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Hannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover MesseHannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover MesseHannover Messe Future Factory Hannover Messe HaHannover Messe Hannover Messe Hannover Messe
nover Messe Simulation HannoverHannover Messe Hannover Messe Hannover Messe
Hannover Messe Adaptronics Hannover esseHannover Messe Hannover Messe Hannover Messe
Hannover Messe Production HannoverHannover Messe Hannover Messe Hannover Messe
Hnnover Mess Hannover Messe Surface HannoverHannover Messe Hannover Messe Hannover Messe
Hannover Messe Subsea Hannover MesseHannover Messe Hannover Messe Hannover Messe
Hannover Messe Hannover Messe Hannover MesseSAFE AND NETWORKED PRODUCTION
H A N N O V E R M E S S E , A P R I L 1 3 . – 1 7 , 2 0 1 5
Hannover Messe Hannover Messe Hannover Messe
g e m e i n s c h a f t s s t a n d
e l e k t r o m o b i l i t ä t
EVENTS P. 4
ToPicS, TEchNology iNdEx P. 38
SafE aNd NETworkEd ProducTioN P. 2
SiTE PlaN (fold-ouT)
coNTENTS
JoiNT BooThS P. 6
Future Factory p. 6Adaptronics p. 14Surface Engineering p. 18Simulation p. 22Subsea p. 26Production p. 30Further Fraunhofer Units p. 34
Visit our website www.fraunhofer.de/hm2015e and learn more about Fraunhofer exhibits and other high-lights at the fair.
PrEfacE
SafE aNd NETworkEd ProducTioN
For Germany and its economy the production sector is of decisive
importance; nearly every second job is linked to production. The
German industrial sector intends to invest an annual 40 billion
euros into industry 4.0 applications until 2020. With increasing
digitalization and stronger networking efficiency may be expected
to rise by 3.3 percent per year and costs to decrease by 2.6 percent
per year while the quality of production processes will improve.
Reliable and safe access to information is a central issue for the
future of the economy and society. The Fraunhofer-Gesellschaft
and partners from the industry supported by the federal govern-
ment initiated a project to create an international open data space
for the industry – the Industrial Open Data Space. Access and
use is to be granted to all enterprises complying with the joint
standards.
The networking of production and business processes is multifar-
ious. At HANNOVER MESSE, Fraunhofer researchers showcase
different projects, for example how secure networks of tomorrow
may be designed and implemented or what production processes
may look like in the future. In a save test environment, they simu-
late hacker attacks under real-time conditions and analyze exist-
ing networks. By means of assistant tools such as modeling and
conformity tests, they facilitate the introduction of standardized
communication between production systems and production IT.
Intelligent material systems improve working conditions by reduc-
ing vibrations and noise. Another topic are “smart materials”:
integrated in glass facades, they reduce the energy consumption
for a building’s climate control. In machine tools they provide for
predictive maintenance and enable “self-maintaining facilities”.
So come and visit our joint Fraunhofer booth “Safe and Net-
worked Production” in Hall 2. In other halls, we furthermore
present Fraunhofer developments in the fields of adaptronics,
surface engineering, and simulation. This booklet will inform
you about our solutions for your company!
Sincerely,
Prof. Dr. Reimund Neugebauer
President Fraunhofer-Gesellschaft
2 3
e V e n t s
mon, april 13 fraunhofer-gesellschaft
Press conference
“safe and networked Production”
2.00 – 3.00 pm
Convention Center, Room 12
Prof. Dr. Reimund Neugebauer,
President of the Fraunhofer-Gesellschaft
Fraunhofer-Gesellschaft
time
location
speaker
host
fraunhofer-gesellschaft
Press breakfast
“numeric simulation”
10.00 – 11.00 am
Hall 7, Booth B10
Numeric Simulation
Andreas Burblies,
Speaker of the Fraunhofer Simulation Alliance
Fraunhofer Simulation Alliance
tue, april 14
time
location
topic
speaker
host
h a n n o V e r m e s s e b l o g
w w w . f r a u n h o f e r . d e / h m b l o g
frauNhofEr-Blog:kNow whaT’S goiNg oN!
As in previous years, you will again receive the latest information
from HANNOVER MESSE every day this year. Discover the joint
Fraunhofer booths together with us, read exciting interviews,
see films about our innovations, and get information about our
Fraunhofer exhibits.
Immerse yourself in the exciting world of Fraunhofer!
4 5
The fourth industrial revolution is already under way, the borders
between the virtual and the real world become increasingly blurred.
“Industry 4.0” connects products and production systems to the
internet and enables cost-efficient and eco-friendly production.
