----------------------------------------------------------------
CHANGES IN transport VERSION 0.12-2 (2020-03-11)
OVERVIEW
o We thank Christoph Weitkamp for contributions.
o Fixes a serious bug in the main transport function.
For method = "networkflow" and mass vectors a, b
containing zeroes, the results were typically wrong before.
o Function transport_track now uses argument fps (frames
per second) instead of delay.time for generation of
animated gifs. This argument is used consistently.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.12-1 (2019-08-07)
OVERVIEW
o Fixes a compilation error under Solaris.
o Returns to using a Makevars file instead of the
configure script for the same openmp functionality
as in the previous version.
o We thank Brian Ripley for pertinent hints on both.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.12-0 (2019-08-05)
OVERVIEW
o We thank Nicolas Bonneel for contributions.
o The main workhorse function transport has a new method
"networkflow". This is currently the recommended method for
solving the discrete optimal transport problems directly
via a simplex algorithm (it is fastest unless special
structure is known, e.g. p=2).
The method is available for objects of classes pp, wpp,
pgrid. The code is based on the modified version of
the Lemon Library provided by Nicolas Bonneel.
https://github.com/nbonneel/network_simplex
o A new configure script checks for openmp support at install time.
If supported the installed version allows the user to run a
multithreaded version of the "networkflow" method via a new
argument "threads" in the appropriate transport functions.
o Fixes a bug in the transport.track function which could cause
an error when trying to generate a gif using this function.
Also adds some minor customization options to this function.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.11-2 (2019-06-12)
OVERVIEW
o We thank Luc Lehericy for contributions.
o A bug in the function transport.wpp was fixed which
for strongly unbalanced weights created sometimes
an infinite loop.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.11-1 (2019-04-17)
OVERVIEW
o We thank Samuel Ackerman for contributions.
o The functions subwasserstein and transport.pp are
faster now. Depending on the example the speed increase
can be very substantial.
SIGNIFICANT CHANGES
o Function subwasserstein is much faster now for large objects
because distance matrixes are not precomputed anymore. Set
the new argument precompute=TRUE if you must reproduce the
old behaviour.
BUG FIXES
o Due to the misplacement of a line of code, epsilon-scaling
in the auction algorithm was not working properly for the
function transport.pp. In some simple pathological examples
the algorithm took very long. Reported by Samuel Ackerman.
Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.11-0 (2019-02-03)
OVERVIEW
o Several improvements regarding exact and approximate
computations of Wasserstein distances, including a
bug fix.
NEW FUNCTIONS
o subwasserstein
Allow for approximate computation of Wasserstein distances
via subsampling. Code by Jörn Schrieber
SIGNIFICANT CHANGES
o Function wasserstein can now also compute Wasserstein
distances in the vanilla case of two mass vectors with
cost matrix.
BUG FIXES
o The result was incorrectly normed when applying function
wasserstein to objects of class "wpp" with prob=TRUE. Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.10-0 (2018-12-24)
OVERVIEW
o Semidiscrete optimal transport can now also be
computed for p=1 (in addition to p=2) if CGAL is
available. Adapt then src/Makevars and install this
package from source. This functionality is based on
stand-alone C++ code by Valentin Hartmann
o Easier extraction of the Wasserstein distance
from semidiscrete optimal transport results
NEW FUNCTIONS
o semidiscrete1
The workhorse function for computing semidiscrete
optimal transport for p=1. This is called by the
function transport (if first input object has class
pgrid, second input object has class wpp and p=1) and
by the function semidiscrete (if p=1).
Calling semidiscrete1 directly offers finer control
of the algorithm.
o plot_apollonius
The workhorse function for plotting the semidiscrete
optimal transport plan for p=1. This is called by the
function plot.pgrid (if the second input object has
class wpp and p=1).
Calling plot_apollonius directly allows to plot
arbitrary Apollonius diagrams (a.k.a. weighted Voronoi
tesselations) based on a two-column matrix of centers
and a vector of weights. It allows offers finer
control over plotting.
SIGNIFICANT CHANGES
o Functions transport and plot.pgrid can now compute
and plot semidiscrete optimal transport plans also
for p=1 (in addition to p=2) using an object of class
pgrid and an object of class wpp. The result of the
plot is an Apollonius diagram (a.k.a. weighted
Voronoi tesselations) consisting of hyperbola
segments.
o The object returned by semidiscrete now always contains
a component giving the Wasserstein distance between the
input objects. The function wasserstein simply extracts
this component.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.9-4 (2017-10-03)
OVERVIEW
o Compilation with the most recent version of clang resulted in
an error. Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.9-3 (2017-09-29)
OVERVIEW
o Minor change to remove a compiler warning
----------------------------------------------------------------
CHANGES IN transport VERSION 0.9-2 (2017-09-28)
OVERVIEW
o Minor changes in Makevars to enable compilation under Windows and
pass CRAN checks
----------------------------------------------------------------
CHANGES IN transport VERSION 0.9-1 (2017-09-15)
OVERVIEW
o Minor bug fixes
----------------------------------------------------------------
CHANGES IN transport VERSION 0.9-0 (2017-08-24)
OVERVIEW
o Fixed serious bug, introduced in version 0.7-0,
by which the algorithm hanged for pgrid-objects if p>1
method="revsimplex" (the default) if masses are not integer valued
o New method "shielding" for pgrid-objects if p=2 that is considerably
faster than the existing methods. Option to link package
against CPLEX makes this combination even much faster and enables
computation for 128x128 grids within a few seconds.
