validate_inputs: Input validator
In HiDef-Aerial-Surveying/stochLAB: Stochastic Collision Risk Model

validate_inputs

R Documentation

Input validator

Description

Input validator

Usage

validate_inputs(
  model_options,
  n_iter = NULL,
  flt_speed_pars = NULL,
  flight_speed = NULL,
  body_lt_pars = NULL,
  body_lt = NULL,
  wing_span_pars = NULL,
  wing_span = NULL,
  avoid_bsc_pars = NULL,
  avoid_rt_basic = NULL,
  avoid_ext_pars = NULL,
  avoid_rt_ext = NULL,
  noct_act_pars = NULL,
  noct_activity = NULL,
  prop_crh_pars = NULL,
  bird_dens_opt = NULL,
  bird_dens_dt = NULL,
  chord_prof = NULL,
  dens_month = NULL,
  turb_oper_month = NULL,
  flight_type = NULL,
  prop_upwind = NULL,
  gen_fhd_boots = NULL,
  site_fhd_boots = NULL,
  n_blades = NULL,
  air_gap_pars = NULL,
  rtr_radius_pars = NULL,
  rotor_radius = NULL,
  blade_width = NULL,
  blade_pitch = NULL,
  hub_height = NULL,
  bld_width_pars = NULL,
  rtn_pitch_opt = NULL,
  bld_pitch_pars = NULL,
  rtn_speed_pars = NULL,
  rotor_speed = NULL,
  n_turbines = NULL,
  windspd_pars = NULL,
  rtn_pitch_windspd_dt = NULL,
  trb_wind_avbl = NULL,
  trb_downtime_pars = NULL,
  wf_n_trbs = NULL,
  wf_width = NULL,
  wf_latitude = NULL,
  tidal_offset = NULL,
  gen_fhd = NULL,
  site_fhd = NULL,
  lrg_arr_corr = NULL,
  xinc = NULL,
  yinc = NULL,
  seed = NULL,
  verbose = NULL,
  out_format = NULL,
  out_sampled_pars = NULL,
  out_period = NULL,
  season_specs = NULL,
  popn_estim_pars = NULL,
  fn = "scrm"
)