For Germany as an industrial nation it is important to lead the way
for these developments to remain attractive as a production loca-
tion and further develop its economic power. Therefore, numerous
Fraunhofer-Gesellschaft research activities have been supporting
the industry for many years in taking the next steps towards a net-
worked production. For their success, the human factor remains
of essential importance despite progressing virtualization. With
the latest technologies in the fields of human-machine interaction
and with a comprehensive training program, Fraunhofer essentially
contributes to the further development of Germany as a location
for production and investment.
At HANNOVER MESSE 2015, ten Fraunhofer establishments
present exhibits to the visitor in the fields of safe production
and secure networks, human-machine interaction, resource and
energy efficiency, networking, as well as career and training.
NETworkEd ProducTioN
J o i n t b o o t h fuTurE facTory
MaiN focuS
SafE ProducTioN aNd SEcurE NETworkS
With increasing interconnections between the virtual world and
real production processes, IT security is of increasing significance.
In particular the protection of production facility networks against
external attacks is a mission critical factor to actually establish the
“Future Factory” in production plants. Fraunhofer shows solutions
for uncovering security holes, eliminating error sources, and guar-
anteeing secure networks.
huMaN-MachiNE iNTEracTioN
An exact matching of production processes and employees is
decisive for successfully implementing the trendsetting idea of an
“industry 4.0”. Thus, it is still humans occupying the central role
in the “Future Factory”. Be it state-of-the-art surveying technol-
ogy or revolutionary test methods for quality assurance – all of
it serves the purpose of an ideal interface between humans and
machines.
f u t u r e fa c t o ryh a l l 2 , b o o t h c 1 6
76
Already today, Fraunhofer cooperates with 30 out of the 50 lead-
ing companies in India, thus, making a valuable contribution to a
sustainable development of the economy and research in India.
Especially the country’s fast growing metropolises need strategies
that enable a life based on clean and sustainable energies.
In November 2014, Fraunhofer hosted the third edition of the
“Fraunhofer Innovation and Technology Platform (FIT)” where
more than 200 guests from politics, industry, and research prepared
and discussed the issues of renewable energies. The Fraunhofer
Institutes involved also had the opportunity to present their tech-
nology portfolio to the participants. Also in the fields of produc-
tion, new materials, commercial vehicle and vehicle technology,
electronics, and food technology Fraunhofer was able to enter
into successful cooperation with renowned Indian companies.
Since October 30, 2012, a representative office represents the
Fraunhofer-Gesellschaft in Bangalore. The office is a link between
the Fraunhofer industrial partners and the Indian market and the
first contact for potential cooperation partners from industry and
research in India.
rESourcE aNd ENErgy EfficiENcy
Developing new technologies it is important to use resources and
energies as efficient as possible. Fraunhofer takes into account this
necessity and showcases state-of-the-art innovations such as the
ROTOCO system for 3D plasma coatings, presents concepts for
innovative energy management, and explains the use of intelligent
materials.
NETworkiNg
To ensure that the different components of networked production
mesh smoothly, all steps of a production system must be net-
worked with production IT in an optimum manner. Fraunhofer
presents innovative solutions and develops user aids and assistant
tools such as conformity tests for implementing consistent stan-
dards in practice.
carEEr aNd TraiNiNg
With hands-on projects and comprehensive talent programs
Fraunhofer offers numerous attractive career opportunities.
Furthermore, with a number of workshops, training programs,
and part-time studies in parallel with a job, Fraunhofer enables
comprehensive possibilities for training in most various fields.
Core issues are technology and innovation, energy and sustain-
ability, information and communication, manufacturing and
testing technology, as well as logistics and production.
