no slide titlectdt.annauniv.edu/ppt/anna university 12.05.2017.pdf4 ministries/departments engaged...
TRANSCRIPT
1
Technology Development and Transfer Division
(TDT-DST)
Dr. Anita Aggarwal, Sc E
Department of Science and Technology (DST)
Email: [email protected]
2
Agenda
• Overview of Indian S&T System
• Organizational structure of DST
• Schemes under Technology Development and Transfer
Division of DST
• Technology Development Programmes
• Opportunities in DST
• Writing a proposal for funding
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* NATIONAL SECTOR ~ Rs.35,000 crore
-R&D in NGO
groups
R&D by MNCs
Industrial R&D
systems Mission mode
Non strategic R&D
Bodies
CSIR
Academic/
Sector
Focused on
education
Government
Funding
& developmental
agencies
Mission mode
Strategic Agencies
DAE,DOS,
DRDO
Indian STI
system
Socio economic
Ministries as users
of S&T outputs
Anatomy of Indian Science & Technology Sector
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Ministries/Departments engaged in R&D
Ministry of
Earth
Science
Ministry of
Electronics
and
Information
Technology
Ministry of
New and
Renewable
Energy
Ministry of
Human Resource
Development
Defence
Research and
Development
Organisation
(
5
Ministry of Science
& Technology
Department of
Biotechnology
Department of
Scientific and
Industrial
Research
Department of
Science and
Technology
23 Autonomous
Research institutions
5 professional bodies and two
Subordinate Departments
(Survey of India, NATMO)
37 CSIR laboratories
NRDC
CDC and CEL
APCTT
15 Autonomous
Institutions , 3 PSUs and
One alliance with
Welcome trust
(Total 90 institutions/organizations/professional bodies)
Organizational Structure of Ministry of Science & Technology
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R&D: Human, Infrastructural and Institutional Capacity
Building
Innovation, Tech. Development & Demonstration
Policies relating to Science & Technology
International S&T Cooperation
Subordinate Offices (SoI, NATMO), Statutory Bodies
(SERB, TDB and SCTIMST), Research & Service
Institutions (19), Professional Bodies (5) and
International Bilateral S&T Centres (3)
Largest Extramural R&D funding agency
DST Core Mandates
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MULTI-STAKEHOLDER BASE
1. Youth: For Attraction to science
2. Researchers: Support for investigator centric research and travel
3. Women Scientists: For Gender parity in science
4. Scientists of Weaker Segments: Empowerment and Excellence
5. Innovators: for promotion of innovation ecosystem
6. Entrepreneurs: Technology Business Incubation
7. Institutions: Infrastructure strengthening
8. Universities: For Rejuvenation of research
9. Centers of Excellence: Promotion of excellence in R& D
10. R&D institutions: For Development of technology based solutions
11. Community based organizations: For connecting science to society
12. State Governments: Technology partnerships
13. Other Socio-economic Ministries: For connecting solutions
14. Indian industry: Public Private Partnerships
15. Other Nations: Bi-national and Multi-lateral cooperation
16. Country: Evidence-based Science policies for development
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•Enhancing linkages between major stakeholders
(academia-industry) to boost Indian innovation
ecosystem
•Alignment with National Agenda and priorities
•Exploring Globally Competitive Areas
•Strengthening technology transfer and promoting
Entrepreneurship
•Promotion of gender inclusion in all above activities
•Centre-State partnership
•Outreach
Indian S&T Sector: Major Concerns
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Major Steps forward from DST in recent years
Enhancing Academy-Research-Industry partnerships
Promoting State-Center Technology partnerships
Technology Missions and Total convergent technology solutions
Water, Clean Energy, Nanomission, supercomputing
National Mission for Sustaining Himalayan Ecosystem andNational Mission on Strategic Knowledge for climate Change
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Technology
Development and
Transfer Division
Policy Cell
State Science
& Technology
Programme
Drug &
Pharmaceuticals
Research
Programme
Patent
Facilitation
Cell
Technology
Development
Programmes
Device
Development
Programme
DDP
Waste
Management
Technologies
WMT
Biomedical Device
and Technology
Development
Programme
BDTD
Advanced
Manufacturing
