Project Evaluation Report of Sectoral Monitoring Committee

1 PROJECT TITLE

Opto-Mechatronics Technologies for Next Generation Sensors and Applications (OMEGA)

2 PROJECT DETAILS

OMEGA project has been divided into two major work packages namely: 'Optofab' and 'Optonics' under which the 'Optofab' aims at fabrication of optical components whereas the 'Optonics Technology' aims at developing systems for various applications. The 'Optofab' encompasses R&D activities on freeform & hybrid optics, graded optical thin film technology and nano-finish opto-mechanical components fabrication, optimization and characterization techniques for various sophisticated applications. The 'Optonics Technology' embraces R&D activities on enhanced vision system technologies for civilian and military aircraft, advanced sensing in the domain of physical, chemical and medical diagnostics and inferential imaging for target detection and classification.

Nodal Lab CSIR-Central Scientific Instruments Organisation Participating None Labs Nodal Officer Dr. HK Sardana Taskforce Task Force Review 1: Mr. AD Kaul, Acting Director, CSIR-Chairman CSIO

Task Force Review 2: Dr. Amod Kumar, Acting Director, CSIR-CSIO Task Force Review 3: Prof. RK Sinha, Director, CSIR-CSIO

Total Man Group IV - 21477 Days Group Ill- 7620 Approved Rs 6582 Lakhs Cost Fund received Rs 4952 Lakhs Fund utilized Rs 4856 Lakhs

1

3 PERIODIC KEY RECOMMENDATIONS OF TASK FORCE/RC/MONITORING COMMITTEE

S.No Key Recommendations of Action taken on Key Proposed Task Force/RC/ Monitoring Recommendations Deliverable Committee s

Revised Deliverable (approved by Task Force)

1. 1st Task Force Review Efforts were made to No change No change Meeting held on 27 Jan 2014: obtain funds from Owing to budget cuts, it was external sources. Till

from from original ori,ginal proposal

suggested to arrange funds date 9 external from external sources and sponsored projects provide justification of required with value of Rs equipment with priority. 3739.03 Lakhs have

been obtained (details provided in Section 5.1 .5) .

proposal

2. 2"cJ Task Force Review Subsequent requests --do--Meeting held on 01 May 2015: were made for critical It was suggested to request facilities along with separately regarding the their impli~ation on requirement of critical facilities deliverables. This has linking them with deliverables. resulted in release of

budget in the 41h year

for procurement of major facil ities such as X-ray Diffractometer UV-Vis-NIR Spectrophotometer lon Assisted Dual E­Beam Gun Coating Plant, Thermal Coating Plant, etc.

3. 3rdl Task Force Review Meetin The Technical Reports --do--g held on 11 Nov 2016: It was have been prepared for · recommended to emphasize on respective training , documentation and developments on collaboration with others. technologies,

techniques and facilities.

4. 44th RC Meeting held on The Spin-offs in form of --do--06 Sept 2015: The RC Bore Sighting System members suggested the team and Avionics Head Up for looking at different spin-offs Display have been that can arise out of the developed. Regarding ongoing OMEGA program. It Earthquake Warning was also suggested to System, after collaborate with related commissioning and its

--do--

--do-

--do-

2

agencies for generating data successful operation at related to ATR and explore the DMRC, efforts have possibility of installing been made to translate earthquake warning system at this knowledge to other nuclear power plants. areas through project

with TBRL on automatic target detection.

5. 45tn RC Meeting held on 29 J The technologies an 2016: The RC noted the namely Anti-Glare progress of OMEGA through Filter, HUD Mk1 NP for the fast translation projects LCA-Navy-NP, Laser which has evolved from it and Lithotripsy, Avionics recommended to set-up Head Up Display Test incubation center for the Rig for LCA-AF, and technologies developed. Earthquake Warning

System have been taken forward as fast translation technologies (FTT)

1 projects. 6. 46th RC Meeting held on 17- CEL has been

18 Nov 2016: Efforts should be contacted and team made to develop partnership for CSIO will be visiting in faster translation of the month of January technologies with Central 2017. Similarly, efforts Electronics Ltd. , Sahibabad and have been made to other related agencies. partner with production

4 PROJECT ACHIEVEMENTS:

houses such as HAL, AmbC;lla Industries, Automobile Industries, Medical Equipment Industries, etc.