Arguments

`model_options`	Character vector, the model options for calculating collision risk (see Details section below).
`n_iter`	An integer. The number of iterations for the model simulation.
`flt_speed_pars`	A single row data frame with columns `mean` and `sd`, the mean and standard deviation of the species flying speed, in metres/sec. Assumed to follow a Truncated Normal with lower bound at 0 (tnorm-lw0).
`flight_speed`	Numeric value. The bird flying speed (v), in metres/sec.
`body_lt_pars`	A single row data frame with columns `mean` and `sd`, the mean and standard deviation of the species body length, in metres. Assumed to follow a tnorm-lw0 distribution.
`body_lt`	Numeric value. The length of the bird (L), in metres.
`wing_span_pars`	A single row data frame with columns `mean` and `sd`, the mean and standard deviation of the species wingspan, in metres. Assumed to follow a tnorm-lw0 distribution.
`wing_span`	Numeric value. The wingspan of the bird (W), in metres.
`avoid_bsc_pars, avoid_ext_pars`	Single row data frames with columns `mean` and `sd`, the mean and standard deviation of the species avoidance rate to be used in the basic model (Options 1 and 2) and extended model (Options 3 and 4) calculations (see Details section). Avoidance rate expresses the probability that a bird flying on a collision course with a turbine will take evading action to avoid collision, and it is assumed to follow a Beta distribution.
`avoid_rt_basic, avoid_rt_ext`	Numeric values. The avoidance rate for, respectively, the basic model (i.e. required for model Options 1 and 2) and the extended model (i.e. required for Options 3 and 4). Avoidance rate expresses the probability that a bird flying on a collision course with a turbine will take evading action to avoid collision.
`noct_act_pars`	A single row data frame with columns `mean` and `sd`, The mean and standard deviation of the species nocturnal flight activity level, expressed as a proportion of daytime activity levels, and assumed to be Beta distributed.
`noct_activity`	A numeric value. The nocturnal flight activity level, expressed as a proportion of daytime activity levels (f_night).
`prop_crh_pars`	Required only for model Option 1, a single row data frame with columns `mean` and `sd`. The mean and standard deviation of the proportion of flights at collision risk height derived from site survey, assumed to be Beta distributed.
`bird_dens_opt`	Option for specifying the random sampling mechanism for bird densities: `"tnorm"`: Sampling of density estimates from a tnorm-lw0 distribution (default value), `"resample"`: Re-sample draws of bird density estimates (e.g. bootstrap samples), `"qtiles"`: Sampling from a set of quantile estimates of bird densities.
`bird_dens_dt`	A data frame with monthly estimates of bird density within the windfarm footprint, expressed as the number of daytime in-flight birds/km^2 per month. Data frame format requirements: If `bird_dens_opt = "tnorm"`, `bird_dens_dt` must contain the following columns: `month`, (unique) month names, `mean`, the mean number of birds in flight at any height per square kilometre in each month, `sd`, idem, for standard deviation. If `bird_dens_opt = "resample"`, `bird_dens_dt` columns must be named as months (i.e. `Jan`, `Feb`, ...), each containing random samples of monthly density estimates. If `bird_dens_opt = "qtiles"`, `bird_dens_dt` must comply with: First column named as `p`, giving reference probabilities, Remaining columns named as months (i.e. `Jan`, `Feb`, ...), each giving the quantile estimates of bird density in a given month, for the reference probabilities in column `p`.
`chord_prof`	A data frame with the chord taper profile of the rotor blade. Function expects two named columns: `pp_radius`, equidistant intervals of radius at bird passage point, as a proportion of `rotor_radius`, within the range [0, 1]. `chord`, the chord width at `pp_radius`, as a proportion of `blade_width`. Defaults to a generic profile for a typical modern 5MW turbine. See `chord_prof_5MW()` for details.
`dens_month`	Data frame, containing estimates of daytime in-flight bird densities per month within the windfarm footprint, in birds/km^2. It must contain the following named columns: `month`, the month names. `dens`, the number of birds in flight at any height per square kilometre in each month.
`turb_oper_month`	Data frame, holding the proportion of time during which turbines are operational per month. The following named column are expected: `month`, the month names. `prop_oper`, the proportion of time operating, per month.
`flight_type`	A character string, either 'flapping' or 'gliding', indicating the species' characteristic flight type.
`prop_upwind`	Numeric value between 0-1 giving the proportion of flights upwind - defaults to 0.5.
`gen_fhd_boots`	Required only for model Options 2 and 3, a data frame with bootstrap samples of flight height distributions (FHD) of the species derived from general (country/regional level) data. FHD provides relative frequency distribution of bird flights at 1-+ -metre height bands, starting from sea surface. The first column must be named as `height`, expressing the lower bound of the height band (thus it's first element must be 0). Each remaining column should provide a bootstrap sample of the proportion of bird flights at each height band, with no column naming requirements. NOTE: generic_fhd_bootstraps is a list object with generic FHD bootstrap estimates for 25 seabird species from Johnson et al (2014) doi: 10.1111/1365-2664.12191 (see usage in Example Section below).
`site_fhd_boots`	Required only for model Option 4, a data frame similar to `gen_fhd_boots`, but for FHD estimates derived from site-specific data.
`n_blades`	An integer, the number of blades in rotor (b).
`air_gap_pars`	A single row data frame with columns `mean` and `sd`, the mean and standard deviation of the tip clearance gap, in metres, i.e. the distance between the minimum rotor tip height and the highest astronomical tide (HAT). Assumed to follow a tnorm-lw0 distribution.
`rtr_radius_pars`	A single row data frame with columns `mean` and `sd`, the mean and standard deviation of the radius of the rotor, in metres. Assumed to follow a tnorm-lw0 distribution.
`rotor_radius`	Numeric value. The radius of the rotor (R), in metres.
`blade_width`	Numeric value, giving the maximum blade width, in metres.
`blade_pitch`	Numeric value. The average blade pitch angle, the angle between the blade surface and the rotor plane (γ), in radians.
`hub_height`	A numeric value, the height of the rotor hub (H), given by the sum of rotor radius and minimum blade clearance above the highest astronomical tide (HAT), in metres.
`bld_width_pars`	A single row data frame with columns `mean` and `sd`, the mean and standard deviation of the maximum blade width, in metres. Assumed to be tnorm-lw0 distribution.
`rtn_pitch_opt`	a character string, the option for specifying the sampling mechanism for rotation speed and blade pitch: `"probDist"`: sample rotation speed and blade pitch values from a tnorm-lw0 distribution (default value). `"windSpeedReltn"`: generate rotation speed and blade pitch values as a function of wind speed intensity.
`bld_pitch_pars`	Only required if `rtn_pitch_opt = "probDist"`, a single row data frame with columns `mean` and `sd`, the mean and standard deviation of the blade pitch angle, i.e. the angle between the blade surface and the rotor plane, in degrees. Assumed to follow a tnorm-lw0 distribution.
`rtn_speed_pars`	Only required if `rtn_pitch_opt = "probDist"`, a single row data frame with columns `mean` and `sd`, the mean and standard deviation of the operational rotation speed, in revolutions per minute. Assumed to follow a tnorm-lw0 distribution.
`rotor_speed`	Numeric value. The operational rotation speed, in revolutions/min.
`n_turbines`	Integer, the number of turbines on the wind farm (T).
`windspd_pars`	Only required if `rtn_pitch_opt = "windSpeedReltn"`, a single row data frame with columns `mean` and `sd`, the mean and the standard deviation of wind speed at the windfarm site, in metres/sec. Assumed to follow a tnorm-lw0 distribution.
`rtn_pitch_windspd_dt`	Only required if `rtn_pitch_opt = "windSpeedReltn"`, a data frame giving the relationship between wind speed, rotation speed and blade pitch values. It must contain the columns: `wind_speed`, wind speed in m/s, `rtn_speed`, rotation speed in rpm, `bld_pitch`, blade pitch values in degrees.
`trb_wind_avbl`	A data frame with the monthly estimates of operational wind availability. It must contain the columns: `month`, (unique) month names, `pctg`, the percentage of time wind conditions allow for turbine operation per month.
`trb_downtime_pars`	A data frame with monthly estimates of maintenance downtime, assumed to follow a tnorm-lw0 distribution. It must contain the following columns: `month`, (unique) month names, `mean`, numeric, the mean percentage of time in each month when turbines are not operating due to maintenance, `sd`, the standard deviation of monthly maintenance downtime.
`wf_n_trbs`	Integer, the number of turbines on the windfarm.
`wf_width`	Numeric value, the approximate longitudinal width of the wind farm, in kilometres (w).
`wf_latitude`	A decimal value. The latitude of the centroid of the windfarm, in degrees.
`tidal_offset`	A numeric value, the tidal offset, the difference between HAT and mean sea level, in metres.
`gen_fhd, site_fhd`	Data frame objects, with flight height distributions (fhd) of the species - the relative frequency distribution of bird flights at 1-metre height intervals from sea surface. Specifically: `gen_fhd`, Data frame with the species' generic fhd derived from combining wider survey data. Only required for model Options 2 and 3 `site_fhd`, Data frame with the species' site-specific fhd derived from local survey data. Only required for model Option 4 Data frames must contain the following named columns: `height`, integers representing height bands from sea surface, in metres. Function expects 0 as the first value, representing the 0-1m band. `prop`, the proportion of flights at each height band.
`lrg_arr_corr`	Boolean value. If TRUE, the large array correction will be applied. This is a correction factor to account for the decay in bird density at later rows in wind farms with a large array of turbines.
`yinc, xinc`	numeric values, the increments along the y-axis and x-axis for numerical integration across segments of the rotor circle. Chosen values express proportion of rotor radius. By default these are set to 0.05, i.e. integration will be performed at a resolution of one twentieth of the rotor radius.
`seed`	Integer, the random seed for random number generation, for analysis reproducibility.
`verbose`	Logical, print model run progress on the console?
`out_format`	Output format specification. Possible values are: `"draws"`: returns stochastic draws of collisions estimates (default value), `"summaries"`: returns summary statistics of collisions estimates.
`out_sampled_pars`	Logical, whether to output summary statistics of values sampled for each stochastic model parameter.
`out_period`	Controls level of temporal aggregation of collision outputs. Possible values are: `"months"`: monthly collisions (default value), `"seasons"`: collisions per user-defined season, `"annum"`: total collisions over 12 months.
`season_specs`	Only required if `out_period = "seasons"`, a data frame defining the seasons for aggregating over collision estimates. It must comprise the following columns: `season_id`, (unique) season identifier, `start_month`, name of the season's first month, `end_month`, name of the season's last month.
`popn_estim_pars`	A single row data frame with columns `mean` and `sd`. The population estimate of the species expected to fly through the wind farm area.
`fn`	a character string specifying the parent function whose inputs are being checked: `"scrm"`: checks `stoch_crm()` inputs `"crm"`: checks `band_crm()` inputs `"mcrm"`: checks `mig_stoch_crm()` inputs

Value

Nothing returned from this function

Examples

  validate_inputs(model_options=c(1),
               avoid_bsc_pars=data.frame(mean=0.99,sd=0.001),
               prop_crh_pars=data.frame(mean=0.01,sd=0.01),
               air_gap_pars = data.frame(mean=21,sd=0),
               rtr_radius_pars = data.frame(mean=100,sd=0),
               bld_pitch_pars = data.frame(mean=15,sd=0),
               rtn_pitch_opt = "probDist",
               rtn_speed_pars = data.frame(mean=14,sd=5),
               out_period = "months",
               lrg_arr_corr = TRUE,
               fn="scrm")

HiDef-Aerial-Surveying/stochLAB documentation built on March 16, 2023, 8:13 a.m.