* '''[[Data_Visualization_and_Processing#Computing_and_Graphing_Port_Characteristics | Port Characteristics]]''': S, Z and Y [[Parameters]] and Voltage Standing Wave Ratio (VSWR)
* '''Near-Field Distributions''': Electric and magnetic field amplitude and phase on specified planes and their central axes
* '''[[Data_Visualization_and_Processing#Far-Field_Observables | Radiation Characteristics]]''': Radiation Patterns, Directivity, Total Radiated Power, Axial Ratio, Main Beam Theta and Phi, Radiation Efficiency, Half Power Beam Width (HPBW), Maximum Side Lobe Level (SLL), First Null Level (FNL), Front-to-Back Ratio (FBR), etc.
* '''[[Data_Visualization_and_Processing#Computing_Radar_Cross_Section | Computing Radar Cross Section]]''': Bi-static and Mono-static Radar Cross Section (RCS)
* '''Periodic Characteristics''': Reflection and Transmission Coefficients
Even though EM.Picasso's MoM engine does not need a radiation box, you still have to define a "Far Field" observable for radiation pattern calculation. This is because far field calculations take time and you have to instruct [[EM.Cube]] to perform these calculations. Once a planar MoM simulation is finished, three far field items are added under the Far Field item in the Navigation Tree. These are the far field component in θ direction, the far field component in φ direction and the "Total" far field. The 2D radiation pattern graphs can be plotted from the '''Data Manager'''. A total of eight 2D radiation pattern graphs are available: 4 polar and 4 Cartesian graphs for the XY, YZ, ZX and user defined plane cuts.
[[Image:Info_icon.png|40px]] Click here to learn more about the theory of '''[[Computing_the_Far_Fields_%26_Radiation_CharacteristicsData_Visualization_and_Processing#Far-Field_Observables | Far Field ComputationsObservables]]'''.
[[Image:Info_icon.png|40px]] Click here to learn more about the theory of '''[[Data_Visualization_and_Processing#Using_Array_Factors_to_Model_Antenna_Arrays | Using Array Factors to Model Antenna Arrays ]]'''.