--do-- --do-

--do-- --do-

s. Deliverables Deliverables Achieved If not achieved, reasons No. promised at thereof

start

1. Smart 0 Lab prototype of SMCDS- --multimode CRT ready

.. comprrs1ng

cockpit display CRT display with aspheric system based glass optics based on 6 on CRT lenses and multilayer (SMCDS- graded thin film beam

3

CRT) combiners. o ToT of a spin-off Bore

Sighting System (BSS) customized for LCA-Air Force to BEL, Panchkula in February 2015.

o Final product of SMCDS­CRT in form, fit and functional (FFF) mode to be offered as Mk2 for Intermediate Jet Trainer Aircraft (IJTA) Platform.

o Comprehensive evaluation followed by environmental and electrical testing to be carried out.

2. Variant smart

of o The variant of SMCDS has

3.

multimode cockpit display

Optical sensors with integrated hierarchical chemical structures for pathogen & toxic chemical

been developed as a see­through HUD with 22° instantaneous field of view in elevation , 18° in vertical and Total FOV of 25° with multi-operational modes.

o This variant is now being developed as HUD Mk1 NP with user identified as Indian Navy and project sponsored by ADA with a funding of Rs 779 Lakhs.

o The Spin-off "Avionics Head up Display Test Rig customized for LCA" is ready for technology transfer.

o Sensing pesticides developed graphene organic (MOFs).

o Zeolitic Framework

platforms for have been

based on the and metal

frameworks

lmidazolate (ZIF-8)

4 4

4.

5.

detection

Optical thin film filters for automobile applications

Head Mounted Display

material, a Metal Organic Framework (MOF) has been produced from zinc scraps. Its technology has been transferred to M/s Intelligent Materials Pvt. Ltd .

0 The interference filters (Anti-Glare Filter - AGF for automobiles and Wavelength Selective Reflective Mirror for Head Up Displays) have been developed and are undergoing field trials.

0 The AGF on plastic substrates would be offered for technology transfer after field trials by March 2017.

o Preliminary system design and initial level of fabrication of optical components and AMLCD hardware has been done.

o The design of HMO required development of new display technologies, which have been developed under OMEGA namely Scanned Laser Display (SLD) & AMLCD display.

o HMO technology along with Virtual Reality Display (VRD) is further proposed to be matured through proposed Strategic Mission programme with efforts to involve the users through ADA

-

o Requirements in terms of complex geometry, weight and opto-mechatronic specifications require miniature aspheric components on glass with roughness upto few nm.

o The facility of 5-axis CNC optical grinding and 6-axis optical polishing machine have been installed and made fully operational recently (May 2016) and these are now being used to fabricate required optical components.

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6.

7.

Digital head up display (D­HUD)

Smart multimode cockpit display

system based on CRT alternate technology

o The D-H U D has been developed with dual scan raster, electronic standby sight, internally generated

flight symbology, continuous built-in test.

o The functional prototype of D-HUD has been realized for AF platform and is now being finalized for Navy Platform as well.

o The user has been

identified as IAF & Navy with project granted by ADA for developing HUD­Mk2AF for LCA-AF and HUD-Mk2NAV for LCA­Navy-HUD with a funding of Rs 2329 Lakhs.

Under this task, two types of SMCDS systems have been

developed:

o Smart Multimode Cockpit Display System based on CRT Alternate technology of Active Matrix Liquid Crystal Display and Glass

based Aspheric Optics (SMCDS-AMLCD): The functional prototype has been fabricated and is under trials under various conditions.

o Scanned Laser and Plastic Lenses Based Smart Multimode Cockpit Display

System (SMCDS-SLDPL) : The functional prototype of SMCDS-SLDPL is under various levels of trials.

o It is proposed to be taken up further through

These technologies will be ready for final phase of field trials by March 2017

customized for military ground vehicles.

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8.

9.

10.

11.

