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My training plan


Mind Map by scyatomo, updated more than 1 year ago
Created by scyatomo over 6 years ago

Resource summary

My training plan
  1. Robotic Motion Systems
    1. Building Robots is a fun and engaging way to develop key skills that are in high demand. In this class, you will learn about robotic motion systems for on-ground robots (chassis, wheels, bodies, arms, legs, head), flying machines (drones, fixed-wing, rotary systems), underwater and space-based systems. We'll explore the use of both the Arduino and Raspberry Pi (small, affordable single board computers) to design and develop these robotics and IOT devices. The course will explain how to integrate robotic motion systems with the onboard computer and optical systems to create fun new projects.
      1. COURSERA
    2. Leading People and Teams Specialization
      1. In this specialization, you will learn essential leadership skills, including how to inspire and motivate individuals, manage talent, influence without authority, and lead teams. In this specialization, you will not only learn from Michigan faculty. You will also learn directly from exceptional leaders including Jeff Brodsky, Global Head of HR for Morgan Stanley, and John Beilein, Head Coach of the University of Michigan Men’s Basketball Team. We will share with you our research on how to lead people and teams effectively, and work with you to apply these insights to your own teams and leadership. In every course, you will have an opportunity to apply new leadership skills by working through a series of practical leadership assignments. In addition, the capstone will enable you to work on live leadership challenges faced by senior leaders from premier Fortune 500 firms and receive their feedback on your ideas and solutions. Top students completing the Specialization will be eligible to
        1. COURSERA
      2. System Optimization and Analysis for Manufacturing
        1. One objective of this course is to introduce modeling, optimization and simulation, as it applies to the study and analysis of manufacturing systems for decision support. The introduction of optimization models and algorithms provide a framework to think about a wide range of issues that arise in manufacturing systems. The second objective is to expose students to a wide range of applications for these methods and models, and to integrate this material with their introduction to operations management.
          1. OPEN MIT
        2. Greening the Economy: Sustainable Cities
          1. This course will explore sustainable cities as engines for greening the economy. We place cities in the context of sustainable urban transformation and climate change. Sustainable urban transformation refers to structural transformation processes – multi-dimensional and radical change – that can effectively direct urban development towards ambitious sustainability and climate goals. We will connect the key trends of urbanization, decarbonisation and sustainability. We will examine visions, experiments and innovations in urban areas. We will look at practices (what is happening in cities at present) and opportunities (what are the possibilities for cities going forwards into the future). We bring together a collection of diverse short films and key short readings on sustainable cities as well as interactive forums and a practical assignment to create an online learning community. This course utilizes films and reports on sustainable cities by WWF, the Economist Intelligence Unit and ong
            1. COURSERA
          2. Aircraft Systems Engineering
            1. Aircraft are complex products comprised of many subsystems which must meet demanding customer and operational lifecycle value requirements. This course adopts a holistic view of the aircraft as a system, covering: basic systems engineering; cost and weight estimation; basic aircraft performance; safety and reliability; lifecycle topics; aircraft subsystems; risk analysis and management; and system realization. Small student teams "retrospectively analyze" an existing aircraft covering: key design drivers and decisions; aircraft attributes and subsystems; and operational experience. Finally, the student teams deliver oral and written versions of the case study.
              1. OPEN MIT
            2. Systems Perspectives on Industrial Ecology
              1. This course examines quantitative techniques for life cycle analysis of the impacts of materials extraction, processing use, and recycling; and economic analysis of materials processing, products, and markets. Student teams undertake a major case study using the latest methods of analysis and computer-based models of materials process.
                1. OPEN MIT
              2. Principles of Finance
                1. This course provides an introductory survey of the field of finance. It examines the agents, instruments, and institutions that make up the financial system of the modern economy, such as bonds, the stock market, derivatives, and the money market. Along the way, standard concepts and tools of financial analysis are introduced: present discounted value, option value, and the efficient markets hypothesis. Recent developments in the field—in particular, the application of psychology to financial markets (called behavioral finance)—are also discussed.
                  1. OPEN HARVARD[]=2
                2. Lego Robotics
                  1. LEGO® robotics uses LEGO®s as a fun tool to explore robotics, mechanical systems, electronics, and programming. This seminar is primarily a lab experience which provides students with resources to design, build, and program functional robots constructed from LEGO®s and a few other parts such as motors and sensors.
                    1. OPEN MIT
                  2. Strategic Management and Innovation Specialization
                    1. This Specialization explores the evolving world of business strategy, focusing on the increasingly important roles of design, user experience, and innovation in shaping competitive advantage. You’ll learn about concepts such as goal setting, value creation, global integration, and diversification, and you’ll critique classic theories and frameworks in the context of new business realities. In the final Capstone Project, you’ll create and defend a holistic business strategy in response to a realistic case study prompt.
                      1. COURSERA
                    2. Airline Schedule Planning
                      1. Explores a variety of models and optimization techniques for the solution of airline schedule planning and operations problems. Schedule design, fleet assignment, aircraft maintenance routing, crew scheduling, passenger mix, and other topics are covered. Recent models and algorithms addressing issues of model integration, robustness, and operations recovery are introduced. Modeling and solution techniques designed specifically for large-scale problems, and state-of-the-art applications of these techniques to airline problems are detailed.
                        1. OPEN MIT
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