A test and measurement system can include a data store configured to store augmentation settings for dynamically augmenting a physical testing environment and a computing device coupled to the data store. The computing device can be configured to receive an input feed from the physical testing environment, create an augmentation image based on the augmentation settings and the input feed, and output the augmented image to be overlaid on the physical testing environment to augment a user's view of the physical testing environment.

A test and measurement system can include a data store configured to store augmentation settings for dynamically augmenting a physical testing environment and a computing device coupled to the data store. The computing device can be configured to receive an input feed from the physical testing environment, create an augmentation image based on the augmentation settings and the input feed, and output the augmented image to be overlaid on the physical testing environment to augment a user's view of the physical testing environment.

A test and measurement system can include a data store configured to store augmentation settings for dynamically augmenting a physical testing environment and a computing device coupled to the data store. The computing device can be configured to receive an input feed from the physical testing environment, create an augmentation image based on the augmentation settings and the input feed, and output the augmented image to be overlaid on the physical testing environment to augment a user's view of the physical testing environment.

A test and measurement system can include a data store configured to store augmentation settings for dynamically augmenting a physical testing environment and a computing device coupled to the data store. The computing device can be configured to receive an input feed from the physical testing environment, create an augmentation image based on the augmentation settings and the input feed, and output the augmented image to be overlaid on the physical testing environment to augment a user's view of the physical testing environment.

A measurement apparatus comprising a detection unit configured to provide measurement tuples, each measurement tuple (T) including a high frequency signal amplitude (a) of a high frequency signal (S); and a coding unit configured to encode the high frequency signal amplitude (a) of each provided measurement tuple.

A measurement apparatus comprising a detection unit configured to provide measurement tuples, each measurement tuple (T) including a high frequency signal amplitude (a) of a high frequency signal (S); and a coding unit configured to encode the high frequency signal amplitude (a) of each provided measurement tuple.

Method, system and probe for visualizing measured values of an electromagnetic parameter of a PCB. A probe head of a probe contactless measures values of at least one electromagnetic parameter at at least two different positions of the PCB, a camera fixed in position relative to the probe head records for each of the different positions an image of an area of the PCB around the probe head, for each of the different positions, the measured value of the electromagnetic parameter is correlated with the recorded image of the area of the PCB around the probe head, a location of each of the recorded images of the areas on a map representation of the PCB is determined, the map representation of the PCB with the measured values of the electromagnetic parameter, and the map representation of the PCB is visualized together with the superimposed measured values of the electromagnetic parameter.