@article{ITG_453,
title = {Simulation and Performance Analysis of Thirteen Level Multilevel Inverter Tied to a Grid connected Wind Energy System},
author = {Md Amjad Ali},
url = {https://itgjournal.com/wp-content/uploads/2018/12/ITG_453.pdf},
year = {2018},
date = {2018-12-22},
journal = {International Transaction on Engineering and Science (ITES) },
volume = {1},
number = {1},
pages = {1-13},
abstract = {This paper presents an overview of multilevel inverter for the power quality improvement of wind energy system. It produces waveform with less harmonic content and work on the principle of pulse width modulation. Generation of pulses by this method gives ripple less waveform and less harmonic content closely to pure sinusoidal waveform. As the depreciation of conventional energy sources, non-conventional energy sources are now being used for the electrical power generation and in non-conventional energy sources most popular method is wind energy generation system. But there is some difficulty of integration of variable output voltage wind energy generation system to power system grid operating at constant voltage & frequency. We have developed a simulink model of a multi-level inverter connected in cascade using MATLAB and applied the developed model in the field of electric power generation from wind. By using the DC voltages constant or variable at different level we can achieve AC voltage at desired level with the help of multi-level inverter connected in cascade and by this method we can achieve any level of voltage at output.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}

@article{ITG_452,
title = {Renewable Energy Based Hybrid Technology for Power Generation System: Pollution Free from GHG},
author = {Swati Maurya, Aishvarya Narain, Rajan Kumar},
url = {https://itgjournal.com/wp-content/uploads/2018/12/ITG_452.pdf},
year = {2018},
date = {2018-12-22},
journal = {International Transaction on Engineering and Science (ITES)},
volume = {1},
number = {1},
pages = {14-18},
abstract = {This paper is presented to study the conversion of renewable energy resources into electrical energy in a standalone hybrid power generation system. Recent power generation scenarios all over the world are not eco-friendly as the generation systems are mostly dependent on fossil fuels that produce greenhouse gas (GHG) which contributes to global warming. In this, the combination of two energy resources is taking place i.e. wind and solar energy. This process reviles the sustainable energy resources without damaging the nature. We can give uninterrupted power by using hybrid energy system. Mainly this system involves the combination of two energy system that will give continuous power. Solar panels are used for converting solar energy and wind turbines are used for converting wind energy into electricity. This electrical power generation can operate for various purposes. Generation of electricity will take place at a reasonable cost. This paper presents the Renewable Energy Based Hybrid Technology for Power generation that extracts the renewable energies in Sun and Wind to generate electricity. System control relies mainly on the microcontroller. It ensures the optimum utilization of resources and hence improves the efficiency as related to their individual mode of the generation system. Also, it increases the reliability and reduces the dependence on one single source. This hybrid solar-wind power generating system is suitable for industries and also for domestic areas with reasonable cost without damaging the natural balance like Pollution Free from GHG.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}

@article{ITG_454,
title = {A Study of Different Data Compression Techniques},
author = {Shashank Gautam},
url = {https://itgjournal.com/wp-content/uploads/2018/12/ITG_454.pdf},
year = {2018},
date = {2018-12-22},
journal = {International Transaction on Engineering and Science (ITES)},
volume = {1},
number = {1},
pages = {19-22},
abstract = {Data compression refers to reducing the volume of space needed to keep data or reducing the amount of time required to transmit the data. The size of data is diminished by removing the unnecessary information. In this paper many different data compression techniques have been studied such as Shannon Fano, Shannon Fano Elias, Huffman binary and ternary coding. It is found that Huffman coding is most suitable from the among techniques as it provides smallest codeword length.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}

@article{ITG_457,
title = {Performance Analysis of Fiber Optic Sensing Mandrel for Underwater Acoustic Signal with ANSYS},
author = {Prashil M. Junghare, Cyril Prasanna Raj P, T. Srinivas},
url = {https://itgjournal.com/wp-content/uploads/2019/01/ITG_457.pdf},
year = {2018},
date = {2018-12-22},
journal = {International Transaction on Engineering and Science (ITES)},
volume = {1},
number = {1},
pages = {23-29},
abstract = {The proposed paper outlines the design and development of fiber optic sensor using principle of interferometry. In the design, optical light waves are used to extract information. Two parallel mandrels are used where one is the sensing mandrel and another is the anti-sensing mandrel. The mandrel is designed underwater to detect acoustic pressure. Sensing mandrel is referred to as hydrophone which detects the sound underwater. The optical hydrophone is made up of different materials. The different materials used are elastic foam layer, polyurethane, aluminum and nylon. The hydrophone is suspended 200 meters below water surface. The physical properties of the sensing mandrel are varied to select the design that gives optimum minimal sensitivity. The hydrophone is also referred to as fiber optic mandrel since optical fiber is wound on the mandrel. The design is made using ANSYS 12.0, EDA tool. The sensitivity obtained is -64.92 dB for a pressure of 2 MPa.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}

@article{ITG_460,
title = {Design to Analyze Low Loss Zero Dispersion in Water Filled Silica Photonic Crystal Fiber},
author = {Heema Kumari Tejiyot, Sunil Sharma, Aabhas Mathur, Dr. Hemant Dhabhai4},
url = {https://itgjournal.com/wp-content/uploads/2019/01/paper-for-journal-ITG_460.pdf},
year = {2018},
date = {2018-12-22},
journal = {International Transaction on Engineering and Science (ITES)},
volume = {1},
number = {1},
pages = {30-35},
abstract = {This work proposes the design and optimization of Refractive index and minimizing the loss for liquid filled silica photonic crystal fiber. Number of research papers has been investigated to get the best result with the proposed design. The core of the proposed Silica PCF structure is designed with liquid filled air holes. Numerical analysis is being carried out by using the Finite Element Effective Index Method (FVEIM) to calculate the modal dispersion, confinement loss and nonlinear coefficient of the proposed Silica PCF structure. Transparent boundary condition (TBC) is proposed here for the calculation of Refractive index. The design is proposed with three layers parallelopid hexagonal with water as a liquid filled having core diameter 1 micrometer, pitch value 2 micrometer. The calculated dispersion is near about to zero while the refractive index calculated is 1.457 which is quite similar to silica. Finally, it is concluded that the work presented in this paper shows the low loss and zero dispersion for liquid filled silica photonic crystal fiber.},
keywords = {},
pubstate = {published},
tppubtype = {article}
}