Technologies
AMT
Technology
Platform for
Electric Mobility
TPEM
Structure of Division
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Drugs and Pharmaceuticals Research Programme
(DPRP) implemented since 1994-95 promotes
drug development research under
(i) Facility projects
(ii) Collaborative projects
(iii) Loan projects
(iv) Grant-in-aid to Indian pharma industry
DST Initiatives under DPRP
13
State Science & Technology Programme(SSTP)
Objectives of the programme:
Promotion of S&T activities in Indian states and UTs
Set up of State Councils for S&T
(35 State Councils including 7 UT‟s & 1 NEC established )
Nature of Support Provided Under SSTP
Core Support to S&T Councils
Location Specific Research and Technology Development(LSR&TD)
Pilot Scale Technology Demonstration (TD) and Replicationof Successful Models
S&T Studies , Surveys , Information Exchange and JointProgramming
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TECHNOLOGY DEVELOPMENT PROGRAMMES
•Advanced Manufacturing Technologies (AMT)
•Waste Management Technologies (WMT)
•Biomedical Device and Technology Development Programme
(BDTD)
•Device Development Programme (DDP)
•DHI-DST Technology Platform for Electric Mobility (TPEM)
Instrumentation Development Programme (IDP)
Technology Systems Development Programme (TSDP)
•Science and Heritage Research Initiative (SHRI)
•Sustainable Agro Technologies
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INSTRUMENTATION DEVELOPMENT PROGRAMME (IDP)
THRUST AREAS
Analytical/Optical Instrumentation
Sensors
Medical & Health Care Instrumentation
Industrial Instrumentation
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Biomedical Device and Technology Development Programme (BDTD)
AIMS & OBJECTIVES
• Promotion of indigenous development of biomedical devices and technology
• Support updation of devices developed earlier
• Establishment of strong base in Research, Design and Development (RD&D) and production techniques
• Capacity building in the area of device development
Activities Supported under BDTD
Project support to Scientists and Technologists
Project Formulation through Meetings and Brainstorming Sessions
Creation of National facilities for development of devices
Manpower Capacity Building (training programmes)
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Proposal
Recommended,
sanctioned by
DST
Inital
Screening
in DST
Suggestions
communicated
to PI
Revised
proposal
Sent to
Referees
Comments
communicated
to PI
PI presents
before EAG
Rejection
Rejection
EAG
suggests
Revision
Methodology
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Compliance monitored clubfoot brace for management of
clubfoot deformity in children by CMC, Vellore
Input: 3.0 years/ Rs 34, 98,000/- / Partner IISc, Bangalore
Output:
Technology Demonstration
• Technology demonstration in field setup - The technology developed ―Clubfoot brace‖ has
gone through clinical trials at CMC Vellore.
• Buyers/ end users of product: Pediatric orthopedics
• Number of products sold: 25 pieces given complimentary to the different users for trials
Knowledge creation
• Research papers/publications/posters: 02
• Participation in conference/ training workshops attended: None
• Patent filings – One patent through TIFAC
Capacity building
• Officers/faculty : 03
• Temporary manpower trained : 03
Added Value of project outcomes
• Three children in every 1000 children suffer from the clubfoot deformity. The product
developed has high level societal impact.
• Validation studies at ten different hospitals across the country
19
Smart Functional Electrical Stimulator (FES) for Physically
Challenged persons by NEHU, Shillong, Meghalaya
Input: 3.5 years/ Rs 34, 00,000/
Output:
Technology Demonstration
• Testing and trails being undertaken by industrial partner in hospitals and clinical set-up..
• Buyers/ end users of product: Lower limbs of affected paraplegic patients.
• Number of products sold: 4 pieces given complimentary to the different users for trials
Knowledge creation
• Research papers/publications/posters: 02
• Participation in conference/ training workshops attended: Five
• Patent filings – One patent through TIFAC
Capacity building
• Officers/faculty : 03
• Temporary manpower trained : 03
Added Value of project outcomes
• Most stimulators reported in the literature are not portable because they derive power from a mains
connection..
