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Research Methods in Electrical Engineering

Research Methods in Electrical Engineering. Professor David Thiel Centre for Wireless Monitoring and Applications Griffith University, Brisbane Australia. Purpose. To make attendees familiar with the process of rigorous research in an academic environment.

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Research Methods in Electrical Engineering

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  1. Research Methods in Electrical Engineering Professor David Thiel Centre for Wireless Monitoring and Applications Griffith University, Brisbane Australia

  2. Purpose • To make attendees familiar with the process of rigorous research in an academic environment. • To encourage attendees to critically evaluate research papers they read. • To outline the processes required to undertake a research project.

  3. Topics • Overview of the Research Process • Literature Search • Report Writing, Data Collection & Presentation • Statistical Analysis of Data and Sampling • Making a Presentation • Survey Research Methods • Review

  4. Topic 1 Overview of the Research Process

  5. What is Research? • Discovery of new things that have been independently verified by other professionals. • Something new to humanity (not just new to you or your group).

  6. Good & Bad Research Examples • Case 1 A high school research paper • Case 2 A good idea • Case 3 Tested outcomes for a new idea

  7. Prior knowledge An idea Submit Report, Thesis, Journal or Conference Paper Discovery Independent verification: literature, experiment, numerical model, analytical model, etc Independent verification: literature, numerical model, analytical model, etc Assessors The Scientific Method The Outcome is Recognised as a Major contribution to the field

  8. The Research Community • All use the same scientific method. • All follow the same ethical principles. • All use the same language and terms. • All provide information to the world-wide community reported in a full and open manner. • All acknowledge the previous work of others.

  9. Publications and Referencing • The archival literature (must be printed somewhere and unalterable). • Must be reviewed by independent professionals before publication. • Must be complete so others can reproduce the results. • These three form the basic validity test!

  10. Types of Publication • Scientific papers (refereed journal and conference papers) • Trade articles • Newspaper articles • Infomercials • Advertisements You must only rely on refereed papers in accredited journals and conferences.

  11. How can you tell? • Length of title • References (and their quality) • Author’s name and affiliation • Evidence that the paper has been reviewed and revised. • Date of submission & date of publication. • The paper includes a review of previously published work. • Conclusion contains a critical reflection on the contents of the article.

  12. Activity • Use http://scholar.google.co.id/ and enter the key words from the paper you have. • Did you find it? • What else did you find?

  13. “Next step” research • Incremental advance compared to paradigm shift. • Lateral translation research.

  14. Topic 2 Literature Search

  15. Literature Review • Who has done what and how? • What is their plan for “further work”? • Have they reported more recent work in a conference? • What opportunities are available for confirming the results of others and expanding their results and conclusions?

  16. Key Words • Essential for searching the literature. • Must be both general and specific. patch antennas, dielectric, electrically small, mutual coupling

  17. Publication delays • Check your paper and see the submission date and the publication date. • This delay may mean that this team has moved forward with their research. Following their suggestions for further work might have you gazumped. • Conferences often have a 6 month delay between abstract submission and the conference presentation.

  18. Planning for an outcome • What is convincing “proof”? • What is the evidence you will provide? • Data • Sampling techniques • Accuracy. • Who is interested in this research? • Where will you release (publish/present) your research results?

  19. Anticipating problems • Team planning meetings • Circulate outcomes immediately following the meeting • Action items • Equipment calibration • Reliable power • Preventing Data loss

  20. Publication of Data • Internal report? • Choosing a conference • Choosing a journal

  21. Journal rankings • Impact factor • Half life • Citations (Google, ISI Thomson Web of Knowledge, Scopus, etc) http://scholar.google.co.id/ • Weaknesses of the ranking systems • H index – The number of papers that have more than that number of citations fpr person.

  22. Research Planning • Concurrent Engineering • Assembling the equipment • Arranging access to the site • Writing the paper draft • Choosing the journal • Concurrent Research

  23. Using the right language • Definition of terms (standards, standard usage, standard methods of analysis). • Standard Measurement Procedures • Standard values (eg copper conductivity) • Spelling (US English or UK English?), Lexicon and naming conventions. • Key words in publications • This is vital for accurate electronic searching of indexes.

  24. Searching the Web • Google scholar http://scholar.google.co.id/ • Journals and publisher’s indexes • IEEE Xplore digital library http://ieeexplore.ieee.org/Xplore/dynhome.jsp • Elsevier http://www.elsevier.com/wps/find/journal_browse.cws_home • and many more.

  25. IP Searching • Patents http://www.uspto.gov/http://www.wipo.int/pctdb/en/search-adv.jsp • PCT Applications http://www.wipo.int/pctdb/en/ • Country Based Searching http://www.wipo.int/ipdl/en/resources/links.jsp

  26. Activity • Find some scientific terms in your paper, and check the definition. (Why not wikipedia?) • Key word searches, key word selection. • Definition of terms.

