himach

CRAN status Codecov test coverage

The goal of himach (“high Mach”) is to support modelling and analysis of the market for supersonic aircraft by generating good routes for aircraft which can fly supersonic over the ocean, but only subsonic over land.

In this version of himach, ‘good’ usually means the fastest, so the key indicator is time advantage over flying in a subsonic aircraft.

Three example routes, including a refuel stop in Anchorage. (Original map: www.naturalearthdata.com)

It is not an operational tool. Please don’t fly these routes, which do not allow for wind or other atmospheric conditions, and are based on a very simple model of aircraft performance.

Installation

You can install the latest CRAN release using:

install.packages("himach")

You can install the current development version of himach from github with:

install.packages("devtools")
devtools::install_github("david6marsh/himach")

For the vignette and testing, this package uses a map of New Zealand map based on Stats NZ’s data which are licensed by Stats NZ for re-use under the Creative Commons Attribution 4.0 International licence. Map shown above uses data from www.naturalearthdata.com, from through the rnaturalearthdata, and rnaturalearthhires packages.

Why himach?

A second generation of supersonic passenger aircraft is under development (taking Concorde to be the first generation). These will normally fly supersonic over the ocean, and subsonic over land. So their routes are not well-approximated by a great circle.

A route from himach looks something like this, shown in green on the map. The great-circle route is shown in thin light blue, for comparison. To avoid that the sonic boom reaches land, we have added a buffer around the coast, shown in dark grey.

Example route between Boston & Frankfurt

If we plot a speed view of the same thing, we see that the route maximises the distance over which supersonic speeds may be maintained.

Example route between Boston & Frankfurt, this time showing speed

Compared to some of the larger subsonic passenger jets, the second generation supersonics are expected to have relatively short range. So finding efficient re-fuelling points is an essential part of the modelling process. This map shows some examples (the results depend on which airports you make available as possible re-fuelling points).

Example routes, with refuelling points

Other useful features of himach include:

Example polar view

Getting Started

The routes shown here are specific to the input data: it used a test aircraft and open source geographic data. See the vignettes for a worked example of how to get your own data into himach.

You need maps and airport data, both available from other R packages, as the vignette shows. This package provides a short list of aircraft for illustration purposes only, the aircraft data were taken from Wikipedia and most-likely out of date. Add your own aircraft performance data: the vignette shows how.