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21 - 30 of 31 results for: CARDCOURSES::eng ; Currently searching offered courses. You can also include unoffered courses

IPS 274: International Urbanization Seminar: Cross-Cultural Collaboration for Sustainable Urban Development (CEE 126, EARTHSYS 138, URBANST 145)

Comparative approach to sustainable cities, with focus on international practices and applicability to China. Tradeoffs regarding land use, infrastructure, energy and water, and the need to balance economic vitality, environmental quality, cultural heritage, and social equity. Student teams collaborate with Chinese faculty and students partners to support urban sustainability projects. Limited enrollment via application; see internationalurbanization.org for details. Prerequisites: consent of the instructor(s).
Terms: Aut | Units: 4-5

LAW 805P: Policy Practicum: Incentivizing Renewable Energy Storage and Transmission

The two key enablers of renewable energy today are storage and transmission. Storage -- using batteries, thermal systems, compressed air, water pumping and beyond -- is critical to dealing with the intermittency of solar and wind by shifting the use of electricity from when it is generated to when there is greater customer need and economic value -- whether over an hour, day or month. Transmission is critical because resource-rich areas of generation tend to be located far from urban load centers, plus local variations in sun and wind can be smoothed out with significant inter-regional transmission connections. Transmission development in the U.S. is inadequate today largely because of conflicts at the state and federal level over siting and cost allocation. Storage is relatively immature technologically, the costs of a number of promising options are high, and key state and federal policies governing its deployment need further development. Yet, without rapid and cost-effective deployment of storage and transmission, the environmental and economic promise of renewables will not be realized. Dan Reicher and Jeff Brown, who teach energy courses at the Stanford Law and Business schools, will guide the I-REST Policy Practicum research team in exploring policy, finance and technology tools that could accelerate the development and deployment of U.S. storage and transmission projects. Student researchers will work closely with Dan and Jeff to address key issues. Some examples of these issues include: 1. Many storage technologies are not fully cost competitive in the absence of an adequate price for avoided carbon emissions. As a result, gas turbines often have to fill the gap when solar and wind are not available. Without a significant price on carbon, what are the optimum federal policy and finance tools to incentivize storage projects -- grants, tax credits, loan guarantees, MLPs/REITs, contract for differences, credits for low-carbon capacity, etc? 2. Storage is part of a larger package of options -- demand response, efficiency, grid management, fast-firing gas turbines -- to deal with intermittent renewables. What are the state and federal policy options, and associated investment vehicles, that can best ensure smart and cost-effective integration of these approaches. 3. Recent multi-state transmission projects have pitted developers against the states that are in the path of the line but do not benefit from either the generation or sale of the green electricity. In some situations the federal government has had to assert its eminent domain authority, including through the DOE-controlled Power Marketing Administrations. How do we better balance these various interests in siting multi-state transmission projects? 4. Like storage options, major, regionally dispersed transmission networks might be an effective way to move renewable and low-carbon energy to demand centers in response to hourly, daily and seasonal variations in renewable energy production. However, these transmission lines tend to be challenging financially because of relatively low usage levels. What policy and financing tools might advance this different business model? 5. Typically high voltage alternating current (A.C.) transmission lines become economically challenged at distances beyond 600 miles, with load losses and carrying capacity dropping rapidly with distance. More robust and efficient, direct current (D.C.) lines require special converter stations and other major equipment to rejoin local grids. How should federal government policymakers and regulators weigh in on this technological issue and what are potential financing tools? Research results, in the form of memos and an overall white paper or report will help guide the transition team for the new President, the incoming Administration, and the new Congress in formulating policies and supporting investment that can help advance progress on transmission and storage thereby enabling accelerated renewable energy deployment and reductions in greenhouse gas emissions. Associated briefings in Washington, D.C. may be arranged with students making the trip. As described above, storage and transmission issues present a complex set of legal, regulatory, engineering, economic and financial challenges. Therefore, the research team seeks graduate students from law, business, engineering, economics, and public policy. Through this interdisciplinary research and learning environment, the team will leverage approaches across fields to produce a robust, integrated set of research findings that will also be featured on both the Policy Lab and Steyer-Taylor websites. After the term begins, and with the consent of the instructor, students accepted into the course may transfer from Section 01 (2 units) to Section 2 (3 units), which meets the R requirement. Elements used in grading: Class Participation, Attendance, Written Assignments, Final Paper. -- NOTE: Students may not count more than a combined total of eight units of directed research projects and policy lab practica toward graduation unless the additional counted units are approved in advance by the Petitions Committee. Such approval will be granted only for good cause shown. Even in the case of a successful petition for additional units, a student cannot receive a letter grade for more than eight units of independent research (Policy Lab practicum, Directed Research, Directed Writing, Senior Thesis, and/or Research Track). Any units taken in excess of eight will be graded on a mandatory pass basis. For detailed information, see "Directed Research/Policy Labs" in the SLS Student Handbook. CONSENT APPLICATION: To apply for this course, students must complete and submit a Consent Application Form available on the SLS website (Click Courses at the bottom of the homepage and then click Consent of Instructor Forms). See Consent Application Form for instructions and submission deadline.
Terms: Aut | Units: 3 | Repeatable 4 times (up to 8 units total)

ME 105: Designing for Impact

This course will introduce the design thinking process and skills, and explore unique challenges of solving problems and initiating action for public good. Design skills such as need-finding, insight development, and prototyping will be learned through project work, with a particular emphasis on the elements required to be effective in the social sector. Prerequisite: ME101.
Terms: Spr | Units: 3
Instructors: Benjamin, C. (PI)

