—This paper surveys the strange phenomenon of light partial reflection, and illustrates the proba... more —This paper surveys the strange phenomenon of light partial reflection, and illustrates the probability calculation of this phenomenon with Richard Feyman's quantum electrodynamics theory. The polarization of light with light reflection is also introduced in this paper. The calculation of light reflection intensity is also described in the paper. The relationship of light partial reflection, light polarization and quantum computing is also shortly discussed. This paper will provide people with a thorough background for the basics of light partial reflection and related phenomenon.
In this paper, we approach quantum computing from a communication perspective that is to model qu... more In this paper, we approach quantum computing from a communication perspective that is to model quantum computing with a generalized noisy communication channel approach. We proposed a generalized noisy communication channel approach (GNCom) for quantum computing by introducing Fourier series to Shannon's noisy communication channel representation. The GNCom approach includes new matrices and transforms that could be utilized to represent quantum computing with a noisy communication channel. The proposed GNCom approach could also be applied to quantum computing as a universal quantum register to replace quantum gates.
Not all flow cytometers are cell sorters, and very few papers talk in detail about the electronic... more Not all flow cytometers are cell sorters, and very few papers talk in detail about the electronics for cell sorting. This paper covers critical techniques in cell sorting which include drop drive and charging pulse synchronization as well as defanning which have not been explored in detail in the literature before.
This paper explores an FPGA-Based evolvable hardware design approach including both intrinsic and... more This paper explores an FPGA-Based evolvable hardware design approach including both intrinsic and extrinsic evolution. The approach was applied in our previous work to both electrical engineering and biomedical engineering problems. The intrinsic approach was implemented in a Xilinx XUPV2P Vertex II Pro platform with genetic algorithm as the evolutionary algorithm. The extrinsic approach was implemented in Matlab simulation with genetic programming as the evolutionary algorithm. Simple combinational and sequential logic circuits were evolved in the experiments. The approach is used to model cardiovascular system based on ECG and ABP signals.
This paper explores an approach in which information theory is applied to the evolvable hardware ... more This paper explores an approach in which information theory is applied to the evolvable hardware field for auto-design and optimization of combinational logic circuits. In our exploratory experiment, two combinational circuits were extrinsically evolved using genetic programming as the evolutionary algorithm and mutual information as the fitness function. In our experiment using MATLAB, we demonstrated that the proposed method could
In our desire to develop an educational environment, for evolutionary and adaptive circuit design... more In our desire to develop an educational environment, for evolutionary and adaptive circuit design at the university of Alabama at Birmingham we decided to use a Field Programmable Gate Array (FPGA) rapid prototyping environment. As the name implies, a Field-programmable Gate Array is an integrated circuit designed to be configured by a designer in the field. Our goal in developing this educational rapid prototyping environment is that it can used by educators in multiple classes as the teacher sees fit. We feel that the environment can be used in many junior and senior level classes. Therefore, the primary goal was to build an FPGA-based hardware prototyping system that provides sufficient flexibility for the implementation and functional verification of evolvable hardware design. In this paper, the environment is described in detail, and the potential projects are described. It is our belief that, the inherent reconfiguration ability of FPGA provides an ideal platform to teach comp...
—This paper surveys the strange phenomenon of light partial reflection, and illustrates the proba... more —This paper surveys the strange phenomenon of light partial reflection, and illustrates the probability calculation of this phenomenon with Richard Feyman's quantum electrodynamics theory. The polarization of light with light reflection is also introduced in this paper. The calculation of light reflection intensity is also described in the paper. The relationship of light partial reflection, light polarization and quantum computing is also shortly discussed. This paper will provide people with a thorough background for the basics of light partial reflection and related phenomenon.
In this paper, we approach quantum computing from a communication perspective that is to model qu... more In this paper, we approach quantum computing from a communication perspective that is to model quantum computing with a generalized noisy communication channel approach. We proposed a generalized noisy communication channel approach (GNCom) for quantum computing by introducing Fourier series to Shannon's noisy communication channel representation. The GNCom approach includes new matrices and transforms that could be utilized to represent quantum computing with a noisy communication channel. The proposed GNCom approach could also be applied to quantum computing as a universal quantum register to replace quantum gates.
Not all flow cytometers are cell sorters, and very few papers talk in detail about the electronic... more Not all flow cytometers are cell sorters, and very few papers talk in detail about the electronics for cell sorting. This paper covers critical techniques in cell sorting which include drop drive and charging pulse synchronization as well as defanning which have not been explored in detail in the literature before.
This paper explores an FPGA-Based evolvable hardware design approach including both intrinsic and... more This paper explores an FPGA-Based evolvable hardware design approach including both intrinsic and extrinsic evolution. The approach was applied in our previous work to both electrical engineering and biomedical engineering problems. The intrinsic approach was implemented in a Xilinx XUPV2P Vertex II Pro platform with genetic algorithm as the evolutionary algorithm. The extrinsic approach was implemented in Matlab simulation with genetic programming as the evolutionary algorithm. Simple combinational and sequential logic circuits were evolved in the experiments. The approach is used to model cardiovascular system based on ECG and ABP signals.
This paper explores an approach in which information theory is applied to the evolvable hardware ... more This paper explores an approach in which information theory is applied to the evolvable hardware field for auto-design and optimization of combinational logic circuits. In our exploratory experiment, two combinational circuits were extrinsically evolved using genetic programming as the evolutionary algorithm and mutual information as the fitness function. In our experiment using MATLAB, we demonstrated that the proposed method could
In our desire to develop an educational environment, for evolutionary and adaptive circuit design... more In our desire to develop an educational environment, for evolutionary and adaptive circuit design at the university of Alabama at Birmingham we decided to use a Field Programmable Gate Array (FPGA) rapid prototyping environment. As the name implies, a Field-programmable Gate Array is an integrated circuit designed to be configured by a designer in the field. Our goal in developing this educational rapid prototyping environment is that it can used by educators in multiple classes as the teacher sees fit. We feel that the environment can be used in many junior and senior level classes. Therefore, the primary goal was to build an FPGA-based hardware prototyping system that provides sufficient flexibility for the implementation and functional verification of evolvable hardware design. In this paper, the environment is described in detail, and the potential projects are described. It is our belief that, the inherent reconfiguration ability of FPGA provides an ideal platform to teach comp...
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