European Congress on

Applied Science & Innovative Engineering

Theme: Implications and Current concepts of Applied Science and Innovative Engineering

Event Date & Time

Event Location

Athens, Greece

16 years of lifescience communication

Performers / Professionals From Around The Globe

Tracks & Key Topics

Applied Science 2018

About Conference

EuroSciCon will be holding for Applied Science & Innovative Engineering during Nov 12-13, 2018 at Athens, Greece. The theme of this year’s meeting is “Implications and Current concepts of Applied Science and Innovative Engineering" which will provide an international platform for discussion of present and future challenges in Applied Science & Engineering.

APPLIED SCIENCE 2018 maximizes the opportunity to interact with and learn from your peers from across the country and across the globe it held with the discussions on It covers a wide range of topics including artificial intelligence, applied mathematics, plastics, hydroponics, computer science, chemical engineering, energy resources and robotics, as well as the business and social implications of new technologies and many more.

What’s New?

APPLIED SCIENCE 2018 includes international attendee workshops, lectures and symposia, including a designated registration area, a refreshment break and gala lunch.  Applied Science & Engineering, Scientists, can join the European Congress on Applied Science & Innovative Engineering as an international member to receive discounts on registration. So come and join the leading experts and professionals in the International APPLIED SCIENCE 2018 to keep up with the rapidly accelerating pace of change that is already having an impact on the field Applied Science & Innovative Engineering and will continue to in the future.

EuroSciCon is the longest running independent life science events company with a predominantly academic client base. Our multi-professional and multi-specialty approach creates a unique experience that cannot be found with a specialist society or commercially.

Euroscicon are corporate members of the following organizations:

Royal Society of Biology

IBMS

British Society for Immunology

Rare Care UK

Opportunities for Conference Attendees

For Researchers &Faculty:

Speaker Presentations

Poster Display

Symposium hosting

Workshop organizing

For Universities, Associations & Societies:

Association Partnering

Collaboration proposals

Academic Partnering

Group Participation

For Students & Research Scholars:

Poster Competition (Winner will get Best Poster Award)

Young Researcher Forum (YRF Award to the best presenter)

Student Attendee

Group registrations

For Business Delegates:

Speaker Presentations

Symposium hosting

Book Launch event

Networking opportunities

Audience participation

For Companies:

Exhibitor and Vendor booths

Sponsorships opportunities

Product launch

Workshop organizing

Scientific Partnering

Marketing and Networking with clients

Euroscicon organizes International Nutrition Meetings annually across Europe, Austria, Ireland, Germany, France, Liechtenstein, Lithuania, Finland, Luxembourg, Hungary, Italy, Norway, Poland, Denmark, Macedonia, Greece, Portugal, Romania, Czech Republic, Switzerland, United Kingdom, Belgium, Scotland, Latvia, Ukraine, Sweden, Denmark, Spain, Netherlands Russia, Bulgaria, France, with solitary subject of quickening logical revelations.

Tracks:

Advanced Materials and Tools

Aeronautics & Aerospace Engineering

Applied Physics

Biological Engineering

Biomaterials

Biomedical Engineering

Ceramics, Polymers and Composite Materials

Chemical Engineering

Civil Engineering

Computer Applications and Information Sciences

Educational Chemistry

Electrical and Electronic Engineering

Electronic, Photonic and Magnetic Materials

Environmental Science

Fundamental and Applied Sciences

Geosciences and Petroleum Engineering

Life Science Engineering

Management and Entrepreneurs Business Meet

Material Science and Engineering

Materials and Environmental Effects

Materials Science in Building and Construction Engineering

Mechanical Engineering

Metals and Alloys

Oil, Gas, Energy & Mining Engineering

Power and Energy Engineering

Sessions/Tracks

Advanced Materials and Tools

Instrumentation is the utilization of estimating instruments to screen and control a procedure. It is the craftsmanship and exploration of estimation and control of process factors inside a generation, research facility, or assembling territory. Instrumentation building is the building specialization concentrated on the guideline and task of estimating instruments that are utilized as a part of outline and arrangement of robotized frameworks in electrical, pneumatic areas and so forth. They commonly work for businesses with mechanized procedures, for example, synthetic or assembling plants, with the objective of enhancing framework efficiency, unwavering quality, wellbeing, advancement, and soundness. Because of the mechanical developments and expanded request on the procedure control frameworks, the procedure robotization showcase is picking up advantage in the current years.

