Summer School «Nonlinear Life. EDITION 2»

The summer school «Nonlinear Life» is organized by the Institute of Biomedical Engineering and Nanotechnologies of the Faculty of Mechanical Engineering, Transport and Aeronautics in cooperation with International Relations Department of Riga Technical University (RTU).

August 12–24 Riga Latvia

The Nonlinear life school organized in 2017 was successful particularly due to converging sciences approach employed to deliver knowledge. The school participants from Belgium, France, Germany, Italy, Latvia, Lithuania, the Netherlands, Poland and Russia covered a wide range of topics – virtual and augmented reality for medicine, medical physics in oncology, the use of smart textiles in motion capture, new generation biomedical fibres and their production technologies, the use of artificial intelligence in medical physics research, chaos and orderliness, structural biology, nanotechnology, big data in health and other topical engineering themes related to human life.

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In 2018, the professors from Germany, Israel, Italy, Latvia, Lithuania, Poland, Spain, Turkey, and the USA will deliver the lectures, share the experience and offer the topics for the converged sciences projects to be developed by the students during the summer school.

The scientific program of the School 2018 will include the following fields:

  • Fusion of radiology, cardiology, medical engineering and physics
  • Formalization of the nonlinear phenomena
  • Structural biology and genetics
  • Nanotechnologies and nanomaterials
  • Nanomedicine
  • Biomaterials
  • Surface phenomena
  • Nonlinear optical and electrical processes by/for bio-objects

You will visit advanced health care institutions, for example, the Oncology Centre of Latvia as well as enterprises like Baltic Scientific Instruments (specialized in the development and production of devices for spectrometric analysis based on semiconductor and scintillation radiation detectors) and Riga Nuclear Medicine Centre (nuclear medicine research laboratory, which is providing research and commercial research services).

Schedule of the lectures and events


The Map of the Summer School

Nonlinear Life 2018 (brochure)

Study Credits
Certificates of Further Education of Riga Technical University and 5 ECTS (European Credit Transfer System) credit points will be awarded upon completion of the program.
Your profile
  • Education background
    • Undergraduate student (finished at least one year of studies by the time the summer school starts)
    • Postgraduate student
    • Doctoral student
  • You are familiar with
    • Mathematical calculus
    • General physics
    • Basics of computing technologies
  • Your abilities
    • Speak fluent English
    • Appreciate the experience of learning from and working with qualified professionals
    • You are a creative person
    • Looking for added value content
Participation Fee
The participation fee covering registration, tuition, accommodation in the student hostel of RTU, meals (breakfast and lunch) and the social program is EUR 700. The participants will have to cover their travel expenses and health insurance. Based on the evaluation of the application documents, participant with the most outstanding results will receive a discount for covering participation fee.
DAAD scholarship for German students

Our summer school has been selected for second consecutive year as a receiver of German Academic Exchange Service (DAAD) scholarship provided to the students from Germany.

In order to apply for DAAD scholarship, please take into consideration, that submission of documents goes simultaneously - both to DAAD and organizers of the summer school:

For organizers:


For more detailed information regarding DAAD scholarship and application requirements, please visit the homepage of the program «Go-East Summer Schools» implemented by DAAD.

Participant Testimonial (in German).


The deadline for submitting the application is May 7, 2018

When applying, please enclose the following documents in English:

For all applicants:

For those who apply for a partial scholarship:

  • Certified copies of higher education institution diploma supplement (for graduates);
  • Transcript of records for the whole study period at university (for current students);
  • One letter of recommendation.

Results of the evaluation will be announced to each individual by 21 May 2018.

International Relations Department of RTU will be happy to answer all questions concerning organizational matters, which might occur before the summer school starts or during its course. In case of doubts, do not hesitate to contact Mr. Eriks Badamsins via email or phone +371 67089790.


Lecture @ Nonlinear Life. Edition 2: Nanomaterials and nanotechnology
The thrust of the lectures will be reviewing reduced dimensional materials in terms of their unique characteristics and applications in sensing/detection, force protection, and contamination remediation. An emphasis will be placed on smart and connected aspects to enhance safety and security worldwide.

Prof. Ashok Vaseashta,  USA
Prof. Vaseashta currently serves as the Executive Director of the Office of Research, Grants and Sponsored Programs, and Chair of Institution Review Board at NJCU. He provides strategic leadership to promote and advance research initiatives and priorities. His research interests include Critical Infrastructure protection, biosecurity, advanced and nano materials for development of chemical-bio sensors/detectors, environmental pollution monitoring and remediation, and green nanotechnology.

