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  • MIT TECHNOLOGY BUSINESS INCUBATOR

    End to End Support Under Single Roof

    Excellent platform for accelarating successful commercialization of your product idea.

  • MIT TECHNOLOGY BUSINESS INCUBATOR

    Utilize Power Of Incubation Services.

    Idea - Proof Of Concept - Rapid Prototyping - Pilot Production

    Field Testing - Business Plan - Venture Funding - Business Scale Up

  • MIT TECHNOLOGY BUSINESS INCUBATOR

    Accelerating Technology Business Start Up

    Join Make In India Initiative

  • MIT TECHNOLOGY BUSINESS INCUBATOR

    Applications Open For TechnoGenesis 2016

    Unique platform for presenting your idea and eligibility for seed funding

  • MIT TECHNOLOGY BUSINESS INCUBATOR

    15 - 30 Lakh of Seed Funding Support For Potential Business Ideas

    Shortlisted ideas from technogenesis are qualified for seed funding support

Thrust Area

Our thrust area is product design, system integration and manufacturing, we take it as our responsibility to provide various facilities to the registered potential entrepreneur. As managing all the aspects of a business together would otherwise be tough due to budget constraints and lack of knowledge in other sectors. We intend to take down the burden off an individuals head, allowing him to focus on his project. Arranging extensive interactions with professionals and opportunities to collaborate, TBI gives entrepreneur an insight into the product the entrepreneur has been working on. Our aim would be to market these products and try our best to promote innovators whom we trust to make up niche for themselves not just within the country but globally.

Mentoring services

Our mentors shall complement and support independent Entrepreneurs / Incubatee to accelerate successful commercialization & scaling up of product idea.

Workshop Support

The proposed and upcoming workshop shall support incubatee with rapid prototype facilities, software tools, test and measurement equipments, pilot and bulk manufacturing support

About MIT TBI

Our thrust area is product design, system integration and manufacturing, we take it as our responsibility to provide various facilities to the registered potential entrepreneur. As managing all the aspects of a business together would otherwise be tough due to budget constraints and lack of knowledge in other sectors. We intend to take down the burden off an individuals head, allowing him to focus on his project. Arranging extensive interactions with professionals and opportunities to collaborate, TBI gives entrepreneur an insight into the product the entrepreneur has been working on. Our aim would be to market these products and try our best to promote inno



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News & Events Success Stories Milestone Upcoming Technologies Our Initiatives
  • Dec 2015

    Success to fetch grants of 5 crores from Department  of Science and Technology
    .

  • Sept 2015

    MOU with Eitra,  Ahmedabad and NCL venture center and incubation of JAGANA Design Lab .

  • Oct 2015

    Energy conservation initiative and solar power generation initiative with incubated companies.

  • August 2015

    Preparation and submission of proposal to DST grant .

  • June 2015

    Formation of mentor team and induction meeting with mentors .

  • April 2015

    Go green LED mission Initiative .

  • March 2015

    Formation of MIT TBI processes and TechnoGenesis 2015 and Informal incubation of AMLED Efficient Lighting, MIT LEAD Pvt. Ltd..

  • Nov 2014

    Allocation of independent space for operation of MIT TBI and informal incubation of RLARD Engitech Pvt. Ltd. .

  • Sept 2014

    Announcement of Technogenesis 2015 for inviting project ideas for incubation.

  • July 2014

    First blue print document for MIT TBI operations and formation of MIT Techno-managerial committee.

  • Jan 2014

    Appointment of Mr. Ashok Saraf as advisor for establishment of MIT TBI .

  • Nov2013

    Formation : Approval from MIT Group of Institutions for establishment of MIT TBI.

  • Brief description: 
    Todays machine automation systems are demanding for better throughput. Guaranteed response during safety critical operation is one of the major requirements. MEMS sensors, actuators along with control logic complexities are stretching limits of conventional Programmable Logic controllers (PLCs). Use of Field Programmable Gate Array (FPGA) is now getting accepted as main control element for such automation. They have the potential to replace sequentially executing controllers for better performance. One of the major difficulties is unavailability of IDE for effective use of FPGA by the plant Engineers. This project proposed end to end implementation of IEC61131-3 to IEEE1076.6 (IEC62050) synthesis, implementation and validation of PLC on FPGA and the test results. It further presents benefits obtained from the methodology. 

