A system for on-line detection of incipient cracks in turbine blades to serve as early warning system for turbine blade failure. The system of non-intrusive detection of turbine blade condition of the invention is simple and cost effective and would enable assessing the health of the turbine blade during plant operation, which is extremely important for the safe operation of the turbine in an operating power plant. The present method and system of identifying the presence of modulated blade passing frequency (BPF) for blade vibration that is not correlatable to the change in the operating condition and would thus be indicative of presence of cracked blades with incipient cracking. It is capable for verifying the Campbell diagram and ascertain the margin available between the natural frequency of the blade/stage and the steam excitation frequencies/engine orders.

A system for taking a measurement at a connection element. The system has a force sensor having a first side and a second side. The force sensor is configured to provide a measured value representative for a force acting between the first and the second side of the force sensor. The system also has an ultrasonic sensor and a positioning bushing The positioning bushing has a positioning bushing recess, which is configured to receive the ultrasonic sensor, at least in part. The system also has a separate sensor bushing, mechanically coupled to the first side of the force sensor, and having a sensor bushing recess. The sensor bushing recess is configured to receive, at least in part, the positioning bushing and the first end of the connection element. A second end of the connection element can be mechanically coupled to the second side of the force sensor.

As part of a system, a device is provided as part of a system, the device being for capturing vibrations produced by an object such as a musical instrument. The device has a first sensor placed in contact with a surface of the drum, such as a rim of the drum, and a second sensor placed at a fixed location relative to the drum, but not touching the drum. A method may be provided for interpreting the output of the sensors within the system, the method comprising identifying the onset of an audio event in audio data, selecting a window in the data for analysis, applying transforms to generate a representation of the audio event, and comparing that representation to expected representations in a model.

Systems and methods are provided that relate to vibrational input elements configured to provide inputs to control an application executed by a mobile computing device. The vibrational input elements may produce distinct vibration patterns that are detectable by a sensor of the mobile computing device. The respective vibration patterns may correspond to one or more actions that may be performed in relation to the application.

Systems and methods are provided that relate to vibrational input elements configured to provide inputs to control an application executed by a mobile computing device. The vibrational input elements may produce distinct vibration patterns that are detectable by a sensor of the mobile computing device. The respective vibration patterns may correspond to one or more actions that may be performed in relation to the application.

In an embodiment a MEMS sensor device includes at least one micro-mechanical sensing element and measurement circuitry coupled to the at least one micro-mechanical sensing element, wherein the measurement circuitry is configured, during a first operational mode of the MEMS sensor device, to control the at least one micro-mechanical sensing element to measure a first physical parameter, and, during a second operational mode of the MEMS sensor device, to control the at least one micro-mechanical sensing element to measure a different second physical parameter.

An embodiment of the present disclosure provides a vibration sensing device, which may include a vibration sensor and at least one vibration component. The vibration sensor has a first resonant frequency, at least one vibration component may be configured to transmit the received vibration to the vibration sensor, and the at least one vibration component may include a liquid arranged in the target cavity and a plate body forming a part of the cavity wall of the target cavity. The at least one vibration component may provide at least one second resonant frequency for the vibration sensing device, and at least one second resonant frequency may be different from the first resonant frequency.