Abstract: An embodiment of the present invention is directed to a method and system for electronic sensing of string instrument input. The method includes receiving a first signal from a peak detection circuit. The peak detection circuit is operable to sense string activation. A second signal is received from one or more capacitive sensors. The second signal may include finger placement information. The method further includes processing the first and the second signals to generate an audio signal and outputting the audio signal.

Abstract: A system for monitoring equipment in a non-invasive fashion may include at least one sense device comprising an electronics module that includes a image sensor, at least one controller coupled to receive image data from the image sensor and generate a reading value, a display that displays the reading value from the at least one controller. In addition, a mounting adapter, separate from and attachable to the electronics module, may be included that has a fitting portion adaptable to be affixed to the monitored equipment and an image opening that enables an image of the monitored equipment to be acquired. In other embodiments, a sense device may provide a signal, such as a DC signal from piece of equipment. A configuration tool may configure parameters by which a reading value is generated from such a DC signal. In one arrangement, a configuration tool may configure sense devices via a wireless connection, and display any images of the monitored equipment captured by the sense device.

Abstract: A monitoring device assembly and method may include a primary interface for attaching to a monitored device, and a monitoring device mechanically coupled to the primary interface that captures an image of the monitored device.

Abstract: An embodiment of the present invention is directed to a method and system for electronic sensing of string instrument input. The method includes receiving a first signal from a peak detection circuit. The peak detection circuit is operable to sense string activation. A second signal is received from one or more capacitive sensors. The second signal may include finger placement information. The method further includes processing the first and the second signals to generate an audio signal and outputting the audio signal.

Abstract: Apparatuses and methods of deadband setpoint control of pneumatic controllers are described.

Abstract: A method of reading a gauge may include capturing a digital image of the gauge with a gauge reading device attached to the gauge, the digital image comprising a plurality of pixels; determining an angle of a gauge feature based on positions of predetermined pixels of the digital image; and converting the angle into a gauge reading. Gauge reader devices and network based systems are also disclosed.

Abstract: A monitoring device assembly and method may include a primary interface for attaching to a monitored device, and a monitoring device mechanically coupled to the primary interface that captures an image of the monitored device.

Abstract: A device for illuminating and capturing an image of an object can include a first light source mounted to structure; a second light source mounted to the structure; and an image sensor disposed adjacent to the first and second light sources and mounted to the structure. The image sensor may capture at least two different partial images of a target area, the partial images being captured under different acquisition conditions. A controller section may also include that has at least a memory that stores the at least two partial images to form a larger image.

Abstract: A system for monitoring equipment in a non-invasive fashion may include at least one sense device comprising an electronics module that includes a image sensor, at least one controller coupled to receive image data from the image sensor and generate a reading value, a display that displays the reading value from the at least one controller. In addition, a mounting adapter, separate from and attachable to the electronics module, may be included that has a fitting portion adaptable to be affixed to the monitored equipment and an image opening that enables an image of the monitored equipment to be acquired. In other embodiments, a sense device may provide a signal, such as a DC signal from piece of equipment. A configuration tool may configure parameters by which a reading value is generated from such a DC signal. In one arrangement, a configuration tool may configure sense devices via a wireless connection, and display any images of the monitored equipment captured by the sense device.

Abstract: A percussion instrument data generating system can include a plurality of capacitance sensors coupled to the at least a first surface. A controller section can includes a plurality of switches for selectively connecting each capacitance sensor to a sense node. A capacitance sense circuit can be coupled to the common sense node and can measures a capacitance presented at the common sense node. An encoder section that generates a position value for a sensed input event based that varies according to which capacitance sensor detects the input event.

Abstract: An electronic system can generate music related data based on capacitive sensed inputs. The system can include a plurality of capacitance sensor inputs for receiving connection to a plurality of capacitance sensors. At least one activation input can be included for receiving at least one activation signal generated in response to a physical action on the system. A control section can be coupled to the capacitive sensor inputs and the at least one activation input, the control section including at least one processor for sensing the capacitance at each capacitive sense input and generating sense position information therefrom.