In this master’s thesis, a digital channelizer for WCDMA base station receiver was designed and implemented using Xilinx Virtex-II FPGA. The channelization technique is a key element in the digital intermediate frequency (IF) wideband receiver architecture. It is used to isolate the independent communication channels contained within the wideband signal. This case study was part of the Heppu project in the ASIC design group of Nokia Networks, Sweden. The implementation needs to fulfil the functional requirements for the quick prototype from the Heppu project. The final results are tested by test vectors and compared with the results from ASIC implementation for the same module
This work involved the rapid prototyping of Digital Signal Processing (DSP) hardware for a Citizens ...
Orthogonal Frequency Division Multiplexing (OFDM) is a multi carrier modulation technique. OFDM prov...
This paper presents an implementation of a channel equalizer for a wireless OFDM according to the I...
In this master’s thesis, a digital channelizer for WCDMA base station receiver was designed and impl...
The object of our major Qualifying Project was to explore the application of Intellectual Property (...
Abstract-In recent years, new communication technologies has made rapid development. Orthogo-nal Fre...
The VLSI architecture targeted on FPGAs of a multiuser detector based on a cascade of adaptive filt...
The thesis is focused on designing OFDM modem, which should be implemented into the FPGA device. The...
Graduation date: 2013Inter-symbol interference is one of the major factors that make the realization...
Orthogonal Frequency Division Multiplexing (OFDM) is the dominant transmission technique used in the...
Current and future communication schemes tend to use OFDM systems in order to provide high baud rat...
This thesis considers the design of a programmable baseband receiver platform for WCDMA and OFDM mob...
In the field of communications, a high data rate and low multi-path fading is required for efficient...
Approaching the channel capacity limit has been the main goal of communication engineers since the p...
Previous generations of cellular networks was built for telephone calls and slow data transmission....
This work involved the rapid prototyping of Digital Signal Processing (DSP) hardware for a Citizens ...
Orthogonal Frequency Division Multiplexing (OFDM) is a multi carrier modulation technique. OFDM prov...
This paper presents an implementation of a channel equalizer for a wireless OFDM according to the I...
In this master’s thesis, a digital channelizer for WCDMA base station receiver was designed and impl...
The object of our major Qualifying Project was to explore the application of Intellectual Property (...
Abstract-In recent years, new communication technologies has made rapid development. Orthogo-nal Fre...
The VLSI architecture targeted on FPGAs of a multiuser detector based on a cascade of adaptive filt...
The thesis is focused on designing OFDM modem, which should be implemented into the FPGA device. The...
Graduation date: 2013Inter-symbol interference is one of the major factors that make the realization...
Orthogonal Frequency Division Multiplexing (OFDM) is the dominant transmission technique used in the...
Current and future communication schemes tend to use OFDM systems in order to provide high baud rat...
This thesis considers the design of a programmable baseband receiver platform for WCDMA and OFDM mob...
In the field of communications, a high data rate and low multi-path fading is required for efficient...
Approaching the channel capacity limit has been the main goal of communication engineers since the p...
Previous generations of cellular networks was built for telephone calls and slow data transmission....
This work involved the rapid prototyping of Digital Signal Processing (DSP) hardware for a Citizens ...
Orthogonal Frequency Division Multiplexing (OFDM) is a multi carrier modulation technique. OFDM prov...
This paper presents an implementation of a channel equalizer for a wireless OFDM according to the I...