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61 - 70 of 133 results for: CEE

CEE 233C: Studio 3: Integrated Architecture and Engineering (CEE 133C)

Building on the core studio sequence of CEE 133A and 133B, this integrator studio asks students to develop a design for a building that incorporates sustainable systems and structural engineering. Students will study site dynamics, programmatic relationships, materiality, and scale. CEE faculty will collaborate to aid in the synthesis of structures, sustainable strategies, and metrics to support and enhance the design and its narrative.
Terms: Aut, Win | Units: 5

CEE 236: Planning Calif: the Intersection of Climate, Land Use, Transportation & the Economy (CEE 136, PUBLPOL 130, PUBLPOL 230, URBANST 130)

Cities and urban areas have always been transformed by major external changes like pandemics and public health crises. California is both in the midst of its greatest economic recession since the Great Depression and experiencing a pandemic that has the potential to reshape many aspects of life. Planning for cities and regions, however, is a long game that requires follow-through on decisions made sometimes over many decades. How do we balance the shocks to our assumptions from the current Covid world with the need to plan long-term for issues like affordable housing and equitable cities, and perhaps most fundamentally, prepare our cities and communities for the inevitability of climate change and climate impact? nnnnThis course takes an interdisciplinary view of the key contemporary planning topics in California. It does so from looking at the intersection of climate laws, land use changes, the need for housing, travel patterns and the availability of high quality jobs and employment. more »
Cities and urban areas have always been transformed by major external changes like pandemics and public health crises. California is both in the midst of its greatest economic recession since the Great Depression and experiencing a pandemic that has the potential to reshape many aspects of life. Planning for cities and regions, however, is a long game that requires follow-through on decisions made sometimes over many decades. How do we balance the shocks to our assumptions from the current Covid world with the need to plan long-term for issues like affordable housing and equitable cities, and perhaps most fundamentally, prepare our cities and communities for the inevitability of climate change and climate impact? nnnnThis course takes an interdisciplinary view of the key contemporary planning topics in California. It does so from looking at the intersection of climate laws, land use changes, the need for housing, travel patterns and the availability of high quality jobs and employment. This course will give you an understanding of the roles of key levels of government, from the state to the region/metropolitan scale, to the city and county, down to the neighborhood and parcel level. it will give students insight into leading themes and issues of the day in California such as the future of downtowns, the role of high speed rail, the impact of telework, automation in the construction of housing, drawing from examples in San Jose and San Francisco, the Central Valley, the state legislature, Southern California. Within each of these topics we will look at the impact of decisions on equity as well as climate and the economy. nnnnThe instructors are Kristy Wang, formerly SPUR¿s Community Planning Policy Director, and Egon Terplan, Senior Advisor for Economic Development and Transportation in the California Governor¿s Office, formerly SPUR¿s Regional Planning Director. (Affiliations for identification purposes only)
Terms: Win | Units: 3

CEE 241B: Infrastructure Project Delivery (CEE 141B)

Infrastructure is critical to the economy, global competitiveness and quality of life. Topics include transportation, social infrastructure, energy, water and communications sectors. Analysis of how projects are designed, constructed, operated, and maintained. Focus is on public works projects globally, alternative project delivery approaches and organizational strategies. Case studies include three real infrastructure megaprojects managed by the Instructor while in Industry. Nine integrated guest lecturers from Industry supplement specific functional areas of expertise. Student teams prepare competing design/build/finance/operate/maintain (DBFOM) proposals for a large infrastructure project.
Terms: Win | Units: 3

CEE 241P: Integrated Management of Fabrication and Construction

Application of the fundamental fabrication and construction management concepts covered in CEE 241T to an actual project; integrated software environments; integration of scope, schedule, and cost information for scheduling, estimating, and progress control; scope management with BIM; off-site fabrication vs. on-site construction and supply chain coordination; group project; project permitting, potential for a joint project with CEE 242P. Prerequisites: CEE 210, CEE 241T.
Terms: Win | Units: 3-4

CEE 242R: Project Risk Analysis

Teaches principles and methods for quantitative modeling and mitigation of risks in project planning, design, construction and operation, using new MS Excel capabilities and standardized probability distributions. Several case studies will be covered, including ongoing work with PG&E to roll up operational risks.
Terms: Win | Units: 3
Instructors: Savage, S. (PI)

CEE 245E: Equitable Infrastructure Solutions (CEE 145E)

