Search for dissertations about: "quasi-static fading"
Showing result 1 - 5 of 6 swedish dissertations containing the words quasi-static fading.
-
1. The Information-Theoretic Cost of Learning Fading Channels
Abstract : Recent results in communication theory suggest that significant throughput gains in wireless fading networks can be achieved by exploiting network coordination (e.g., CoMP, network MIMO, and interference alignment), provided that each node in the network has perfect channel knowledge. READ MORE
-
2. Fading Channels: Capacity and Channel Coding Rate in the Finite-Blocklength Regime
Abstract : Information-theoretic studies on the fundamental limits of communication over wireless fading channels typically rely on simplifying assumptions, such as perfect channel state information (CSI), infinite blocklength, and vanishing probability of error. Although these assumptions are reasonable for most of the current wireless communication systems, they may be inaccurate for next-generation wireless systems. READ MORE
-
3. Limited Feedback Information in Wireless Communications : Transmission Schemes and Performance Bounds
Abstract : This thesis studies some fundamental aspects of wireless systems with partial channel state information at the transmitter (CSIT), with a special emphasis on the high signal-to-noise ratio (SNR) regime. The first contribution is a study on multi-layer variable-rate communication systems with quantized feedback, where the expected rate is chosen as the performance measure. READ MORE
-
4. A Statistical-Physics Approach to the Analysisof Wireless Communication Systems
Abstract : Multiple antennas at each side of the communication channel seem to be vital for future wireless communication systems. Multi-antenna communication provides throughput gains roughly proportional to the smallest number of antennas at the communicating terminals. READ MORE
-
5. Multiantenna Wireless Architectures with Low Precision Converters
Abstract : One of the main key technology enablers of the next generation of wireless communications is massive multiple input multiple output (MIMO), in which the number of antennas at the base station (BS) is scaled up to the order of tens or hundreds. It provides considerable energy and spectral efficiency by spatial multiplexing, which enables serving multiple user equipments (UEs) on the same time and frequency resource. READ MORE