    By:- Prof. Manish Patil ( A.P. IT Department, MITCOE)
    Mr. Alok Pawar ( Design Engineer, RLARD )



  • Brief description: 
    It is the authentication system based on smartphone and biometric features. Whenever person enters Wi-Fi zone, he has to authenticate himself with biometric features. His biometric features are compared with the features at server side. If there is a match, person is authenticated.

    By:- Dr. Anjali Chandavale ( IT Department, MITCOE)


  • Brief description: 
    in the present work, different ventilated disk break rotor configurations were analyzed to enhance the heat transfer rate and obtain the uniform temp distribution in the rotor. CFD code used in this work was validated using experimental results obtained by conducting experiments on a test rig. The experimental analysis was performed to calculate mass flow rate and heat dissipation through the rotor. Further, different types of rotor configurations viz. straight radial vane (SRV), Tapered radial vane (TRV), Alternate long and short vane (ALSV), Variable diameter circular pillars (VDCP) were considered for the analysis. A rotor segment of 20◦ was considered for the numerical analysis due to its rotational symmetry. CFD results were in good agreement with the experimental analysis. The maximum deviation of the numerical results was about 12% from the experimental results. It is found from the analysis that among the different types of rotor configurations; variable diameter circular pillars (VDCP) rotor gives better rate of heat dissipation with more uniform temperature distribution in the flow passages. Hence for modern high speed vehicle VDCP rotor may be more appropriate.

    By:- Dr. Mahesh Chopde ( Mechanical Department, MITCOE)


  • Brief description: 
    Currently soil testing labs are not easily approachable to farmers and need long duration for getting the test data. Hence farmers generally use traditional ways of farming. Due to improper use of fertilizer there will be nutrient imbalance including soil fertility, emerging deficiencies of nutrients, decline of water quality etc. we have developed a portable soil sensors system for mapping fertility i.e. NPK measurement(nitrogen, phosphorus and potassium micronutrient at the farmer and results will be displayed on LCD display. Ready charts will be given to farmer for fertilizer recommendation/hectare. Such system is not in existence in INDIA currently.

    By:- Prof. Dr. Krishna Warhade (Dean, R&D, MITCOE)
    Prof. Radhakrishnan (Director Research Development and Innovation)



  • Brief description: 
    Pregnant women from rural areas do not do their regular checkups at the early stage of pregnancy. Routine checkups can avoid birth of handicap children and also help in reducing mother and fetal mortality rate at very large extend. Test suggested by gynecologist to pregnant women are hemoglobin, blood sugar, ECG, urine and thyroid, which requires blood samples. In the proposed method, we will measure pulsate, sp02 and hemoglobin non-inversely using LEDs at different wavelength. The light will be transmitted through finger and will be detected by photodiode. We are using PIC microcontroller and signal conditioning circuit. Results will be displayed on LCD display.


    By:- Prof. Dr. Krishna Warhade (Dean, R&D, MITCOE)
    Prof. Pradeep Kumar Dhage (Asst Prof. ENTC, MIT COE)
    Mrs. Rasika Beohar (Lecturer, E&TC, MIT Polytechnic)



  • Brief description: 
    Team Name A unique initiative to establish lighting test facility with technical support by Institute of Lighting Research, University of Fudan. This initiative shall enable local test facility for small and medium Entrepreneurs to test quality of their LED Lighting products.All products shall be developed by start up companies initiated under MIT TBI.




    .





    By:- MIT TBI TEAM


  • Brief description: 
    A Unique initiative called the Go Green LED Mission, which is the brain child of the MIT-Technology Business Incubator focuses on energy conservation by the usage of LED lighting and solar based energy generation and to achieve ultimate objective of saving electricity.

    By:- MITTBI TEAM


  • Brief description: 
    Team Name Its a team who have experience of training and consulting in many public and private corporate sectors. This is a team which is dedicated towards a vision which is enhancing, the communication skills of the public and also to teach them how to put their ideas forward at the right time. Also to develop entrepreneurship attitude amongst the students from the root level itself so that they can be able to create something of their own after they achieve their academic credentials.


    By:- MITTBI TEAM


OUR WORK IN NUMBERS

15000000
Seed Funds Preparation
10000+
People We Reached
7000+
TechnoGenesis 2015 applications
100
Ideas shortlisted for TechnoGenesis 2015
30+
Ideas mentored by our mentors
5
Companies Incubated.

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