• Validation studies at two different hospitals in the country
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Projects initiated during 2007-16
Total Funding: Rs 69.75 crores
Av Cost: Rs 30,00,000/-
Av time: 2-3years
Total No of projects: 206
Ongoing: 93
Total manpower trained: 600
Prototypes demonstrated: 65
Technology Transferred: 30
Objectives not realized : 10
IDP at a Glance
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AV MagnivisualizerFERTICHECKTM
De-seeding machine for custard apple
Detection of Spoilage in Stored Grain Prototype system
(EYE-ON-PELLET)
Fabric Feel by Nozzle Extraction
Functional Electrical Stimulator (FES)
Electronic Starch Indicator Multichannel EEG Recorder CMC DAQ
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Waste Management Technologies (WMT)
E-Waste (Electrical & Electronics Waste)
Industrial Hazardous & non-hazardous Wastes
Biomedical Waste, Urban & Rural Solid Waste
Advanced Manufacturing Technologies (AMT)
Digital Manufacturing - Tools, innovations, modelling
Near net shape processing for product development
Flexible scale manufacturing & Additive manufacturing
Nano materials & surface coatings, Smart Manufacturing
Wearable low power electronics & sensor Networks
— Program Areas: (1) Vehicle Systems Integration, (2) Rechargeable
Energy Storage & (3) Drives, Motors & Power Devices
Technology Platform for Electric Mobility (TPEM)
Identified areas for Technology Development
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Organization/ Programme Activity
Science and Engineering Research Board (SERB) Basic research and establishing ‗Proof of Concept‘
International Division International collaborative R&D with countries that have technical
strength
Technology Development Programs Laboratory prototype development and demonstration
NSTEDB Division Technology Business Incubators
Technology Development Board (TDB) PPP model to develop and commercialize the Medical Devices
Sree Chitra Tirunal Institute for Medical Science & Technology
(SCTIMST), Trivandrum
Centre of Excellence for supporting product development and
validation
Patent Facilitation Cell Facilitates patent filing
Technology Information, Forecasting and Assessment Council
(TIFAC)
Working to deliver ‗Technology Vision 2035‘
Society of Biomedical Technology (SBMT) DST and DRDO
initiative
Developing affordable technologies for common man
Support Chain in DST for Technology Development
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National Initiative for Developing and Harnessing Innovations (NIDHI)
1. PRomotion and Acceleration of Young and Aspiring Innovators and Startups(PRAYAS) -Support from Idea to Prototype : 10 TBIs to be supported forsetting up Prayas Centres
2. Entrepreneur In Residence (EIR)-Fellowship for aspiring Entrepreneurs: 10TBIs identified for initiating EIR program
3. Technology Business Incubator (TBI) – Facilitating and nurturing tech.innovations led start-ups: 15 TBIs supported
4. Accelerator. Fast tracking a start-up ..deep engagement model of mentoring,coaching and investment 9 TBIs being supported for 15 Accelerator programs
5. Seed Support System (SSS) for startups in TBIs: Providing seed stageinvestment to startups in Incubator: 8 TBIs being supported under SSS
6. Centres of Excellence (CoE): Incubators of Excellence with state of the artfacilities to help startups go global : 6 TBIs/ Incubators to be supported
7. Research Park – An initiative driven by MHRD , though DST fully supportingRP at IIT Gandhinagar at at total cost of Rs. 90.00 Crores
8. 6 new programs supported for tapping and supporting innovators, studentproduct ideas, women entrepreneurs and hardware startups etc under variousNational Initiatives.
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Some New Challenges in the Present context
‘Make in India’
Swachh Bharat
Swastha Bharat
Start-up India, Stand-up India
Skill India
Atal Innovation Mission
Clean & Green India
Digital India
Smart Cities
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KIRAN
Women Scientist Scheme
S&T for Women
CURIE
Women Technology
Park
Entrepreneurship
Scheme
Training & Capacity Building
Mobility
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Knowledge Involvement in Research Advancementthrough Nurturing(KIRAN)
Empowering Women Scientists
Government has introduced KIRAN as a holistic
programme to:
• Address various issues related to women scientists
such as break in Career, relocation etc.
• Provide opportunities in research, entrepreneurship,
technology development/demonstration and self
employment etc.
