot wake generated by a submerged submarine can significantly alter the infrared signature of the a surface, potentially compromising their stealth and increasing detection by infrared nsors. This phenomenon can impact the ability of submarines to remain undetected and can increa the likelihood of being targeted by enemy forces.
Therefore, studying the effect of the submarine hot wake on the infrared signature of the a surface is crucial to improve stealth capabilities. This rearch aims to explore the effect of submarine hot wake on the infrared signature of the a surface using numerical simulations and ray tracing algorithms.
The rearch objectives of this study are to:
1. Simulate the hot wake generated by a submerged submarine using computational fluid dynamics (CFD).
2. Analyze the temperature distribution of the a surface around the hot wake using numerical simulation.
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返送3. Investigate the effects of the hot wake on the infrared signature of the a surface using a ray tracing algorithm.
4. Evaluate the factors that affect the infrared signature of the a surface, including a surface temperature, wind speed, and the characteristics and trajectory of the submarine.
5. U OpenGL simulations to visualize the submarine hot wake and the a surface's infrared signature.
The methodology for achieving the goals will be discusd in detail in the subquent chapter.II. Methodology
This chapter will detail the methodology ud in this study, which includes computational fluid dynamics (CFD) simulations, numerical simulations, ray tracing algorithms, and OpenGL simulations.