Lecture @ Nonlinear Life. Edition 2: Biomaterials – present and trends
The lesson will deliver a fundamentals on materials for biomedical applications. The students will acquire  the basic concepts of the structures, physical and mechanical behavior of different classes of the materials: metals, polymers, ceramics and composites. Traditional and innovative technologies of production of the different materials and their influence on behavior of biomaterials will be described. Resistance, degradation of the materials, particularly with respect to biocompatibility will be considered. Examples of materials for biomedical applications will be detailed.

Prof. Marina Cabrini, Italy
Professor of Science and Technology of Materials. Italian delegate at the Board of the International Corrosion Council (ICC). The leader in the field of electrochemistry and corrosion, primary focused on the environmental assisted cracking of traditional and innovative steels, aluminum and titanium alloys. Nowadays is working on the corrosion of aluminium, titanium and nickel alloys obtained by means of the innovative Additive Manufacturing techniques.

Lecture @ Nonlinear Life. Edition 2: Additive manufacturing principles and technologies
The lesson will be devoted to a general overview about the additive technologies to produce materials and products for industrial applications. A focus on the available standards and qualification issues for parts will be also done. Particular attention will be paid to laser powder bed techniques, binder jetting, direct deposition and material extrusion. The techniques will be described and critical aspects of the most promising will be addressed.

PhD Sergio Lorenzi, Italy
Graduated from the mechanical engineering at the University of Bergamo, 2005.
PhD (2010) in Mechatronics and Innovative Technologies at University of Bergamo. The scientific activity: correlation between the microstructure and the properties of materials in particularly - steel and corrosion resistant alloys; corrosion in energy production plants, corrosion of materials produced by means of additive manufacturing, corrosion in drinking water, environmental assisted cracking of high strength steels, cathodic protection design based on numerical simulation, electrochemical techniques for corrosion protection and prevention.

Lecture @ Nonlinear Life. Edition 2: Reverse Engineering techniques applied to additive manufacturing
Methods and tools for Reverse Engineering techniques to improve design practices for the development of 3D printed medical devices. Application of digital tools for geometric modelling of custom fit products which have to be made by means of additive manufacturing.

Prof. Andrea Vitali,  Italy
Main research topics: Human Modelling, Mixed Reality, IT for Health, Additive Manufacturing, Reverse engineering techniques.
Main research activities: Development of Knowledge CAD systems for design of medical devices, Virtual reality applications for design of medical and industrial high customized devices, Software development of applications based on motion capture systems for gait evaluation of SCI patients, hemiplegic patients and patients with lower limb amputation.

Lecture @ Nonlinear Life. Edition 2: Effects of magnitude saturation in (medical) signal processing
To convert an analogues signal to the digital one the sampling of the signal is used.  The accuracy of the sampling is influenced by intended word length in bits.  Unfortunately, the sampling errors are nonlinear and depend on the shape and magnitude of the signal. We will discuss the methods, how to calculate the result by the signal processing algorithm with the finite word length samples.

Prof. Guntars Balodis, Latvia
Interest's area is covered by the digital signal processing for the electrical engineering and the biomedical signal processing in the medical physics/engineering field.

Lecture @ Nonlinear Life. Edition 2: Visible light-sensitive  biopolymer nanocomposites as a potential approaches for targeted cancer therapy
Innovative and eco-friendly approach in synthesis of silver nanoparticles (AgNPs) in a visible light sensitive biomatrix and modeling of the essential physical-chemical concepts will be considered. These will be focused to understand the preparation of novel nanomaterials for targeted cancer treatment.  The compounds activated with white light treatment (wLED) give an opportunity to create an excellent solid biopolymer platform/biosubstrate with the extremely reduced of AgNPs (average size in the range 2-11 nm). These biomaterials exhibit cytotoxicity in vitro against some human cancer cell lines. The presented nanobiomaterials are promising candidate for both targeted cancer therapy and electronic imaging.

Prof. Ulviya Bunyatova, Turkey
Received M.Sc.&Ph.D. degree in 1997 from the Baku State University, Azerbaijan, in Physics& Molecular Physics. Worked at the Institute of Element-organic Compounds, USSR Academy of Sciences.  Visiting researcher Middle East Technical University/Turkey (1993-1996), postdoctoral fellowship at Department of Electrical Engineering at University at Buffalo, New York State University SUNY / USA (2016-2017). From 2014 the assistant professor in Baskent University Biomedical Engineering Department. Specific interests and expertise: nanobiomaterials & metal nanoparticles; fabrication visible light sensitive novel biomaterials; biosensors, innovative approaches in the development of multifunctional smart biomaterials and techniques.