• Support research infrastructure development in
women universities
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Women Scientist Scheme Launched in 2002
Three Components:
WOS-A
• Research in basic and applied sciences
WOS-B
• S&T interventionfor societal benefit
WOS-C
• Self-
employment
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MOBILITY
Initiated by DST in 2016
Addresses relocation issue of womenscientists/academicians working in permanent position inGovernment organizations. It aims to provide anopportunity to such women who face difficulties inpursuing their present job due to relocation to anotherlocation within the country
‘Mobility’ refers to geographic mobility for sustenanceand career advancement of women working in S&Tdomain
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Scientific Team
Dr. Neeraj Sharma, Sc G (Head, TDT, Policy and GLP)
Dr. S Mushabir, Sc G
Ms Sobhna Bhaskaran, Sc E
Dr. Anita Aggarwal, Sc E
Mr. C. Rajadurai, Sc D
Dr. Akhilesh Mishra, Sc D
Er. Ravinder Gaur, Sc D
Dr. K K Pulicherla, Sc C
Mr. Mahinder Singh, Sc B
Dr. Sudheesh N, JA
Mr. M. Pillai, JTA
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Thank You
Enhancing the role of Science, Technology &
Innovation in accelerating national development
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“No great discovery was ever made without a bold guess”
―We build too many walls and not enough bridges.‖
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Inform
Others
(Research
Report)
Interpret
Data
Analyse
Data
Collection
of
Data
Design
Study
Plan and
strategy
Choose
Topic
Theor
y
Cycle of Research
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When should the Proposal be Written?
A research proposal is not an iterative process
Substantial amount of work has to be done before a
proposal can be written
A good research proposal can be written over six to nine
months
Seek advice on your draft from faculty and peers
Research Must Convey Value
•Practical value in solving problems
•Value to policy development
•Contribution to theory
•Contribution to body of knowledge within discipline
Funding agencies often specify the nature of the ―value‖
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Some tips
Finalise your research question/ problem statement/ hypothesis
Make sure your proposal is logical.
Identify possible weaknesses in your research design, acknowledge them and explain why they are there.
Critically review/ edit your own writing, seek others help with this
Learn to read like a writer – examine structure, style, organisation etc
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Some more tips
Write with authority (ie back up your statements)
Write for clarity not „impressiveness‟
Show that you are planning your research carefully (think about pragmatic issues – agency support/ ethics/ resources you may need/ potential hurdles).
You are the expert on your topic. Help the reader to grasp your ideas.
Edit for clarity (don‟t just proofread)
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Research Proposal
Title
Introduction (inc. statement of research problem/ question/ aims objectives)
Background/ Literature Review
Research Design
- Method of data selection
- Instruments/ techniques to be used
- Methodological limitations
- Methodological significance/ innovation
- Data analysis strategy
- Ethical issues
- Timeline
- Resources required
- Expected outcomes of research
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Plan your Proposal
Decide how long each section will be
Some sections will be quite short (eg limitations, timeline etc) while other sections (eg literature review will be quite long).
The significance of sections will vary according to your particular project. You may even have some additional sections that are needed for your proposal.
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Presentation Features
If called for a presentation, then you will have approximately 15 minutes to present.
Use visuals to accentuate the main components of the proposal and consider the following timeframe
In 2 minutes highlight the purpose and the research questions.
In 1-2 minutes establish the context and purpose of the research.
In 2 minutes highlight the methodology used, including the key measures and data collection procedures.
Highlight the value as per the requirement of scheme
Project deliverables
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National GLP Compliance Monitoring Authority (NGCMA) grants GoodLaboratory Practice (GLP) certification of the laboratories/test facilities on the basisof Organization for Economic Co-operation and Development (OECD) Principlesof Good Laboratory Practice (GLP).
Activities of NGCMA include GLP Compliance monitoring, Capacity building onGLP and maintaining links with OECD and its Working Group on GLP.
India is a full adherent to Mutual Acceptance of Data (MAD) Agreement ofOECD w.e.f March, 2011. As a result, the data generated by the Indian GLP TestFacilities is accepted in 34 member countries of the OECD’s Working Group onGLP.
Presently, India has 31 GLP certified Test facilities, which include Pharmacompanies, agrochemical companies and Contract Research Organizations (CROs).NIPER, Mohali and CSIR Lab-Indian Institute of Toxicology Research, Lucknoware the two Government labs to be GLP Certified.
INDIAN GLP PROGRAMME(www.indiaglp.gov.in)