Attitude and Heading Reference System (AHRS) for avionics applications

Optical immune­sensor (fiber optics based) for pesticide detection

Photonic crystal fiber (PCF) based gas sensor for methane sensing in coal mines

FBG based hydrophone for underwater object detection

proposed Strategic Mission programme.

o A prototype of the AHRS system has been designed and developed and is undergoing lab trials.

o The AHRS Prototype is proposed to be finalized as form fit and functional Unit after incorporating feedbacks from lab and field testing.

o Fiber Optic Surface Further work in bio-Piasmon Resonance functionalization of Fiber (SPR) probe and Optic Surface Plasmon associated experimental Resonance (SPR) will be setup for sensing completed by March concentration (refractive 2017. index) of solutions like Sucrose and Glycerol is completed.

o Sensitivity of 2518 nm/RIU has been achieved with this probe.

o HC-PCF based gas cell, pneumatic gas mixing system and associated experimental setup for sensing gases like Acetylene and Methane is completed.

o Laboratory prototype of a Fiber Mach-Zehnder Interferometer (F-MZI) based FBG sensor interrogator for low frequency (200 Hz to 1 kHz) dynamic signal detE?ction has been

o Further work in its packaging and improving the detection sensitivity will be completed by March 2017 . .

o The lab prototype will be further customized based on field testing by March 2017.

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12. Automatic target recognition system

13.

14.

Bio-mimetic artificial organoleptic system

Unique spectral optical thin film coatings

developed.

o Ground Motion Detection module, which incorporates computational techniques enabling automatic target recognition using I R based moving target detection based on adaptive contour-based statistical background subtraction method, has been developed

o It is being utilized as a part of DRDO project on 'Vehicle Detection and Classification System'

A graphical method to find The prototype is under similarity and dissimilarity of fabrication and is likely to odour perceptual descriptors be completed by March based on large amount of 2017. available open platform data has been developed and is being fine-tuned based on testing.

o Designs of rugate filters --with rejection bands at 400, 500 and 600 nm have been achieved with bandwidth of 30- 40 nm.

o These techniques are in process of getting incorporated in variants of SMCDS and HUDs by fabricating them through newly acquired ion Assisted Dual E-Beam Gun coating plant and Thermal Coating Plant.

15. Modelling of o Study, analysis &

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nano-finished opto­mechanical components

16. Computational techniques for early warning applications -Event detection and classification based on photo, acoustic inferential imaging

17. Human body detection buried under debris based on multi­sensing techniques

investigation of different parameters & experimentation for nano­finished opto-mechanical components on glass, plastics, silicon and germanium substrates carried out to establish deterministic machining process and techniques.

o These techniques are being used in fabrication of components of variants of SMCDS, HUDs and HMO.

o Computational techniques for seismic event detection, seismic P-wave detection, I R based moving target classification and multi­resolution optical flow have been developed and demonstrated to users such as DRDO, Naval research DMRC.

board and

o These techniques will be utilized in the new projects granted as spinoff projects from DRDO-TBRL with a funding of Rs 298 Lakhs and Naval Research Board with a funding of Rs 40 Lakhs.

o Study on ultra-wideband The techniques will be sensing for behind the fine-tuned by combing the wall i.e. wood , brick and three modalities by March concrete wall has been 2017. made.

o The dataset for two different JCB data has

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18.

19.

Techniques for artificial organoleptic system for flavour analysis

UV-VIS-N I R/1 R based miniaturized sensing

been generated using seismic, acoustic & imaging modalities, c;~nd

Field data of human victim has been generated using visual imaging under occluded environment with an aim to automatically locate trapped human victims by devising an automated victim detection framework.

o It wil l be further taken up in the proposed Security Mission.

Human opinion dynamics Fabrication of hand held based optimization techniques e-nose based on the have been developed which above mentioned sensors include: Perceptual models for will be completed by odour prediction, Classification March 2017. algorithm and techniques for flavour classification , Materials and techniques for conducting polymer based gas sensor fabrication &characterization, and modelling of nasal airflow dynamics of humans.

A rapid and non-destructive The technique will be NIR spectral method has completed by March 2017 developed to determine the considering physico­quality of stored grain (wheat) chemical parameters of and predicting the quality of stored wheat flour and unknown sample. besan using selective

wavelengths in the NIR region.

20. Fire safety In this work, temperature Modification of sensing thermal sensitivity of various temperature of the sensing nanocomposites were developed materials will technique modelled , these include: ZnO, be carried out based on

Fe30 J ZnO, Mn30 4/La(OH)3 change in composition,

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ZnO/Sn02, Ti02. proper encapsulation and positioning from heat source by March 2017.