J o i n t b o o t h
fuTurE facTory
f u t u r e fa c t o ryh a l l 2 , b o o t h c 1 6
iNTErNaTioNal cooPEraTioN – frauNhofEr iN iNdia
8 9
fraunhofer institute for
applied optics and Precision engineering iof
3Dsensation, Consortium for Innovation • Human-machine inter-
action • 3D capturing of dynamic processes • In-line quality assurance
www.iof.fraunhofer.de
fraunhofer institute for chemical technology ict,
Project group new drive systems (nas)
Improving the efficiency of powertrain systems • Hybrid power
trains and e-mobility • Conventional powertrains • Stationary pow-
ertrains and waste heat recovery • Lightweight powertrain design
www.ict.fraunhofer.de/nas
fraunhofer institute for chemical technology, ict – imm
Continuous nanoparticle synthesis • 3D plasma treatment
www.imm.fraunhofer.de
fraunhofer institute for
machine tools and forming technology iwu
E³-Research-Factory Resource-Efficient Production • Intelligent
Factory • Flexible car body construction •
frauNhofEr ExhiBiTioN ParTNErS
Shortening of process chains • Data and energy management 2.0 •
Remote maintenance in production • Mobile IT in production
www.iwu.fraunhofer.de
fraunhofer institute for nondestructive testing iZfP
Self-navigating inspection robot BetoScan® • Inspection of re-
inforced/pre-stressed concrete structures • Automated measuring
data recording • Damage diagnostics of concrete constructions
www.izfp.fraunhofer.de
fraunhofer institute for
optronics, system technologies and image exploitation iosb
IT-Security for industrial production • Industry 4.0 – Internet of
Things • Quality Assurances • AutomationML OPC UA • Human-
machine-interaction
www.iosb.fraunhofer.de
fraunhofer group for Production
Ergonomics • Human being in the production • Saving of
energy • Savings in resources • Emission-neutral factory •
Production without natural resources • Logistics and production •
Industry 4.0
www.produktion.fraunhofer.de
J o i n t b o o t h
fuTurE facTory
f u t u r e fa c t o ryh a l l 2 , b o o t h c 1 6
10 11
frauNhofEr ExhiBiTioNParTNErS
J o i n t b o o t h
fuTurE facTory
fraunhofer academy
Advanced training • Technology and innovation • Energy and
sustainability • Logistics and production • Manufacturing and
testing technology • Information and communication • Mobile
learning
www.academy.fraunhofer.de
Fraunhofer Office India
Liaison on behalf of all Fraunhofer Institutes • Point of contact
in India • Client acquisition • Strategy development • Market
Intelligence • Marketing
www.fraunhofer.in
fraunhofer-gesellschaft, recruiting
Recruiting • Jobs • Vacancies • Apprenticeship • Junior programs
www.fraunhofer.de/career
f u t u r e fa c t o ryh a l l 2 , b o o t h c 1 6
Franziska Kowalewski
Phone +49 89 1205-1363
Fraunhofer-Gesellschaft
Hansastrasse 27 c
80686 München, Germany
www.fraunhofer.de
Press
Marion Horn
Britta Widmann
Phone +49 89 1205-1333
coNTacT
■ Hall 2, Booth C16
13 12 11
18
1
2 3
4
5
6
7
8
9
20
22 23
16
15
14
17
21
24
25 26
27
12 13
Adaptronics is an active structure technology based on the inte-
gration of sensory and actuatory functions in mechanical struc-
tures. Commonly, the term of Smart Structure Technology is used
in this context. It aims at optimizing a product through specifically
influencing its mechanical structural characteristics. In the focus
are the active control of vibration, noise, and deformation as well
as the monitoring of component characteristics. Dimensioning a
system, usually multi-functional material systems are used (e.g.
electromechanical converters and piezoceramics). This enables the
design of sensory and actuatory material systems that – integrated
into mechanical components – enable the control of disturbing
energies.
The Adaptronics joint booth introduces the latest developments
in the fields of these intelligent material systems. Together with its
partners from research and industry, the Fraunhofer Adaptronics
Alliance will also present trends and future issues in addition to
present products.
The booth will showcase, among others, exemplary applications
in the fields of vibration and noise reduction, and smart materials.
SMarT MaTErialS agaiNST NoiSE aNd ViBraTioNS
MaJor arEaS of rESEarch aNd dEVEloPMENT
With a research assignment of the Fraunhofer-Gesellschaft focus-
ing on application, seven institutes engaged in complementary
research areas continuously develop the adaptronics technology
within the Fraunhofer Adaptronics Alliance.
These institutes cooperate with their R&D partners in scientific as
well as in industrial research projects. This enables interdisciplinary
solutions from one single source.
the partners’ competences cover the following areas
– Materials and components
– Numerical and experimental simulation
– Electronics and control engineering
– Production and processing
– Assessment and systems
a d a P t r o n i c sh a l l 2 , b o o t h c 2 2
J o i n t b o o t h
adaPTroNicS
1514
a d a P t r o n i c sh a l l 2 , b o o t h c 2 2
fraunhofer adaptronics alliance
www.adaptronik.fraunhofer.de
fraunhofer institute for
machine tools and forming technology iwu
www.iwu.fraunhofer.de
fraunhofer institute for silicate research isc
www.isc.fraunhofer.de
fraunhofer institute for
structural durability and system reliability lbf
www.lbf.fraunhofer.de
fraunhofer institute for surface engineering and thin films ist
www.ist.fraunhofer.de
ExhiBiTioN ParTNErS
German Aerospace Center (DLR) • FGL-Netzwerk • Ingpuls gmbh •
Rhein-Main Adaptronik • Ruhr-Universität Bochum
frauNhofEr ExhiBiTioN ParTNErS
Heiko Atzrodt
Phone +49 6151 705-236
Fraunhofer Adaptronics Alliance
P.O. Box 10 05 61
64205 Darmstadt, Germany
www.adaptronik.fraunhofer.de
Press
Anika Seifert
Phone +49 6151 705-8527
coNTacT
■ Hall 2,Booth C22
13 12 11
18
1
2 3
4
5
6
7
8
9
20
22 23
16
15
14
17
21
24
25 26
27
J o i n t b o o t h
adaPTroNicS
16 17
As a cross section technology, layer and surface engineering is a
key starting point for innovation in a number of industries. By
coating and modifying the surfaces of different materials products
may not only be improved, some even owe their functionality to
this process.
