example_detector_presence_multiple_configurations.h File Reference

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Functions

int app_main (int argc, char *argv[])
 Detector presence example with multiple configurations. More...
 

Function Documentation

◆ app_main()

int app_main ( int  argc,
char *  argv[] 
)

Detector presence example with multiple configurations.

Returns
Returns EXIT_SUCCESS if successful, otherwise EXIT_FAILURE

Detector presence example with multiple configurations.

Detector presence example.

Detector distance example with iq data print.

Detector distance with calibration caching example.

Detector distance example.

Control helper example.

Returns
Returns EXIT_SUCCESS if successful, otherwise EXIT_FAILURE

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Detector filters and states are reset on prepare (reconfiguration) to avoid risk of false detections when switching back to a zone.

Definition at line 47 of file example_bring_up.c.