Literature Index

Displaying 2471 - 2480 of 3326

  • Teaching engineering statistics to practicing engineers.

    Author(s):
    Romeu, J. L.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    Teaching statistics to engineers is a challenging task. First, lacking space, many engineering curricula include few or no statistics courses, and these are often packed and highly theoretical. Thence, students don't perceive statistics as a part of their engineering toolkit, but as a nuisance to endure. On the other hand, engineering is a two-part endeavour. One consists in building or modifying systems. The second is measuring/assessing system performances, which are nothing but random variables. Therefore, there can be no engineering work without statistical analyses. In this paper we discuss and assess ways to enhance the insufficient statistical education that many engineers receive once they have left college. Such methods, designed for practicing professionals include (print and electronic) materials produced for self-study, short training courses and the development of industry-academe organizations to help practicing engineers by "looking over their shoulders." Finally, a selection of related free Web Sites are presented.
    Location:
    http://www.stat.auckland.ac.nz/~iase/publications/17/4A1_ROME.pdf

  • Teaching Ethics in Statistics Class

    Author(s):
    John H. Walker
    Year:
    2008
    Abstract:
    Ethics play an important role in statistical practice. How can we educate our students about statistical ethics--especially when our courses are already packed with so much...statistics? At the Joint Statistical Meetings in August, I was the discussant in a session on "Teaching Ethics in Statistics Class." First, I will briefly review the points raised by the speakers in that session. George McCabe (Purdue) contrasted the "old" introductory statistics course with its emphasis on methodology to the "new" course. Patricia Humphrey (Georgia Southern) spoke about how she covers ethical data collection in her introductory classes. Paul Velleman (Cornell) talked about the role of judgment in statistical model building and how it makes students (and sometimes us) uncomfortable. I will discuss each of these points in the context of the American Statistical Association's "Ethical Guidelines for Statistical Practice" as well as my own experiences in teaching statistical ethics in an undergraduate capstone course for statistics majors. I will close with an example of statistical ethics in the use of multiple comparison procedures.
    Location:
    http://www.causeweb.org/webinar/2008-12/

  • Teaching experiment methodology: Underlying principles and essential elements

    Author(s):
    Steffe, L. P., Thompson, P. W.
    Editors:
    Lesh, R., Kelly, A. E.
    Year:
    2000
    Abstract:
    A primary purpose of using teaching experiemtn methodology is for researchers to experience, firsthand, students' mathematical learning and reasoning. Without the experiences afforded by teaching, there would be no basis for coming to understand the powerful mathematical concepts and operations students construct or even for suspecting that these concepts and operations may be distinctly different from those of researchers.

  • Teaching experimental design in the computer age

    Author(s):
    Mead, R.
    Editors:
    Grey, D. R., Holmes, P., Barnett, V., & Constable, G. M.
    Year:
    1983
    Abstract:
    The basic principles of experimental design, as it is usually taught today, both to students specialising in statistics and to those in other disciplines, were established nearly fifty years ago. For many statisticians and users of statistics, the major textbook on Design is still Cochran and Cox (1957), written before the advent of the computer. During the last twenty-five years, our computational habits have changed radically, and it is important to ask whether the fundamental ideas of experimental design remain unchanged, or whether these ideas were influenced by the computational environment in which they were developed. I shall not be talking about design by computer, but about the teaching of design liberated by the computer from restrictions imposed by the need to analyse the data. I shall attempt to consider not only the teaching of design now, but into the future.

  • Teaching Experimental Design To Engineers: Some Experiences And Advice

    Author(s):
    Montgomery, D. C.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    Designing and conducting experiments is an important aspect of engineering practice, with applications in both product and process design/development and manufacturing. This presentation focuses on the essential topics for an experimental design course and offers advice based on 30 years of experience in how to structure such a course so that is meaningful to an engineering-oriented audience. Some experiences from the course offered by the presenter at ASU are given.
    Location:
    http://www.stat.auckland.ac.nz/~iase/publications/1/7c3_mont.pdf

  • Teaching Exploratory Data Analysis Through Problem Solving

    Author(s):
    Maher, C., & Pancari, J.
    Editors:
    Pereira-Mendoza, L.
    Year:
    1993
    Abstract:
    This paper begins by offering eight recommendations for successful integration of statistics into the pre-college curriculum. Two student-centered activities are described which have been successful in fostering maximum student involvement and involve multiple modes of representation.