Fraunhofer works with more than 20 institutes in the fields of
surface engineering and thin films. The scientists there examine
different aspects of thin film and process development as well as
a wide spectrum of technologies about simulation, layer character-
ization, and quality assurance.
At the joint booth real-life examples and innovative approaches
for applications are in the focus. Major topics are how to reduce
friction and protect against wear, heat insulation and nonstick
coatings of components and tools, multifunctional nano-coatings
of metal bands, thin film sensor systems and micro-structuring, as
well as the functionalization of surfaces and coating of particles
with atmospheric pressure plasmas.
ThE SurfacE SuccESS facTor
J o i n t b o o t h
SurfacE ENgiNEEriNg
MaJor arEaS of rESEarch aNd dEVEloPMENT
functional and innovative: layers and surfaces
– Reduction of friction and protection against wear
– Protection against corrosion
– Anti-fouling
– Stick and nonstick characteristics
– Anti-icing coating
– Thin film sensor systems
– Thermochromism
– Plasmon luminescence
– Scratch-proof coating
economic and powerful: Process and systems engineering
– Low-pressure plasma processes
– Atmospheric pressure plasma processes
– Laser plasma hybrid processes
Quick and reliable: analytics and test engineering
s u r fa c e e n g i n e e r i n gh a l l 3 , b o o t h d 2 6
18 19
Dr. Simone Kondruweit
Phone +49 531 2155-535
Fraunhofer Institute for
Surface Engineering and Thin Films IST
Bienroder Weg 54 E
38108 Braunschweig, Germany
www.ist.fraunhofer.de
frauNhofEr ExhiBiTioNParTNErS
fraunhofer institute for chemical technology ict
www.ict.fraunhofer.de
fraunhofer institute for
interfacial engineering and biotechnology igb
www.igb.fraunhofer.de
fraunhofer institute for
surface engineering and thin films ist
www.ist.fraunhofer.de
■ Hall 3, Booth D26
coNTacT
13 12 11
18
1
2 3
4
5
6
7
8
9
20
22 23
16
15
14
17
21
24
25 26
27
J o i n t b o o t h
SurfacE ENgiNEEriNg
3
s u r fa c e e n g i n e e r i n gh a l l 3 , b o o t h d 2 6
20 21
Industrial development is characterized by high dynamics asking
for shorter development times from the idea to the final product
as well as for prompt optimization of existing products. The imple-
mentation of computer-aided simulation processes is key in this
regard. Within its 66 institutes and research establishments,
Fraunhofer disposes of a wide range of application-oriented
simulation solutions for production and logistics, production
engineering, component behavior, and fluid mechanics.
The Fraunhofer Simulation Alliance presents numeric simulation
technology competences and services at their booth. The focus
is on new developments in the fields of software and material
developments, production engineering, product design and
component analysis, as well as production and logistics.
SiMulaTioN iN ProducT aNd ProcESS dEVEloPMENT
J o i n t b o o t h
SiMulaTioN
s i m u l at i o nh a l l 7 , b o o t h b 1 0
services
Computer-aided engineering • Consulting and information •
Development of simulation solutions • Training
software development
Stochastic simulation • Web-based visualization • Tools for
system simulation
material modeling
Biomimetic materials • Integrated Computational Materials
Engineering (ICME)
Product engineering
Casting • Generative procedures • Painting and coating simulation
Product design and parts analysis
Lightweight construction and robust design •
Digital mock-up of flexible components • Tire simulation •
Cyber-physical systems
Production and logistics
Mounting simulation • Robot path planning • Condition monitoring •
Big data • Structure health monitoring • Facility availability
MaJor arEaS of rESEarchaNd dEVEloPMENT
22 23
J o i n t b o o t h
SiMulaTioN
s i m u l at i o nh a l l 7 , b o o t h b 1 0
Andreas Burblies
Telefon +49 421 2246-183
Fraunhofer Simulation Alliance
Wiener Strasse 12
28359 Bremen, Germany
www.simulation.fraunhofer.de
frauNhofEr ExhiBiTioN ParTNErS
fraunhofer simulation alliance
www.simulation.fraunhofer.de
fraunhofer institute for computer graphics research igd
www.igd.fraunhofer.de
fraunhofer institute for industrial mathematics itwm
www.itwm.fraunhofer.de
fraunhofer institute for
machine tools and forming technology iwu,
Project Group Resource-efficient Mechatronic Processing
machines (rmV)
www.iwu.fraunhofer.de/rmv
fraunhofer institute for
manufacturing technology and advanced materials ifam
www.ifam.fraunhofer.de
ExhiBiTioN ParTNEr
fleXstructures GmbH
www.flexstructures.de
coNTacT
■ Hall 7, Booth B10
13 12 11
18
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2 3
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5
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22 23
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25 26
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24 25
The ocean offers numerous ways of utilization from the coast
to the deep sea. It has always been a frequently used route of
transport for worldwide freight traffic and is also used as a high-
quality food source. With climate change and energy transition
the oceans´ significance for mankind keeps on increasing: They
are the basis for offshore wind power stations, oil recovery, and
perspectively also a supplier for mineral raw materials.
