Literature Index

Displaying 1981 - 1990 of 3326
  • Author(s):
    Petocz, P.
    Editors:
    Vere-Jones, D., Carlyle, S., & Dawkins, B. P.
    Year:
    1991
    Abstract:
    This paper presents a series of practical experiments that can be used to demonstrate the ideas of sampling at all levels, from introductory to advanced. The material presented consists of a brief introduction to sampling, the "Sample Space" star map, and two sampling experiments based on the map. It is presented in a form that can be used directly for teaching classes or for individual study. Further experiments can be found in Petocz (1990). Three of these were described in the original draft of this paper, as presented at the ICOTS Conference, and are available from the author on request.
  • Author(s):
    Dixon, P.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    Taught modules on sample survey methods provide a useful means of integrating and extending a range of statistical ideas. Knowledge and expertise gained in basic Statistics modules at Levels 1 and 2 can be brought together and applied in sample surveys, and provide the platform for the development and application of more advanced concepts. This paper mainly concerns Level 3 modules in the programme of Statistics learning in the undergraduate degree(s) at The Nottingham Business School, but the principle has been applied elsewhere.
  • Author(s):
    Iturralde, D.
    Editors:
    Phillips, B.
    Year:
    2002
    Abstract:
    Statistics South Africa is the official supplier of statistics for the South African government. It supplies various types of statistics to government departments, industry, financial houses as well as economic and developmental planners. Being an organisation where many subject experts are employed and where transfer of knowledge takes place, it is only natural to see that the quality of the organisation lies in its people and in the continual development of people's skills. SAS is the most widely used data management and statistical tool, especially in social and economic statistics. Training is provided as part of a well defined development plan that each employee has in terms of their position. Most of the training deals with data management and data manipulation as well as statistical analysis. It is intended that as people learn more that people will want to know more and the stage has been reached where features such as SQL and Macro Language amongst others are being trained. Training of Statistics can therefore take place with SAS being used as an analytical tool. Products such as SAS Analyst and Enterprise Guide allow the instructor to practically demonstrate the application of statistical techniques. Various different statistical procedures can be performed from simple descriptive statistics to complex inferential statistical procedures like data mining and time series analysis. Training of this nature goes hand in hand very effectively with the more theoretical type of statistical tuition that someone might receive elsewhere. However, if a trainee is able to see the link between the theoretical approach and the practical application thereof then everything becomes clearer, it stimulates the desire to learn more and everything falls into place. Skills development in South Africa is very important to the extent that legislation has enabled Statistics SA to be part of a Public Sector Education & Training Authority (PSETA). Through this Stats SA has proposed to create SAS learnerships, which would allow individuals to learn and apply knowledge gained by SAS in the workplace. Hence, this paper aims to show the value that the training and usage of SAS has to an organisation like Statistics SA and what new developments and initiatives can be pursued to further meet this aim.
  • Author(s):
    Sharpe, K.
    Editors:
    Vere-Jones, D., Carlyle, S., & Dawkins, B. P.
    Year:
    1991
    Abstract:
    During the 60s and 70s students were encouraged to become statisticians because of the intrinsic interest of the discipline and because of the predicted future need for statisticians. Many people who appreciated the wide applicability of statistics felt that it was only a matter of time before employers would be crying out for statisticians and that newspapers would be full of advertisements for interesting and well-paid jobs for statisticians. The ensuing campaign to attract students was reasonably successful and the number of students majoring in statistics showed slow but steady growth. Unfortunately, the demand for statisticians did not grow at the predicted rate. One of the reasons for this was that the people making the employment decisions tended to have little understanding of statistics and would be far more inclined to employ an engineer or an economist, even when the job was primarily statistical nature. For a number of years I have given a course, "Statistics for Research Workers", and have been disturbed by the number of people attending this introductory course who have been working as statisticians. The last decade has seen a dramatic change due primarily, to the computer. Many more people now have the opportunity and the need to work with data, and the ability to readily carry out, though not necessarily understand, quite complex statistical procedures. There has also been a substantial increase in the statistical training of people for a wide range of professions so that there is, overall, a much greater awareness of the need for and the benefits to be gained from statistical expertise. As a consequence, the number of jobs being advertised which specify statistical expertise has grown to the point where there is now a recognised shortage of well trained statisticians. By the early 80s Honours courses were starting to change to reflect the students' interests and in 1984 Melbourne, Monash and LaTrobe Universities started to explore the possibility of mounting a joint MSc by Coursework programme in order to try to satisfy the need for applied statisticians.