The advanced materials and tools market showcase accounted to surmised of USD 38.20 billion of every 2016 developing at a CAGR of 9.54% amid the figure time of 2017 to 2024. The up and coming business sector report contains information for noteworthy years 2015, the base year of computation is 2016 and the figure time frame is 2017 to 2024.

Ø  Advanced assembling

Ø  Synthetic assembling

Ø  Automated instrumentation

Ø  Pneumatic advancements

Ø  Quality check  

Aeronautics & Aerospace Engineering

Aeronautics & Aerospace Engineering centres on expansive scope of Aerospace Engineering related issues with an accentuation on outline, and assembling of air flight able machines, or the systems of working air ship and rocketry inside the environment.

The Aeronautics & Aerospace industry is probably going to encounter more grounded development in 2017. Following various years of positive yet a repressed rate of development, the report conjectures the area incomes will probably develop by around 2.0 per cent in 2017.

Ø  Aviation environment

Ø  Aeronautical systems

Ø  Aerodynamics bodyline

Ø  Accentuation in aerospace

Ø  Air ship advancements

Applied Physics

Applied physics which is proposed for a specific mechanical or useful utilizes. It is typically considered as an extension or an association amongst material science and designing. At the end of the day, connected material science is established in the crucial realities and essential ideas of the physical sciences however is worried about the usage of these logical standards in handy gadgets and frameworks.

Ø  Accelerator physics

Ø  Quantum information science

Ø  Quantum technology

Ø  Stealth technology

Ø  Nuclear engineering

Biological Engineering

Organic building or bioengineering is the utilization of ideas and strategies for science (and optionally of material science, science, arithmetic, and software engineering) to take care of certifiable issues identified with life sciences or the application thereof, utilizing building's own logical and manufactured procedures and furthermore its customary affectability to the cost and common sense of the solution(s) landed at. In this unique situation, while customary building applies physical and numerical sciences to break down, outline and fabricate lifeless apparatuses, structures, and procedures, natural designing use basically the quickly creating assortment of information known as sub-atomic science to study and propel uses of life forms and to make biotechnology. This may inevitably incorporate the likelihood of organically designing machines and 3D printing that re-arrange matter at a sub-atomic scale.

The US government's Accountability Office says that America represents around 45 for every penny of the worldwide market; with Global Medical Device Regulatory Consultancy Emergo expressing that the UK advertises – esteemed at $9.5bn in 2015 – is the third biggest in Europe, behind Germany and France, and the 6th biggest on the planet. When looking over the part, it is additionally vital to factor in the developing computerized medicinal services showcase. This is relied upon to be worth $233.3bn by 2020 (up from $60.8bn in 2013), with Asia-Pacific anticipated as a key area.

Ø  Molecular biology

Ø  Biotechnology

Ø  Synthetic methodology

Ø  Micro biology

Ø  Biomechanics

Biomaterial

A biomaterial is any substance that has been designed to associate with natural frameworks for a medicinal reason - either a remedial (treat, enlarge, repair or supplant a tissue capacity of the body) or a demonstrative one. As a science, biomaterials are around fifty years of age. The investigation of biomaterials is called biomaterials science or biomaterials building. It has encountered consistent and solid development over its history, with numerous organizations putting a lot of cash into the improvement of new items. Biomaterials science envelops components of solution, science, science, tissue designing and materials science.

