Courses tagged with "Information retrieval" (42)

This course explores the social relevance of neuroscience, considering how emerging areas of brain research at once reflect and reshape social attitudes and agendas. Topics include brain imaging and popular media; neuroscience of empathy, trust, and moral reasoning; new fields of neuroeconomics and neuromarketing; ethical implications of neurotechnologies such as cognitive enhancement pharmaceuticals; neuroscience in the courtroom; and neuroscientific recasting of social problems such as addiction and violence. Guest lectures by neuroscientists, class discussion, and weekly readings in neuroscience, popular media, and science studies.

This course helps in developing skills as science communicators through projects and analysis of theoretical principles. Case studies explore the emergence of popular science communication over the past two centuries and consider the relationships among authors, audiences and media. Project topics are identified early in the term and students work with MIT Museum staff. Projects may include physical exhibits, practical demonstrations, or scripts for public programs.

STS.467 examines the intellectual foundations of archaeology in the deep sea. The course explores the current convergence of oceanography, archaeology, and engineering which allows scientists to discover, survey, and excavate shipwrecks in deep water with robots and submarines. The course seeks to address the following questions: How are new devices best employed for archaeological work? How do new capabilities (e.g. higher frequencies, higher resolution, all digital data output) change operations plans and research designs? What new technologies will be required? Area studies focus on the Aegean in Minoan times and western Sicily during Phoenician, Greek, and Roman hegemony.

This class develops the abilities of students to communicate science effectively in a variety of real-world contexts. It covers strategies for dealing with complex areas like theoretical physics, genomics and neuroscience, and addresses challenges in communicating about topics such as climate change and evolution. Projects focus on speaking and writing, being an expert witness, preparing briefings for policy-makers, writing blogs, and giving live interviews for broadcast, as well as the creation of an interactive exhibit for display in the MIT Museum.

This class is an introduction to studies in science, technology, and society (STS), through examining a series of issues, events, conflicts, and problems as illuminated by STS approaches. This iteration includes units on the Aaron Swartz case, photography, and utopia / dystopia. There are regular guest speakers, and several field trips to encourage hands on learning.

This subject exposes students to a variety of visualization techniques so that they learn to understand the work involved in producing them and to critically assess the power and limits of each. Students concentrate on areas where visualizations are crucial for meaning making and data production. Drawing on scholarship in science and technology studies on visualization, critical art theory, and core discussions in science and engineering, students work through a series of case studies in order to become better readers and producers of visualizations.

This course is a graduate reading seminar, in which historical and contemporary studies are used to explore the interaction of technology with social and political values. Emphasis is on how technological devices, structures, and systems influence the organization of society and the behavior of its members. Examples are drawn from the technologies of war, transportation, communication, production, and reproduction.

This course surveys canonical and recent theories and methods in science studies. We will organize our discussions around the concept of "reproduction," referring variously to:

1. Scientific reproduction (how results are replicated in lab, field, disciplinary contexts)
2. Social reproduction (how social knowledge and relations are regenerated over time)
3. Biological reproduction (how organic substance is managed in the genetic age)
4. Electronic reproduction (how information is reassembled in techniques of transcription, simulation, computation).

Examining intersections and disruptions of these genres of reproduction, we seek to map relations among our social, biological, and electronic lives.

This course considers the historical dimensions of rural production from subsistence to industrialization, both in America and in an international context, with an emphasis on the role of science and technology. Topics include changing notions of progress; emergence of genetics and its complex applications to food production; mechanization of both farm practices and the food industry; role of migrant labor; management theory and its impact on farm practice; role of federal governments and NGOs in production systems; women in food production systems; and the green revolution.

This course centers on the changing relationships between men, women, and technology in American history. Topics include theories of gender, technologies of production and consumption, the gendering of public and private space, men's and women's roles in science and technology, the effects of industrialization on sexual divisions of labor, gender and identity at home and at work.

What do technology and innovation mean from Africa? This is the central question of this course, which tackles a double absence: Of the meanings and role of technology in African history, on the one hand, and of Africa's place in the global history of technology, on the other. This course alternates between technologies from outside and technologies from within Africa and their itineraries in everyday life, and it is designed to provide students with grounded understandings of technology in Africa for intellectual and action-oriented purposes.

This course considers how the visual and material world of "nature" has been reshaped by industrial practices, ideologies, and institutions, particularly in nineteenth- and twentieth-century America. Topics include land-use patterns; the changing shape of cities and farms; the redesign of water systems; the construction of roads, dams, bridges, irrigation systems; the creation of national parks; ideas about wilderness; and the role of nature in an industrial world. From small farms to suburbia, Walden Pond to Yosemite, we will ask how technological and natural forces have interacted, and whether there is a place for nature in a technological world.

Acknowledgement

This class is based on one originally designed and taught by Prof. Deborah Fitzgerald. Her Fall 2004 version can be viewed by following the link under Archived Courses on the right side of this page.

Our linked subjects are (1) the historical process by which the meaning of technology has been constructed, and (2) the concurrent transformation of the environment. To explain the emergence of technology as a pivotal word (and concept) in contemporary public discourse, we will examine responses — chiefly political and literary — to the development of the mechanic arts, and to the linked social, cultural, and ecological transformation of 19th- and 20th-century American society, culture, and landscape.

Note: In the interests of freshness and topicality we regard the STS.464 syllabus as sufficiently flexible to permit some — mostly minor — variations from year to year. One example of a different STS.464 syllabus can be found in STS.464 Cultural History of Technology, Spring 2005.

Aim is to analyze important current events for what they reveal about the nature and working of our technological world. Starting point is connection between technology and terrorism. Subject also explores how a human-built world can foster insecurity and danger, and how human beings respond. Many invited guests help develop a strong interdisciplinary approach (science, engineering, social science, humanities). Topics include technological risk and remediation, sociotechnical systems, imagination of disaster, technology and identity, technology and religion, technology and education, and technology and trust. Written and oral assignments and a final project required. Service-learning proposals and web-based presentations, in addition to written work, may be considered for the final project by the instructor.

This course will consider the ways in which technology, broadly defined, has contributed to the building of American society from colonial times to the present. This course has three primary goals: to train students to ask critical questions of both technology and the broader American culture of which it is a part; to provide an historical perspective with which to frame and address such questions; and to encourage students to be neither blind critics of new technologies, nor blind advocates for technologies in general, but thoughtful and educated participants in the democratic process.

Today many people assume that technological change is the major factor in historical change and that it tends to lead to historical progress. This class turns these assumptions into a question—what is the role of technology in history?—by focusing on four key historical transitions: the human revolution (the emergence of humans as a history-making species), the Neolithic Revolution (the emergence of agriculture-based civilizations); the great leap in productivity (also known as the industrial revolution), and the great acceleration that has come with the rise of human empire on the planet. These topics are studied through a mix of textbook reading (David Christian's "Maps of Time"), supplementary readings (ranging from Auel, "The Clan of the Cave Bear" to Hersey, "Hiroshima"), illustrated lectures, class discussions, guest lectures/discussions, short "problem paper" assignments, and a final project defined by the student.

Because MIT is celebrating its 150th anniversary in 2011, this version of the class will also focus on connections between MIT as an institution and technology in the history of the last 150 years.