Lecture @ Nonlinear Life. Edition 2: Advanced continuous nanofibers and products: nanomanufacturing, properties, and applications
Continuous nanofibers represent an emerging new class of nanomaterials with distinct advantages for macroscopic nano-enabled applications. This lecture will cover controlled nanomanufacturing and scale-up, structure and properties evaluation and optimization, as well as current and prospective applications of nanofibers in areas of spanning ultrahigh-performance structural composites, ultrafast sensors/actuators, autonomous responsive materials, and unique biomedical applications and devices.

Prof. Juris (Yuris) Dzenis, USA
Professor at the University Nebraska Lincoln. PhD in Aerospace and Mechanical Engineering from the University of Texas, PhD in Physics and Mechanics of Polymers from the Latvian Academy of Sciences
Was employed as the researcher at several universities around the world (USA, New Zeeland, Japan, France, Italy, etc).
Research interests focus design, manufacturing, modeling, and characterization of advanced nanomaterials, composites. Introduced a concept of nanoreinforcement of interfaces and pioneered development of cost-effective delamination resistant nanomodified structural composites.
Currently is involved in the development of manufacturing processes and applications for several functional nanofibers. Member of the six professional societies and serves on a number of the US national panels and committees on nanomanufacturing, advanced materials, composites, etc.

Lecture @ Nonlinear Life. Edition 2: Team science – the future of the medicine. Cardiology as an example
Medicine is a profession that incorporates science and the scientific method with the art of being a physician. Over the years the science has made a shift from a single-investigator, usually unidisciplinary findings to multi-, inter-, and transdisciplinary collaborative teams or so-called team science. This new approach has played a significant role in research on diagnosis and treatment of heart disease. In collaboration with physiologists, physicists and bioengineers we tested and implemented a new non-invasive diagnostic tool for coronary artery disease which is the main cause of heart attack. This method is based on construction of an anatomic model of coronary circulation (arteries that supply the heart) from cardiac computed tomography angiography, a mathematical model of coronary physiology, and numerical solution of the laws of physics governing computational fluid dynamics.

Prof. Andrejs Erglis, Latvia
Professor of Medicine of the Faculty of Medicine and Director of Institute of Cardiology and Regenerative Medicine at the University of Latvia,  Chief of the Latvian Centre of Cardiology at Pauls Stradins Clinical University Hospital. The President of the Latvian Society of Cardiology and the Vice-President of the Latvian Academy of Sciences. His major fields of scientific interests: interventional cardiology, regenerative medicine, precision medicine and epidemiology of cardiovascular disease.

Lecture @ Nonlinear Life. Edition 2: Introduction to cryoballoon therapy for treatment of atrial fibrillation
The atrial fibrillation is a nation wide disease with 2.2% of the European population. In the last years some medical devices and technologies have been developed. They are based on cryotherapy to treat successfully this disease with minimal invasive surgery, when pharmacotherapy is not successful. The cool-loop is an example of this technology solutions - the cryoballoon-ablation-catheter is considered to treat the atrial fibrillation in the pulmonale vein with a minimally invasive way.

Prof. Frank Stein, Germany
Professor for Medical Engineering, I. Arabaev Kyrgyz State University, Kyrgyzstan; lecturer at the University of Applied Science, Aachen, Germany.
Frequently Guest Lecturer at the Riga Technical University, Riga, Latvia.
Senior Medical Devices Expert in medical device industry; leader of the healthcare projects, consulting and management in Germany.
Education: Physical Engineering (Dipl.-Ing.), PhD in Physics,

Lecture @ Nonlinear Life. Edition 2: Biomimetic polymeric self-healing materials
Self-healing is a particular property of some animals and plants in Nature. Can self-healing be imparted to synthetic materials? Explore together the world of smart materials.

Prof. Jose Miguel Martin-Martinez, Spain
Full Professor at the University of Alicante (Spain). Head of the Adhesion and Adhesives Laboratory at the University of Alicante. Editor-in-Chief of the Journal of Adhesion Science and Technology; Associate editor of «Rubber Chemistry and Technology».
Robert L. Patrick Fellowship awarded by the American Adhesion Society. 2013.
President of the Spanish Adhesion Society (2010-date).
National Expert. European Commission. Directorate GIII. 2005-2006.

