Add to ORKGThe expansion of consumer and wireless devices has placed increasing demand on signal bandwidth. This increased demand on a finite resource is in turn driving interest in more efficient ways to use available bandwidth. One approach is through mixed modulation of existing waveforms to achieve complementary objectives. Historically, mixed modulated signals have been designed to include some degree of orthogonality between the different waveforms to preclude interference. Such approaches usually involve use of time division multiple access (TDMA) or code division multiple access (CDMA), or the use of orthogonal frequency division multiplexing. With the evolution of digital signal processing, another approach is mixed modulation through intende...
In light of the increasing requirement for the electromagnetic spectrum, the integration of radar an...
Multiple input/multiple output (MIMO) radar system performance benefits from the capability to simul...
The recent developments in radar technology - powerful signal processors, increased modulation bandw...
The expansion of consumer and wireless devices has placed increasing demand on signal bandwidth. Thi...
Increasing congestion of the electromagnetic spectrum has spurred investigation into approaches that...
The use of multicarrier waveforms, such as orthogonal frequency division multiplexing (OFDM) as used...
As electromagnetic spectrum availability shrinks, there is growing interest in combining multiple fu...
With revolutionary new services and applications, integrated sensing and communication has been esse...
Joint radar-communication designs are exploited in applications where radar and communications syste...
The use of multi-carrier waveforms, such as Orthogonal Frequency Division Multiplexing (OFDM) as use...
Inspired by the success of multi-carrier waveforms such as Orthogonal Frequency Division Multiplexin...
The integration technology of radar and communication is an effective way to realize resource platfo...
This dissertation considers the optimization of radar performance within the structure imposed by a ...
In light of the increasing requirement for the electromagnetic spectrum, the integration of radar an...
Multiple input/multiple output (MIMO) radar system performance benefits from the capability to simul...
The recent developments in radar technology - powerful signal processors, increased modulation bandw...
The expansion of consumer and wireless devices has placed increasing demand on signal bandwidth. Thi...
Increasing congestion of the electromagnetic spectrum has spurred investigation into approaches that...
The use of multicarrier waveforms, such as orthogonal frequency division multiplexing (OFDM) as used...
As electromagnetic spectrum availability shrinks, there is growing interest in combining multiple fu...
With revolutionary new services and applications, integrated sensing and communication has been esse...
Joint radar-communication designs are exploited in applications where radar and communications syste...
The use of multi-carrier waveforms, such as Orthogonal Frequency Division Multiplexing (OFDM) as use...
Inspired by the success of multi-carrier waveforms such as Orthogonal Frequency Division Multiplexin...
The integration technology of radar and communication is an effective way to realize resource platfo...
This dissertation considers the optimization of radar performance within the structure imposed by a ...
In light of the increasing requirement for the electromagnetic spectrum, the integration of radar an...
Multiple input/multiple output (MIMO) radar system performance benefits from the capability to simul...
The recent developments in radar technology - powerful signal processors, increased modulation bandw...