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21	Design and implementation of a high data rate QPSK demodulator for nanosatellites Biyoghe, Joel S. January 2017 (has links) Thesis (Master of Engineering in Electrical Engineering)--Cape Peninsula University of Technology, 2017. / This dissertation presents the development of a quadrature phase shift keying (QPSK) demodulator for nanosatellites that complies with both the limited resources associated with nanosatellites as well as the flexibility and configurability required for a software defined radio (SDR) platform. This research project is a component of a bigger project, which is to develop a high-speed receiver for nanosatellites, and aims to provide a practical solution to the need for communication technologies that support emerging nanosatellite applications, such as Earth observation and communications. The development of the QPSK demodulator follows an all-digital implementation approach. The main reason for selecting this approach is to have a system that is flexible and reconfigurable to comply with the SDR requirements. Another reason for selecting this approach is to comply with the low noise system, low power consumption as well as the small size and weight requirements associated with nanosatellites. The QPSK demodulator is implemented on an IGLOO2 Field Programmable Gate Array (FPGA), due to its robustness to radiation and high-speed capability. Initially, the techniques used to design each subsystem of the QPSK demodulator are selected. Then, algorithms to digitally implement the designed subsystems are produced. Thereafter, the code for the digital QPSK demodulator is written and verified in Matlab first. The simulation of the Matlab-based QPSK demodulator performs satisfactorily. Subsequently, the code to implement the QPSK demodulator on an FPGA (IGLOO2) has been written in Libero, using VHSIC Hardware Description Language (VHDL). The resulting FPGA-based QPSK demodulator has been emulated in Libero (an integration and development environment (IDE) for Microsemi FPGAs) using a test-bench as well as other analysis tools. The test-bench results are visualized using Modelsim. The results show that the demodulator can support data rates up to 13.25 Mbps if 16 samples-per-symbols are used, and up to 26.5 Mbps if 8 samples-per-symbols are used. It also has a very good bit-error-rate performance, which is simulated to be within a factor of 5 of the theoretical limit of QPSK modulation. Finally, the demodulator consumes less than 15 mW at the maximum operating speed. and has been coded to mitigate the effects of space radiation and noise contriution by the demodulator itself. Matlab Phase shift keying Demodulation (Electronics) Digital communication Nanosatellites
22	On digital radio receiver performance in electromagnetic disturbance environments Stenumgaard, Peter January 2001 (has links) No description available. digital radio systems minimum shift keying electromagnetic interference military COTS
23	APSK Transmission Experiment Using Digital Coherent Receiver Mao, Kuei-Chung 02 July 2010 (has links) In the current transmission system, the information bandwidth of the optical fiber communication system is limited by optical amplifier bandwidth, and more efficient use of bandwidth is a very important issue. Amplitude and phase shift keying (APSK) is an advanced modulation scheme to improve the spectral efficiency and can effectively increase the transmission capacity. Certainly, APSK format has a good potential for development. This master thesis is focusing on that to study the transmission performance of the APSK format using digital coherent receiver. As the extinction ratio (ER) of the amplitude shift keying (ASK) signal affects the performances of the ASK signal and phase shift keying (PSK) signal simultaneously, the effect of the ER on the APSK transmission performance was studied. The APSK format has the trade-off between the performances of both the ASK signal and the PSK signal through the ER of the ASK signal. To overcome this issue, a method named zero-nulling method had been proposed, and this method solved the trade-off issue properly. At first, the amendment is to modify the digital coherent receiver program, confirmed that the digital coherent receiver program can correctly resolve APSK signal. Second, in this master thesis, I set up a 500km long optical fiber to measure the transmission performance under APSK format, and try to use recirculating loop system to further increase the transmission distance to several thousand kilometers. Finally, by further modify the receiver program to achieve APSK modulation of the zero-nulling method, and can prove its feasibility. amplitude and phase shift keying digital coherent receiver modulation format
24	On digital radio receiver performance in electromagnetic disturbance environments Stenumgaard, Peter January 2001 (has links) No description available. digital radio systems minimum shift keying electromagnetic interference military COTS
25	Coded continuous-phase FSK information theoretic limits and receiver design / Cheng, Shi, January 1900 (has links) Thesis (Ph. D.)--West Virginia University, 2007. / Title from document title page. Document formatted into pages; contains xiii, 146 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 136-146).