The worldwide biomaterials advertise was esteemed at $72.36 billion out of 2016 and is relied upon to reach $151.65 billion by 2021, developing at a CAGR of 16.0% in the vicinity of 2017 and 2021. 

Ø Bio mineralization

Ø  Structural hierarchy

Ø  Biopolymers

Ø  Bionics

Ø  Investigation of biomaterial

Biomedical engineering

Biomedical building is the use of building standards and plan ideas to pharmaceutical and science for social insurance purposes (e.g. indicative or helpful). This field looks to close the hole amongst building and drug, joining the outline and critical thinking aptitudes of designing with medicinal natural sciences to propel human services treatment, including determination, observing, and therapy. Biomedical building has just as of late developed as its own particular examination, when contrasted with numerous other building fields. Such a development is regular as another field changes from being an interdisciplinary specialization among officially settled fields, to being viewed as a field in itself. A great part of the work in biomedical building comprises of innovative work, spreading over an expansive cluster of subfields.

Ø  Development of biocompatible prostheses

Ø  Regenerative tissue growth

Ø  Tissue engineering

Ø  Bioinformatics

Ø Pharmaceutical engineering

Ceramics, Polymers and Composite Materials

Most ceramics are mixes of metal and non-metal components, for instance, oxides. They are protectors, which implies no power or warmth can experience them, so they can withstand high temperatures and cruel conditions. Consequently, they don't erode effectively. They are not as extreme as metals and a large portion of them are not pliant, which implies they can't be reshaped effectively. Polymers are the logical name for plastic materials. They are vast atomic structures, made of carbon and hydrogen. They have low thickness (so are light weight) and are flimsy in high temperatures. This implies they have a low liquefying point and are considerably less solid than metals. They can be effortlessly framed into various shapes and the cost of fabricate is generally low. The properties of polymers make them the favoured material for some applications. Composites are made of at least two materials with various properties. The distinctive materials keep their properties as they are not converged with each other, but rather the mix of their properties makes them extremely helpful. For instance, fiberglass is a composite of a polymer and glass. Concrete is another case of composites.

Ø  Ceramics structures

Ø  Concretes polymerisation

Ø  Fiberglass fabrication

Ø  Polymer reshaping

Ø  Composite conversion

Chemical Engineering

Compound building is a branch of designing that applies physical sciences (physical science and science), life sciences (microbiology and natural chemistry), together with connected arithmetic and financial aspects to create, change, transport, and appropriately utilize chemicals, materials and vitality. A compound specialist outlines huge scale forms that change over chemicals, crude materials, living cells, microorganisms and vitality into valuable structures and items.

Ø  Safety chemical developments

Ø  Utilization of chemical compound in safety equipment

Ø  Application of compound building

Ø  Thermochemical Reactions 

Ø  Industrial chemical waste management

Civil engineering

Civil engineering is an expert designing order that arrangements with the outline, development, and upkeep of the physical and normally manufactured condition, including works like streets, spans, channels, dams, air terminals, sewerage frameworks, pipelines and railways. Civil engineering is generally broken into various sub-disciplines. It is the second-most seasoned building discipline after military engineering and it is characterized to recognize non-military designing from military engineering.

Ø  Earthquake engineering

Ø  Environmental engineering

Ø  Forensic engineering

Ø  Construction engineering

Ø  Geotechnical engineering

Computer Applications and Information Sciences

Information science is a field essentially focused about the investigation, accumulation, grouping, control, stockpiling, recovery, development, scattering, and security of information. Practitioners inside and outside the field think about application and use of learning in associations alongside the cooperation between individuals, associations, and any current data frameworks with the point of making, supplanting, enhancing, or understanding data frameworks.