  • Teaching Factor Analysis in Terms of Variable Space and Subject Space Using Multimedia Visualization

    Author(s):
    Yu, C. H., Andrews, S., Winograd, D., Jannasch-Pennell, A., & DiGangi, S. A.
    Year:
    2002
    Abstract:
    There are many common misconceptions regarding factor analysis. For example, students do not know that vectors representing latent factors rotate in subject space, rather than in variable space. Consequently, eigenvectors are misunderstood as regression lines, and data points representing variables are misperceived as data points depicting observations. The topic of subject space is omitted by many statistics textbooks, and indeed it is a very difficult concept to illustrate. An animated tutorial was developed in an attempt to alleviate this problem. Since the target audience is intermediate statistics students who are familiar with regression, regression in variable space is used as an analogy to lead learners into factor analysis in the subject space. At the end we apply the Gabriel biplot to combine the two spaces. Findings from a textbook review, a survey, and a "think aloud" protocol were taken into account during the program development and are discussed here.
    Location:
    http://www.amstat.org/publications/jse/v10n1/yu.html

  • Teaching for analogical transfer as a means of improving problem-solving, thinking and learning

    Author(s):
    Klauer, K. J.
    Year:
    1989
    Abstract:
    Analogical transfer is transfer of a basic structure acquired through one or more instances to another instance. A basic structure like this is sometimes called a paradigm. Paradigmatic teaching, i.e. teaching for analogical transfer, requires the teaching of a basic structure by appropriate exemplars as well as the teaching of its application in various fields and contexts. This is demonstrated using research on teaching for problem-solving, inductive thinking, and learning-to-learn.

  • Teaching high school mathematics with computers

    Author(s):
    Suzuki, G.
    Editors:
    Vere-Jones, D., Carlyle, S., & Dawkins, B. P.
    Year:
    1991
    Abstract:
    Our program package for computers has been constructed mainly to assist in teaching. Its characteristic features are as follows: 1) It is constructed for easy handling. 2) Its function carefully follows the content of standard textbooks of high school mathematics. 3) It is aimed at learners who are not so good at mathematics. 4) The package is, at present, restricted to assist studying of only the most fundamental concepts included in the standard textbooks. 5) The introductory parts explaining new concepts are programmed for the screen to change slowly enough. 6) Almost all of the computer screens are programmed with many colours and some with movements. 7) User-friendly manuals to operate the package are being prepared. For further details, please contact the author at the address listed in the index.

  • Teaching Highs and Lows: Exploring University Teaching Assistants' Experiences

    Author(s):
    Jennifer L. Green
    Year:
    2010
    Abstract:
    Recent reforms in statistics education have initiated the need to prepare graduate<br><br>teaching assistants (TAs) for these changes. A focus group study explored the<br><br>experiences and perceptions of University of Nebraska-Lincoln TAs. The results<br><br>reinforced the idea that content, pedagogy, and technology are central aspects for<br><br>teaching an introductory statistics course. The TAs addressed the need for clear,<br><br>specific guidelines and examples, as well as collaboration between colleagues. The<br><br>TAs also sought opportunities to enrich their teaching skills and, ultimately, their<br><br>impact on students' learning. These findings support previous research on graduate<br><br>TAs and highlight the need for additional exploration of the role graduate statistics<br><br>TAs play in introductory statistics educatio
    Location:
    http://www.stat.auckland.ac.nz/~iase/serj/SERJ9(2)_Green.pdf

Pages

The CAUSE Research Group is supported in part by a member initiative grant from the American Statistical Association’s Section on Statistics and Data Science Education