ART 8/8A 001- Intro To Visual Thinking (4 units)
A first course in the language, processes, and media of visual art. Coursework will be organized around weekly lectures and studio problems that will introduce students to the nature of art making and visual thinking.
Can we measure everything? What is the role of privacy? Can we count beauty? Is data always fair? This course explores participation as the foundation of online citizenship. Participation is based on data literacy and community awareness. Through online assignments, peer reviews and video chats, students form communities of explorers and innovators who challenge data culture through creative interventions including surveys, visualization, animation, video, interaction design, music and other forms of digital expression. Assignments are based on readings about media theory, abstraction, interactivity, design theory, archives, performance, identity, privacy, automation, aggregation, networking, diffusion, diffraction and subversion.
DES INV 15 – Design Methodology (3 units)
This introductory course aims to expose you to the mindset, skillset and toolset associated with design. It does so through guided applications to framing and solving problems in design, business and engineering. Specifically, you will learn approaches to noticing and observing, framing and reframing, imagining and designing, and experimenting and testing as well as for critique and reflection. You will also have a chance to apply those approaches in various sectors.
Introductory studio course: theories of representation and the use of several visual means, including freehand drawing and digital media, to analyze and convey ideas regarding the environment. Topics include contour, scale, perspective, color, tone, texture, and design.
ARCH 150 – Introduction to Structures (4 units)
Study of forces, materials, and structural significance in the design of buildings. Emphasis on understanding the structural behavior of real building systems.
Good ideas alone are not the key to being a great designer or innovator. Rather, it is the strong process and communication skills that will make you stand out as a design practitioner and leader. In today’s landscape of product design and innovation, great visual communicators must know how to 1) effectively and confidently sketch by hand, 2) understand and utilize the basics of visual design, and 3) tell captivating and compelling stories. This course, offered in a project-based learning format, will give participants practice and confidence in their ability to communicate visually.
This course teaches concepts, skills and methods required to design, prototype, and fabricate physical objects. Each week relevant techniques in 2D and 3D modeling and fabrication are presented, along with basic electronics. Topics include a range of prototyping and fabrication techniques including laser-cutting, 3D modeling and 3D printing, soldering, and basic circuits.
This course provides hands-on and real world experience in the development of innovative and realistic customer-driven engineered products, services or systems. Design methods and tools are introduced, and the student’s design ability is developed in a capstone design project or equivalent. The course is organized around the following modules: design research, analysis & synthesis, concept generation & creativity, prototyping, communication & visualization. Students will be expected to use tools and methods of professional practice and use these tools to consider the social, economic and environmental implications of their products, services or systems. There is an emphasis on hands-on innovative thinking and professional practice. We will engage product designers from industry as speakers and coaches.
ENGIN 26 – 3D Modeling for Design (2 units)
Three-dimensional modeling for engineering design. This course will emphasize the use of CAD on computer workstations as a major graphical analysis and design tool. Students develop design skills, and practice applying these skills. A group design project is required. Hands-on creativity, teamwork, and effective communication are emphasized.
ENGIN 29 – Manufacturing & Design Communication (4 units) ***not currently listed***
An introduction to manufacturing process technologies and the ways in which dimensional requirements for manufactured objects are precisely communicated, especially through graphical means. Fundamentals of cutting, casting, molding, additive manufacturing, and joining processes are introduced. Geometric dimensioning and tolerancing (GD&T), tolerance analysis for fabrication, concepts of process variability, and metrology techniques are introduced and practiced. 3-D visualization skills for engineering design are developed via sketching and presentation of 3-D geometries with 2-D engineering drawings. Computer-aided design software is used. Teamwork and effective communication are emphasized through lab activities and a design project.