Ø  Information theory and development

Ø  Computer applications in recovery

Ø  Telecommunication advancements

Ø  Archival science

Ø  Stocking and storing

Educational Chemistry

Chemistry is the scientific discipline involved with mixes made out of iotas, i.e. components, and atoms, i.e. mixes of particles: their organization, structure, properties, conduct and the progressions they experience amid a response with other compounds. Chemistry tends to points, for example, how iotas and atoms interface by means of concoction bonds to shape new synthetic mixes. There are four kinds of synthetic bonds: covalent bonds, in which mixes share at least one electron(s); ionic bonds, in which a compound gives at least one electron to another compound to deliver particles: cations and anions; hydrogen bonds; and Van der Waals drive bonds.

Ø  Physical chemistry

Ø  Thermochemistry

Ø  Stoichiometry

Ø  Electrochemistry

Ø  Biochemistry

Electrical and Electronic Engineering

The branch of designing focused about the viable utilizations of power in every one of its structures, including those of the field of hardware. Electrical and Electronic Engineering that branch of electrical building worried about the employments of the electromagnetic range and with the use of such electronic gadgets as incorporated circuits and transistors.

Ø  Electromagnetics

Ø  Control engineering

Ø  Propulsion system

Ø  Signal processing

Ø  Modulation of energy forms

Electronic, Photonic and Magnetic Materials

For any electronic gadget to work well, electrical current must be productively controlled by exchanging gadgets, which turns out to be progressively testing as frameworks approach little measurements. This issue must be tended to by blending materials that permit solid turn-on and kill of current at any size scale. New electronic and photonic nanomaterial guarantees sensational achievements in correspondences, processing gadgets and strong state lighting. Flow look into incorporates mass gem development, natural semiconductors, thin film and nanostructure development, and delicate lithography.

Ø  Photonic Nanomaterial achievements

Ø  Nanomaterial generation

Ø  Film and nanostructure development

Ø  Responses of nanomaterial to electric and magnetic fields.

Ø  Nanolithography

Environmental Science

Environmental science is an interdisciplinary scholarly field that coordinates physical, organic and data sciences (counting nature, science, material science, science, plant science, zoology, mineralogy, oceanology, limnology, soil science, topography and physical geology (geodesy), and air science to the investigation of the earth, and the arrangement of natural issues. Ecological science rose up out of the fields of characteristic history and pharmaceutical amid the Enlightenment. Today it gives an incorporated, quantitative, and interdisciplinary way to deal with the investigation of natural frameworks.

Ø  Atmospheric science

Ø  Limnology

Ø  Mineralogy

Ø  Environmental engineering

Ø  Atmospheric dispersion modelling

Fundamental and Applied Sciences

Fundamental and Applied science is a branch of science that applies existing logical information to grow more useful applications, similar to innovation or creations. Inside common science, teaches that are essential science, likewise called unadulterated science, create data to foresee and maybe clarify and comprehend wonders in the normal world. Connected science is the utilization of logical procedures and information as the way to accomplish a specific down to earth or helpful outcome. This incorporates an expansive scope of connected science related fields from building, business, and prescription to early youth instruction.

Ø  Applied science

Ø  Nanotechnology

Ø  Neuroscience

Ø  Advancement in medical sciences

Ø  Sustainability management

Geosciences and Petroleum Engineering

The branch covering the identification and development of hydrocarbon resources from the initial seismic surveys, through exploratory, appraisal and development drilling, to completion and production. Disciplines explained are geophysics, geology, reservoir engineering, reservoir management, drilling, production, petro physics and economics, and how they are used to find, develop and manage oil and gas fields.

Ø  Identification of resources

Ø  Geophysics

Ø  Seismic surveys

Ø  Reservoir engineering

Ø  Advancements in Petro physics

Life Science Engineering

Field of research and study, that the convergence of the building sciences with the life sciences (life sciences is), settled and is winding up progressively essential. Life Science Engineering deals with the specialized utilize and building execution of the discoveries from the life sciences. Just when you see how living frameworks function, you can utilize this information actually. This incorporates the improvement of new items or procedures for the pharmaceutical and compound businesses, the beauty care products industry or in natural innovation. Then again, designing information is required to coordinate natural frameworks into specialized procedures.

