Add to ORKGWe introduce and analyze a set of essentially discontinuous functions, based on multiplicative inverse of the time, which are usable as chirp signals. An advantage of these chirps is that they can be chosen from a large class to allow multiple radar operators to use each a specific waveform in automotive applications. When the new chirps are derived from chaotic signals, they are also less predictable for an observer, which is an advantage in some radar and sonar applications
Since the advent of “pulse compression” radar, the “chirp” signal (Linear Frequency Modulation, LFM)...
The paper considers sparse reconstruction of Doppler and microDoppler time-frequency (TF) signatures...
This dissertation extends the work on the characterization of Chaos-Based Frequency Modulated (CBFM)...
We introduce and analyze a set of essentially discontinuous functions, based on multiplicative inver...
Working document. Unpublished.The analysis of chaotic signals with time-frequency methods is conside...
An example radar apparatus has a transmission frequency modulated by a chirp waveform having three c...
M-level Continuous Phase Chirp Modulation is considered for data transmission. In this article, we w...
There is no doubt that chaotic systems are still attractive issues in various radar applications and...
This paper deals with a novel method of transmission and receipt of a signal based on both the prope...
Pulse radars extend target range detection by increasing the transmitted pulse width. On the other h...
Thesis (S.B. and M.Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and...
The concept of Multiple-Input Multiple-Output (MIMO) radars has drawn considerable attention recentl...
Many radar applications, such as those involving multiple-input, multiple-output (MIMO) radar, requi...
Many radar applications, such as those involving multiple-input, multiple-output (MIMO) radar, requi...
This paper focuses on a possible application of chaotic signals as an alternative to more conventio...
Since the advent of “pulse compression” radar, the “chirp” signal (Linear Frequency Modulation, LFM)...
The paper considers sparse reconstruction of Doppler and microDoppler time-frequency (TF) signatures...
This dissertation extends the work on the characterization of Chaos-Based Frequency Modulated (CBFM)...
We introduce and analyze a set of essentially discontinuous functions, based on multiplicative inver...
Working document. Unpublished.The analysis of chaotic signals with time-frequency methods is conside...
An example radar apparatus has a transmission frequency modulated by a chirp waveform having three c...
M-level Continuous Phase Chirp Modulation is considered for data transmission. In this article, we w...
There is no doubt that chaotic systems are still attractive issues in various radar applications and...
This paper deals with a novel method of transmission and receipt of a signal based on both the prope...
Pulse radars extend target range detection by increasing the transmitted pulse width. On the other h...
Thesis (S.B. and M.Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and...
The concept of Multiple-Input Multiple-Output (MIMO) radars has drawn considerable attention recentl...
Many radar applications, such as those involving multiple-input, multiple-output (MIMO) radar, requi...
Many radar applications, such as those involving multiple-input, multiple-output (MIMO) radar, requi...
This paper focuses on a possible application of chaotic signals as an alternative to more conventio...
Since the advent of “pulse compression” radar, the “chirp” signal (Linear Frequency Modulation, LFM)...
The paper considers sparse reconstruction of Doppler and microDoppler time-frequency (TF) signatures...
This dissertation extends the work on the characterization of Chaos-Based Frequency Modulated (CBFM)...