tprBark: Functions to calculate double bark thickness for given...
In TapeS: Tree Taper Curves and Sorting Based on 'TapeR'
tprBark R Documentation
Functions to calculate double bark thickness for given diameter at
height Hx
Description
Funktion evaluates the double bark thickness models developed
by Altherr et al (1974-79).
Usage
tprBark(obj, Hx, cp = TRUE, mono = TRUE, Rfn = NULL)
## S4 method for signature 'tprTrees'
tprBark(obj, Hx, cp = TRUE, mono = TRUE, Rfn = NULL)
Arguments
obj
object of class 'tprTrees'
Hx
height for which double bark thickness is required
cp
cartesian product, i.e. apply all Hx to all trees, defaults
to TRUE
mono
logical, defaults to true. If calibrated taper curve is
non-monotonic at stem base, an support diameter is added.
Rfn
Rfn setting for residuals error matrix, defaults to
list(fn="sig2"), see resVar.
Value
double bark thickness [cm]
Methods (by class)
-
tprBark(tprTrees): method for class 'tprTrees'
References
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1974).
Statistische Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung
unentrindeten Stammholzes. Kiefer, Buche, Hainbuche, Esche und Roterle.
Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1975). Statistische
Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten
Stammholzes. Europäische Lärche, Japanische Lärche, Schwarzkiefer,
Stieleiche, Traubeneiche, Roteiche, Bergahorn und Linde. Freiburg i. Br.,
Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1976). Statistische
Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten
Stammholzes. Weymouthskiefer, Robinie, Bergulme, Birke, Marilandica-Pappel
und Robusta-Pappel. Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst.
Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1978). Statistische
Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten
Stammholzes. Fichte, Tanne, Douglasie und Sitka-Fichte. Freiburg i. Br.,
Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1979). Statistische
Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten
Stammholzes. Neupotz-Pappel, Regenerata-Pappel, Kirsche, Spitzahorn,
Feldahorn, Aspe, Weide, Flatterulme, Tulpenbaum u. Elsbeere.
Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Examples
## calculating bark thickness depends on diameter estimation and hence on the
## assumed residual variance at calibration.
## can be Rfn=list(fn="sig2") (default), i.e. EBLUP estimation from taper curve
## or e.g. Rfn=list(fn="zero"), i.e. force taper curve through the given measurements
options("TapeS_Rfn") # "sig2", default in TapeS
tmp <- tprTrees()
Dm(tmp); Hm(tmp) # Dbh = D(Hx=1.3) = 30cm (measured)
Dbh(tmp) # estimated via EBLUP from taper curve
tprBark(tmp, Hx = c(1.3, 5)) # bark thickness corresponds to Dbh(tmp)
(d <- tprDiameter(tmp, Hx = c(1.3, 5), bark=TRUE)) ## predicted
bark(1, d[1], 1.3/30) # the same!
bark(1, d[2], 5/30) # the same!
## if using option TapeS_Rfn = list(fn="zero"), force taper curve through measurements
setTapeSoptions(Rfn = list(fn="zero"))
options()$TapeS_Rfn
tprBark(tmp, Hx = c(1.3, 5))
bark(1, 30, 1.3/30) # the same but different to above
bark(1, d[1], 1.3/30) # cf. above
bark(1, 28, 5/30) # the same but different to above
bark(1, d[2], 1.3/30) # cf. above
TapeS documentation built on March 31, 2023, 7:19 p.m.
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| tprBark | R Documentation |
Functions to calculate double bark thickness for given diameter at
height Hx
Description
Funktion evaluates the double bark thickness models developed by Altherr et al (1974-79).
Usage
tprBark(obj, Hx, cp = TRUE, mono = TRUE, Rfn = NULL)
## S4 method for signature 'tprTrees'
tprBark(obj, Hx, cp = TRUE, mono = TRUE, Rfn = NULL)
Arguments
obj |
object of class 'tprTrees' |
Hx |
height for which double bark thickness is required |
cp |
cartesian product, i.e. apply all |
mono |
logical, defaults to true. If calibrated taper curve is non-monotonic at stem base, an support diameter is added. |
Rfn |
Rfn setting for residuals error matrix, defaults to
|
Value
double bark thickness [cm]
Methods (by class)
-
tprBark(tprTrees): method for class 'tprTrees'
References
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1974). Statistische Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten Stammholzes. Kiefer, Buche, Hainbuche, Esche und Roterle. Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1975). Statistische Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten Stammholzes. Europäische Lärche, Japanische Lärche, Schwarzkiefer, Stieleiche, Traubeneiche, Roteiche, Bergahorn und Linde. Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1976). Statistische Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten Stammholzes. Weymouthskiefer, Robinie, Bergulme, Birke, Marilandica-Pappel und Robusta-Pappel. Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1978). Statistische Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten Stammholzes. Fichte, Tanne, Douglasie und Sitka-Fichte. Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Altherr, E., P. Unfried, J. Hradetzky and V. Hradetzky (1979). Statistische Rindenbeziehungen als Hilfsmittel zur Ausformung und Aufmessung unentrindeten Stammholzes. Neupotz-Pappel, Regenerata-Pappel, Kirsche, Spitzahorn, Feldahorn, Aspe, Weide, Flatterulme, Tulpenbaum u. Elsbeere. Freiburg i. Br., Forstl. Versuchs- u. Forschungsanst. Baden-Württenberg.
Examples
## calculating bark thickness depends on diameter estimation and hence on the
## assumed residual variance at calibration.
## can be Rfn=list(fn="sig2") (default), i.e. EBLUP estimation from taper curve
## or e.g. Rfn=list(fn="zero"), i.e. force taper curve through the given measurements
options("TapeS_Rfn") # "sig2", default in TapeS
tmp <- tprTrees()
Dm(tmp); Hm(tmp) # Dbh = D(Hx=1.3) = 30cm (measured)
Dbh(tmp) # estimated via EBLUP from taper curve
tprBark(tmp, Hx = c(1.3, 5)) # bark thickness corresponds to Dbh(tmp)
(d <- tprDiameter(tmp, Hx = c(1.3, 5), bark=TRUE)) ## predicted
bark(1, d[1], 1.3/30) # the same!
bark(1, d[2], 5/30) # the same!
## if using option TapeS_Rfn = list(fn="zero"), force taper curve through measurements
setTapeSoptions(Rfn = list(fn="zero"))
options()$TapeS_Rfn
tprBark(tmp, Hx = c(1.3, 5))
bark(1, 30, 1.3/30) # the same but different to above
bark(1, d[1], 1.3/30) # cf. above
bark(1, 28, 5/30) # the same but different to above
bark(1, d[2], 1.3/30) # cf. above
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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