Being focused on the derivation and VLSI implementation of low-complexity multicarrier demultiplexers (DEMUXs) for on-board processing (OBP) satellites, three major contributions are presented in this thesis: 1. A systematic approach based on the multirate signal flow graph (MSFG) representation and transforms to multirate system optimization is proposed. A major advantage of this approach is that it provides clearer structural information and avoids tedious and ad hoc mathematical manipulations in multirate network simplification. Many computationally efficient multicarrier DEMUX structures can be derived using the MSFG approach. A number of identities and transforms of MSFG are identified and summarized. 2. A simple multirate VLSI modelin...
One of several proposed multicarrier demultiplexer/demodulator (MCDD) structures is studied for appl...
New types of communication satellites will be demanded by future traffic requirements in mobile and ...
The field of wireless communication is growing rapidly, with new requirements for the next generatio...
Economical operation of future satellite systems for mobile communications can only be fulfilled by ...
For mobile satellite communication systems substantial gains in performance can be achieved by havin...
A bit-level description of the signal processing stage of an on-board integrated VLSI multi-carrier ...
This paper presents an advanced ASIC architecture for a wideband digital frequency demultiplexer des...
Modern communication terminals for wireless communications are based on an all-digital architecture ...
A current focus among communication engineers is to design flexible radio systems in order to handle...
To make satellite channels cost competitive with optical cables, the use of small, inexpensive earth...
Abstract — Modern satellite communication calls for novel and flexible concepts for de- and remultip...
Traditionally, satellites have performed the function of a simple repeater. Newer data distribution ...
A description of the signal processing stage of an on-board integrated VLSI multi-carrier demodulato...
This paper proposes a novel VLSI architecture for the demodulator for processing satellite data comm...
The benefits of full frequency reuse in satellite communications consist of increased spectral effic...
One of several proposed multicarrier demultiplexer/demodulator (MCDD) structures is studied for appl...
New types of communication satellites will be demanded by future traffic requirements in mobile and ...
The field of wireless communication is growing rapidly, with new requirements for the next generatio...
Economical operation of future satellite systems for mobile communications can only be fulfilled by ...
For mobile satellite communication systems substantial gains in performance can be achieved by havin...
A bit-level description of the signal processing stage of an on-board integrated VLSI multi-carrier ...
This paper presents an advanced ASIC architecture for a wideband digital frequency demultiplexer des...
Modern communication terminals for wireless communications are based on an all-digital architecture ...
A current focus among communication engineers is to design flexible radio systems in order to handle...
To make satellite channels cost competitive with optical cables, the use of small, inexpensive earth...
Abstract — Modern satellite communication calls for novel and flexible concepts for de- and remultip...
Traditionally, satellites have performed the function of a simple repeater. Newer data distribution ...
A description of the signal processing stage of an on-board integrated VLSI multi-carrier demodulato...
This paper proposes a novel VLSI architecture for the demodulator for processing satellite data comm...
The benefits of full frequency reuse in satellite communications consist of increased spectral effic...
One of several proposed multicarrier demultiplexer/demodulator (MCDD) structures is studied for appl...
New types of communication satellites will be demanded by future traffic requirements in mobile and ...
The field of wireless communication is growing rapidly, with new requirements for the next generatio...