5 OUTCOMES AND OUTPUTS FROM THE PROJECTS:

5.1 Outcomes

I. LEAD(S) IDENTIFIED: NUMBER AND NAMES WITH TRL

1. Avionics Head-up Display Test Rig- AHTR (TRL-7) ii. Antiglare Filter- AGF (TRL-6) iii. Ground Motion and Detection Module- GMDM (TRL-5) iv. Laser Lithotripsy system for medical application (TRL-4) v. NIR Technique for determination of quality of grains such as Moong

beans, Besan, Wheat (TRL-4) vi. Optical Landing System (OLS) for Ship Carriers (TRL-3) vii. Photonic Crystal Fiber (PCF) based Methane Sensor (TRL-3) viii. Odour Source Localizing Drone (TRL-2) ix. Holographic See-through Multi-Function Display (TRL-2) x. Olfactory Display (TRL-2) xi. Virtual Reality Display (TRL-2) xii. Multi-Function Display (TRL-2) xiii. MEMS based Motion Information System (TRL-2) xiv. FBG sensor interrogation unit based on Fiber Mach-Zehnder

Interferometer (F-MZI) (TRL-2)

II. TECHNOLOGY/PRODUCT DEVELOPED: NUMBER AND NAMES WITH TRL LEVEL OF DEVELOPMENT

i. Bore Sighting System- BSS (TRL-9) ii. Lloyd Diffraction Interferometer (TRL-8) iii. Recycling of Zinc Scraps (TRL-7) iv. Avionics Head Up Display Test Rig (AHTR) customized for LCA

(AF): (TRL-7) v. Anti-glare Filter (AGF) (TRL-6) vi. Smart Multimode Cockpit Display System based on CRT (TRL-6) vii. Digital HUD- D-HUD (TRL-5) viii. AMLCD Displays: Multifunctional Display (MFD) for Automobiles

and Other Applications (TRL-4) ix. Scanned Laser and Plastic Lenses Based Smart Multimode

Cockpit Display System (SMCDS-SLDPL) (TRL-4) x. Smart Multimode Cockpit Display System based on CRT Alternate

technology of Active Matrix Liquid Crystal Display and Glass based Aspheric Optics (SMCDS-AMLCD) (TRL-4)

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xi. Artificial Organoleptic System for Flavour Analysis Artificial Olfactory System (TRL-4)

xii. Attitude and Heading Reference System- AHRS (TRL-4)

Ill. TECHNOLOGY/PRODUCT TRANSFERRED

i. Bore Sighting System (BSS) - BEL, Panchkula ii. Lloyd Diffraction Interferometer- M/s Maffick Instruments Pvt. Ltd,

Ambala 111. Recycling of Zinc from Alkaline Battery Waste - M/s Intelligent

Materials Pvt. Ltd . Chandigarh

IV. FACILITY CREATED: NUMBER AND NAMES WITH UNIQUENESS & UTILITY

Sl. No.

Facility name Uniqueness Utility

1. 5-axis CNC It has 5 controllable With this machine,

2.

Optical Grinding axes optical grinding fabrication of precision Machine for centre with up to 5 axes optics for substrate sizes Precision Glass of simultaneous up to 200 mm can be Optics Fabrication movement and an done. It is planned to

6-axis CNC Optical Polishing Machine for Precision Glass Optics Fabrication

innovative tool concept fabricate precision lenses grant the high flexibility for Head Up Displays to make spherical, (HUD), Smart Multimode aspheric, cylindrical Cockpit Display Systems &freeform optics, (SMCDS) and Head prisms, edging , or Mounted Displays (HMO), drilling holes. Lenses for Bore Sighting

Telescopes (SST), Medical equipment optics and Optics for societal and industrial

6-Axis controllable optical machine centre for polishing and fine correction of spheres, aspheres (axis and off-axis aspheres), cylinders, freeform surfaces, plano surfaces up to 0300

applications.

Polishing of various types of glass substrates ·of various sizes with aspheric, spherical and flat surfaces with roughness accuracy upto 2 nm for Avionics, medical and industrial optics applications.

