Hardware efficient algorithms and architectures for burst communications in cognitive radios
Wireless communications systems over the years have evolved to provide ubiquitous wireless connectivity for users who are increasingly mobile. More recently apart from the communication needs of the humans, data traffic originating and terminating from/to machines, machine to machine (M2M) commun...
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sg-ntu-dr.10356-741852023-03-04T00:52:59Z Hardware efficient algorithms and architectures for burst communications in cognitive radios Syed Naveen Altaf Ahmed A. S. Madhukumar School of Computer Science and Engineering Vinod Achuthavarrier Prasad Pramod Kumar Meher DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems DRNTU::Engineering::Electrical and electronic engineering::Electronic systems::Signal processing DRNTU::Engineering::Computer science and engineering::Hardware::Arithmetic and logic structures DRNTU::Engineering::Computer science and engineering::Hardware::Logic design Wireless communications systems over the years have evolved to provide ubiquitous wireless connectivity for users who are increasingly mobile. More recently apart from the communication needs of the humans, data traffic originating and terminating from/to machines, machine to machine (M2M) communications, has increased. Furthermore, positioning and localization information have also been derived using the wireless communication signals. These diverse usage scenarios make the wireless modems necessary to operate in different channel environments meeting the ever increasing quality of service (QoS) requirements and with the decreasing availability of dedicated frequency spectrum. Burst communications with reconfigurable modems based on technologies such as Cognitive Radios (CR) and Cognitive Radio Networks (CRN) could satisfy these diverse systems requirements by transmitting information in short intervals, detecting the available frequency bands for transmission and accurately estimating the burst signal’s time-of-arrival at the receiver so that the receiver is synchronized for effective computation of the positioning information and demodulation of the transmitted data. For this purpose, there are many spectrum sensing, time of arrival and synchronization algorithms which have been proposed in literature. Most methods are based on covariance and/or correlation of the received signal with known features of the transmitted signal. However, since these algorithms operate on received signal samples, even before any receiver corrections such as carrier frequency offset or channel equalization are performed, they need to be robust against different impairments and also be hardware efficient for low complexity implementation and low power consumption. This thesis proposes low complexity schemes and architectures for spectrum sensing, time synchronization, fast acquisition and time of arrival estimation which address the issues of robustness and hardware efficient implementation for low power consumption. The proposed schemes take advantage of the pilot signals and repetitive preamble features which are part of the burst communication signals. The proposed algorithms are based on segmented processing of the received signal samples, processing only a derived signal or a single preamble out of the repetitive preambles. An analytical formulation is presented to explain how the proposed schemes are able to provide sufficient robustness and simplification of the hardware implementation. Further, performance of the proposed segmented processing schemes are evaluated through simulations over different propagation channel environments and comparisons with existing methods are presented. To evaluate the proposed segmented schemes in terms of implementation hardware complexity, FPGA synthesis is conducted and results are presented. Doctor of Philosophy (SCE) 2018-05-07T00:49:27Z 2018-05-07T00:49:27Z 2018 Thesis Syed Naveen Altaf Ahmed. (2018). Hardware efficient algorithms and architectures for burst communications in cognitive radios. Doctoral thesis, Nanyang Technological University, Singapore. http://hdl.handle.net/10356/74185 10.32657/10356/74185 en 172 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems DRNTU::Engineering::Electrical and electronic engineering::Electronic systems::Signal processing DRNTU::Engineering::Computer science and engineering::Hardware::Arithmetic and logic structures DRNTU::Engineering::Computer science and engineering::Hardware::Logic design |
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DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems DRNTU::Engineering::Electrical and electronic engineering::Electronic systems::Signal processing DRNTU::Engineering::Computer science and engineering::Hardware::Arithmetic and logic structures DRNTU::Engineering::Computer science and engineering::Hardware::Logic design Syed Naveen Altaf Ahmed Hardware efficient algorithms and architectures for burst communications in cognitive radios |
| description |
Wireless communications systems over the years have evolved to provide ubiquitous
wireless connectivity for users who are increasingly mobile. More recently apart from the
communication needs of the humans, data traffic originating and terminating from/to
machines, machine to machine (M2M) communications, has increased. Furthermore,
positioning and localization information have also been derived using the wireless
communication signals. These diverse usage scenarios make the wireless modems
necessary to operate in different channel environments meeting the ever increasing
quality of service (QoS) requirements and with the decreasing availability of dedicated
frequency spectrum. Burst communications with reconfigurable modems based on
technologies such as Cognitive Radios (CR) and Cognitive Radio Networks (CRN) could
satisfy these diverse systems requirements by transmitting information in short intervals,
detecting the available frequency bands for transmission and accurately estimating the
burst signal’s time-of-arrival at the receiver so that the receiver is synchronized for
effective computation of the positioning information and demodulation of the transmitted
data.
For this purpose, there are many spectrum sensing, time of arrival and synchronization
algorithms which have been proposed in literature. Most methods are based on covariance
and/or correlation of the received signal with known features of the transmitted signal. However, since these algorithms operate on received signal samples, even before any
receiver corrections such as carrier frequency offset or channel equalization are
performed, they need to be robust against different impairments and also be hardware
efficient for low complexity implementation and low power consumption.
This thesis proposes low complexity schemes and architectures for spectrum sensing,
time synchronization, fast acquisition and time of arrival estimation which address the
issues of robustness and hardware efficient implementation for low power consumption.
The proposed schemes take advantage of the pilot signals and repetitive preamble features
which are part of the burst communication signals. The proposed algorithms are based on
segmented processing of the received signal samples, processing only a derived signal or
a single preamble out of the repetitive preambles. An analytical formulation is presented
to explain how the proposed schemes are able to provide sufficient robustness and
simplification of the hardware implementation. Further, performance of the proposed
segmented processing schemes are evaluated through simulations over different
propagation channel environments and comparisons with existing methods are presented.
To evaluate the proposed segmented schemes in terms of implementation hardware
complexity, FPGA synthesis is conducted and results are presented. |
| author2 |
A. S. Madhukumar |
| author_facet |
A. S. Madhukumar Syed Naveen Altaf Ahmed |
| format |
Theses and Dissertations |
| author |
Syed Naveen Altaf Ahmed |
| author_sort |
Syed Naveen Altaf Ahmed |
| title |
Hardware efficient algorithms and architectures for burst communications in cognitive radios |
| title_short |
Hardware efficient algorithms and architectures for burst communications in cognitive radios |
| title_full |
Hardware efficient algorithms and architectures for burst communications in cognitive radios |
| title_fullStr |
Hardware efficient algorithms and architectures for burst communications in cognitive radios |
| title_full_unstemmed |
Hardware efficient algorithms and architectures for burst communications in cognitive radios |
| title_sort |
hardware efficient algorithms and architectures for burst communications in cognitive radios |
| publishDate |
2018 |
| url |
http://hdl.handle.net/10356/74185 |
| _version_ |
1759857743010725888 |