  27. Topic 3 Report Writing

  28. The title • 10-15 words is most common. • Must be sufficiently specific.

  29. The Abstract – an example • High speed electronic beam switching is a desirable feature of smart antennas.

  30. The Abstract – an example • High speed electronic beam switching is a desirable feature of smart antennas. Most smart antennas are too large for most applications and require significant power during normal operations.

  31. The Abstract – an example • High speed electronic beam switching is a desirable feature of smart antennas. Most smart antennas are too large for most applications and require significant power during normal operations. A thirteen element switched parasitic antenna was optimised for gain, speed and beam coverage.

  32. The Abstract – an example • High speed electronic beam switching is a desirable feature of smart antennas. Most smart antennas are too large for most applications and require significant power during normal operations. A thirteen element switched parasitic antenna was optimised for gain, speed and beam coverage. Antenna characteristics were determined at 1.8 GHz by finite element modelling and measurements on a prototype.

  33. The Abstract – an example • High speed electronic beam switching is a desirable feature of smart antennas. Most smart antennas are too large for most applications and require significant power during normal operations. A thirteen element switched parasitic antenna was optimised for gain, speed and beam coverage. Antenna characteristics were determined at 1.8 GHz by finite element modelling and measurements on a prototype. The antenna had a gain of +9.8 dBi, a footprint of less than one half wavelength squared and was switched ion less than 100 ms.

  34. The Abstract – an example • High speed electronic beam switching is a desirable feature of smart antennas. Most smart antennas are too large for most applications and require significant power during normal operations. A thirteen element switched parasitic antenna was optimised for gain, speed and beam coverage. Antenna characteristics were determined at 1.8 GHz by finite element modelling and measurements on a prototype. The antenna had a gain of +9.8 dBi, a footprint of less than one half wavelength squared and was switched ion less than 100 ms. This is a better performance compared to previous antennas.

  35. The Abstract – a general guide • 2 sentences on the wider field – context and significance. • 2 sentences on the research method • 2 sentences on the results and conclusions.

  36. Scientific writing style Do’s and Don’ts • Past tense • Third person • Usually timing of events is not included unless it is essential to data collection. • Sections and subsections (one level? two level? three level?). • Quotes from other authors – not common!

  37. Creating equations • There are standard symbols for quantities (eg V=IR). • There are standard forms for scalar symbols (often lower case, italics, not-bold) and vector symbols (upper-case, bold). • The symbols must be the same font on every occasion used in the equations and in the main text. • All symbols must be defined. • MS Equation editor allows for equation creation. • There are standard upper-case and lower-case type settings.

  38. Data Collection & Presentation

  39. Types of Data • Quantitative data (numerical) • Integers (eg animal counts, packets received, bit error rate) • Non-integers (eg analog sensor output) • Qualitative data (descriptive words) • Binary data (yes/no, success/failure, present/absent etc) • Scalar information (1D, 2D, 3D, nD) • Vector information (1D, 2D, 3D, nD)

  40. Quantitative Data • Kelvin’s First Law of Measurement: “The measurement must not alter the event being measured”. • Microwave current measurements? • The impedance of an antenna?

  41. Data Presentation • Plots (2D and 3D), histograms, pie charts, tables of numbers. • Printed papers usually black and white (lines distinguished by dots, dashes, ellipse, legend etc) • Colour in power point slides and web publishing. • For comparison plot more than one data set on the same graph using the same scale. • Images and flow charts. • Interpolation and extrapolation. • Curve fitting (covered in later lectures) • Contour plots.

  42. Plotting and analysis tools • MS EXCEL (Chart Wizard - 4 steps) - demonstration • Matlab (plot, subplot, contour, quiver, etc)

  43. Graphing Guidelines • Always plot discrete points clearly. • Do not join points unless you have a continuous mathematical function. • To compare data plot several lines on the same axes. • Consider including error bars on all points

  44. X X

  45. Matlab scalar 2D plots contourf surf image mesh

  46. Matlab vector 2D plots quiver North-south (metres) East-west (metres)

  47. Qualitative Data • This can be a challenge as everyone will use a different description. • One approach is to convert qualitative data to quantitative data (eg rate from very bad to very good on a score of 1 to 10).

  48. Decision Matrix

  49. Decision Matrix - Histogram Score Survey Questions

  50. Data Collection • Asking the right questions without leading the person (survey instruments - questionaires). • Use redundant questions that always need a positive response (discussed in a later lecture). • Survey results (Is 35% return good enough?).

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