.. include:: global.rst
.. # Google uses about 158 characters for desktop, 120 characters for mobile
.. #description-Google recommends website owners to keep their meta descriptions in between 150-160 characters. The additional characters usually get truncated. Why do..END
.. #description-The main menu lets you select a flight session. It is the first window that you see when you start..END
.. meta::
:description: Dr Michael Selig, Professor Emeritus of Aerospace Engineering at UIUC. Expert in aerodynamics, airfoil design, flight simulation and modeling.
:og:description: Dr Michael Selig, Professor Emeritus of Aerospace Engineering at UIUC. Expert in aerodynamics, airfoil design, flight simulation and modeling.
:og:image: https://www.michaelselig.com/images-meta/Facebook_Img_2187.jpg
:og:image:alt: Image of a author
===========================================
Michael Selig
===========================================
- Professor Emeritus of Aerospace Engineering at the University of Illinois at Urbana-Champaign |br|
- President of InertiaSoft, Inc, specializing in realtime flight simulation, developer of SeligSIM (FSOne)
.. rubric:: Biography
Michael Selig is a Professor Emeritus of Aerospace Engineering at the
University of Illinois at Urbana-Champaign (UIUC). He is the President of
InertiaSoft, Inc - a software company that specializes in realtime
flight dynamics simulation. He has published widely in the areas of
low-speed aerodynamics and leads the SeligSIM (FS |nbsp| One) RC flight simulator
project.
His expertise is in airfoil design, wind energy,
low Reynolds number aerodynamics, experimental
aerodynamics, wind tunnel testing, and
real-time flight simulation, including aircraft icing upset simulation
and modeling.
He has worked and consulted on the design and aerodynamics of unmanned aerial
vehicles/systems, kilowatt through multi-megawatt scale wind turbines,
record-breaking high-altitude solar powered aircraft, wing-sail and appendage design
for the America's |nbsp| Cup, front and rear wing designs for
IndyCars/CART and Formula |nbsp| 1, and many other areas.
He won the AIAA Aerodynamics
Award for his research in applied aerodynamics.
His codes and methods for airfoil design and wind turbine blade design
are used in both the aerospace and wind turbine industries. His
airfoil designs and data are available in the open/online literature
and used worldwide.
His RC flight simulator SeligSIM (FS |nbsp| One) is widely used and
one of the most well known RC simulators in model aviation.
He has also consulted as an expert witness in aviation litigation. As
a consultant, his experience has also been applied to better
understand aircraft loss of control in one of the worst aviation
accidents in US history.
He holds a Ph.D. from Penn State, M.S.E. from
Princeton University, and B.S. from the University of Illinois
at Urbana-Champaign.
.. rubric:: Overview of the Rest of this Site
Below are listed (in first person) many resources that he has made
available online, with the first being his most active current project
(flight simulation with SeligSIM) and the last being one (airfoil coordinates site) that
he started online in 1995 and still runs to this day. The links at
left are his points of contact online.
Use the list at right to navigate this page.
Selig's Newsletter
================================================
I write a newsletter that discusses flight simulation with
SeligSIM (FS |nbsp| One). This includes news about updates and features. I
also discuss some of the finer details that go into RC flight
simulation, share tips and techniques for flying, and touch on
aerodynamics and flight dynamics now and then.
.. raw:: html
SeligSIM RC Flight Simulator
================================================
SeligSIM (also marketed as FS |nbsp| One) is a free RC flight simulator. It has
over 140 airplanes and over 35 flying sites. Aerodynamics, ground
reactions, and wind/turbulence modeling are its strengths.
.. The user manual includes
.. instructions for getting started and running on PC.
.. image:: images/pawnee-2_350p.png
:align: right
:alt: Image of airplane model in SeligSIM
`SeligSIM `__ is a realtime pilot-in-the-loop RC
flight simulator for anyone interested in model aviation at any
experience level. It has also been used in research and in the
commercial aerospace domain. It specializes in simulating +/-180 deg
high angle of attack and high side slip flight, including aerobatics
such as upsets, stalls, spins, knife edge flight, etc. The simulator
includes power planes and sailplanes ranging from beginner-level
trainers to highly advanced model aircraft. It has been used
extensively in UAS/UAV development. The simulator is
written in the C++ code, and it has been in continuous
development since
2003. It was first commercially released in 2006. Find it online at
`https://www.seligsim.com `__ and
`https://www.youtube.com/michaelselig `__.
Current release: SeligSIM 2024.5 (v18.3)
Sign up for the newsletter: https://michaelselig.substack.com/
..
A unique feature is the
physics-based scaling method integrated into the simulator.
..
It can be
used to resize any airplane with its physics to any size - going down
to tiny micro UAV sizes up to full scale and larger.
UIUC Low-Speed Airfoil Tests
=================================================
Airfoil data for low speed aircraft available online. Over 200 airfoils wind tunnel tested.
Useful test data for model aircraft, small UAS, wind turbine, and fan design and analysis, and more.
.. image:: images/supra-sm-2.png
:align: right
:alt: Image of model airplane
Airfoils used on model aircraft and also modern day small UAS often
fly at low speeds. The combination of small vehicle size and low
speed flight, or slow flight at very high altitudes, results in the
wing and tail surface airfoils operating in a more "viscous"
environment, or technically speaking operating at low Reynolds numbers
where the aerodynamics becomes more difficult to understand and
predict. Important experiments were done by my UIUC Applied
Aerodynamics Group to explore this aerodynamics regime and publish the
results. With the support of many model aviation enthusiasts,
research sponsors, campus, and the combined work of legions of UIUC
students maintaining the testing know-how and equipment, the `UIUC
LSATs `__ program ran
for approximately 25 years. It yielded low Reynolds number airfoil
wind tunnel data on over 200 airfoils. The airfoil lift, drag, and
pitching moment data are documented in six book-sized publications and
are freely downloadable from my `campus site
`__. The precursor to
these tests was done at Princeton University over a several year
period around 1987, and the work produced the SoarTech publication
"Airfoils at Low Speeds" book, which is also freely downloadable from my
campus site.