For a, in particular, sustainable utilization of the ocean, man needs
technologies that take account of the special conditions such as
high pressures, visibility conditions and currents underwater as well
as of the rough climate above water. For the use underwater, the
technology needs to fulfil highest requirements depending on the
area of use.
Fraunhofer provides an insight into the requirements underwater
technology has to fulfil for different users from aquaculture to mar-
itime mining and shows how Fraunhofer research can contribute
to the development of high-tech solutions for underwater use. The
spectrum ranges from sensor systems to prototypic construction of
entire remotely operated and autonomous underwater vehicles to
visual computing.
highTEch for uNdErwaTEr uSE
J o i n t b o o t h
SuBSEa
s u b s e ah a l l 1 3 , b o o t h e 3 0
MaJor arEaS of rESEarch aNd dEVEloPMENT
applied system technology
Simulation and guidance systems for underwater vehicles •
Automated inspection of underwater infrastructures • Testing
systems for deep-sea components
sensor and vehicle technology
Development of sonar sensor technology • Pressure-neutral
vehicles and components for underwater vehicles • Object
recognition and distance measurement technology
maritime computer graphics and computer vision
Underwater 3D reconstruction, image processing and en-
hancement • Virtual technologies • Interactive visualizations
3d measurement techniques and systems
Customized high-speed 3D measuring systems • Performance
of 3D measurements even under extreme conditions • Digital
projection techniques
optronics, system technology and image analysis
Camera-based imaging processes to be used underwater • Analy-
sis of sonar data and mapping • Optical and imaging metrology
26 27
J o i n t b o o t h
SuBSEa
s u b s e ah a l l 1 3 , b o o t h e 3 0
frauNhofEr ExhiBiTioN ParTNErS
fraunhofer institute for
applied optics and Precision engineering iof
www.iof.fraunhofer.de
fraunhofer institute for biomedical engineering ibmt
www.ibmt.fraunhofer.de
fraunhofer institute for computer graphics research igd
www.igd.fraunhofer.de
fraunhofer institute for
optronics, system technologies and image exploitation iosb
www.iosb.fraunhofer.de
Prof. Dr. Uwe Freiherr von Lukas
Phone +49 381 4024-110
Fraunhofer Institute for Computer Graphics Research IGD
Rostock branch
Joachim-Jungius-Strasse 11
18059 Rostock, Germany
www.igd-r.fraunhofer.de
coNTacT
■ Hall 13, Booth E30
13 12 11
18
1
2 3
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5
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7
8
9
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22 23
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28 29
Environmental and climate protection, resource shortage, and
demographic change have a growing impact in the form of an in-
crease in stipulations, costs, and structural changes. The industry,
thus, has to face the basic question how to produce in the future
and which resources to use.
The focus is on resources that have a sustained effect on the world
of production and cause companies to apply new approaches.
For the future of production it is important to use material in its
entirety and to close material and energy cycles.
This is where Fraunhofer´s lighthouse project “E3 Production”
starts: By providing for a design of production and factories that
is energy and resource-efficient, emission-neutral and adapted
to humans, trendsetting, integrative approaches are turned into
competitive solutions.
ProducTioN of ThE fuTurE
J o i n t b o o t h
ProducTioN
P r o d u c t i o nh a l l 1 7 , b o o t h f 1 4
ExPErT kNowlEdgE for ThE ProducTioN of ThE fuTurE
The Fraunhofer Group for Production is a cooperation of
Fraunhofer Institutes with the aim of production-oriented research
and development. By pooling the versatile competences and exper-
iences of the individual institutes, customers from industry, retail,
and service receive integrated solutions from one single source.