12

mm with achievable accuracy of N1 0 p-v (peak to valley).

3. X-ray Diffractometer

The XRD system XRD using X-ray optics is functions on the dual utilized in thin film wave/particle nature of analysis, sample texture X-rays to provide evaluation, monitoring of information about the crystall ine phase and structure of crystalline structure, & investigation materials. of sample stress and

strain, etc.

4. UV-Vis-NIR The machine is This machine is used for spectrophotometer equipped with diffuse characterisation of optical

reflectance and spectra glass, plastic and specular reflectance liquid samples. accessories and hence will be useful for optical characterization.

5. ton Assisted Dual The system comprises The equipment will be E-Beam Gun of two electron beam used for fabrication of coating plant and guns and one thermal optical f ilters, coating and Thermal . Coating evaporator inside the components on glass,

6.

7.

Plant coating chamber. It plastics and metal

3-axis Machine

Optical

helps fabrication of surfaces for ongoing and filters with metal- forthcoming strategic dielectric interface as instrumentation projects well as sequential including HUD, SMCDS, depositio.n of low and Light System Optics, high melting point HMDs, SST, IR Optics, materials in a multilayer etc. stack.

SPOT This equipment is used for the fabrication of non-rotationally

symmetric surfaces and to generate freeform, diffractive optical elements, conics & radially · symmetric aspherics.

This equipment is used for machining at nano meters on plastics and other brittle materials.

Profiler: It is a non-contact This machine is used for

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CCI (Coherence Correlation Interferometry) Optics

optical profiler which metrology of machined makes use of glass, plastic and metal coherence correlation components. algorithm and a high resolution digital camera array to measure the surface.

8. BET (Brunauer- Offers advanced Determination of surface Emmett-Teller) analysis technique for area, pore s1ze and Surface Area the measurement of the characterization of Nano Analyzer specific surface area of particles.

a material.

V. SPONSORED PROJECTS OBTAINED (WITH DETAILS)

51. Name of the Project Sponsoring Total cost No. Agency (Rs. lakhs)

1. Development of ferrite based DRDO 61.15 magnetic nano-composites for microwave absorption applications

2. Design and development of Head ADA, 2329.00 Up Display HUD Mk-2 for LCA-AF Bangalore and LCA-Navy and Bore Sighting Equipment

3. Design and development of Head ADA, 779.00 Up Display HUD-1NP for LCA-Navy Bangalore

4. Industry sponsored Project on M/s NanoPix 1.60 Rancidity assessment of Cashew Pvt. Ltd , Hubli, nuts Karnataka

5. WSN for explosive detection Office of 68.00 Principal Scientific Advisor, Govt. of India

6. Earthquake Warning System for DMRC 90.82 Delhi Metro

7. Design and development of digital DST, Mattick 78.91 holographic camera for non- Instrument Pvt. destructive testing applications Ltd . Ambala

8. Radiometric Analysis of Marine Naval 32.84 Research Board

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9. Vehicle detection and classification TBRL 297.70 System

VI. EXTERNAL CASH FLOW (ECF) GENERATED

Sub-heads Sponsored Projects DST-Inspire Projects (02 No.s)

VII. SOCIETAL IMPACT CREATED

• HRD

Amount (Rs. Lakhs)

3739.02 70.00

o 3 PhDs, 37 pursuing, -40 PG/UG per year generated o Training to Graduate and Diploma Students as Apprrentice and

Interns on OMEGA project. • Due to National facilities created

o Services and supports to industries and academic institutions o Skill developme.nt through training

• Research impact o Total Impact Factor generated: 264 o Citations more than 200 o Initiated various national and international collaborations and industry

participations o Involvement of Research Fellows in CSIR-800 project activities in

societal relevance • Technology impact

o Waste to wealth (E-waste recycling to produce high cost end product). o Marketing of Low cost nano-materials in Indian market. o Earthquake warning system would help in reducing loss of life by

g ~enerating an early warning signal. o The artificial organoleptic system would help in testing the food quality

and thus bring quantification of food quality by intelligent means. o The food storage quality monitoring using NIR techniques will help in

saving food resources and help in better management of resources. o The optical glasses fabricated using specialised techniques can be

used for ophthalmic, medical and industrial purposes. o The methane gas sensor will help in curbing accidental deaths due to

methane gas leakage in coal mines. o Medical software development would increase affordable treatment.