UIUC Propeller Data Site
============================================
Propeller wind tunnel data for small aircraft. Over 250 propellers tested.
Downloadable data.
Includes propellers from APC, Aeronaut, Graupner, Kyosho, Master Aircrew, GWS, and more.
In 2003, we started plans to add propellers to the low Reynolds number
aerodynamics test campaign. At the time, research quality data on low
Reynolds number propellers was scare. Also, interests in
small-vehicle electric flight and battery limitations (before the
Lipos were ubiquitous) made knowing the performance of propellers
more important than ever. From the first publication of data in 2005
through to 2022, the propeller database has grown to over 4 volumes of
data and around 250 propellers tested over a range conditions. All
the data is freely available online at the `UIUC Propeller Data Site
`__.
.. image:: images/props-810p.png
:align: center
:alt: Image of UIUC propellers
PROFOIL for Airfoil Design
==========================================
PROFOIL for the design of low speed airfoils. Developed
to design airfoils for model aircraft,
UAVs/UASs, homebuilt aircraft, wind turbines racing yachts, race cars, etc.
Released on GitHub.
.. image:: images/ED01-0209-3-cropped-3.jpg
:align: right
:alt: Image of AeroVironment high flyer
PROFOIL is an inverse design code for low speed airfoils
released on `GitHub `__. At its core, the theory used in PROFOIL
is closely related to that used in the Eppler airfoil code
dating back to 1957. With PROFOIL, the airfoil designer specifies
the desired velocity distribution. The method then solves the inverse
problem to find the corresponding
airfoil shape, subject to any other specifications that may be
prescribed, such as airfoil thickness or pitching moment, and much
more. My code was part of my PhD thesis at Penn State.
In 1995, I put an interactive
`simplified version `__ of PROFOIL online.
With the source code on GitHub, the
interactive version was shutdown in 2023. It had been used to
design over 250,000 airfoils in the span of 28 yrs online.
The full version of PROFOIL has been
used to design airfoils for model aircraft, UAVs/UASs, homebuilt
aircraft, both large and small wind turbines, keel and wing foils for the
America's Cup and other racing yachts, and Indy cars and Formula
|nbsp| 1. Sponsors of my campus research on airfoil design have
included NASA, AeroVironment, Boeing, Naval Research Lab, GE, Siemens,
Northern Power Systems, Ford Motorsports, Newman/Haas Racing, Jaguar
Racing and Oracle-BMW Racing, Farr Yacht Design and many others.
PROPID for HAWT Design
=======================================================
PROPID is an inverse design code for horizontal axis wind turbines. Ongoing development
since 1993. Used in the design of small to megawatt scale wind turbines.
.. image:: images/PROPID-1-small.png
:align: right
:alt: Image of PROPID design process from performance specs to blade geometry
`PROPID `__ is a
downloadable computer
program for the design and analysis of horizontal axis wind turbines (HAWTs).
With PROPID, the designer can specify the optimal blade aerodynamics
and from that let the method work backward to find the shape of the
blade. This approach generally is called an inverse method --
flipping the problem around and specifying the output to then get back
what is usually the input.
Taking this approach is much faster than design by direct analysis
where the geometry is input and then manually and iteratively modified
to achieve
the best performance.
Recently, PROPID has been used in research to design
highly flexible large downwind ultralight rotors for offshore wind power
[`pdf `__].
UIUC Airfoil Database
====================================
Coordinates for over 1600 airfoils online. Hosted at UIUC since 1995 and growing.
Includes a companion page that
lists many airfoil resources available.
.. image:: images/ads-3.png
:align: right
:alt: Image of UIUC Airfoil Data Site webpage
For airfoil coordinates, the `UIUC Airfoil Coordinates
Database `__
is a good place to start. It is part of my UIUC Airfoil Data Site.
The site currently includes coordinates for over 1600 airfoils.
According to Google Analytics, the site receives between 10,000 and
20,000 unique visitors per month, depending on the time of year
(winter in the northern hemisphere is peak airfoil hunting season).
The site started in year 1995 with many of my own airfoils
(which were previously distributed by email, Gopher/WAIS, mail and in
print media). Since then the site has continued to grow
with contributions from many people, and the coordinates
have populated more and more new online airfoil databases - many with
unique and useful features worth checking out. My site also hosts
David Lednicer's page: `The Incomplete Guide to Airfoil Usage
`__
that lists the airfoils used on a great number of airplanes.
More Links and Info
=======================================
.. image:: images/Img_9277-2.png
:align: right
:alt: Image of Eli Field RC Pilots
.. toctree::
:maxdepth: 1
Home
youtube
facebook
rcgroups
uiuc
publications
.. toctree::
:caption: External
https://www.seligsim.com
https://www.fsone.com
https://michaelselig.substack.com
https://m-selig.ae.illinois.edu/
SeligSIM, FS |nbsp| One and InertiaSoft
are trademarks of InertiaSoft and may be registered.
.. # All other product names, logos, brands, trademarks and registered trademarks are property of their respective owners. All company, product and service names used in this website are for identification purposes only. Use of these names, trademarks and brands does not imply endorsement.