Ø  Neuroscience

Ø  Genetics

Ø  Biological engineering

Ø  Biotechnology

Ø  Pharmaceutical and compound businesses

Management and Entrepreneurs Business Meet

This Business Management and Entrepreneurship gives the abilities required to design set up and maintain the business. It is intended to make a 'business prepared' individual: a certain, free scholar with a tremendous learning of business, administration and enterprise. As a business visionary, one is outfitted with the abilities expected to drive advancement and adjust to change.

Ø  Business management

Ø  Entrepreneurship

Ø  Business modelling

Ø  Business design

Ø  Administration goals

Material Science and Engineering

Field of materials science and engineering is the outline and revelation of new materials, especially solids. The scholarly beginnings of materials science come from the enlightenment, when analysts started to utilize investigative reasoning from science, physical science, and designing to comprehended old, phenomenological perceptions in metallurgy and mineralogy. Materials science still consolidates components of physical science, science, and building. In that capacity, the field was for some time considered by scholarly organizations as a sub-field of these related fields.

Ø  Material selection

Ø  Application of material science

Ø  Material surface science

Ø  Phenomenological perceptions in metallurgy

Ø  Perceptions  Mineralogy

Materials and Environmental Effects

Materials are substantial elements and, all things considered, they affect upon the earth in different ways. Show day plans unmistakably expend vast amounts of physical assets, for example, materials, vitality and cash in their development, support and utilize; however they likewise can bring about impacts, for example, loss of convenience and biodiversity which are considerably harder to evaluate. while going to work in naturally maintainable way, or even generously lessen the ecological effects of current building methodologies and practices, it will be important to consider the effect of a working over its full life-cycle, once in a while portrayed as a 'support to-grave' examination.

Ø  Environmental effects

Ø  Effects of pollutants

Ø  Biodiversity loss

Ø  Corrosion reduction

Ø  Environmental maintainability 

Materials Science in Building and Construction Engineering

Materials Science in Building and Construction plays a vital role. Current difficulties require the utilization of micromechanics, computerised assistant, thermodynamics, energy, and a valuation for development procedures to take care of issues. Structural designers have adjusted and connected multidisciplinary standards to tackle issues and have utilized comparative ways to deal with those utilized as a part of strong rocket fuels, cements, metals, and earthenware production. One of the greatest lifts for the building materials area is the apparently perpetual raising of the bar by different national arranging divisions on "green" building.

Ø  Natural resources

Ø  Man-made resources

Ø  Zero-vitality building

Ø  Biocidal building substances

Ø  Thermal mass in structures

Mechanical Engineering

Mechanical engineering is the train that applies building, physical science, and materials science standards to configuration, dissect, fabricate, and keep up mechanical frameworks. It is one of the most established and broadest of the designing controls. The mechanical designing field requires a comprehension of centre zones including mechanics, flow, thermodynamics, materials science, basic examination, and power. Notwithstanding these centre standards, mechanical specialists utilize apparatus, computer aided designing (CAD), and item life cycle administration to plan and break down assembling plants, modern hardware and machinery, warming and cooling frameworks, transport frameworks, flying machine, watercraft, apply autonomy, medicinal gadgets, weapons, and others. It is the branch of engineering that involves the design, production, and operation of machinery.

Ø  Applied mechanics

Ø  Computer aided designing

Ø  Advanced Machining

Ø  Advanced Production

Ø  Applied Thermodynamics

Metals and alloys

Metals and alloys are materials that are regularly hard, flexible, and are good electrical and thermal conductors. Alloys are made by dissolving at least two components together; no less than one of them is a metal. They have properties that enhance those of the constituent components and are corrosion resistant.