Lecture @ Nonlinear Life. Edition 2: Nonlinearity, chaos, and fractals in Biomedical Physics
Biological systems – whole organisms, organs, tissues, single cells -  are complex open dissipative systems. Their dynamical stability occurs through a number of mechanisms. Living systems exist in the states far from thermodynamic equilibrium and show a nonlinear behavior typical for deterministic chaos that enables an efficient adaptability. Because of nonlinear, chaotic nature of the living systems nonlinear methods, e.g. fractal methods, of signal analysis are more proper that linear approaches. For example carcinogenesis, may be studied through analysis of images due to fractal methods. The examples will be demonstrated.

Prof. Wlodzimierz Klonowski, Nalecz Institute of Biocybernetics and Biomedical Engineering Polish Academy of Sciences, Warsaw, Poland
The physicist with more than 40 years of interdisciplinary experience. Initiator and organizer of a series of European Summer Schools EUROATTRACTOR. Contributed to the theory of structure-property relationships in crosslinked polymer materials through his topological theory of networks, so called Systems with Discrete Interactions. Currently, he is involved in the research on nonlinear methods (in particular fractal methods) in medicine and medical diagnostics - biosignal (EEG, HRV) analysis with applications in patient monitoring (e.g. of the depth of anesthesia) and in assessment of pharmaco-therapies, as well as image analysis in histopathological diagnosis of cancer.

Lecture @ Nonlinear Life. Edition 2: Simulation and Augmented Visualization in Medicine
The Virtual Reality (VR) technology that uses specific interfaces allows «creation» of realistic environments where the possibility to see, manipulate the virtual objects, touch them provides a high feeling of immersion and presence in the virtual world.
The Augmented Reality (AR) technology allows the real-time fusion of computer-generated contents within the real world in order to provide the impression that the virtual and real objects coexist in the same space.
In medicine the VR/AR technologies make available new tools for diagnostics by translating the information contained in medical images into a 3-dimensional virtual representation of the patient that is a realistic replica of the patient with the actual pathologies. New forms of medical education have been developed to train the surgeons without any risks for the patient.
New applications of AR technology allow overlapping of the 3D virtual models of the organs on the real patient during the intra-operative procedures in order to carry out the surgical tasks in a way that are both faster and safer.

Prof. Lucio Tommaso De Paolis, Italy
Prof. at the Department of Innovation Engineering and the Director of the Augmented and Virtual Reality Laboratory (AVR Lab – at the University of Salento, Italy.
Research interest concerns the study and development of applications based on Virtual and Augmented Reality technologies for surgery, cultural heritage. He develops human-computer interfaces for the interaction with virtual objects.
De Paolis is the responsible for  the «Advanced Virtual Reality for Medicineē research group at the Laboratory of Interdisciplinary Research Applied to Medicine (DReAM) at the Hospital of Lecce, Italy; the vice-president of MIMOS (Italian Movement Modelling and Simulation); the founder of AVR Med srl (, a spin-off company of the University of Salento; the organizer of the International Conference on Augmented Reality, Virtual Reality and Computer Graphics (SALENTO AVR).

Lecture @ Nonlinear Life. Edition 2: Nanomedicine and immunity
Progress in nanotechnology has determined new strategies concerning drug delivery into the central nervous system for the treatment of degenerative and inflammatory diseases. Today, brain targeting through systemic drug administration, even in a nano-composition, is often unsuccessful. Therefore, we investigated the possibility of loading T lymphocytes with PGLA–PEG COOH magnetite nanoparticles (30 nm), which can be built up to easily bind drugs and monoclonal antibodies, and to exploit the ability of activated T cells to cross the blood–brain barrier and infiltrate the brain parenchyma. We demonstrated that T cells containing nanomaterials hold the possibility of carrying and releasing nanoparticles in the brain.

Prof. Mario Milco D’ELIOS, Italy
Professor of Medicine & Immunology at the University of Florence.  His main research activities deal with immune responses and nanomedicine.

Lecture @ Nonlinear Life. Edition 2: Cyclotron technologies and radiopharmaceutical production
More than a year ago the Nuclear Medicine Center Ltd. launched cyclotron facility with 18FDG production according to GMP and Eur. ph. regulations that were followed by 18F-Choline and new and innovative 68GaPSMA. We developed the radiopharmaceutical manufacturing process on equipment that is currently available to gain efficiency, GMP and local regulatory compliancy and safety for production operators.