Research and industry create a close and interdisciplinary network
here. Thus, the Fraunhofer Group for Production offers a wide
range of technologies and services preparing companies – for the
“Production of the Future”.
major areas of activity
– Product development
– Manufacturing technologies
– Manufacturing systems
– Production processes
– Production organization
– Logistics
30 31
Fabian Behrendt
Phone +49 391 4090-411
Fraunhofer Institute for Factory Operation and Automation IFF
www.produktion.fraunhofer.de
fraunhofer group for Production
www.produktion.fraunhofer.de
ExhiBiTioN ParTNErS
metralabs gmbh • www.MetraLabs.com
roth & rau - ortner gmbh • www.rr-ortner.com
coNTacT
frauNhofEr ExhiBiTioN ParTNErS
fraunhofer institute for
factory operation and automation iff
www.iff.fraunhofer.de
fraunhofer institute for
machine tools and forming technology iwu
www.iwu.fraunhofer.de
fraunhofer institute for
manufacturing engineering and automation iPa
www.ipa.fraunhofer.de
fraunhofer institute for material flow and logistics iml
www.iml.fraunhofer.de
fraunhofer institute for
Production systems and design technology iPk
www.ipk.fraunhofer.de
fraunhofer institute for Production technology iPt
www.ipt.fraunhofer.de
J o i n t b o o t h
ProducTioN
P r o d u c t i o nh a l l 1 7 , b o o t h f 1 4
■ Hall 17, Booth F14
13 12 11
18
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2 3
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8
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22 23
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32 33
fraunhofer institute for
ceramic technologies and systems ikts
Hall 6, Booth B16
Hall 27, Booth C66 (C55)
www.ikts.fraunhofer.de
fraunhofer institute for
chemical technology ict – imm
Hall 27, Booth C66 (B72)
www.imm.fraunhofer.de
fraunhofer institute for
digital media technology idmt
Hall 4, Booth F34
www.idmt.fraunhofer.de
fraunhofer institute for
electronic nano systems enas
Hall 3, Booth E06
www.enas.fraunhofer.de
fraunhofer institute for
integrated circuits iis
Hall 8, Booth D37
www.iis.fraunhofer.de
fraunhofer institute for
machine tools and forming technology iwu
Hall 2, Booth C28
www.iwu.fraunhofer.de
fraunhofer institute for
manufacturing engineering and automation iPa
Hall 17, Booth D26
www.ipa.fraunhofer.de
fraunhofer institute for
manufacturing technology and
advanced materials ifam
Hall 17, Booth C66 (B44)
www.ifam.fraunhofer.de
fraunhofer institute for
material and beam Quality iws
Hall 2, Booth A38
Hall 6, Booth A30
www.iws.fraunhofer.de
furThEr frauNhofEruNiTS
34 35
furThEr frauNhofEruNiTS
fraunhofer institute for
optronics, system technologies and image exploitation iosb
advanced system technology branch
Hall 16, Booth A04
www.iosb.fraunhofer.de
fraunhofer institute for
Production technology iPt
Hall 7, Booth D28
Hall 16, Booth A04
www.ipt.fraunhofer.de
fraunhofer institute for
silicate research isc
Hall 2, Booth A52
www.isc.fraunhofer.de
fraunhofer institute for
solar energy systems ise
Hall 27, Booth C66 (C58)
www.ise.fraunhofer.de
fraunhofer institute for
systems and innovation research isi
Hall 27, Booth H85
www.isi.fraunhofer.de
fraunhofer institute for
wood research,
wilhelm-klauditz-institut, wki
Hall 27, Booth G26/1
www.wki.fraunhofer.de
fraunhofer Venture
Hall 2, Booth C09
www.fraunhoferventure.de
36 37
w e i t e r e f r a u n h o f e r - b e t e i l i g u n g e n
T O P I c s , T e c H n O l O G y I n d e X
3D capturing of dynamic processes 103D measurement 26 3D measurement systems 26 3D measurement technology 26 3D plasma treatment 103Dsensation, Consortium for Innovation 10 aActive bearings 14Active systems 14Active vibration absorption systems 14 Adaptive absorbers 14 Adaptive dampers and couplings 14 Adaptronics 14 Adjustable surface wetting 18Advanced training 12Analytics and quality assurance 18 Anti-icing 18Apprenticeship 12Assistant device 30Atmospheric pressure plasma processes 18 Automated inspection of underwater infrastructures 26 Automated measuring data recording 11AutomationML OPC UA 11Autonomous underwater vehicles (AUV) 26 b Big data in production 22Biomimetic materials 22cCasting 22Charge amplifier 14 Chemical vapour deposition 18Client acquisition 12Component design 14 Component recognition 14