Ø  Metals

Ø  Alloys

Ø  Conductors

Ø  Properties review

Ø  Phase transformation in metals and alloys

Oil, Gas, Energy & Mining Engineering

Mining designing is a building discipline that applies science and innovation to the extraction of minerals from the earth. Mining designing is related with numerous different orders, for example, geography, mineral handling and metallurgy, geotechnical building and looking over. A mining architect may deal with any period of mining tasks – from investigation and revelation of the mineral asset, through practicality consider, mine outline, improvement of plans, generation and activities to mine conclusion.

Ø  Oil extraction

Ø  Energy

Ø  Mineral handling

Ø  Metallurgy

Ø  Mining

 Power and Energy Engineering

It manages production, transmission and dispersion of electric power. Power builds likewise chips away at an assortment of energy gadgets and on control transformation (the way toward changing force from one shape into another, as in electromechanical or electrochemical procedures).

Ø  Electromechanical procedures

Ø  Electrochemical procedures

Ø  Power transmission

Ø  Power production

Ø  Energy conversion

 

Learn More

World’s Top Engineering Universities

Stanford University | California Institute of Technology | University of Oxford | Massachusetts Institute of Technology | University of Cambridge | Princeton University | Peking University | National University of Singapore | ETH Zurich – Swiss Federal Institute of Technology Zurich | Imperial College London | Georgia Institute of Technology | Carnegie Mellon University | University of California, Berkeley | École Polytechnique Fédérale de Lausanne | University of Illinois at Urbana-Champaign | Nanyang Technological University, Singapore | University of Michigan | Delft University of Technology | Hong Kong University of Science and Technology | Cornell University | Technical University of Munich | Tsinghua University | Northwestern University | RWTH Aachen University | Purdue University | Columbia University | Korea Advanced Institute of Science and Technology | University of Texas at Austin | University of Toronto | University of Hong Kong | University of California, Santa Barbara | Seoul National University | University of California, San Diego | Johns Hopkins University | The University of Tokyo | UCL | KU Leuven | KTH Royal Institute of Technology | University of Science and Technology of China | University of Wisconsin-Madison | Shanghai Jiao Tong University | Kyoto University | Technical University of Berlin | University of Washington | University of Edinburgh | University of Manchester | Fudan University | Sungkyunkwan University | Rice University | Zhejiang University

World's Top Engineering Companies 

Laing O’Rourke | Royal BAM Group | Kiewit | Bouygues Construction | Balfour Beatty | Skanska | Hochtief | Bechtel | Grupo ACS | Vinci | 3M | Aalberts Industries | Abengoa | Acciona | Aecom Technology Corp | Aker Solutions | Alexander Stephen and Sons | Alfa Laval | Baker Hughes | Balfour Beatty | BAM Nuttall Ltd | BCI Engineers | Bechtel | BG Group | BOC | BP | Buro Happold | Butterley Company | CAN | Cargill Plc | CB&I UK Ltd | Chemtech | Clough Limited | Commonwealth Engineering | Corus | Croda | Crofton Design | Cummins | Cundall | Daelim | DESG (MOD Defence Engineering and Science Group) | DLR Group | Doosan Babcock Energy Limited | Emcor | Enppi | E.On | Environment Agency  | Faber Maunsell | Farrpoint | FKI | Fluor Corporation | FMC Technologies | Foster Wheeler Ltd | Fugro | GE Aviation | General Electric | Guardian Industries UK Ltd | Halcrow Group | Harley Ellis Devereaux | Hatch Ltd | Hilti GB Ltd | HMT Ltd | Hydromat Engineering Ltd | IMI | IMSM | Jacobs Engineering Group | Johnson Matthey PLC | Joshua Hendy Iron Works | KBR | Keller Group | Kenca | Kimberly-Clark | KoneMaersk | Mahindra Group | MBDA UK | Metronet | Michael Baker Corporation | Michael-Bruno | Morgan Professional Services | Mott MacDonald | MWH | National Express | Network Rail | NG Bailey | Norinco | Palfinger | Parsons Brinckerhoff | Peter Brett Associates LLP | Philips UK | Pilkington Group Limited | Procter & Gamble | Prodim | QinetiQ | Ramboll Whitbybird | Raymond Group | Rays Engineering | Renishaw | Rolls Royce | Rotork  | Royal Navy | SABIC | Samsung Constructions | Sandvik | Schlumberger | Scott Wilson Group Ltd | Selex Galileo | Sembcorp | Shell | Shepherd Engineering Services | Siemens | Sinclair Knight Merz | Sir Robert McAlpine | Skanska | SpaceQuest | Spirax Sarco | Strachan & Henshaw | Sulzer | Tarmac | Tata Group | Technip UK Ltd | Tenaris | Terex | Tessella | Thales | ThyssenKrupp | Tomkins PLC | Total | Transport for London | Transport Scotland | Tube Lines | Unatrac | United  UtilitiesVestas | Vetco Gray | Voltas | VT Group | Wellstream  | Westinghouse