MSc Vitalijs Skrivelis, Latvia
Molecular biologist (University of Latvia). MBA (Riga Business School). Founder and Member of the Board, «Nuclear medicine center» SIA, Latvia. Chairman of the Board of the Latvian Association of chemical and pharmaceutical enterprises. Former Adviser of the Minister of Economics of the Republic of Latvia and  Vice Director for Production at the Latvian State Pharmaceutical Company GRINDEKS.

Lecture @ Nonlinear Life. Edition 2: Measurement of low concentrations of nanosized objects in biofluids by means of refractometric methods
An overview of the general situation in the measurement of the nanoparticles will be given. Live demonstrations/physical experiments related to nanoparticles measurements will be provided.

PhD Dmitrijs Merkulovs, Latvia
PhD in engineering. More than 30 inventions. Specialized in precise laboratory instrumentation development and production. Project Director of ELMI Ltd, Latvia.


Lecture @ Nonlinear Life. Edition 2: Deep learning and big data. Are they a fashion or a research tool for me?
Up to date informatics applications are examined.

Prof. Franco Milano, Italy
Professor of Medical Physics. Co-director and lecturer at the Medical Physics College organized by the International Centre for Theoretical Physics Trieste. Actually lecturer in many Universities in Europe, Asia and South Asia. Partner in several EC projects, mostly related to training of the Medical Physicists.



Lecture @ Nonlinear Life. Edition 2: Realtime detection of brain neurochemistry: from wired to wireless monitoring
The emerging biosensor-based neuroanalytical chemistry allows the in-vivo electrochemical monitoring of neurotransmitters such as dopamine, acetylcholine and glutamate or bioenergetics neurochemicals (glucose, lactate, ascorbic acid and oxygen) sensitive to mithocontrial damage or oxidative stress. Implantable micro(bio)sensors, integrated with miniaturized telemetry devices (equipped with motion/vibration
sensors) are useful tools for studying the brain’s pathophysiology, neurochemical and behavioral changes related to motor impairment, in realtime.
Development and application of integrated neurosensor networks for realtime monitoring of brain neurochemistry and motion will be discussed.

Prof. Pier Andrea Serra, Italy
The Research focuses to study the etiopathogenesis and the therapy of neurodegenerative diseases through innovative neuroanalytical tools (in-vivo microdialysis and new voltammetric techniques –biosensors in particular - for realtime and wireless monitoring of molecules in the brain extracellular space).

Lecture @ Nonlinear Life. Edition 2: Are nonlinear dynamics and chaos mathematical abstraction or practically relevant phenomena?
The basics of nonlinear dynamics, including some specific features of chaotic modes of operation will be considered. The application of the innovative approach – Method of Complete Bifurcation Groups – to the dynamics of widely used systems is examined. The practical applicability and relevance of nonlinear methodologies to real life problems will be discussed.

Prof. Dmitrijs Pikulins, Latvia 
PhD in engineering, Assoc. Prof. at the Faculty of Electronics and Telecommunications of the Riga Technical University. Head of the department of Radioelectronics.
Research interests include nonlinear dynamics, chaotic systems, wireless sensor networks, energy harvesting systems, switching power converters.

Lecture @ Nonlinear Life. Edition 2: Nonlinear Life from a biological point of view
The history of the living organisms can be tracked for the past 3.2 billion years – due to its linearity. This led Rudolf Virchow (1821-1902) to formulate: «omnis cellula e cellula». In 2010, Craig Venter claimed to have created the first synthetic cell «whose parent is a computer», thus interrupting progeny. With current progress in synthetic biology more new-to-nature organisms can be expected or even become normality. I will present and intend to trigger thoughts about biotechnological hopes and societal fears connected to biologically nonlinear life.

Prof. Röbbe Wünschiers, Germany
PhD in biology at the University of Marburg/Germany; Habilitus doctor in Genetics at the University of Cologne. Professor for Biochemistry/Molecular Biology at University of Applied Sciences Mittweida/Germany.
Experience as the PostDoc and Independent Researcher in Sweden and Germany, Bioinformatics Manager at BASF Plant Science.
Research focuses modelling and simulation driven optimization of biological hydrogen and methan production; methods from experimental and computational biology. and

Lecture @ Nonlinear Life. Edition 2: Molecular clock in macro- and microevolution
Molecular clock shows speed of changes of biomolecules in the time scale which can be different in different historical periods. Molecular clock is used to understand timing of importants events during macroevolution, but can have also some application to understood microevolution. Epigenetic mechanisms, no related with direct changes of DNA, can masked the clock’s ticking.

