Signal processing method of processing frequency domain signal data, and measurement instrument

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A signal processing method of processing frequency domain signal data, wherein the signal processing method comprises the steps of determining or receiving, by a signal processing circuit, frequency domain signal data; applying, by the signal processing circuit, a first window function to the frequency domain signal data, thereby obtaining first modified signal data; applying, by the signal processing circuit, a second window function to the frequency domain signal data, thereby obtaining second modified signal data, wherein the second window function is different from the first window function; transforming, by the signal processing circuit, the first modified signal data into time domain, thereby obtaining first transformed signal data; transforming, by the signal processing circuit, the second modified signal data into time domain, thereby obtaining second transformed signal data; and generating, by a visualization circuit, joint visualization data based on the first transformed signal data and based on the second transformed signal data, wherein the joint visualization data comprises information on both the first transformed signal data and the second transformed signal data. 2. The signal processing method of claim 1 , wherein the joint visualization data is visualized on a display. 3. The signal processing method of claim 1 , wherein the frequency domain signal data has a predefined frequency bandwidth. 4. The signal processing method of claim 1 , wherein the first transformed signal data and the second transformed signal data each comprise a plurality of data points, wherein different data points are captured at different times. 5. The signal processing method of claim 4 , wherein the data points are visualized in a single time domain plot. 6. The signal processing method of claim 4 , wherein the data points are visualized with a density-dependent color, wherein the density-dependent color depends on an area density of the data points. 7. The signal processing method of claim 6 , wherein the density-dependent color is adjustable via a user interface. 8. The signal processing method of claim 4 , wherein the data points have a first color if the area density of the data points is above a first threshold, and wherein the data points have a second color if the area density of the data points is below a second threshold. 9. The signal processing method of claim 4 , wherein the data points are visualized with a density-dependent transparency, wherein the density-dependent transparency depends on an area density of the data points. 10. The signal processing method of claim 4 , wherein the data points associated with the first transformed signal data are weighted differently than the data points associated with the second transformed signal data for determining an area density of the data points. 11. The signal processing method of claim 1 , wherein the first window function and the second window function are selected from the group of a rectangle window, a Hamming window, a Hann window, a Kaiser window, a flat top window, a Tukey window, a Chebyshev window, and a constant. 12. The signal processing method of claim 1 , wherein the first window function and the second window function are selectable by a user interface. 13. The signal processing method of claim 12 , wherein different types of window functions and their respective characteristics are visualized by the user interface. 14. The signal processing method of claim 12 , wherein the first window function and/or the second window function are selected automatically based on a desired optimization selected by a user. 15. The signal processing method of claim 14 , wherein the desired optimization relates to a first side lobe, a constant side lobe, amplitude accuracy, and/or a transient response. 16. The signal processing method of claim 12 , wherein the user interface comprises a diagram, wherein the diagram is configured such that different window functions and/or optimization methods are arranged at different positions within the diagram. 17. The signal processing method of claim 16 , wherein the diagram is a radar chart. 18. The signal processing method of claim 16 , wherein the visualization data is adapted based on a portion of the diagram selected by a user. 19. A measurement instrument, comprising: a signal processing circuit, a visualization circuit, and a display, wherein the measurement instrument is configured to perform the signal processing method of claim 1 . 20. The measurement instrument of claim 19 , wherein the measurement instrument is a vector network analyzer or a spectrum analyzer.