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Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T)

(24 Lectures Available)

S# Lecture Course Institute Instructor Discipline
1
  • Class 1, Part 1: Economic Growth Theory and the Direct Elements in Innovation (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
2
  • Class 1, Part 2: Economic Growth Theory and the Direct Elements in Innovation (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
3
  • Class 10, Part 1: The Challenge of Energy Technology Transformation (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
4
  • Class 10, Part 2: The Challenge of Energy Technology Transformation (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
5
  • Class 11, Part 1: Improving the Talent Base & New Education and Training Models (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
6
  • Class 11, Part 2: Improving the Talent Base & New Education and Training Models (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
7
  • Class 12, Part 1: The Future of Work & The Employment-Productivity Debate (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
8
  • Class 12, Part 2: The Future of Work & The Employment-Productivity Debate (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
9
  • Class 2, Part 1: Innovation Systems and Direct/Indirect Elements in the Innovation Ecosystem (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
10
  • Class 2, Part 2: Innovation Systems and Direct/Indirect Elements in the Innovation Ecosystem (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
11
  • Class 3, Part 1: The Competitive Challenge to U.S. Manufacturing (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
12
  • Class 3, Part 2: The Competitive Challenge to U.S. Manufacturing (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
13
  • Class 4, Part 1: The Challenge from Globalization for Advanced Manufacturing and New Services (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
14
  • Class 4, Part 2: The Challenge from Globalization for Advanced Manufacturing and New Services (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
15
  • Class 5, Part 1: The Innovation System at the Institutional Level & The Organization of Federal Science Support (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
16
  • Class 5, Part 2: The Innovation System at the Institutional Level & The Organization of Federal Science Support (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
17
  • Class 6, Part 1: Crossing the "Valley of Death" Between Research and Development & The Public-Private Partnership Approach (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
18
  • Class 6, Part 2: Crossing the "Valley of Death" Between Research and Development & The Public-Private Partnership Approach (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
19
  • Class 7, Part 1: The Organization of Innovation Systems at the Face-to-Face Level (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
20
  • Class 7, Part 2: The Organization of Innovation Systems at the Face-to-Face Level (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
21
  • Class 8, Part 1: DARPA as the Connected Model in the Innovation System & Government-Private Sector Interaction and the Example of Computing (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
22
  • Class 8, Part 2: DARPA as the Connected Model in the Innovation System & Government-Private Sector Interaction and the Example of Computing (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
23
  • Class 9, Part 1: The Life Science R&D Model & National Institutes of Health (NIH) (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences
24
  • Class 9, Part 2: The Life Science R&D Model & National Institutes of Health (NIH) (M-I-T)
Innovation Systems for Science, Technology, Energy, Manufacturing, and Health (Spring 2017) (M-I-T) MIT William Bonvillian Social Sciences