Examples of a system and a method for measuring object stability are disclosed. The system comprises a measuring probe for detecting a response behavior of the object upon an impact. The measuring probe includes a head that comprises a housing having a first end, a second end and a body extending between the first end and the second end. At least one of the first end and the second end of the housing is opened. An impact means is mounted at least partially within the housing. The impact means has a first end connected to a detector and a second end. The detector is configured to detect a reaction behavior of the object upon the impact of the impact means with an impact structure. The detector can generate a voltage or current upon the impact means impacts the impact structure. The probe further comprises a guide configured to determine a position and an orientation of the head of the probe and an impact angle during measurements. The guide can be mechanical guide, such as a sleeve, a suction cup or a T-shaped guide, removably secured to the housing in proximity of the at least one of the open end of the housing. The guide is configured to precisely position and orients the head of the probe to the impacting structure to limit its motion during measurements. In one embodiment the guide can be an electronic guide that comprises a position measuring unit to calculate the position and orientation of the head and an impact angle and to guide a user to position the head of the probe in a desired position and orientation. The signal from the detector is transferred to a processing unit that processes and analyzes the signal calculating a quotient number and producing a report on the stability of the object based on such quotient number.La présente invention concerne un système et un procédé de mesure de la stabilité dun objet. Le système comprend une sonde de mesure servant à détecter un comportement de réponse de lobjet lors dun choc. La sonde de mesure comprend une tête
