Dr. Ashutosh Tiwari is actively involved in the technological development of the charge to mass (e/m) health, self-powered devices, programmable medicine, intelligent- energy, security and automation etc.

2. About Dr. Ashutosh
Tiwari
Dr. Ashutosh Tiwari is the Chairman and Managing
Director of VBRI Innovation and Technology group
headquartered in Sweden. Under his excellent
leadership, the company that began with small
publishing activity in 2002 has become a multi-
national company expanding its outreach into the
research segments of education, health, energy,
technology, agriculture, and environment. He is
responsible for the functioning of the organization in
India and on the International frontier.

3. Dr. Tiwari’s belief in New
Age Technology
Dr Tiwari is passionate about creating incredible
development tools for mankind with New Age
Technology, Artificial Intelligence, and Translational
Research. He strongly believes in the ideology of
“Commitment to Excellence” and building the business
through cooperation, exchanges of working methods,
infrastructures, multidisciplinary researcher, and
progressing ahead as a united global team.

4. Research & Technology
Advanced Materials
and Nanointerfaces
Nanotechnology
Energy and
Automation
Artificial Intelligence
& Security
Intelligent Devices
Healthcare & e-
Medicine

5. Advanced Materials and
Nanointerfaces
Advanced Materials and Interfaces are state-of-the-
art to look at innovative methodologies and
strategies adopted for interfaces and their
applications. Nanointerfaces are associated in wide
multiplicity of application spectrum from chemical
catalysis to drug functions and the advancement is
funnelled by fine-tuning of fundamental
understanding of the interface effects at nano scale.

6. Intelligent Devices
An intelligent device is a kind of instrument,
equipment or machine with internal computing
capability. The current list of intelligent devices is
extensive, including personal and hand-held
computers, home appliances, geological
equipment, medical instruments and equipment,
aircraft, and cameras. Network connectivity for
intelligent devices is being used for an ever-
increasing variety of products.

7. Health & e-Medicine
Medicine is stuck in the era of fax machines,
but not for long. Advanced technology and
new laws are making electronic health records
ubiquitous, spurring innovation on mobile
devices, data analytics, and in
telemedicine. The e-medicine explores the
way to collect and use health information and
exponently reduce the healthcare costs.

8. Nanotechnology
Nanotechnology is the engineering of functional
systems at the molecular scale. This covers both
current work and concepts that are more advanced.
In its original sense, nanotechnology refers to the
projected ability to construct items from the bottom
up, using techniques and tools being developed
today to make complete, high performance products.

9. Energy and Automation
Energy Automation is one of the most important
aspects in an electrical power network that needs
careful investigation. Data acquisition system plays a
major role as a base of this system. Today energy and
automation solutions are helping public power utilities
for end-to-end benefits which were not possible
before. It comes from smart metering to demand
response for substation automation.

10. Security is a broad term, and in industry and
government. There are numerous of “security”
contexts on a variety of levels – from the individual
to nation-wide. Artificial intelligence and machine
learning technologies are being applied and
developed across this spectrum. Today Artificial
Intelligence is a natural demand and has emerge as
an advance field of technical solutions.

11. NanoTechnology
Energy Technology
Sensors and Artificial Intelligence
Biomaterials and Biodevices
Composite and Ceramic
Materials
Advanced Materials
Awareness in New Era
Technology By
Prof. Ashutosh Tiwari

12. Advanced Materials
Advanced Materials cover materials science,
engineering and technology. It includes
structure, synthesis and processing,
characterization, advanced-state properties
and applications of materials.

13. Energy Technology
Energy technology is concerned with the developing
systems capable of producing, transporting and
delivering energy in a way that is safe, economical
and, increasingly environmental-friendly. Engineering
disciplines are required to design such systems that
harness energy. Finally, environmental science is used
to measure the impact of energy technology on the
natural world.

14. Artificial intelligence tools can aid sensor systems,
basically seven artificial intelligence (AI) tools can be
useful when applied to sensor systems: knowledge-
based systems, unclear logic, automatic knowledge
acquisition, genetic algorithms, ambient-intelligence.
Sensor is basically ranging from very simple to the
complex system. It is considered all of its properties,
such as stimulus, specifications, physical phenomenon,
conversion mechanism, material and application field.

15. Biomaterials and
Biodevices
Biomaterials and Biodevices are emerging area of
Biosystems and Engineering including state-of-the-art of
therapeutics, molecular targeting, and diagnostics.
Theranostics tells us personalized medicine that has been
engineered to interact with biological systems either a
therapeutic and/or diagnostics.

16. Nanotechnology
Nanotechnology is the science, engineering, and
technology steered at the nanoscale, which is about
1 to 100 nanometer. This is a handling of matter on
an atomic, molecular, and supramolecular scale.
The initial, extensive explanation of nanotechnology
referred to the specific technological goal of exactly
operating atoms and molecules for manufacture of
macroscale products, also now referred to
as molecular nanotechnology.

17. Composite and Ceramic Materials
Ceramic and composites (CMCs) are a subcategory
of composite materials as well as a subsection of
ceramics. They comprise of ceramic fibers implanted in
a ceramic matrix. The matrix and fibers can contain of
any ceramic material, whereby carbon and carbon fibers
can also be considered a ceramic material. The drive to
develop CMCs was to overcome the hitches related with
the conservative technical ceramics like alumina, silicon-
carbide, aluminum nitride, silicon nitride or zirconia –
they break easily under mechanical or thermo-mechanical
loads because of the cracks originated by small defects or
scratches

18. Baltic Conference Series is a bi-annual international
event for the new age technology and innovations
organized by the International Association of
Advanced Materials (IAAM), which are hosted in the
city of Nobel Prize. The goal of conference series are
to provide an Interdisciplinary global forum to the
researchers, educators, technocrats, students,
engineers working in the areas of translational
research, new age technologies and innovations, to
present their research results, products and activities.

19. For more information about
Prof. Ashutosh Tiwari
Visit to => https://www.drashutoshtiwari.com/

20. Thank You