  • Author(s):
    Pierce, R. L.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    SATS survey data collected from three introductory statistics courses - college algebra-based, college calculus-based, and a high school AP course. Instructors of these courses also completed a questionnaire concerning their approach to a 1st course in statistics. What are the similarities and differences in the students' attitudes to each instructor's approach?
  • Author(s):
    Hammerman, J. K. L., & Rubin, A.
    Editors:
    Rossman, A., & Chance, B.
    Year:
    2006
    Abstract:
    Educational software for statistics and data analysis provides a variety of tools for seeing and expressing ideas about data distributions. However, the ideas that learners find important to express often depend on an interaction between software and the shape of the distributions themselves. In this interview study of teachers participating in the VISOR professional development program, we investigate how distributional shape (symmetric or skewed) and choice of software tool (TinkerPlots or Fathom) affect the variety of ways that teachers discuss data distributions when comparing groups. We find teachers' confidence is increased when different measures or ways of viewing data "say the same thing," which more often holds true with symmetric distributions. When these seem to conflict, typically with skew distributions, teachers work to understand the measures themselves, and introduce new ways of characterizing data, so that they can make coherent sense of the distributions. The paper introduces a distinction between rule-driven and value-driven measures which we find important in understanding teachers' analytic methods.
  • Author(s):
    Kao, M. T. & Lehman, J. D.
    Year:
    1997
    Abstract:
    Scoffoling refers to the instructional support that instructors or more skillful peers offer learners to bridge the gap between their current skill levels and the desired level. An aspect of scaffolding that is olften ignored is the fading of support as the learner masters the skill. It has been suggested that there is a risk of over-relying on the support of integrated media in computer-assisted instruction. A three-dimension (3-D) model of scaffolding that incorporates level of subtask, level of support, and number of repititions of practice has been proposed to vary the technology support systematically in response to the learner's performance. The 3-D contingent scaffolding model was implemented in a comptuer-based instructional program for statistics called "Hypothesis Testing--the Z-test" in order to establish baseline data for integrated media-based instruction or a hypermedia learning environment. The scaffolded instruction was evaluted in terms of knowledge maintenance and transfer by comparing it to full-support instruction and least-support instruction. Findings from 75 college students provide evidence that the scaffolded computer-based instruction promoted knowledge maintenance and improved independent knowledge application, while promoting learning consistently across individuals. Results also show that a dynamic measure of the learner's ability is a better predictor of the learning outcome for subjects using this scaffolded instruction than static measures. The model provides a systemic way to link the concept of scaffolding to integrated media design features using both support building and support fading techniques.
  • Author(s):
    Makar, K., Bakker, A., & Ben-Zvi, D.
    Year:
    2015
  • Author(s):
    Ben-Zvi, D.
    Year:
    2006
    Abstract:
    This paper focuses on developing students' informal ideas of inference and argumentative skills. This topic is of current interest to many researchers and teachers of statistics. We study fifth graders' learning processes in an exploratory interdisciplinary learning environment that usesTinkerPlots to scaffold and extend students' statistical reasoning. The careful design of the learning trajectory based on growing samples heuristics coupled with the unique features ofTinkerPlots were found instrumental in supporting students' multiplicative reasoning, aggregate reasoning, acknowledging the value of large samples, and accounting for variability. These processes were accompanied by greater ability to verbalize, explain and argue about data-based inferences. In the light of the analysis, a description of what it may mean to begin reasoning and arguing about inference by young students is proposed.
  • Author(s):
    Ben-Zvi, D.
    Editors:
    A. Rossman and B. Chance
    Year:
    2006

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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

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