Mirko Kovac is heading the new Materials and Technology Center of Robotics of Empa and
Imperial College London. Together with his team, he develops drones and flying robots, which
are supposed to help autonomously with building maintenance, for instance. And incidentally
he is kicking off a revolution: He wants to build "living" machines.
The man actually loves machines. And life, too. And now he intends to merge both. Mirko Kovac is
developing robots and drones that, thanks to their biological properties, can merge the digital
intelligence of computers with the physical intelligence of biological systems. Driven by the vision of a
society, in which people are assisted by machines to a degree that corresponds to a real
"cohabitation", he has been head of the newly established Materials and Technology Center of
Robotics in Dübendorf since last year. Currently, a flight arena for drones, which could be used to
maintain buildings, for example, is being built in the joint center of Empa and Imperial College London.
With his team, Kovac wants to advance the area of infrastructure robotics so that applications can be
developed for dams, tunnels, wind turbines or offshore facilities.
An urgent current problem: Workers working on scaffolding or at great heights, for example, are
exposed to an enormous risk of accidents. Drones that work safely and efficiently even in danger zones
or in places that are difficult to access could provide human specialists with useful support in these
Drones in the kitchen
"We will develop and validate such applications in our new flight arena," explains the researcher.
Kovac, who also heads the Center of Excellence for Infrastructure Robotics Ecosystems at Imperial
College, already operates a complementary flight arena in London. In addition to Empa's expertise in
materials science, another unique feature of the conditions at Empa is the existing test site for his
developments: The NEST research building on the Empa-Eawag campus. Here, the drones and robots
are to be observed at work and optimized in a real-world environment. The modular innovation
building NEST is particularly suitable for observing the "ecosystem" of man and machine, as it is by
definition subject to a permanent rebuilding process, so that the robots can expect a multitude of
possible tasks. "We have the opportunity to investigate the interactions between robots and humans in
reality," says Kovac. How it is to cooperate with a robot, or whether or not a drone interferes in the
kitchen, can be studied in real-life everyday situations, which, at the same time, can be analyzed
Kovac, who after completing his degree at ETH Zurich and his doctoral thesis at EPFL worked all over
the world in robotics research, among others at the renowned US universities Harvard and Berkley,
considers Switzerland a strong location that is rightly called the "Silicon Valley of robotics". The density
of research institutions and the diversity of expertise are pleasingly high by international standards. He
is sure that Switzerland can be at the forefront, especially in the area of the intersection of materials
science and robotics.
The researcher wants to trigger nothing less than a revolution. While classical robotics has dealt with
sensor technology and the control of a machine by a computer, Kovac wants to go further. "The pure
digital intelligence of a computer is not enough to develop applications that can spontaneously react
to the environment in all its imponderability," he says. A physical intelligence, through intelligent
materials and structures, makes a machine a being that can be integrated into society. Functionalities
based on nature and biological materials will ultimately enable the construction of biohybrid robots.
The biology of the machine
The fusion of machines with "bios", ancient Greek for life, is for Kovac – within certain limits – a
declared goal and not a taboo. He is by no means interested in creating a chimera of animal and
robot, but rather in equipping mechanical aids with certain characteristics of life, especially the ability
to interact with their environment. "The robots and drones should be able to react intelligently,
autonomously and robustly to their environment," he explains.
Since childhood Kovac, now 39, has been fascinated by what holds machines together at their core. "As
a child, I disassembled Swiss watches because I had to find out where the "heart" of the watch beats,"
he says. At the same time, he was fascinated by the highly specialized abilities of animals to live
perfectly adapted in their ecological niches. This childlike fascination has grown out of the mechanical
engineer's realization that "living" machines can be developed through inspiration and creativity if
organic or biologically inspired, smart materials and structures are combined with sensor technology
and computing capacity. Kovac is convinced that this creativity is fostered by a strong, multidisciplinary
team of scientists who not only do their research in a focused, but at the same time in a networked
and broadly holistic manner.
At Empa, Kovac and his team are now developing robots and drones that are supposed to have
completely new capabilities thanks to "soft" functional materials. This makes it possible, for example,
to carry out autonomous inspections of components or quickly contain damage, for example in the
event of pipeline leaks. He is not only cooperating with his colleagues at Imperial College, but also
with Swiss experts through Empa's participation in the National Center of Competence in Research
(NCCR) "Robotics – Intelligent Robots for an Improved Quality of Life" led by ETH Zurich and EPFL. He
is aware that a topic such as the coexistence of humans and robots can trigger both concerns and
enthusiasm in society. "It is one of the tasks of research to critically question results and communicate
real risk assessments to decision-makers," says Kovac. Even his love of machines cannot stop him from
CARREER After studying mechanical engineering at ETH Zurich, Kovac received his doctorate from the Laboratory for Intelligent Systems at EPFL in Lausanne. He then worked as a postdoctoral fellow at the Harvard Microrobotics Laboratory at Harvard University in Cambridge, USA.
SCIENCE Mirko Kovac has headed the Materials and Technology Centre for Robotics at Empa since December 2018. He is also Director of the Aerial Robotics Loboratory at Imperial College London and Royal Society Wolfson Fellow. His research focuses on the development of flying and soft robotic solutions for digital infrastructure systems.
In 2020, NEST will again be present at Swissbau. Together with its partners, NEST is inviting visitors to Swissbau Focus for exciting workshops on the topics of "Energy in the neighbourhood" and "Resource-efficient, loop-friendly construction". The NEST team will also be present at various events during the fair and at the stand (F07) in Hall 1.0 South. Swissbau will open its doors from 14-18 January 2020.
Drone researcher Mirko Kovav presents his work within the event «Planung und Wirklichkeit – eine Abweichung mit Konsequenzen?». Messe Basel, Halle 1.0 Süd, Swissbau Focus, Room 1, 14.15 -15.45, together with SCCER FEEB&D and SIA