26	Advanced transmission and reception concepts for single carrier WLAN systems Jonietz, Christof January 2008 (has links) Zugl.: Erlangen, Nürnberg, Univ., Diss., 2008
27	An implementation of acquisition using transform domain/cyclic code shift keying system on an multipath channel Al-Sharari, Hamed. January 1998 (has links) Thesis (M.S.)--Ohio University, November, 1998. / Title from PDF t.p.
28	Color Spill Suppression in Chroma Keying Luo, Ya 06 January 2020 (has links) Alpha matting is one of the key techniques in image processing and is used to extract accurate foreground from a still image or video sequences. Chroma keying is a special case of alpha matting with a solid background color. Color spill is one of the difficulties in chroma keying, and it has not been effectively solved by current methods. Sometimes, an image contains both reflected regions and transparent regions. When the foreground in such images is chroma keyed, reflection on the foreground is often falsely treated as transparency and causes unreal foreground extraction and composition. This problem is called color spill. Color spill suppression aims to extract the opaque foreground with the correct transparency descriptor (i.e. alpha value) and remove the reflected background color on it. When the background color presented on the foreground is simultaneously caused by reflection and transparency, color spill suppression becomes extremely challenging. It is because that the reflection removal and the actual transparency estimation is a dilemma. Our proposed method for color spill suppression is to separate reflected regions from transparent regions, and process reflected regions as foreground while keeping transparency unchanged at the same time. In this thesis, we propose a novel method for color spill suppression for chroma keying. The quality of the estimated alpha matte could be significantly improved. In our approach, we suppress color spill by using the polarization and the optical flow algorithm based on disparity estimation. Specifically, we make the assumption that reflection changes more than transparency when the scene is captured by a binocular camera with a polaroid filter. Based on this assumption, we took stereo images with polarization filter, registered stereo images by optical flow and conducted the variance analysis on histograms of input images to separate transparency and reflection. Our experiments show that the opaque foreground with background color spill can be reliably extracted while the real transparency can be kept. chroma keying color spill suppression polarization stereo matching
29	Kinematics of the wrist during a keying task: the effects of workstation design and work pace Bowman, Darrell Scott 13 February 2009 (has links) Since the advent of keyboards into the workplace, workers began to experience disorders of the tendons and nerves of the upper extremities, referred to as cumulative trauma disorders, due to the repeated exertions and excessive movements. One of the major research voids in the study of occupational injuries to the wrist is the lack of understanding of the kinematic nature of the wrist during keying tasks. Changes in wrist position were measured on 9 males and 9 females while keying, in the flexion/extension and radial/ ulnar planes. This information was then used to determine the wrist dynamic characteristics, then wrist accelerations were derived. The effects of Gender, Keyboard Height (5 cm below sitting elbow height, at sitting elbow height, 5 cm above elbow height), Keyboard Angle (-30 degrees from horizontal, horizontal, +30 from horizontal), and Keying Rate( 110 and 90 percent of the individual's average typing rate) on wrist accelerations were scrutinized. The results of this study indicated that, throughout the keying task, there were a significant changes in wrist position (p < 0.05). Keyboard Height was the only significant variable (p < 0.05) on the magnitude of mean peak wrist acceleration. The lowest magnitude of wrist acceleration occurred when the keyboard was positioned 5 cm below the user's sitting elbow height From these findings it appears that the methods used were effective in determining the kinematic nature of the wrist during a keying task. Specifically, the technique employed is adequate for measuring the accelerations of the wrist, but future research is needed to more accurately define the factors that influence the magnitude of wrist accelerations. / Master of Science motion keying cumulative trauma disorders wrist LD5655.V855 1996.B696
30	Orthogonally multiplexed communication using CCSK and wavelet bases Wu, Ji-Dein January 1995 (has links) No description available. Cyclic Code Shift Keying Discrete Fourier Transform Orthogonally Multiplexed Communication

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