Computer graphics research 26Computer-aided engineering 22Condition monitoring 22Consulting and information 22Continuous nanoparticle synthesis 10Conventional powertrains 10Corrosion protection 18Cyber-physical systems 22, 30d Damage diagnostics of concrete constructions 11Data and energy management 2.0 11Determination of mechanical and electrical properties 18Development of simulation solutions 22Digital mock-up of flexible components 22e E³-Research-Factory Resource-Efficient Production 10Easy-to-clean 18 Efficient ernergy production 30Emission-neutral factory 11Energy and sustainability 12Energy efficieny 30Energy harvesting 14 Energy management 30Energy production, decentralized 30Energy roadmap 30 Energy-optimized production planning and control 30Ergonomics 11f Facility availability 22Factory planning and optimization 30Failure analysis 14 Flexible car body construction 10Friction reduction and wear protection 18Functional and damage behavior 14
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w e i t e r e f r a u n h o f e r - b e t e i l i g u n g e n
Page Page
T O P I c s , T e c H n O l O G y I n d e X
Functional layers and surfaces 14 Functional surfaces 14 g Generative procedures 22h Human being in the production 11Human-machine-interaction 10, 30Hybrid power trains and e-mobility 10i Image-supported surface inspection 26 Improving the efficiency of powertrain systems 10India, representative office 12Industry 4.0 11, 30Information and communication 12In-line quality assurance 10Inspection of reinforced/pre-stressed concrete structures 11Inspection of underwater infrastructures 26 Integrated computational materials engineering (ICME) 22Integrated Industry – Internet of Things 10Intelligent energy systems 30 Intelligent factory 10Intelligent materials 14 Intelligent sensor systems 14 IT-Security for industrial production 11J Jobs 12Junior programs 12lLaser plasma hybrid technology 18 Liaison on behalf of all Fraunhofer Institutes 12Life cycle tests 14 Lightweight construction and robust design 22Lightweight powertrain design 10Logistic assistance systems 30
Logistic concepts and networks 30Logistics 30Logistics and production 12Low emission factory 30Low pressure plasma processes 18 Luminescence effects 18m Management 30Manufacture 30Manufacturing and testing technology 12Manufacturing strategy 30Market intelligence 12Marketing 12Material flow management 30Material modeling 22Materials, intelligent 14 Micro patterning 18Mobile IT in production 11Mobile learning 12Mobile logistic devices 30Modeling of surface water systems 26 Mounting simulation 22Multifunctional layers 14 n Nanolayers 18Noise reduction 14o Optical and imaging measuring technology 26 Optical and imaging underwater technologies 26Optical detection in medicine, biology and biotechnology 18Optimization of energy systems 30PPainting and coating simulation 22Particle coating 18
40 41
w e i t e r e f r a u n h o f e r - b e t e i l i g u n g e n
Page Page
T O P I c s , T e c H n O l O G y I n d e X
Physical vapour deposition 18Piezo actor 14 Piezo ceramics 14 Piezo sensor 14 Plasma hand-held 18Plasma powder coating 18Plasma reactors 18Plasmasterilization 18Point of contact in India 12Process and machine monitoring 30Process and system technology 18Process transfer 18Product design and parts analysis 22Product engineering 22Production and logistics 22Production network 30Production without natural resources 11QQuality assurances 11r Real-time enabled image and signal processing 26 Recruiting 12Reliability 14 Remote maintenance in production 11Remotely operated vehicles (ROV) 26 Representative office in India 12Resource efficiency 30Resource efficiency in industrial production 30Resource efficiency in industrial use 30Resource-efficient value-added chain 30Robot path planning 22s Saving of energy 11Savings in resources 11
