Teaching

Courses Taught at IISc

  • 20202019

    Foundations of Internet of Things

    Centre for Continuing Education, IISc

  • 20202019

    Internet of Things: Sensor to Cyber Systems

    Centre for Continuing Education, IISc

  • 20202019

    Product Prototyping in IoT with Mr Ganesh Hassan

    Centre for Continuing Education, IISc

  • 20202019

    Commercializing Intellectual Property

    Centre for Continuing Education, IISc

  • 20102009

    Advance Course on Scientific CCD Design

    Centre for Continuing Education, IISc

Courses Description

  • 20202019

    Foundations of Internet of Things

    Objectives:

    To teach basic concepts and practices in development of IoT Prototypes for real world applications.

    Syllabus:

     Introduction to IoT and IoT Business Scenario

     IoT Architecture and concepts

     Enabling technologies of IoT revolution

     Signal processing, as well as other aspects of digital and wireless communication systems

     Circuit design and performance

     The components of embedded systems

     Web applications and computer security risks that can be related to IoT devices

     Sensor/Actuators Target Group: All Engineers and Scientists in Industry and Research Organizations, who have a state in Charting the Organizational Strategy.

    Reference Books

    1. Ammar Rayes, Samer Salam, Internet of Things from Hype to Reality: The Road to Digitization, Springer; 1 st Ed. 2017 Edition (2 November 2016),

    2. David Johns, Ken Martin , Analog Integrated Circuit Design, John Wiley and Sons, Inc, 3. Jan M. Rabaey , Digital Integrated Circuits: A design Perspective, Prentice Hall of India,

  • 20202019

    Internet of Things: Sensor to Cyber Systems

    Objectives:

     To teach advanced concepts and practices in development of IoT prototypes to be transformed as Cyber Physical Systems

    Syllabus:

     Introduction to IoT and IoT Business Scenario

     IoT Architecture and concepts

     IoT prototypes for real world applications with special reference to Nano sensors

     Biochips, biosensors, implantable systems, and other emerging IoT technology

     Signal processing, as well as other aspects of digital and wireless communication systems

     Circuit design and performance

     The components of embedded systems

     3D Systems Scaling and their impact on IoT Industry  Cloud Computing Target Group: All Engineers and Scientists in Industry and Research Organizations, who have a state in Charting the Organizational Strategy. Young Entrepreneurs willing to Build IoT based Startups, fresh Engineering/Science Graduates.

    Reference Books

    1. Ammar Rayes, Samer Salam, Internet of Things from Hype to Reality: The Road to Digitization, Springer; 1st ed. 2017 Edition (2 November 2016), Tata McGraw Hill

    2. G K Ananthasuresh et al., Micro and Smart Systems, 2011, Wiley India 3. Behzad Razavi , Design of Analog CMOS Integrated Circuits Paperback –Nov 2017

  • 20202019

    Product Prototyping in IoT

    Objectives:

    Prototyping is one of the most essential skills in this generation. Let it be fixing your table or building your own system at home to make a toy for your child. It doesn’t matter if you are an innovator, an engineering student, an entrepreneur or someone with an idea that could help solve the problems of humankind. An Idea alone cannot take you anywhere, but quickly building it and showing out to the world that your idea really works and has the potential to scale is what matters. This course will give you a head start into the world of Product Prototype development in Internet of Things (IoT). The course is a blend of engineering and business of IoT. It deals with connectivity, building systems to enable delivery of software services networked to the cloud platforms. At the end of the course the stuents will be in a position to launch an IoT product prototype and a business in IoT.

    Syllabus:

    The course familiarizes the students to handle INTELLIGENT CYBER-PHYSICAL SYSTEMS. Course unfolds as:IoT

    – Introduction- Distinction from IoT sphere

    – Sensors and Actuators

    – Embedded Systems

    – Wireless Technology

    – Mobile application platform

    – Cloud access and control

    – Packaging

    – UI/UX of IoT products

    -Business models with IoT products

    – Design Thinking

    – Analytics, Machine Learning and AI for IoT systems

    – Security in IoT systems

    – Case studies of IoT applications

    – Launching an IoT product/service

    – MVP-Entrepreneurship in IoT.

    Target Group:

    Working professionals in Embedded, Automation, R&D, Resource Management, Professionals, Engineering College faculty, Smart Cities and Villages developers, Mobile app developers, Business Development Managers, Technical Sales Engineers, Policy makers, Entrepreneurs and Aspiring Entrepreneurs

    Reference Books:

    1. Dirk Slama, Frank Puhimann, Jim Morrish & Rishi M Bhatnagar, Enterprise IoT.

    2. Rafiq Nanroni, Rapid Prototyping Principles and Applications

    3. Daniel Obodovski, Daniel Kellmereit, The Silent Intelligence – The Internet of Things

  • 20202019

    Commercializing Intellectual Property

    Objectives:

    Introduction to the broad field of Intellectual Property Rights (IPR) in brief including Indian IP laws. To train participantsScouting for IP in research work; patents genesis to current day trend, drafting provisional/final specs. Forms of IP. Strategic decision on PCT filing, creation of business proposal and commercialization of IP/start up.

    Syllabus:

    Scouting for IP in the research work; Discovery V/s invention. Inventive ideas to vendible products with IP Protection. Various types of IP; patent drafting, strategic decision of filing PCT application, creation of business proposal-stages of product development of finances, startup initiatives, registration of company and so on.

    Target Group:

    All interested in creating and commercializing IP

    Reference Books

    1. Linda Pison, Anatomy of a Business Published by out of your mind … into market place, Cal., USA 2008. 3.

    2. Taraporevala, V J “Law of Intellectual Property” Published by V J Taraporevala, Mumbai, 2005.

    3. Prabuddeha R Ganguli, “IPR – Unleashing the knowledge Economy”, Tata McGraw Hill, New Delhi. 2001.

  • 20102009

    Advance Course on Scientific CCD Design

    Objectives

    Imagers are very much part of human life from day to day life up to high end security and surveillance, space applications, night vision cameras for military applications etc. The course is designed to offer understanding of CCD fabrication/design technology and exposure to current and emerging technologies in CCD imagers.

    Syllabus

    Charge Coupled Devices: History, Operation and Fabrication, CCD transfer curves and Optimization, Charge Generation (Front side/backside illumination), Charge Collection (well capacity, FPN, Charge diffusion) , Charge Transfer (Transfer Mechanisms, CTE measurement techniques), Charge Measurements (output amplifier, CDS) Noise Sources in CCDs, Damage Mechanisms in CCDs, Design Methodology of a typical CCD, Recent advances in CCD/CMOS Imagers.

    Target Group

    Scientists, Engineers, Managers of R & D, and Entrepreneurs in Knowledge based organizations, Research Students. The scientists working on imaging systems i.e. space applications would benefit strongly from the course.

    Reference Books

    1. Orly Yadid-Pecht & Ralph Etienne-Cummings CMOS Imagers: From Phototransduction to Image Processing Kluwar Academic Publishers, 2004.

    2. James Janesick Scientific Charge-Coupled Devices, SPIE Press, 2001.

    3. Recent articles from IEEE magazines/Journals