C++ code by Bernhard Schmitzer
----------------------------------------------------------------
CHANGES IN transport VERSION 0.8-2 (2017-03-09)
OVERVIEW
o New function wasserstein1d to compute the Wasserstein
distance between two univariate samples (with weights)
----------------------------------------------------------------
CHANGES IN transport VERSION 0.8-1 (2016-12-03)
OVERVIEW
o We thank Atreju Tauschinsky for contributions
o The wasserstein function supports now the wpp class
o Several minor bug fixes
----------------------------------------------------------------
CHANGES IN transport VERSION 0.8-0 (2016-10-15)
OVERVIEW
o We thank Florian Heinemann and Timo Wilm for contributions
o New class weighted point patterns with full functionality
o Optimal transport between pgrid and wpp that returns
transport tesselation
o Dynamic optimal transport (displacement interpolation)
NEW CLASSES
o wpp
The class wpp describes general discrete measures with
finite support, i.e. patterns of finitely many "weighted"
points (without specific structure for the locations or
weights). There are constructors for this class,
as well as plot, print and summary functions. The
function 'transport' can deal with this class.
We thank Timo Wilm for help with creating this class.
NEW FUNCTIONS
o semidiscrete
Computes the transport map (in the form of a power
diagram) for the semidiscrete transport problem
from a pgrid to a wpp object for the case p=2.
This function is not usually called by the user
because the function transport offers the same
flexibility now.
o plot_pgrid_wpp
Plots a representation of a transport map (available
as a power diagram) between a pgrid and a wpp object.
This function gets called when using the generic plot
function with a pgrid and a wpp object (in that order),
but a direct call to plot_pgrid_wpp by the user offers
more possibilites for customizing the plot.
o transport_track
Computes a dynamic version of a given transference plan
by interpolating in time. The linear interpolation of
the projections of the transference plan is computed,
which in many important cases corresponds to the
displacement interpolation. The result can be either
returned as an array or is saved as an animated gif.
We thank Florian Heinemann for contributing large
parts of this function.
SIGNIFICANT CHANGES
o transport
Can now deal with two wpp objects and in the case p=2
also with one pgrid and one wpp object as inputs
(in that order).
o aha
It is now possible to return the parameters for the optimal
power diagram, rather than the (approximative) optimal transference
plan in terms of the pixel centers of the source measure. For
this, use the new option powerdiag.
OTHER USER-VISIBLE CHANGES
o pgrid
If no information is provided on the positions of the pixels, it is
now assumed that we have square pixels and the boundary points
in the first dimension are 0 and 1 (previous behaviour: boundary
points in every dimension are 0 and 1, leading to non-square pixels
if the pgrid is non-square).
o pgrid
A pgrid object has two additional components 'totmass' giving
the sum of pixel values, and 'totcontmass' giving the sum of
pixel values divided by pixel areas. The former may be interpreted
as totol mass of pgrid if interpreted as a discrete measure on the
grid of pixel centers. The latter may be interpreted as total
mass of pgrid if interpreted as a continuous measure with constant
density on each pixel (seen as small contiguous rectangles).
BUG FIXES
Various smaller bug fixes for special input.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.7-5 (2016-09-28)
OVERVIEW
o We thank Ramon Diaz-Uriarte for contributions
o aha can return optimal power diagram now
o Several minor bug fixes
SIGNIFICANT CHANGES
o aha
It is now possible to return the parameters for the optimal
power diagram, rather than the (approximative) optimal transference
plan in terms of the pixel centers of the source measure. For
this, use the new option powerdiag.
BUG FIXES
o transport.pp, transport.default
Computing the optimal transport from a mass distribution
to itself resulted in an error.
Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.7-4 (2016-06-28)
OVERVIEW
o We thank Yann Abraham and Stefan Kain for contributions
o Several unnecessary outputs are now suppressed by default
(timing information, warnings about degenerate bases that
did not affect the result)
o Several minor bug fixes
BUG FIXES
o transport.pgrid
For p=1 computing the optimal transport from a mass distribution
to itself resulted in a segfault or an error (depending on the
method used).
Fixed.
o transport.pgrid
Having a mass distribution of integers and at least one zero could
cause an integer overflow.
Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.7-3 (2016-02-24)
OVERVIEW
o We thank Ludo Daemen and Stefan Kain for contributions
o Minor changes in the documentation and a bug fix
BUG FIXES
o transport.default
Using transport.default with the shortlist method gave an error
message if no shortlist parameters were set.
Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.7-0 (2015-10-21)
OVERVIEW
o There are two new ways for computing starting solutions
in transport.default and transport.pgrid with
method="revsimplex", which lead to substantial speed
improvements (mainly in transport.pgrid)
o Several minor bugfixes
SIGNIFICANT CHANGES
o transport.pgrid, transport.default
When method="revsimplex" is chosen, transport.pgrid can now
start from a solution that is based on the optimal transport
between two coarsened problems. This "multiscale" behaviour is invoked
automatically if p>1, the grid is 2-dimensional, of a certain
minimal size, and has an even number of vertices in each direction
(for p=1 use the control parameter nscales as in previous
versions). Both transport.pgrid and transport.default can also
be started from a solution based on the "Modified Row Minimum
Rule" (newly implemented in C Code). This is the default
behaviour now for transport.default, and also for transport.pgrid
if the multiscale starting solution described above cannot
be computed.
To get the behaviour of older versions, say
control=list(start="nwcorner") in the transport function.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.6-3 (2014-10-16)
OVERVIEW
o Minor changes in the documentation
----------------------------------------------------------------
CHANGES IN transport VERSION 0.6-2 (2014-06-21)
OVERVIEW
o Minor changes in the documentation and a bug fix
BUG FIXES
o aha
In the underlying C code integer overflows were possible (usually
without noticable effects on the result).
Fixed.
----------------------------------------------------------------
CHANGES IN transport VERSION 0.6-1 (2014-05-30)
OVERVIEW
o First public release