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Behavioral Observation and Archives

Behavioral Observation and Archives. From An Introduction to Scientific Research Methods in Geography (Montello and Sutton). Learning Objectives. How are behavioral observations and archives used to collect data in geography?

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Behavioral Observation and Archives

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  1. Behavioral Observation and Archives From An Introduction to Scientific Research Methods in Geography (Montello and Sutton)

  2. Learning Objectives • How are behavioral observations and archives used to collect data in geography? • How are behavioral observations and archives examples of nonreactive measurements, and how are they not? • How is scientific behavioral observation different than everyday behavioral observation? • What is “coding” open-ended records, and how are coding systems developed? • How are validity and reliability established for coded data?

  3. Behavioral Observation & Archives • Both are methods to collect data on people’s current or ongoing activities • Both can produce data without requiring people to intentionally and knowingly supply information to a researcher (as can physical trace measures)

  4. Behavioral Observation Basics Behavior is overt, potentially perceptible action or activity by people or other animals; nearly always goal-directed Scientific observation of behavior aims to apply systematicity and objectivity to observing behavior; requires a planned strategy; initially produces data rather than inferences about the meaning or intention of the behavior Records of behavior are made for later coding into data

  5. Nonreactive and Reactive Observation The nonreactive nature of behavioral observation depends on whether or not people are aware they are being observed and recorded Observers or recording devices may be hidden, or placed in plain sight with a delay before recording (those being observed likely revert to “normal” behavior). Participant observation is when the researcher joins an ongoing setting or subcultural group as a member

  6. Ways to Observe Behavior Annecdotal records (these are rich, but lack systematicity) Checklists or rating scales of activities A specimen record or “running record” (a detailed and comprehensive record of what an individual or group does over time) Formal observation schedules: (1) Time sampling (specified, uniform time intervals), (2) Event sampling (whenever the event occurs during the study) Researchers must use time or event sampling when data depend on temporally recurring phenomena

  7. Ways to Encode Behavior Can be live and in situ; but coding reliability is suspect; the researcher may miss critical events Typically, researchers use recording media and code later to produce interpretable data The recording media vary, depending on nature of the record, cost and efficiency Examples include: still photographs, audio recordings, video recordings; radio or GPS tracking; traffic recorders; transaction logs (internet site visits)

  8. Behavioral Observation Problems Coding is labor intensive and difficult to do well It may be reactive if those observed become aware of researcher Observers’ and coders’ perception is subjective and selective Observers have tendency to interpret the world meaningfully (instead of just recording behavior) Observers and recording devices have points of view (they observe from some positions and not others)

  9. Questions: Behavioral Observation How does scientific behavioral observation differ from everyday behavioral observation that we all do? What are some different ways to record behavior for future coding and analysis? What are the formal observation schedules of time and event sampling? What are some strengths and weaknesses of behavioral observation as a technique for collecting data?

  10. Archives Archives are existing records that were not collected for the purpose of a particular geographer’s research; so, archives are clear examples of secondary data Archives are nonreactive; may be biased if they result from a data-gathering method that influenced the subject to try and create a particular impression with the data they provide Archives refer to records expressed in symbolic form (words, numbers, images); they indirectly refer to entities or processes Archives often must be coded to provide usable data

  11. Questions: Archives What are some examples of archival data sources in geography? How do archives differ from physical materials? To what extent are archives examples of nonreactive measures? What are some strengths and weaknesses of archives as a source of data?

  12. Coding Open-Ended Records Open-ended records typically consist of words, pictures, or intentional acts that have meaning; semiotic (symbolic) artifacts created by an entity with agency Coding is the process of turning open-ended records in data; document final system in a coding manual; known as content analysis when applied to verbal or graphical expressions Consists of (1) segmentation - breaking records into appropriate units, and (2) classification - grouping segments into abstracted categories that capture aspects of the the content or meaning of the records (virtually always reduction)

  13. Categories for Coding Categories effectively and efficiently capture aspects of the records relevant to specific theoretical interests They should be (1) specifically and operationally defined, (2) exhaustive (provide coding option for every possible segment a coder will encounter in the record), and (3) mutually exclusive (each segment falls into exactly one category) Three to ten categories are recommended (depends on nature of records and research question) Meaning of categories should depend on prior conceptual and theoretical knowledge accumulated in the problem domain

  14. Coding Example Case study: How people look at and remember information from topographic contour maps and natural landscapes Researchers recorded a transcription of the subjects’ verbal recall A coding sheet was used to classify elements of the verbal recalls in the transcription record Coding sheet terms included: demographic information, number of features (and mistakes), 8 terrain types (either single or multielement), 7 spatial terms (either ego-independent or ego-dependent)

  15. Coding Reliability and Validity Coded records are data; want to know if they measure what you think or claim they do Researchers must show coding is reliable: that measurement is consistent Reliability is established if two or more coders redundantly and independently code subsets of the records) Researchers must show coding is valid: that the measure is truthful (has construct validity) Validity is determined by the detail and transparency of the documented coding system, and by statistical relationships to other data already understood to be valid

  16. Questions: Coding Open-Ended Records What types of data sources in geography require open-ended coding and why? What are the two parts of coding called segmentation and classification? What are properties of a good coding system, and how does one go about developing such a system? How does one establish the reliability and validity of a coding system? End…

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