Sound SynthesisPeriodic electric signals can be converted into sound by amplifying them and driving a loudspeaker with them. One way to do this is to simply add various amplitudes of the harmonics of a chosen pitch until the desired timbre is obtained, called additive synthesis. Another way is to start with geometric waves, which are rich in harmonic content, and filter the harmonics to produce a new sound- subtractive synthesis. Modern sound synthesis makes increasing use of MIDI for sequencing and communication between devices.
|
Index Sound reproduction concepts | |
HyperPhysics***** Sound | Go Back |
Methods of SynthesisJeff Pressing in "Synthesizer Performance and Real-Time Techniques" gives this list of approaches to sound synthesis.
|
Index Sound reproduction concepts Reference Pressing | |
HyperPhysics***** Sound | Go Back |
MIDI for MusicMusical Instrument Digital Interface (MIDI) is a data transfer protocol which is widely used with music synthesizers. MIDI can be used as a controller between modules in an integrated music system. It uses a serial data connection with five leads. It uses two basic message types - channel and system. Channel messages can be sent from machine to machine over any one of 16 channels to control an instrument's voice parameters or to control the way the instrument responds to voice messages. System messages can be directed to all devices in the system (called "common" messages) or can be directed to a specific machine (exclusive). Within the MIDI protocol, a basic set of standards has been developed called the General MIDI specification, or just GM. It attempts to standardize common practices within MIDI and make it more accessible to the general user. GM is particularly appropriate for a personal computer-based MIDI system using a sound card in the computer. Part of the GM standard requires support for a basic set of 128 instruments, a minimum of 24-voice polyphony, and polytimbrality to at least 16 sounds deep. Using a MIDI sequencer to control one or more instruments has some significant practical benefits. A MIDI sequence which plays several minutes of music can be stored in a few kilobytes of memory on a computer, whereas the storage of a minute's worth of digitally precise and clear CD quality music directly on a computer disc might take 10 MB of memory. The MIDI file is just a digital representation of the sequence of notes with information about pitch, duration, voice, etc., and that takes much less memory than the digitally recorded image of the complex sound. Other practical benefits include the ability to transpose music without changing its duration, to change its tempo without changing its pitch, or change the synthetic instruments used to perform the piece of music. Drawbacks include the inability to easily include a recorded voice part or played instrument along with the MIDI sequenced sound, but on the other hand, the music can be easily synchronized with multimedia events in a production. |
Index Sound reproduction concepts |
HyperPhysics***** Sound | Go Back |