Top Engineering Universities of United States of America

Massachusetts Institute of Technology (MIT) | Stanford University | University of California, Berkeley (UCB) | California Institute of Technology (Caltech) | University of Wisconsin-Madison | Princeton University | University of Minnesota | University of Texas at Austin | Georgia Institute of Technology (Georgia Tech) | Yale UniversityUniversity of Illinois at Urbana-Champaign | Purdue University | University of Michigan | Texas A&M University | University of California, Los Angeles (UCLA) | Colorado School of Mines | Pennsylvania State University | Columbia University

Top Engineering Universities of United Kingdom

LMU Munich | Technical University of Munich | Heidelberg University | Humboldt University of Berlin | RWTH Aachen University | University of Freiburg | Technical University of Berlin | University of Tübingen | University of Bonn | University of Göttingen | University of Mannheim | Charité - Universitätsmedizin Berlin | Karlsruhe Institute of Technology | University of Cologne | Ulm University | University of Erlangen-Nuremberg | University of Würzburg | University of Münster | University of Duisburg-Essen | University of Hamburg | University of Kiel | University of Konstanz | University of Passau | University of Potsdam | Ruhr University Bochum | University of Stuttgart | Technical University of Darmstadt | University of Bayreuth | Bielefeld University | University of Bremen | Goethe University Frankfurt | University of Hohenheim | Johannes Gutenberg University of Mainz | University of Marburg | Technical University of Dortmund | Justus Liebig University Giessen | Leibniz University of Hanover | University of Greifswald | Hamburg University of Technology | University of Kaiserslautern | University of Siegen | Otto von Guericke University of Magdeburg

