Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming
Differential frequency hopping (DFH) is a novel technique employed by the correlated hopping enhanced spread spectrum (CHESS) radio, developed by the Sanders Company. The core of the DFH technique is in its frequency transition function (FTF), which generates a sequence of correlated freque...
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sg-ntu-dr.10356-532762023-07-07T16:26:23Z Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming Lee, Shu Chuan. Li Kwok Hung Teh Kah Chan School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems Differential frequency hopping (DFH) is a novel technique employed by the correlated hopping enhanced spread spectrum (CHESS) radio, developed by the Sanders Company. The core of the DFH technique is in its frequency transition function (FTF), which generates a sequence of correlated frequency hops corresponding to the input information sequence. As a result, DFH systems are able to reconstruct missed hops in the detection process. This Final Year Project (FYP) report documents the investigations of the bit-error performance of DFH systems in Rayleigh-fading channels in the presence of partialband noise jamming (PBNJ). The bit-error performance of fast frequency-hopped (FFH) systems employing binary frequency-shift keying (BFSK) corrupted by the worst-case PBNJ, additive white Gaussian noise (AWGN) and Rayleigh-fading channels is also investigated and acts as supplementary materials for the investigation of DFH systems. Four different designs of FTF encoders for DFH systems are investigated in this FYP. Simulation results obtained show that DFH systems outperform conventional FFH/BFSK systems when corrupted by the worst-case PBNJ and AWGN. The improved performance is due to the error correcting characteristic of DFH systems. When operating in Rayleigh-fading channels corrupted with the worst-case PBNJ, DFH systems, depending on the type of FTF encoder employed, exhibits better performance as compared to FFH/BFSK systems with a diversity level of one. However, it is observed that the performance of DFH systems vary with the four different encoder types. Therefore, it can be concluded that the design of the FTF plays a key role in dictating the performance for DFH systems. Bachelor of Engineering 2013-05-31T03:30:12Z 2013-05-31T03:30:12Z 2013 2013 Final Year Project (FYP) http://hdl.handle.net/10356/53276 en Nanyang Technological University 81 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering::Wireless communication systems Lee, Shu Chuan. Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming |
| description |
Differential frequency hopping (DFH) is a novel technique employed by the
correlated hopping enhanced spread spectrum (CHESS) radio, developed by the
Sanders Company. The core of the DFH technique is in its frequency transition
function (FTF), which generates a sequence of correlated frequency hops
corresponding to the input information sequence. As a result, DFH systems are able
to reconstruct missed hops in the detection process.
This Final Year Project (FYP) report documents the investigations of the bit-error
performance of DFH systems in Rayleigh-fading channels in the presence of partialband
noise jamming (PBNJ). The bit-error performance of fast frequency-hopped
(FFH) systems employing binary frequency-shift keying (BFSK) corrupted by the
worst-case PBNJ, additive white Gaussian noise (AWGN) and Rayleigh-fading
channels is also investigated and acts as supplementary materials for the
investigation of DFH systems. Four different designs of FTF encoders for DFH
systems are investigated in this FYP.
Simulation results obtained show that DFH systems outperform conventional
FFH/BFSK systems when corrupted by the worst-case PBNJ and AWGN. The
improved performance is due to the error correcting characteristic of DFH systems.
When operating in Rayleigh-fading channels corrupted with the worst-case PBNJ,
DFH systems, depending on the type of FTF encoder employed, exhibits better
performance as compared to FFH/BFSK systems with a diversity level of one.
However, it is observed that the performance of DFH systems vary with the four
different encoder types. Therefore, it can be concluded that the design of the FTF
plays a key role in dictating the performance for DFH systems. |
| author2 |
Li Kwok Hung |
| author_facet |
Li Kwok Hung Lee, Shu Chuan. |
| format |
Final Year Project |
| author |
Lee, Shu Chuan. |
| author_sort |
Lee, Shu Chuan. |
| title |
Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming |
| title_short |
Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming |
| title_full |
Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming |
| title_fullStr |
Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming |
| title_full_unstemmed |
Performance study of differential frequency hopping systems over a Rayleigh-faded channel in the presence of jamming |
| title_sort |
performance study of differential frequency hopping systems over a rayleigh-faded channel in the presence of jamming |
| publishDate |
2013 |
| url |
http://hdl.handle.net/10356/53276 |
| _version_ |
1772827506971246592 |