MS&E 108: Senior Project

Restricted to MS&E majors in their senior year. Students carry out a major project in groups of four, applying techniques and concepts learned in the major. Project work includes problem identification and definition, data collection and synthesis, modeling, development of feasible solutions, and presentation of results. Service Learning Course (certified by Haas Center).
Terms: Win | Units: 5

MS&E 297: "Hacking for Defense": Solving National Security issues with the Lean Launchpad

In a crisis, national security initiatives move at the speed of a startup yet in peacetime they default to decades-long acquisition and procurement cycles. Startups operate with continual speed and urgency 24/7. Over the last few years they¿ve learned how to be not only fast, but extremely efficient with resources and time using lean startup methodologies. In this class student teams will take actual national security problems and learn how to apply ¿lean startup¿ principles, ("business model canvas," "customer development," and "agile engineering¿) to discover and validate customer needs and to continually build iterative prototypes to test whether they understood the problem and solution. Teams take a hands-on approach requiring close engagement with actual military, Department of Defense and other government agency end-users. Team applications required in February. Limited enrollment. Course builds on concepts introduced in MS&E 477.
Terms: Spr | Units: 3-4

MS&E 298: Hacking for Diplomacy: Tackling Foreign Policy Challenges with the Lean Launchpad

At a time of significant global uncertainty, diplomats are grappling with transnational and cross-cutting challenges that defy easy solution including: the continued pursuit of weapons of mass destruction by states and non-state groups, the outbreak of internal conflict across the Middle East and in parts of Africa, the most significant flow of refugees since World War II, and a changing climate that is beginning to have impacts on both developed and developing countries. While the traditional tools of statecraft remain relevant, policymakers are looking to harness the power of new technologies to rethink how the U.S. government approaches and responds to these and other long-standing challenges. In this class, student teams will take actual foreign policy challenges and learn how to apply lean startup principles, ("mission model canvas," "customer development," and "agile engineering¿) to discover and validate agency and user needs and to continually build iterative prototypes to test whether they understood the problem and solution. Teams take a hands-on approach requiring close engagement with officials in the U.S. State Department and other civilian agencies. Team applications required at the end of shopping period. Limited enrollment.
Terms: Aut | Units: 3-4

MS&E 330: Law, Order & Algorithms (SOC 279)

Data and algorithms are rapidly transforming law enforcement and criminal justice, including how police officers are deployed, how discrimination is detected, and how sentencing, probation, and parole terms are set. Modern computational and statistical methods offer the promise of greater efficiency, equity, and transparency, but their use also raises complex legal, social, and ethical questions. In this course, we analyze recent court decisions, discuss methods from machine learning and game theory, and examine the often subtle relationship between law, public policy, and statistics. The class is centered around several data-intensive projects in criminal justice that students work on in interdisciplinary teams. Students work closely with criminal justice agencies to carry out these projects, with the goal of producing research that impacts policy. Students with a background in statistics, computer science, law, and/or public policy are encouraged to participate. Enrollment is limited, and project teams will be selected during the first week of class.
Terms: Spr | Units: 3

PUBLPOL 147: Ending Poverty with Technology (SOC 157)

There are growing worries that new technologies may eliminate work, increase inequality, and create a large dependent class subsisting on transfers. But can technology instead be turned against itself and used to end poverty? This class explores the sources of domestic poverty and then examines how new technologies might be developed to eliminate poverty completely. We first survey existing poverty-reducing products and then attempt to imagine new products that might end poverty by equalizing access to information, reducing transaction costs, or equalizing access to training. In a follow-up class in the spring quarter, students who choose to continue will select the most promising ideas, continue to develop them, and begin the design task within Stanford¿s new Poverty and Technology Lab.
Terms: Win | Units: 5
Instructors: Grusky, D. (PI)

PUBLPOL 148: Ending Poverty with Technology: A Practicum. (SOC 158)

Will robots, automation, and technology eliminate work and create a large poverty-sticken dependent class? Or will they eliminate poverty, free us from the tyranny of work, and usher in a new society defined by leisure and creative pursuits? This two-quarter class is dedicated to exploring new theories about poverty while at the same time incubating applied technology solutions. The first quarter is devoted to examining the theory of technology-based solutions to poverty, and the second quarter is devoted to planning a viable technology-based product that will reduce poverty. This product may then be built in a follow-up Using Tech for Good (Computer Science 50) class in the first quarter of 2018 (but class participants are not required to take that follow-up class). The course is premised on the view that innovative solutions to poverty will be based on new conversations and an authentic collaboration between Silicon Valley and leaders from education, government, and low-income communities
Terms: Spr | Units: 5 | Repeatable for credit

SOC 157: Ending Poverty with Technology (PUBLPOL 147)

There are growing worries that new technologies may eliminate work, increase inequality, and create a large dependent class subsisting on transfers. But can technology instead be turned against itself and used to end poverty? This class explores the sources of domestic poverty and then examines how new technologies might be developed to eliminate poverty completely. We first survey existing poverty-reducing products and then attempt to imagine new products that might end poverty by equalizing access to information, reducing transaction costs, or equalizing access to training. In a follow-up class in the spring quarter, students who choose to continue will select the most promising ideas, continue to develop them, and begin the design task within Stanford¿s new Poverty and Technology Lab.
Terms: Win | Units: 5
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