Prof. Isaak Rashal, Latvia
Habilitus doctor in biology from the University of Latvia.  Professor of genetics at the Faculty of Biology of the University of Latvia, Head of the Laboratory of Environmental Genetics of the Institute of Biology. Main area of interest population genetics, evaluation and use of plant genetic resources.

Lecture @ Nonlinear Life. Edition 2: Peptide nanophotonics: from biooptics to implantable lab-on-chips
Peptide nanophotonics is a new paradigm which can revolutionize emerging fields of precision medical trials and health monitoring. It is based on bioinspired synthetic peptide materials where unique combination of intrinsic biocompatibility with remarkable multifunctional optical properties and developed nanotechnology of  large peptide wafers and their patterning make them highly promising for development of implantable optical biochips.

Prof. Gil Rosenman, Israel
Full Professor at the Tel Aviv University, Israel.
Fields of interest: Solid state physics, Physics and Engineering of Ferroelectric and Dielectric Materials  
Physics and technology of bioinspired nanomaterials, Nanobiomedicine and Bionanophotonics, Bionanodots, Peptide Nanophotonics, Peptide integrated optics, Implantable lab-on-chips.

Lecture @ Nonlinear Life. Edition 2: Medical Physics in oncology-practical point of view
Everyday work and responsibilities of medical physicist in radiotherapy department, modern radiotherapy techniques and the main challenges to improve the quality of treatment procedures, another perspective of 1 mm sizes regarding human health.
Practical brainstorming-safety barriers in radiotherapy, craniospinal plan analysis.

MSc Indra Surkova, Latvia
Master Degree in medical physics from the Riga Technical University, Latvia.
Medical physicist experience for almost 10 years at the largest hospital of Latvia for oncology.
Experience working with different kind of radiotherapy equipment and treatment planning systems.
Interested in stereotactic radiosurgery procedures, hypofractionation.

Lecture @ Nonlinear Life. Edition 2: Multiphoton processes in biomedicine: towards cancer therapy and diagnostics.
Interaction of the electromagnetic radiation with matter is described by well accepted principles of photobiology: Lambert-Bugger-Beer law and Bunsen-Roscoe reciprocity law. The advent of the high-power pulsed lasers has resulted in the capability of generating intense burst of monochromatic radiation in very short times. These pulses are so intensive that the probability is great that two or more photons may participate in a particular excitation event. Such processes are currently observed in different kinds of material, including solutions of biomolecules and may also occur in living biological systems. Lectures are devoted to the explanation of two-photon, two-steps and upconverting processes in biological active molecules and upconverting nanoparticles with special emphasis on the cancer therapy and diagnostics. Different types of multiphoton excitation will be summarized in detail as well as the future perspectives of application in photodynamic cancer therapy and diagnostics are also will discussed.

Prof. Ricardas  Rotomskis, Lithuania
PhD in Biophysics at the Moscow M.V.Lomonosov State University (Russia); Habilitation doctor in Applied Physics at Vilnius University, Lithuania
Prof at the Department of Quantum Electronics of Physics Faculty of Vilnius University; head of the laboratory of Biomedical Physics at Vilnius University Institute of Oncology.
Main scientific interests: biophysics, biomedical physics, nanophotonics, biophotonics, nanomedicine, lasers application in life sciences particularly those used in photosensitized tumour therapy; fluorescence methods in biomedical diagnostics and visualization; biomedical applications of nanotechnologies etc.

Lecture @ Nonlinear Life. Edition 2: Novel biosensors for point of care tests
Because of the inventions and developments on bioengineering, nanotechnology and microfluidics, complex laboratory tests can be done in small sized, mobile and easy to use devices at point of care (POC). Those devices are called Lab-on-a-chip (LOC) and they can also be used as biosensors for diagnostic purposes, Fundamental concepts of POC tests, LOC device, biosensors and their future projections are introduced.  Novel methods for POC test using LOC biosensor devices will be explained: impedance spectroscopy based sensor to detect the biomarker; lensless wide filed microscopy originated imaging technique.

