Search JOS Website, CCRMA Website, or Web
JOS Home Page
JOS Online Publications
Index of terms in JOS Website
Recent Developments in Musical Sound Synthesis Based on a Physical Model
Digital Waveguide Modeling
Moving Termination: Ideal String
String Snapshots for Moving Termination
Click for http://scienceworld.wolfram.com/physics/Force.html
Click for http://ccrma.stanford.edu/~jos/pasp/Force_Waves.html
Search JOS Website, CCRMA Website, or Web
JOS Home Page
JOS Online Publications
Index of terms in JOS Website
Recent Developments in Musical Sound Synthesis Based on a Physical Model
Digital Waveguide Modeling
Moving Termination: Ideal String
String Snapshots for Moving Termination
Next
|
Prev
|
Up
|
Top
|
JOS Index
|
JOS Pubs
|
JOS Home
|
Search
Waveguide ``Equivalent Circuits'' for the Uniformly Moving Rigid String Termination
a) Velocity waves.
b)
Force waves
.
String moves with speed
or 0 only
String is always one or two straight segments
A ``Helmholtz corner'' (slope discontinuity) shuttles back and forth at speed
String slope increases without bound
Applied
force
at termination steps up to infinity
Next
|
Prev
|
Up
|
Top
|
JOS Index
|
JOS Pubs
|
JOS Home
|
Search
Download
SMAC03S.pdf
Download
SMAC03S_2up.pdf
``
Recent Developments in Musical Sound Synthesis Based on a Physical Model
'', by
Julius O. Smith III
, (Stockholm Musical Acoustics Conference (SMAC-03), August 6--9, 2003).
Copyright ©
2006-02-19
by
Julius O. Smith III
Center for Computer Research in Music and Acoustics (CCRMA),
Stanford University
[Automatic-links disclaimer]
or 0 only
[Automatic-links disclaimer]