Top Engineering Universities Asia Pacific

National University of  Singapore | Peking UniversityUniversity of Tokyo | University of Queensland | University of Sydney | Monash University | Korea Advanced Institute of Science and Technology (KAIST) | Seoul National University | Pohang University of Science and Technology | University of New South Wales | Chinese University of Hong Kong | City University of Hong Kong | University of Western Australia | University of Adelaide | Sungkyunkwan University (SKKU) | Kyoto University | University of Science and Technology of China | University of Auckland | Fudan University | University of Technology Sydney | Hong Kong Polytechnic University | Shanghai Jiao Tong University | Zhejiang University | Korea University | University of Otago | Queensland University of Technology | National Taiwan University | Nanjing University | University of Newcastle | University of South Australia | Tohoku University | Charles Darwin University | Macquarie University | University of Wollongong | Yonsei University | Tokyo Institute of Technology | Griffith University | James Cook University | Gwangju Institute of Science and Technology | Indian Institute of Engineering, Science and Technology, Shibpur | IIT Bhubaneswar | IIT Patna | Jamia Millia Islamia | IIT Ropar | NIT Surathkal | ISM Dhanbad | College of Engineering, Pune | Shanmugha Arts Science Technology and Research Academy, Thanjavur | Thapar University, Patiala | Sri Sivasubramaniya Nadar College of Engineering, Kalavakkam | Indian Institute of Space Science and Technology, Thiruvananthapuram |SRM Institute of Science and Technology, Chennai | National Institute of Industrial Engineering, Mumbai | Thiagarajar College of Engineering, Madurai | Pondicherry Engineering College, Puducherry | Delhi Technological University, New Delhi | Zakir Husain College of Engineering and Technology, Aligarh | Motilal Nehru National Institute of Technology, Allahabad | Visvesvaraya National Institute of Technology, Nagpur | Manipal Institute of Technology, Manipal | NIT Calicut | MS Ramaiah Institute of Technology, Bengaluru | AMITY University, Gautam Budh Nagar | Kalinga Institute of Industrial Technology, Bhubneswar | Sri Venkateswara University, Tirupati | RV College of Engineering, Bengaluru | Sardar Vallabhbhai Patel National Institute of Technology, Surat | Coimbatore Institute of Technology, Coimbatore | BMS College of Engineering, Bengaluru | Jaypee Institute of Information Technology, NoidaIndraprastha Institute of Information Technology, New Delhi | Kongu Engineering College, Perundurai | Vel Tech Rangarajan Dr Sagunthala R and D Institute of Science and Technology, Chennai | Maulana Azad National Institute of Technology, Bhopal | Karunya Institute of Technology amd Sciences, Coimbatore | Jawaharlal Nehru Technological University, Hyderabad | Shri Ramdeobaba College of Engineering and Management, Nagpur | Bharati Vidyapeeth Deemed University College of Engineering, Pune | GH Raisoni College of Engineering, Nagpur | KL College of Engineering, Vaddeswaram | Pandit Dwarka Prasad Mishra Indian Institute of Information Technology, Design and Manufacturing, Jabalpur | Malaviya National Institute of Technology, Jaipur | Dhirubai Ambani Institute of Information and Communication Technology, Gandhinagar | Siddaganga Institute of Technology, Tumkur | Mepco Schlenk Engineering College, Sivakasi | Guru Gobind Singh Indraprastha University, Dwarka | International Institute of Information Technology, Hyderabad | Faculty of Technology and Engineering, Vadodara | Army Institute of Technology, Pune | PSNA College of Engineering and Technology, Dindigul | Nirma University, Ahmedabad | University College of Engineering, Hyderabad | Sagi Ramakrishnam Raju Engineering College, Bhimavaram | Kumaraguru College of Technology, Coimbatore | Jaypee University of Information Technology, Solan | RMK Engineering College, Kavaraipettai | Punjab Engineering College, Chandigarh | PES University, Bengaluru |  University of Melbourne | Tsinghua University | Nanyang Technological University, Singapore | University of Hong Kong | Hong Kong University of Science and Technology | Australian National University

Recent and upcoming applied science & innovative engineering conferences around the globe

4th International Conference on Advances in Mechanical Engineering (AME 2018) | 423rd International Conference on Mechanical and Aerospace Engineering (ICMAE) | The 2nd International Conference on Mechanical, System and Control Engineering ICMSC 2018 | 503rd International Conference on Mechanical and Aerospace Engineering (ICMAE) | 14th International Conference On Applied And Theoretical Mechanics (Mechanics '18) | Electric & Hybrid Aerospace Technology Symposium | Automobile 2018 June 21-22, 2018 Paris, France | 8th International Conference on Restructuring of the Global Economy (ROGE) | 9th International Conference on Physical Modelling in Geotechnics 2018 | 1st International Conference on Signals, Machines and Automation (SIGMA-2018) | The 2018 International Conference on Robotics and Intelligent Control (ICRIC 2018)--Ei Compendex,Scopus | 2018 IEEE 3rd International Conference on Control and Robotics Engineering (ICCRE 2018)--IEEE Xplore and Ei 

Media Partners/Collaborator

A huge thanks to all our amazing partners. We couldn’t have a conference without you!

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Sponsors/Exhibitors

A huge thanks to all our amazing partners. We couldn’t have a conference without you!