Prof. Mehmet Yüksekkaya, Turkey
Ph.D. in Electrical and Electronics Engineering.
Assistant professor at the Biomedical Engineering Department, Başkent University Ankara, Turkey.
Research focusses biosensors and microscopic image processing. Owner of the company that is mainly directed to biomedical signal/image processing, biomedical instrumentation research/development.

Lecture @ Nonlinear Life. Edition 2: Weak electrons nonlinear emission – great impact to characterize nanomaterials
Weak electron emission nonlinear current is inspired by earlier destruction, heating, radiation etc. The examples to employ weak emission to characterize materials are considered.     

Prof. Yuri Dekhtyar, Latvia
Prof. Yuri Dekhtyar , PhD, DSc. Head of the  Biomedical Engineering and Nanotechnologies Institute of the Riga Technical University, Latvia. Full member of the Latvian Academy of Sciences.
Leader of the number of the National and International projects.  
Research in electron spectroscopy, solid state surface physics, characterization and functionalization of biomaterials and nanoobjects.

Summer School «Nonlinear Life» 2017
From 20 till 31 August 2017 RTU Institute of Biomedical Engineering and Nanotechnologies in cooperation with International Relations Department organized the summer school «Nonlinear Life».
Humans are surrounded by environment that supplies nonlinear phenomena (waves of the oceans, distribution of pollution, etc.). At the same time mankind is also developing processes and machines that are nonlinear (laser processing of materials, vibrations of aircrafts, etc.). The processes in live organisms are very nonlinear, as well (e.g. heart rhythm, blood circulation).
The experience resulted from the Nonlinear life school organized in 2017 demonstrates that the converging sciences approach is effective and was positively accepted both by the students and lectures supplied the lectures covering a wide range of converging topics – virtual and augmented reality in medicine and surgery, medical physics in oncology, the use of smart textiles in motion capture, new generation biomedical fibres and their production technologies, the use of artificial intelligence in medical physics research, chaos and orderliness, structural biology, nanotechnology and other topical engineering themes related to human health.
We would like to emphasize our capacity to attract quite international group of professors assembled from six local professors and five guest professors (three of them coming from Germany and two of them representing higher education institutions in Italy). Concerning to composition of group of participants, we hosted 17 students coming from nine countries (Germany, Lithuania, Poland, Italy, France, the Netherlands, Belgium, Russia and Latvia).

 Franco Milano, Prof. of Medical Physics (Italy)

Lecture @ Nonlinear Life – Can Big Data management, Complex System science and Artificial Intelligence open new opportunities in Medical Physics research?

After a general short review of modern techniques and methods in diagnostic imaging and radiotherapy some specific  examples of the use of non linear operators are reported. Then a possible future  scenario in Medical Physics activities is drawn taking into account the impact of Big Data management, Complex System science and Artificial Intelligence applications on training and profession of the Medical Physicists.

More about Prof. Franco Milano

Lucio Tommaso De Paolis, Prof. of Processing Systems (Italy)

Lecture @ Nonlinear Life – Virtual and Augmented Reality in Medicine and Surgery

In medicine and surgery the VR/AR technologies make available new tools for the definition of the diagnosis by translating the information contained in medical images into a 3-dimensional virtual representation of the patient that is a realistic replica of living patient with the actual pathologies. This has allowed the development of a new form of medical education and the use of patient-specific surgical simulators permit to train and rehearse the surgical procedures without any risks for the patient.

New applications of the AR technology allow overlapping the 3D virtual models of the organs on the real patient during the intra-operative procedures in order to carry out the surgical tasks in a way that are both faster and safer. The use of augmented visualization in surgery has the potential to bring the advantages of the open-surgery visualization also in minimally invasive surgery.

More about Prof. Lucio Tomasso de Paolis

Michael Rosenblum, Prof. of Physics and Astronomy (Germany)

Lecture @ Nonlinear Life – Synchronization: a universal nonlinear phenomenon

Introduction to the theory of synchronization, which is the oldest scientifically described nonlinear phenomenon, will be delivered. The presentation will be illustrated by numerous examples of physical, engineering, and biological systems. Quantitative explanations will be followed by the basics of the mathematical theory. Finally, I will discuss possible application in physiology and medicine.

More about Prof. Michael Rosenblum

Inga Lyashenko, Doc. of Textile Engineering (Latvia)

Lecture @ Nonlinear Life – New Generation of Biomedical Textile Fibers and Technologies of Their Production

The lecture A New Generation of Biomedical Textile Fibers and Technologies of Their Production will consist of two main parts.

