Search for dissertations about: "spatial combining"
Showing result 1 - 5 of 191 swedish dissertations containing the words spatial combining.
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1. Compact and Wideband Spatial Power Combining Module for mm-Wave High-Power Amplifiers
Abstract : The continued growth of data traffic in wireless communication applications demands to launch next-generation communication services at millimeter wave frequencies. Despite the obvious advantage of a large available spectrum, using millimeter wave bands is accompanied by many technological challenges. READ MORE
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2. Development and application of spatial transcriptomics methods
Abstract : Transcriptomics is one of the pivotal fields in molecular biology, enabling comprehensive analysis of gene expression patterns. Recent advancements in the biotechnology field have transformed the transcriptomics research, providing insights into the complexity of cellular processes in a greater detail. READ MORE
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3. Deconvolution of Spatial Gene Expression in Cancer
Abstract : Cancer is the second leading cause of death in the world, claiming nearly 10 million lives in 2020 alone. One of the main issues in anti-cancer treatment is the heterogeneity of the tumor microenvironment (TME). The TME consists of different cells that are critical for cancer development. READ MORE
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4. On computational methods for spatial mapping of the human proteome
Abstract : Proteins are complex molecules that are involved in almost every task in the body. In general, the role a protein fulfills is highly dependent on where in the cell it is located, its subcellular localization. READ MORE
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5. Wideband Watt-Level Spatial Power-Combined Power Amplifier in SiGe BiCMOS Technology for Efficient mm-Wave Array Transmitters
Abstract : The continued demand for high-speed wireless communications is driving the development of integrated high-power transmitters at millimeter wave (mm-Wave) frequencies. Si-based technologies allow achieving a high level of integration but usually provide insufficient generated RF power to compensate for the increased propagation and material losses at mm-Wave bands due to the relatively low breakdown voltage of their devices. READ MORE