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5.2 Outputs:

VIII. PERIODIC REPORTS SUBMITTED

Progress Report: 07, URDIP Reports: 02, ToT Documents: 03 sets, Technical Reports & Documents: 37

IX. PUBLICA liONS

i. Total number: Journal Publications- 82; Conference Proceedings - 134

ii. Cumulative IF (as per 2015 figures): 264 iii. Average IF: 3.22 iv. Average IF/Scientist: 6.4

X. PATENTS (OR OTHER FORMS OF IP GENERATED SUCH AS COPYRIGHTS, DESIGNS ETC.)

i. Filed: 03 patents, 01 copyright

ii. Granted: Nil iii. Licensed: Nil

XI. HUMAN RESOURCE GENERATED

i. PhD fellows: 03 completed 37 under progress ii. Project fellows: Project Fellows, JRF and SRF: 42

iii. Skills imparted Including skill set developed for technical services/ consultancy/ training purposes:

• Skill Development: o 50 people from academic institutes, industries and R&D institutes o PG: 50 completed, 25 under progress o UG, Diploma, Apprenticeship: More than 350

• Training programs Organised: 03 • Academic courses: AcSIR (15), ISTC (20)

• Foreign trainings: 05

XII. EXTERNAL COLLABORA liONS ESTABLISHED

i. Industry: • Bharat Electronics Limited (BEL)

• Hindustan Aeronautics Limited (HAL), Bangalore, Korwa, Nashik

• Tata Motors Limited (TML), Pune

• Delhi Metro Rail Corporation (DMRC), New Delhi

• Indian Railway Construction Company Limited (IRCON), Naida

• Asia Contac Limited, Stanley, Italy

• Ambala Scientific Instruments Manufacturers Association (ASIMA), Ambala.

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• Mattick Instruments Pvt. Ltd. , Ambala

• Intelligent Materials Pvt. Ltd. Chandigarh

• Nanopix, Hubli, Karnataka • Allengers Healthcare Pvt. Ltd, Chandigarh

ii. Academia/R&D:

• Aeronautical Development Agency, Bangalore

• Base Repair Depot (3BRD), Air Force Station, Chandigarh

• Air Force Stations, Sirsa, Ghaziabad, Gorakhpur, Ambala

• DRDO ~ Directorate of Low Intensity Conflict (DLIC), New Delhi ~ Terminal Ballistic Research Laboratory, Chandigarh ~ Instruments Research Development Establishment, Dehradun ~ Defence Materials and Stores Research and Development

Establishment (DMSRDE) Kanpur

• Naval Research Board, New Delhi

• IITs (Delhi, Kanpur, Ropar, Roorkee, Indore, Mumbai, Mandi, Kharagpur, Bhubaneswar)

• NITs (Kurukshetra, Jalandhar, Jaipur, Srinagar,

• CRIKC Institutions of Chandigarh iii. International Collaboration:

• Hanyang University, South Korea • Seoul National University, South Korea

• National Physical Laboratory, Peddington, UK

• London Centre of Nanotechnology, UK

• Guelph University, Canada • Tokyo Institute of Technology, Japan

• Czech Technical University, Czech Republic

• Karlsruhe Institute of Technology, Germany

• Institute of Neel, France

• Nagoya University, Japan

• MIT, USA

• Tel Aviv University, Israel

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Table-1

6 SECTORAL MONITORING COMMITTEE RECOMMENDATIONS ON LEAD/TECHNOLOGY/PRODUCT (LISTED ABOVE):

For each Lead/Technology/Product provide details separately:

Criteria Name of Lead/ Technology I Product

SMC Recommendations

I. I. LEAD(S) IDENTIFIED: NUMBER AND NAMES WITH TRL

1. Avionics Head-up Display Test Rig -AHTR (TRL-7)

ii. Antiglare Filter- AGF (TRL-6) iii. Ground Motion and Detection Module -

GMDM (TRL-5) iv. Laser Lithotripsy system for medical

application (TRL-4) v. NIR Technique for determination of quality

of grains such as Moong beans, Besan, Wheat (TRL-4)

vi. Optical Landing System (OLS) for Ship Carriers (TRL-3)

vii. Photonic Crystal Fiber (PCF) based Methane Sensor (TRL-3)

viii. Odour Source Localizing Drone (TRL-2) 1x. Holographic See-through Multi-Function

