========================================================
MATPOWER - A MATLAB(R) Power System Simulation Package
========================================================
Version: 6.0b1
Home Page: http://www.pserc.cornell.edu/matpower/
Authors: Ray Zimmerman <rz10@cornell.edu>
Carlos E. Murillo-Sanchez <carlos_murillo@ieee.org>
and others, see AUTHORS file
Wed, Jun 1, 2016
Copyright (c) 1997-2016 by Power System Engineering Research Center (PSERC)
See http://www.pserc.cornell.edu/matpower/ for more info.
Copying and distribution of this file, with or without modification,
are permitted in any medium without royalty provided the copyright
notice and this notice are preserved. This file is offered as-is,
without any warranty.
--------------
INTRODUCTION
--------------
MATPOWER is a package of MATLAB(R) M-files for solving power flow and
optimal power flow problems. It is intended as a simulation tool for
researchers and educators that is easy to use and modify. MATPOWER
is designed to give the best performance possible while keeping the code
simple to understand and modify. It was initially developed as part
of the PowerWeb project <http://www.pserc.cornell.edu/powerweb/>.
MATPOWER can be downloaded from the MATPOWER home page above.
--------------
TERMS OF USE
--------------
Please see the LICENSE file for the details. But here is the summary:
- Beginning with version 5.1, the code in MATPOWER is distributed under
the 3-clause BSD license.
- MATPOWER is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY.
- While not required by the terms of the license, we do request that
publications derived from the use of MATPOWER explicitly acknowledge
that fact by citing [1].
[1] R. D. Zimmerman, C. E. Murillo-Sanchez, and R. J. Thomas,
"MATPOWER: Steady-State Operations, Planning and Analysis Tools
for Power Systems Research and Education," Power Systems, IEEE
Transactions on, vol. 26, no. 1, pp. 12–19, Feb. 2011.
Note: Versions 4.0 through 5.0 were licensed under the GPL and versions
prior to MATPOWER 4 use a different license.
-----------------
GETTING STARTED
-----------------
System Requirements
-------------------
- MATLAB(R) version 7 (R14) or later
(available from The MathWorks, Inc. http://www.mathworks.com/), or
- GNU Octave version 3.4 or later (free software available from
http://www.gnu.org/software/octave/).
Installation
------------
1. Follow the download instructions on the MATPOWER home page. You
should end up with a file named matpowerXXX.zip, where XXX depends
on the version of MATPOWER.
2. Unzip the downloaded file. Move the resulting matpowerXXX directory
to the location of your choice. These files should not need to be
modified, so it is recommended that they be kept separate from your
own code. Let <MATPOWER> denote the path to this directory.
3. Add the following directories to your MATLAB path:
<MATPOWER> - core MATPOWER functions
<MATPOWER>/t - test scripts for MATPOWER
<MATPOWER>/most - core MOST functions
<MATPOWER>/most/t - test scripts for MOST
(optional) subdirectories of <MATPOWER>/extras -
additional functionality and contributed code
4. At the MATLAB prompt, type 'test_matpower' (without the quotes) to
run the test suite and verify that MATPOWER is properly installed
and functioning.
Running MATPOWER
----------------
To run a simple Newton power flow on the 9-bus system specified in the
file case9.m, with the default algorithm options, at the MATLAB prompt,
type:
runpf('case9')
To load the 30-bus system data from case30.m, increase its real power
demand at bus 2 to 30 MW, then run an AC optimal power flow with
default options, type:
define_constants;
mpc = loadcase('case30');
mpc.bus(2, PD) = 30;
runopf(mpc);
By default, the results of the simulation are pretty-printed to the
screen, but the solution can also be optionally returned in a 'results'
struct. The following example shows how simple it is, after running a DC
OPF on the 118-bus system in case118.m, to access the final objective
function value, the real power output of generator 6 and the power flow
in branch 51.
results = rundcopf('case118');
final_objective = results.f;
gen6_output = results.gen(6, PG);
branch51_flow = results.branch(51, PF);
For additional info, see the User's Manual and the on-line help
documentation for the various MATPOWER functions. For example:
help runpf
help runopf
help mpoption
help caseformat
-----------------------------
WHAT'S NEW IN VERSION 6.0b1
-----------------------------
Below is a summary of the changes since version 5.1 of MATPOWER. See the
CHANGES file in the docs directory for all the gory details.
* New Case Files:
- Added 9 new case files, 8 cases ranging from 1888 to 6515 buses
representing the French system, and a 13,659-bus case representing
parts of the of the European high voltage transmission network,
stemming from the Pan European Grid Advanced Simulation and State
Estimation (PEGASE) project. Thanks again to Cedric Josz and
colleagues from the French Transmission System Operator.
- Added case145.m, IEEE 145 bus, 50 generator dynamic test case from
http://www.ee.washington.edu/research/pstca/dyn50/pg_tcadd50.htm.