Explores the intersection of music and computers using a combination of scientific, technological, and artistic methodologies. Musical concerns within a computational frame are addressed through the acquisition of basic programming skills for the creation and control of digital sound. Will learn core concepts and techniques of computer based music composition using the Cycling74/MaxMSP programming environment in combination with associated software tools and programming approaches created by the Center for New Music and Audio Technologies. Included will be exposure to the essentials of digital audio signal processing, musical acoustics and psychoacoustics, sound analysis and synthesis. The course is hands-on and taught from the computer lab.
This introductory course teaches some fundamentals of scenic design. Design for live performance will be approached as an integration of all the performative tools – text, visuals, sound, space, kinetics, etc – with particular focus in this class on the overall scenographic environment. Through personal development and group explorations students will be given basic conceptual and art-making tools allowing them to evolve, communicate and realize scenic and environmental solutions. Previous art training is helpful but not essential. The student must provide most art supplies. The final evaluation will include a presentation in lieu of an exam.
This studio class explores some fundamental approaches and techniques for designing costume. Performance design will be approached as a product of all the performative tools and contexts – text, visuals, sound, space, kinetics, etc – with particular focus for this class on the scenographic role of the performer. Through personal expression and collaborative investigation students will be given some basic tools allowing them to conceptualize, communicate and realize costumes. Previous art training is helpful but not essential. The student must provide most art supplies. The final evaluation will include a presentation in lieu of an exam.
THEATER 175A will introduce you to the tools, terms, and techniques of stage lighting through lectures and practical application. Working as part of a production crew (an additional 45 hours outside of class) will demonstrate the practice of stage lighting. Class lectures and workshops augment the production experience. They will cover descriptions, explanations, and demonstrations of lighting concepts and equipment, and the initial elements of design.
In this course, undergraduate students will learn to construct sound cues and soundtracks for theater performances and videos using industry standard software, and will learn fundamental principles of incorporating video and sound into stage productions. Students will be exposed to the writings and works of prominent sound theorists, designers, and engineers and multimedia performance artists. The most successful students may be invited to participate in UC Berkeley theater productions as sound designers.
The goal of this course is to equip students with innovation skills and practices. This is a learn-by-doing lab. Students learn research methods, ethnography, analysis and synthesis, reflective thinking, scenario creation, ideation processes, rapid prototyping cycles and designing experiments, iterative design and how to tell the story of “Never Before Seen” ideas. Class time is spent using hands-on innovation and human-centered design practices. Teams present work for critique and iterative development. The course features short lectures, guest talks, campus-based fieldwork, site visits, research and readings. Projects will be launched in the sessions and each team will be coached and mentored.
This course provides students with an introduction and hands-on engineering design experience on electric mobility. Transportation is the largest energy end-use sector at 37%. Over 95% of transportation energy is fossil fuel based. Consequently, decarbonizing transportation is a critical step toward climate change mitigation. Electric mobility describes concepts for utilizing electric power technologies for transportation, such as batteries and electric motors. This includes electric cars, micro-mobility, electric aircraft, electric ships, and more. The course is divided into three parts: First, we examine the economic, environmental and ethical principles behind transitioning combustion-based drivetrains to electric drivetrains. Second, we introduce the fundamental principles behind electric drivetrains, including electric machines and batteries. Third, students will disassemble an electric scooter, discover how it works, and then create an improved design.
COMPSCI 160 – User Interface Design & Development (4 units) ***not currently listed***
The design, implementation, and evaluation of user interfaces. User-centered design and task analysis. Conceptual models and interface metaphors. Usability inspection and evaluation methods. Analysis of user study data. Input methods (keyboard, pointing, touch, tangible) and input models. Visual design principles. Interface prototyping and implementation methodologies and tools. Students will develop a user interface for a specific task and target user group in teams.
The course is concerned with the multidisciplinary field and practice of urban design. It includes a review of historical approaches to urban design and current movements in the field, as well as discussion of the elements of urban form, theories of good city form, scales of urban design, implementation approaches, and challenges and opportunities for the discipline. Learning from cities via fieldwork is an integral part of the course.