Scratch resistant coatings 18 Self-navigating inspection robot BetoScan® 11Self-sensing actor 14 Sensor integration 14 Sensor networks, wireless 14 Sensor signal processing 14 Sensor systems and sensors 14 Sensor systems, intelligent 14 Sensor technology 18Sensors 14 Shape memory alloy 14 Shortening of process chains 11Simulation 30Simulation of plasma-based coating processes 18Slurry coating 18Smart materials 14 Smart systems 14Software development 22Sol-gel processes 18 Spectroscopy 18Stationary powertrains and waste heat recovery 10Sticking and non sticking properties 18Stochastic simulation 22Strategy development 12Structural dynamics 14Structural health controlling 14 Structural health monitoring 14 Structure monitoring 14 Structuring 18Substrate coating 18Surface and thin film characterization 18Surface characterization 18Surface cleaning and pretreatment 18Surface engineering and thin films 18
42 43
w e i t e r e f r a u n h o f e r - b e t e i l i g u n g e n
Surface measuring techniques 18Surface modification 18Surface structuring 14 Surfaces, functional 14 Surface functionalization Switchable thermochrome effects 18t Technical ultrasound systems 26Technology and innovation 12Thermal Barrier Coating (TBC) 18Thin film sensor systems 14, 18Tire simulation 22Tools for system simulation 22uUltrasound systems, technical 26 Underwater image processing 26Underwater simulation 26 Underwater test systems 26 Underwater vehicles 26 UV irradiation for surface cleaning 18V Vacancies 12Vibration absorption 14 Vibration technologies 14Virtual Reality 26w Wear investigation 18Web-based visualization 22Wireless sensor networks 14
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T O P I c s , T e c H n O l O G y I n d e X
44 45
ThE hallS aT a glaNcE
Hall 2, Booth A38fraunhofer iws
Hall 2, Booth A52fraunhofer isc
Hall 2, Booth C09fraunhofer Venture
Hall 2, Booth C16 future factoryjoint booth
Hall 2, Booth C22adaptronicsjoint booth
Hall 2, Booth C28fraunhofer iwu
Hall 3, Booth D26surface engineeringjoint booth
Hall 3, Booth E06fraunhofer enas
Hall 4, Booth F34fraunhofer idmt
Hall 6, Booth A30fraunhofer iws
Hall 6, Booth B16fraunhofer ikts
Hall 7, Booth B10simulation joint booth
Hall 7, Booth D28fraunhofer iPt
Hall 8, Booth D37 fraunhofer iis
Hall 13, Booth E30subseajoint booth
Hall 16, Booth A04fraunhofer iosb fraunhofer iPt
Hall 17, Booth D26fraunhofer iPa
Hall 17, Booth F14Productionjoint booth
Hall 27, Booth C66fraunhofer ict – imm (b72)fraunhofer ifam (b44)fraunhofer ikts (c55)fraunhofer ise (c58)
Hall 27, Booth G26/1fraunhofer wki
Hall 27, Booth H85fraunhofer isi
5
4
2
1
3
7
6
8
10
11
15
17
18
19
20
21
9
13
14
16
12
■ Adaptronics joint booth p. 14
■ Future Factoryjoint booth p. 6
■ Production joint booth p. 30■ Simulation joint booth p. 22■ Subsea joint booth p. 26■ Surface Engineering
joint booth p. 18■ Fraunhofer Academy p. 12■ Fraunhofer Adaptronics
Alliance p. 16■ Fraunhofer ENAS p. 34■ Fraunhofer-Gesellschaft,
Recruiting p. 12■ Fraunhofer Group for
Production p. 11, 33■ Fraunhofer IBMT p. 28■ Fraunhofer ICT p. 10, 20■ Fraunhofer ICT – IMM p. 10,
34■ Fraunhofer IDMT p. 34■ Fraunhofer IFAM p. 24, 35■ Fraunhofer IFF p. 32■ Fraunhofer IGB p. 20■ Fraunhofer IGD p. 24, 28■ Fraunhofer IIS p. 34■ Fraunhofer IKTS p. 34■ Fraunhofer IML p. 32■ Fraunhofer IOF p. 10, 28■ Fraunhofer IOSB p. 10,
28, 36■ Fraunhofer IPA p. 32, 35■ Fraunhofer IPK p. 32■ Fraunhofer IPT p. 32, 36
■ Fraunhofer ISC p. 16, 36■ Fraunhofer ISE p. 36■ Fraunhofer ISI p. 36■ Fraunhofer IST p. 16, 20■ Fraunhofer ITWM p. 24■ Fraunhofer IWS p. 35■ Fraunhofer IWU p. 10, 16,
24, 32, 35■ Fraunhofer IZFP p. 11■ Fraunhofer LBF p. 16■ Fraunhofer Office India p. 12■ Fraunhofer Simulation
Alliance p. 24■ Fraunhofer Venture p. 37■ Fraunhofer WKI p. 37
FRAUNHOFER UNITS
NORTH 3NORTH 2
NORTH 1WEST 3
WEST 2
WEST 1
SOUTH 2SOUTH 1
CC
FG
EAST 2
EAST 3
12 1113
27
25 26
24
21
22 23
20
18 4
5
6
7
8
9
10
14
15
16
17
P36
P35P34
P33
P32
P11
2
1
3
11
3
7 8
9
14
13
15
17
19
20 21
10
21
5 64
12
16
18
Hall 2, Booth C16■ Future Factory
Hall 2, Booth C22■ Adaptronics
Hall 3, Booth D26■Surface Engineering
Hall 7, Booth B10■ Simulation
Halle 13, Booth E30■ Maritime Technologies
Hall 17, Booth F14■Production
JOINT BOOTHS
Hall 2Future Factory
SITE PLAN
FRAUNHOFER UNITS
Photo acknowledgements
Page 11: © Fraunhofer
IWU/ART-KON-TOR
Page 31: amphotora/
iStockphoto
All other photos:
© Fraunhofer-Gesellschaft
Editorial notes
Editorial team
Fraunhofer-Gesellschaft
Hansastrasse 27 c
80686 München, Germany
Franziska Kowalewski
Jörg Röthlingshöfer
© Fraunhofer-Gesellschaft,
München 2015
W W W. F R A U N H O F E R . D E
W W W. F R A U N H O F E R . D E / H M B L O G