The built environment enables access to economic and social mobility, however access to such systems is not uniform across communities. This creates infrastructure inequity. Climate change threatens to exacerbate existing inequities in interdependent infrastructure systems such as energy, transportation, air, and water/wastewater to name a few. The engineer of tomorrow must understand the inequities in the system and the policies that produced them in order to develop robust and innovative approaches to design and manage future systems. This course will introduce students to the prominent theories of equity and environmental justice with a focus on implementation for infrastructure. Students will learn the limitations of decontextualized technical engineering solutions and their impacts on society. Upon completion of the course, students will understand how to abstract and develop models that incorporate elements of equity and justice in civil engineering systems. This course is design more »
The built environment enables access to economic and social mobility, however access to such systems is not uniform across communities. This creates infrastructure inequity. Climate change threatens to exacerbate existing inequities in interdependent infrastructure systems such as energy, transportation, air, and water/wastewater to name a few. The engineer of tomorrow must understand the inequities in the system and the policies that produced them in order to develop robust and innovative approaches to design and manage future systems. This course will introduce students to the prominent theories of equity and environmental justice with a focus on implementation for infrastructure. Students will learn the limitations of decontextualized technical engineering solutions and their impacts on society. Upon completion of the course, students will understand how to abstract and develop models that incorporate elements of equity and justice in civil engineering systems. This course is designed to prepare next generation engineers for careers in which they will participate in projects that directly affect historically marginalized communities.Who can take the course: It is going to be a graduate course, so students should have completed an engineering degree OR are in their final year of their degreePrerequisites: There are no pre-requisites, however familiarity with engineered systems is expected
Terms: Win | Units: 3

CEE 246: Venture Creation for the Real Economy (MS&E 273)

CEE 246 is a unique course geared toward developing entrepreneurial businesses (both start-ups and internal ventures). This team, project-based class teaches students how to exploit emerging materials science, engineering and IT technologies to radically apply innovation to the real economy e.g., new products and services that produce real economic value for society as well as for the entrepreneurs. Areas of focus include: Sustainable Buildings and Infrastructure, Digital Cities and Communities, Clean Energy, Transportation and Logistics, Advanced Manufacturing, Digital Health Care, Web3.0, and Education. With one-on-one support from seasoned industry mentors and influential guest speakers, the course guides students through the three key elements of new venture creation: identifying opportunities, developing business plans, and determining funding sources. The class culminates with business presentations to industry experts, VCs and other investors. The goal is to equip students with the knowledge and network to create impactful business ideas, many of which have been launched from this class. To apply for this limited enrollment course, students must submit an application. Please visit the course website for additional information: https://cee.stanford.edu/venture-creation
Terms: Win, Spr | Units: 3-4

CEE 246P: Opportunities in PropTech and ConTech Seminar

PropTech and ConTech have disrupted the way we buy, sell, rent, manage, build and design residential/commercial properties, and construction projects in general. Real Estate and Construction industries were lagging behind the adoption of technology and innovation. Weekly speakers from Entrepreneurs and Founders to VC's of PropTech and ConTech companies will share their experiences in the sector and give insights of current trends and opportunities. Entrepreneurs from companies in different stages (pre-seed, seed, Series A, and beyond) will talk about their experiences, challenges, lessons learned and future opportunities. Venture Capital speakers will explain how they source, evaluate, perform due diligence and invest in companies.Please email: nelsonkoen@gmail.com the year and program you are enrolled in and reason for your interest in taking this course.
Terms: Win | Units: 1

CEE 247C: Computer Vision for the Built Environment

The course is an introduction to Visual Machine Perception technology - and specifically Computer Vision and Machine Learning (CV-ML) - for the built environment. It will explore fundamentals in this technology both in research and products, in tight reference to design, construction, and operation/management. It will consider the current and potential impact of this technology on achieving sustainability goals, such as related to reuse, circularity, and performance-based lifecycle, as well as the organizational considerations behind development and adoption.
Terms: Win | Units: 3

CEE 250: Product Management Fundamentals for the Real Economy

This course teaches students how to apply product management skills to create products and services for the "real economy." Students will learn the basics of product management and the product lifecycle and design a product in a team setting. They will also learn iterative product development with an eye towards applying those skills towards products that produce real economic value for society as well as the entrepreneurs. This course includes instruction from seasoned industry veterans and guest speakers. Students will be guided through identifying an opportunity, designing a solution, launching a product, and building a roadmap. The content is tailored to students interested in developing real products and delivering solutions within startups, established companies, non-profits, governments, and non-governmental organizations. The goal is to teach students the fundamentals of product management and equip them with the knowledge to make meaningful progress on some of the biggest challenges facing society. This course requires an application due to limited enrollment. Application Link: https://forms.gle/m91m8ufu5PNDoXoR7 Application Deadline: Tuesday, January 9, 2024 at 9PM PST
Terms: Win | Units: 3
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