reference cvf model Search Results


reference cvf model  (MathWorks Inc)
90
MathWorks Inc reference cvf model
Example of the wideband baseband macromodeling framework (left) and the <t>reference</t> <t>CVF</t> (right). The bandwidth is indicated with the acronym BW.
Reference Cvf Model, supplied by MathWorks Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/reference cvf model/product/MathWorks Inc
Average 90 stars, based on 1 article reviews
reference cvf model - by Bioz Stars, 2026-04
90/100 stars
  Buy from Supplier

Image Search Results


Example of the wideband baseband macromodeling framework (left) and the reference CVF (right). The bandwidth is indicated with the acronym BW.

Journal: Scientific Reports

Article Title: Wideband parametric baseband macromodeling of linear and passive photonic circuits via complex vector fitting

doi: 10.1038/s41598-023-41227-w

Figure Lengend Snippet: Example of the wideband baseband macromodeling framework (left) and the reference CVF (right). The bandwidth is indicated with the acronym BW.

Article Snippet: The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Techniques:

AWG: The reflected power at the input port (P5) of the AWG. The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Journal: Scientific Reports

Article Title: Wideband parametric baseband macromodeling of linear and passive photonic circuits via complex vector fitting

doi: 10.1038/s41598-023-41227-w

Figure Lengend Snippet: AWG: The reflected power at the input port (P5) of the AWG. The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Article Snippet: The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Techniques:

AWG: The total signal power (top) and cross-talk (bottom) detected at port 3 of the AWG. The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Journal: Scientific Reports

Article Title: Wideband parametric baseband macromodeling of linear and passive photonic circuits via complex vector fitting

doi: 10.1038/s41598-023-41227-w

Figure Lengend Snippet: AWG: The total signal power (top) and cross-talk (bottom) detected at port 3 of the AWG. The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Article Snippet: The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Techniques:

AWG: Performance metrics of the wideband CVF and CVF model of the 4-channel AWG.

Journal: Scientific Reports

Article Title: Wideband parametric baseband macromodeling of linear and passive photonic circuits via complex vector fitting

doi: 10.1038/s41598-023-41227-w

Figure Lengend Snippet: AWG: Performance metrics of the wideband CVF and CVF model of the 4-channel AWG.

Article Snippet: The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Techniques:

DRR: The transient output response at the pass (P2) and drop (P4) port of the double ring resonator filter. The red lines represent the simulation results of the reference CVF model while the blue dashed lines represent that of the wideband parametric baseband macromodel obtain using the Matlab lsim routine. The grey and green markers represent the simulation results obtained in Caphe and SPICE respectively.

Journal: Scientific Reports

Article Title: Wideband parametric baseband macromodeling of linear and passive photonic circuits via complex vector fitting

doi: 10.1038/s41598-023-41227-w

Figure Lengend Snippet: DRR: The transient output response at the pass (P2) and drop (P4) port of the double ring resonator filter. The red lines represent the simulation results of the reference CVF model while the blue dashed lines represent that of the wideband parametric baseband macromodel obtain using the Matlab lsim routine. The grey and green markers represent the simulation results obtained in Caphe and SPICE respectively.

Article Snippet: The red line represents the simulation results obtained in Matlab with the reference CVF model, the blue dashed line and the green markers represent the simulation results obtained in Matlab and Caphe respectively, with the wideband CVF model.

Techniques: