H_ethanol {lattice} | R Documentation |
Ethanol fuel was burned in a single-cylinder engine. For various settings of the engine compression and equivalence ratio, the emissions of nitrogen oxides were recorded.
ethanol
A data frame with 88 observations on the following 3 variables.
Concentration of nitrogen oxides (NO and NO2) in micrograms/J.
Compression ratio of the engine.
Equivalence ratio–a measure of the richness of the air and ethanol fuel mixture.
Documentation contributed by Kevin Wright.
Brinkman, N.D. (1981) Ethanol Fuel—A Single-Cylinder Engine Study of Efficiency and Exhaust Emissions. SAE transactions, 90, 1410–1424.
Cleveland, William S. (1993) Visualizing Data. Hobart Press, Summit, New Jersey.
## Constructing panel functions on the fly EE <- equal.count(ethanol$E, number=9, overlap=1/4) xyplot(NOx ~ C | EE, data = ethanol, prepanel = function(x, y) prepanel.loess(x, y, span = 1), xlab = "Compression ratio", ylab = "NOx (micrograms/J)", panel = function(x, y) { panel.grid(h=-1, v= 2) panel.xyplot(x, y) panel.loess(x,y, span=1) }, aspect = "xy") # Wireframe loess surface fit. See Figure 4.61 from Cleveland. require(stats) with(ethanol, { eth.lo <- loess(NOx ~ C * E, span = 1/3, parametric = "C", drop.square = "C", family="symmetric") eth.marginal <- list(C = seq(min(C), max(C), length.out = 25), E = seq(min(E), max(E), length.out = 25)) eth.grid <- expand.grid(eth.marginal) eth.fit <- predict(eth.lo, eth.grid) wireframe(eth.fit ~ eth.grid$C * eth.grid$E, shade=TRUE, screen = list(z = 40, x = -60, y=0), distance = .1, xlab = "C", ylab = "E", zlab = "NOx") })