* New Features:
- MATPOWER Optimal Scheduling Tool (MOST) is a major new feature,
implementing a full range of optimal power scheduling problems, from a
simple as a deterministic, single period economic dispatch problem
with no transmission constraints to as complex as a stochastic,
security-constrained, combined unit-commitment and multiperiod OPF
problem with locational contingency and load-following reserves,
ramping costs and constraints, deferrable demands, lossy storage
resources and uncertain renewable generation.
See docs/MOST-manual.pdf for details.
- General mechanism for applying modifications to an existing MATPOWER
case. See apply_changes() and idx_ct().
- Experimental foundation for handling of ZIP load models in power flow
(Newton, fast-decoupled only), continuation power flow, and optimal
power flow (MIPS, fmincon, Knitro, IPOPT solvers only). Currently,
ZIP loads can only be specified on a system-wide basis using the
experimental options 'exp.sys_wide_zip_loads.pw' and
'exp.sys_wide_zip_loads.qw'.
- Support for quadprog() under GNU Octave.
- New contributed extras:
- Plot electrically meaningful drawings of a MATPOWER case using
plot_mpc() in extras/misc, contributed by Paul Cuffe.
- Find the maximum loadability limit of a system via an optimal power
flow and dispatchable loads, using maxloadlim() in extras/maxloadlim,
contributed by Camille Hamon.
- Create a quadratically-constrained quadratic programming (QCQP)
representation of the AC power flow problem using using qcqp_opf()
in extras/misc, contributed by Cedric Josz and colleagues.
- New functions:
- apply_changes() and idx_ct() provide a general mechanism for
applying modifications to an existing MATPOWER case.
- feval_w_path() evaluates a function located at a specified path,
outside of the Matlab path.
- mpopt2qpopt() provides a common interface for creating options
struct for mi/qps_matpower() from a MATPOWER options struct.
- New function options:
- Option to call makeB(), makeBdc(), makePTDF(), scale_load(), and
total_load() with full case struct (mpc) instead of individual data
matrices (bus, branch, etc.).
- total_load(), which now computes voltage
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s7.asv 9KB
AUTHORS 297B
CHANGES 82KB
CHANGES 3KB
LICENSE 3KB
case13659pegase.m 2.15MB
case9241pegase.m 1.46MB
case6515rte.m 998KB
case6495rte.m 994KB
case6470rte.m 989KB
case6468rte.m 981KB
case2746wp.m 719KB
case2746wop.m 716KB
case2736sp.m 701KB
case2737sop.m 698KB
case3375wp.m 476KB
case2869pegase.m 454KB
case2868rte.m 430KB
case2848rte.m 422KB
case3012wp.m 413KB
case3120sp.m 381KB
case2383wp.m 333KB
case1951rte.m 298KB
case1888rte.m 283KB
case1354pegase.m 210KB
most.m 100KB
ipopt_options.m 86KB
t_apply_changes.m 70KB
mpoption.m 66KB
sdpopf_solver.m 65KB
case300.m 64KB
case145.m 59KB
t_scale_load.m 58KB
c118swf.m 45KB
t_total_load.m 41KB
printpf.m 39KB
case118.m 33KB
t_most_spuc.m 32KB
mpoption_old.m 28KB
t_most_sp.m 27KB
mips.m 26KB
t_auction_tspopf_pdipm.m 26KB
t_auction_mips.m 26KB
t_auction_minopf.m 26KB
have_fcn.m 25KB
loadmd.m 24KB
case_info.m 24KB
t_ext2int2ext.m 23KB
toggle_dcline.m 22KB
t_loadcase.m 22KB
case89pegase.m 21KB
insolvablepf.m 20KB
toggle_reserves.m 19KB
apply_profile.m 18KB
t_opf_model.m 18KB
psse_parse.m 18KB
t_islands.m 17KB
apply_changes.m 17KB
savecase.m 17KB
t_most_uc.m 16KB
miqps_mosek.m 16KB
md_init.m 15KB
off2case.m 15KB
runpf.m 15KB
t_most_suc.m 15KB
runcpf.m 15KB
t_mpoption.m 14KB
plot_storage.m 14KB
toggle_softlims.m 14KB
qps_bpmpd.m 14KB
t_opf_mips_sc.m 14KB
miqps_cplex.m 14KB
t_opf_mips.m 14KB
t_opf_fmincon.m 14KB
t_opf_tspopf_scpdipm.m 14KB
t_opf_tspopf_tralm.m 14KB
t_opf_tspopf_pdipm.m 13KB
t_opf_knitro.m 13KB
t_opf_minopf.m 13KB
case57.m 13KB
miqps_gurobi.m 13KB
t_vdep_load.m 13KB
t_opf_ipopt.m 13KB
miqps_ot.m 13KB
makesdpmat.m 13KB
qcqp_opf.m 13KB
qps_mosek.m 12KB
t_modcost.m 12KB
miqps_glpk.m 12KB
t_hessian.m 12KB
t_off2case.m 12KB
psse_convert_xfmr.m 12KB
toggle_iflims.m 12KB
qps_ot.m 12KB
t_dcline.m 12KB
t_most_w_ds.m 12KB
Test_maxloadlim.m 12KB
ktropf_solver.m 11KB
cdf2mpc.m 11KB
auction.m 11KB
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