Deep Blue is an advanced modular sound generation apparatus.  Sources of error from the humanoid operator are minimized through successive digital approximations of sophisticated algorithms modeling high-fidelity periodic signal purification devices.

The modular design affords many advantages, most notably easy adjustment and replacement of the independent modules.  The device is highly portable and can be transported by automobile.  Specially designed wheels allow rapid transport of the assembled device and prevent unwanted floor resonance at low frequencies.  Assembly and dismantling can be accomplished in approximately 90 seconds.  The advantages of individual modules are explained in detail below.

Output can be adjusted to provide sound pressure levels from 0 to over 100 dB relative to the standard threshold of perception.  The device requires a source of 120V(rms) / 60Hz alternating current with a maximum power handling capacity of 320W.  Under 1 cubic meter of space is required for operation.
 
 

Automatic adaptive accompaniment is provided to minimize errors accumulated by the performer(s).   A pseudorandom sample-and-hold number generator (fig. 2) successfully simulates and improves upon naturally occurring group variations of ensemble performers, thereby improving efficiency as much as 71%.

To avoid malfunction, the operator (fig. 2A) may be removed from the process at certain time intervals.
 

Fig. 2A :
humanoid operator
 
 
 

The process is capable of producing high intensity output through cost-effective alloy magnetic technology (fig. 3).  Care should be taken not to exceed the natural limitations of the audience through improper power adjustment, especially in the lowest components of the frequency vector analysis devices.

Fig. 3 :
magnetically controlled barometric modifier
 
 
 
 

A detachable control unit (fig. 5) is used to interface the operator with the process.  The control unit is inexpensive and easily obtained at local audio hardware retailers, making replacement easy in the event of accident or misuse by the operator.
 
 

Fig. 5 :
electromechanical oscillation generator
 
 
 

The internal circuitry of the control unit is highly simplistic, as demonstrated in the schematic diagram (fig. 5A).
Later versions will include one or more upgraded ferromagnetic detectors as well as high resolution potentiometers.
 
 

Fig. 5A :
electromechanical oscillation
generator schematics