Systems for a touchless musical instrument, where the touchless musical instrument includes: multiple sensors, where each sensor detects a presence of an object within a predetermined distance of the sensor; an audio speaker; a processor electrically connected to the sensors and the audio speaker; and executes instructions on the process to: receive, from the plurality of sensors, an object detection signal indicating a location of the object with respect to the plurality of sensors; generate an audio output signal based on the location of the object indicated by the object detection signal; and generate an audible output from the audio speaker by transmitting the audio output signal to the audio speaker.

A new interface is provided that supports simultaneous transmission of an audio signal and a MIDI signal. Signals consecutive in predetermined units are transmitted to a reception side via a predetermined transmission path. The signals consecutive in the predetermined units include a signal of a first predetermined unit of the predetermined units including an audio signal and a signal of a second predetermined unit of the predetermined units including a MIDI signal. For example, the audio signal is a linear PCM signal constituting a stereo 2-channel audio signal. For example, the MIDI signal includes packet data of a predetermined length, and the packet data of the predetermined length is divided into a plurality of pieces, and transmitted by being included in signals of a plurality of pieces of the second predetermined units.

Systems for a touchless musical instrument, where the touchless musical instrument includes: multiple sensors, where each sensor detects a presence of an object within a predetermined distance of the sensor; an audio speaker; a processor electrically connected to the sensors and the audio speaker; and executes instructions on the process to: receive, from the plurality of sensors, an object detection signal indicating a location of the object with respect to the plurality of sensors; generate an audio output signal based on the location of the object indicated by the object detection signal; and generate an audible output from the audio speaker by transmitting the audio output signal to the audio speaker.

A laser light-based control system that makes use of intelligent motion tracking camera-based technologies to allow a performed to select notes, to provide a range of values for controlling device components (such as a fader), and to select a volume or magnitude value for a selected note (or output value). The control system may be configured in some implementations with the ability to filter out other light sources to only monitor a particular light from a source using real time video processing. This allows the control system to function to track simple and also complex laser animations and beam interruptions and, in response to the results of such tracking, to generate control signals for a digital music instrument to generate an endless amount of note values and variables (e.g., volume, pitch, and so on) in a 2D space or, in some preferred embodiments, a three dimensional (3D) space.

A system, equipment and process to guide a user in the experience of rhythmic exercise. Playback of an audio file/signal, such as a musical phrase, that has known rhythmic structure (e.g., beat pattern) is accompanied, by non-audio sensory cues such as a light signal or tactical signal (vibration) to mark rhythmic events in the audio playback (such as the beginning and end of playback and/or audio pulses (beats). In addition, equipment is provided to guide the user in performing a GDM (goal directed movement) sequence that is selected to be performed in synch with the rhythm of the audio signal. The user's motion is detected and compared to desired GDM in the selected sequence and also compared to the rhythm of the audio signal. Sensory cues are provided to guide the user in performing the GDM sequence rhythmically. The system may be implemented in cardio fitness equipment including treadmill, AMT, stationary exercise bike and elliptical type exercise equipment.

A new interface is provided that supports simultaneous transmission of an audio signal and a MIDI signal. Signals consecutive in predetermined units are transmitted to a reception side via a predetermined transmission path. The signals consecutive in the predetermined units include a signal of a first predetermined unit of the predetermined units including an audio signal and a signal of a second predetermined unit of the predetermined units including a MIDI signal. For example, the audio signal is a linear PCM signal constituting a stereo 2-channel audio signal. For example, the MIDI signal includes packet data of a predetermined length, and the packet data of the predetermined length is divided into a plurality of pieces, and transmitted by being included in signals of a plurality of pieces of the second predetermined units.

A laser trigger for a bass drum includes an enclosure attached to a drum rim which contains at least one reader of strokes performed with a foot pedal beater. The stroke reader is directed towards the beater, and has a laser beam emitter and the photoelectric element, whereas the retroreflective coating is applied on the pedal beater to reflect the laser beam in the direction of the photoelectric element at the moment of stroke. The enclosure/housing cavity includes a stroke recognition circuit based on parameters of the electric signal from the photoelectric element connected with the processing circuit that includes an audio frequency electric signal generator, which is connected with the output connector to connect the cable for outputting these signals for further processing and amplification.

A laser trigger for a bass drum includes an enclosure attached to a drum rim which contains at least one reader of strokes performed with a foot pedal beater. The stroke reader is directed towards the beater, and has a laser beam emitter and the photoelectric element, whereas the retroreflective coating is applied on the pedal beater to reflect the laser beam in the direction of the photoelectric element at the moment of stroke. The enclosure/housing cavity includes a stroke recognition circuit based on parameters of the electric signal from the photoelectric element connected with the processing circuit that includes an audio frequency electric signal generator, which is connected with the output connector to connect the cable for outputting these signals for further processing and amplification.

A laser light-based control system that makes use of intelligent motion tracking camera-based technologies to allow a performed to select notes, to provide a range of values for controlling device components (such as a fader), and to select a volume or magnitude value for a selected note (or output value). The control system may be configured in some implementations with the ability to filter out other light sources to only monitor a particular light from a source using real time video processing. This allows the control system to function to track simple and also complex laser animations and beam interruptions and, in response to the results of such tracking, to generate control signals for a digital music instrument to generate an endless amount of note values and variables (e.g., volume, pitch, and so on) in a 2D space or, in some preferred embodiments, a three dimensional (3D) space.

A laser light-based control system that makes use of intelligent motion tracking camera-based technologies to allow a performed to select notes, to provide a range of values for controlling device components (such as a fader), and to select a volume or magnitude value for a selected note (or output value). The control system may be configured in some implementations with the ability to filter out other light sources to only monitor a particular light from a source using real time video processing. This allows the control system to function to track simple and also complex laser animations and beam interruptions and, in response to the results of such tracking, to generate control signals for a digital music instrument to generate an endless amount of note values and variables (e.g., volume, pitch, and so on) in a 2D space or, in some preferred embodiments, a three dimensional (3D) space.