Display (TRL-2) x. Olfactory Display (TRL-2) xi. Virtual Reality Display (TRL-2) xii. Multi-Function Display (TRL-2) xiii. MEMS based Motion Information System

(TRL-2) xiv. FBG sensor interrogation unit based on

Fiber Mach-Zehnder Interferometer (F­MZI) (TRL-2)

Is the Lead/ Technology/ Yes Product worth taking up further? What are the further Cost effective HUD and Antiglare Glass for R&D efforts that need to automobiles be put by CSIR/ CSIR laboratories?

~· 18

Global benchmarking of As per Annexure-1 the Lead/ Technology/ Product sp.ecifically wrt specifications and cost Is the Lead/ Technology/ -Product worthy of commissioning a DPR at this stage? What are the likely -resources and time duration required for taking forward the identified Lead/ Technology/ Product to the desired TRL? Potential stake holders Armed forces, DRDO, BEL, CEL, HAL, Delhi who may be appropriate Metro, Indian Railways, Automotive and other to partner technically as Industries well as financially Suggestion for plausible -road map towards further development of lead/techno logy/product for achieving desired TRL GO/ NO GO further Go development Other suggestions, if -any, related to benefits/ usage/ commercialization

19

No

1

2

3

4

5

Technology I Features of the Product Lead/Technology/ (listed above Product

in outcomes)

It provides full testing platform to test the

Avionics Head-up Display Rig

Test electronic, optical and

Antiglare Filter

mechanical interface functionality of the HUD and similar systems. It can be customized to any aircraft platform.

It minimizes the blinding glare experienced during night driving coming from the oncoming vehicles thus ensuring driver and passenger safety.

IR based moving target Ground motion detection module

and detection based on

Laser lithotripsy medical application

adaptive contour-based statistical background subtraction method.

It involves pulsed laser for beam of particular

wavelength, energy, repetition rate and beam profile for ablation of urinary stones. This process is primarily based on the photo-thermal effect taking place due to interaction of the laser beam with the targeted stone. The stone is fragmented and the fragmented pieces are washed out of the urinary tract.

NIR It is a rapid and non-Techniques destructive NIR spectral for method to determine determination quality of stored . grain of quality of (wheat) and predicting the grains such quality of unknown sample. as Moong, This involve estimating Besan, Wheat physicochemical

parameters of stored wheat flour and besan us ina selective

Lead/ Technology I Product

7

6

5

4

4

Lead/ Commercial Technology/ Technical Product Report o

Lead/

Technology/ Product

Technology Document (set of 08

documents)

Technical Report

Technical Report

Technical Report

Technical Report,

Publications (04)

ToT effort under progress.

ToT effort under progres~

Technical report ha been made , Collaborative R&D work wit TBRL i progress.

Active projec with M/ Allengers Health Car Pvt. Ltd. I advanced stage of trials .

Results bein evaluated afte repeated trials.

8. Identified "lessons to be learnt", especially from shortcomings/failures

9. Comments on financial progress on the project - fund availability and utilization of fund in the project Financial progress is satisfactory and investment made is justified.

10. Sectoral Monitoring Committee Recommendations on Facility creation or other outcomes

21

11. Grading of Project Execution: Outstanding/ Excellent/ Very Good/ Good/ Satisfactory/ Un-satisfactory

Excellent

12.Additional comments, if any:

Signature of Chairman & all Members of Sectoral Monitoring Committee

~ . ~. ~~0\.f\'\N..L Prof. G. K. Ananthasuresh Prof Subir Kumar Saha Dr. R. K. Sharma

Dr. Nalin Shinghal Dr. Debashis Dutta Dr. C. P. Ravikumar

ffi.n~~ Dr. Aravind S. Bharadwaj Dr. S. Srikanth

DrS~ ~ Prof. R K Sinha ~~

Shri S. K. Sharma

Chairman, Task Force Chairman, SMC

Date: 11.01.2017 Place: CSIR-NPL, New Delhi

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