def dsinfo():
return DSInfo(dsname(), \
"heartbeat model",
"sensor output",
"amplitude")
info.nonlinear = True
return info
def dsinfo():
return DSInfo(dsname(), \
"minimal cosine",
"signal",
"signal")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
"epor",
"signal",
"units")
info.nonlinear = True
return info
def dsinfo():
return DSInfo(dsname(), \
"passthru",
"sensor output",
"amplitude")
info.nonlinear = False
return info
def dsinfo():
return DSInfo(dsname(), \
"debug mult",
"signal",
"signal")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
'linear pendulum simulation',
"position of mass",
"m")
info.nonlinear = False
return info
def dsinfo():
info = DSInfo(dsname(), \
"forced vanderpol oscillator",
"signal",
"amplitude")
info.nonlinear = True
return info
def dsinfo():
return DSInfo(dsname(), \
"power anomaly detector",
"anomaly detected",
"amplitude")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
desc="description",
meas="observation name",
units="observation units")
info.nonlinear = False
return info
def dsinfo():
return DSInfo(dsname(), \
"heat1d",
"heat at point 2",
"heat")
info.nonlinear = True
return info
def dsinfo():
return DSInfo(dsname(), \
"linear two-mass spring system",
"mass 1",
"position")
info.nonlinear = False
return info
def make_dsinfo(N,I):
return DSInfo(make_dsname(N,I), \
"movement of heat through %d point lattice" % N,
"heat at point %d" % I,
"units")
info.nonlinear = False
return info
def dsinfo():
info = DSInfo(dsname(), \
"michaelis menten reaction",
"complex",
"concentration")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
"two-mass spring system",
"mass 1",
"position")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
'genetic toggle switch',
"concentration of V",
"concentration")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
'pendulum simulation',
"position of mass",
"position")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
'dampened oscillator simulation',
"oscillator amplitude",
"amplitude")
info.nonlinear = False
return info
def dsinfo():
info = DSInfo("kalman", \
"average tracking kalman filter",
"average",
"amplitude")
info.nonlinear = True
return info
def dsinfo():
info = DSInfo(dsname(), \
"bont",
"signal",
"units")
info.nonlinear = False
return info
def dsinfo():
return DSInfo(dsname(), \
"rep",
"signal",
"signal")
info.nonlinear = True
return info
def dsinfo():
return DSInfo(dsname(), \
"frequency anomaly detector",
"sensor output",
"amplitude")
info.nonlinear = True
return info
def dsinfo():
return DSInfo(dsname(), \
"PI controller",
"velocity",
"velocity")
def dsinfo():
return DSInfo(dsname(), \
"lotka-voltera system",
"population",
"thou")
def dsinfo():
return DSInfo(dsname(), \
"debug-vga-simple",
"signal",
"signal")
return info
def dsinfo():
return DSInfo(dsname(), \
"debug-dac",
"signal",
"signal")
return info