The first part covers «High-tech» biomedical textile, fundamental types of fibers (including their properties), examines new four technologies of their production and several examples of their applications will be provided.

The second part of the lecture covers biotechnology in the production of textile fibers in biomedical engineering area. Thanks to the recent research results in biotechnology, several methods of manufacture of chemical fibers were developed, whose properties actually do not differ from the natural. This research will be presented. Application of biotextiles (included recycled materials for clothing) and ways of their scientific improvements will be presented.

More about Doc. Inga Lyashenko

Alexey Katashev, Prof. of Biomedical Engineering (Latvia)

Lecture @ Nonlinear Life – Smart textile and other technologies for motion capture and posture assessment

Workshop @ Nonlinear Life – Hand/limb locomotion capture by smart textile sensor. Hysteresis compensation methods

Methods, used to capture human shape and motion. Medical / industrial applications of motion capture. Smart textile sensors and their applications for motion capture.

More about Prof. Alexey Katashev

Alexander Schwock, Dr. of Electro Technique in Civil Engineering (Germany)

Lecture @ Nonlinear Life – Plasma Technologies and an overview of their applications

Workshop @ Nonlinear Life – Cross-sectoral applications of plasma technologies for environment protection

The plasma technology lecture gives a short overview about plasma technologies and its industrial application. In a short exercise the students should develop and present a project idea of using plasma technologies for environmental application. After the analysis of the exercise some real application of plasma technologies for environmental application will be presented.

More about Dr. Alexander Schwock

Röbbe Wünschiers, Prof. of Biology (Germany)

Lecture @ Nonlinear Life: Nonlinear Life from a biological point of view

Workshop @ Nonlinear Life: Designing Cells – Gene technology and more

The history of living organisms can be tracked for the past 3.2 billion years – due to its linearity. This led Rudolf Virchow (1821-1902) to formulate: «omnis cellula e cellula». In 2010, Craig Venter claimed to have created the first synthetic cell «whose parent is a computer», thus interrupting progeny. With current progress in synthetic biology more new-to-nature organisms can be expected or even become normality. I will present and intend to trigger thoughts about biotechnological hopes and societal fears connected to biologically nonlinear life.

More about Prof. Röbbe Wünschiers

Dmitrijs Pikulins, Asoc. Prof. of Electronics and Telecommunications (Latvia)

Lecture @ Nonlinear Life: Nonlinear Dynamics and chaos- mathematical abstraction or practically relevant phenomena?

The lecture covers the basics of nonlinear dynamics, including some specific features of chaotic modes of operation. The application of innovative approach – Method of Complete Bifurcation Groups – to the dynamics of widely used electronic systems is examined. The practical applicability and relevance of nonlinear methodologies to real life problems is discussed.

More about Prof. Dmitrijs Pikulins

Jekaterina Erenpreisa, Prof. of Biology (Latvia)

Lecture #1 @ Nonlinear Life: Challenging linear causality in biology: a clash between genetic dogma and self-organization - Where is a compromise?

Lecture #2 @ Nonlinear Life: Adaptation to stress as a key to evolution and cancer. Can we tame it?

«There is no a single example of linear causality in biology if we see beyond our short-sighted experiments». This understanding is heralding the Systems Biology of the 21st century. It is not easy to percept after Newton’s mechanics that the living systems adapt by exploration using both programmed and chaotic regulations for their fate change. How this is embedded in the genome and works in reality? What is cancer? Can we saddle it up? How to plan and carry out the experiments?

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Indra Surkova, MSc. in Medical Physics (Latvia)

Lecture @ Nonlinear Life: Medical Physics in oncology-practical point of view

Workshop @ Nonlinear Life: QA in radiotherapy - group brainstorming

Everyday work and responsibilities of medical physicist in radiotherapy department, modern radiotherapy techniques and the main challenges to improve the quality of treatment procedures, another perspective of 1 mm sizes regarding human health. Practical brainstorming – safety barriers in radiotherapy.

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Yuri Dekhtyar, Prof. of Nanomedicine (Latvia)

Lecture @ Nonlinear Life: Is nanomedicine just a fad or is it a necessary approach to improving medical technologies?

Workshop @ Nonlinear Life: Nanomedicine progress – brainstorming

The nanomedicine approach has Hippocrates philosophical roots. Nanoobjects, their design and corresponding properties, as well applications for medicine are reviewed.

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