Data can be intimidating. Collecting data that is specific to a learning objective and breaking it down in ways that can easily translate to instructional strategies can make the use of data less daunting.
“In its simplest form, data is a collection of facts and statistics that can be used for planning or analysis.” (RethinkEd.com) Data provides teachers with the evidence they need to substantiate the instructional choices they make for their students. Data can also help teachers monitor students‘ progress as they progress through a unit.
Performance assessments, pre-tests, student conferences, attendance, and test scores are some examples of data sources that help inform classroom, school, and district decisions.
What is baseline data and how is it collected?
Baseline data measures student understanding, knowledge or performance prior to intervention or teaching. It can be collected through various measures including: percent accuracy, frequency, duration, rate and intervals.
Number/Percent accurate is collected by calculating the number of target responses divided by the total number of opportunities. This can be recorded as a fraction or percentage. The chart below shows an example of the data gathered on a small group of students during a math assessment in which the students were presented with four problems. Other examples of situations where you might collect data on number or percent of accuracy might be:
- Number of words spelled correctly
- Percentage of math problems solved correctly
- Vocabulary words correctly defined
| Student | Problem #1 | Problem #2 | Problem #3 | Problem #4 | Total/Notes |
| J.D. | + | + | – | + | 3/4; M/not labeling; copied incorrectly |
| A.B. | + | + | – | – | 2/4; NM/misidentifying factors |
| E.T. | + | + | + | + | 4/4; E/enrichment |
| P.K. | – | + | – | – | 1/4; NM/basic facts; not labeling |
| R.W. | + | + | + | – | 3/4; E/ copied incorrectly |
Key: NM– did not meet expectations M: met expectations E: exceeded expectations
You can record frequency by tracking the number of instances of a behavior. Collect frequency data with counters, tallies or a similar technique. The chart below shows data collected on a single student throughout her day regarding the her success in following directions without prompting. Other examples of situations you might record the frequency of something happening could include:
- Number of words read
- Number of times a student gets out of their seat
- Number of times students raise their hands
| Class Period | Followed directions without prompting | Directions Given | Total |
| Math | IIII | IIIII | 4/5 |
| ELA | II | III | 2/3 |
| Science | I | IIIII | 1/5 |
| History | III | IIIII II | 3/7 |
| Specialist | IIIII | IIIII | 5/5 |
| TOTAL | 15 | 25 | 15/25 |
Duration is measured by tracking the length of a specific occurrence of a behavior. To record duration, start a timer when the behavior commences and stop the timer when the behavior ceases. The chart below is an example of data collected on one student to track his time on task during English Language Arts class over a two day period. Other examples of when measuring the duration of behaviors might be:
- How long a student engages in tantrum behavior
- How long a student engages in peer interactions
- How long a student remains on task
| DG’s Time on Task in ELA | |||
| Date | Start Time |
End Time | Total Number of Minutes |
| 1/15 | 8:40 | 8:47 | 7 |
| 1/15 | 9:15 | 9:26 | 11 |
| 1/16 | 8:40 | 8:52 | 12 |
| 1/16 | 9:05 | 9:37 | 32 (Webquest w/ partner) |
| 1/17 | 8:47 | 8:53 | 6 |
| 1/17 | 9:22 | 9:30 | 8 |
| 1/17 | 9:35 | 9:40 | 5 |
| 1/19 | 8:51 | 9:20 | 29 (Audio book) |
| 1/19 | 9:24 | 9:30 | 6 |
Rate is calculated by recording the number of behaviors per unit of time.
- Number of words read per minute
- Number of math problems completed per minute
- Number of tantrums per hour
Interval data can be used when tracking each occurrence of behavior is not possible, or when the start and end time of the behavior is not clear. You can also use interval data to obtain a sampling rather than an exact count. Also you can measure interval data by determining a preset time interval and then marking whether the behavior occurred during that interval. The chart below shows data collected on a specific behavior for one student in the class he attended just before lunch on one day. Other examples of situations which might lend themselves to tracking interval data might be:
- The occurrence of body rocking
- The occurrence of staying in an assigned area
- The occurrence of off-task behavior
| Wandering from Seat | ||
| Time Period | Yes | No |
| 12:00-12:10 | x | |
| 12:10-12:20 | x | |
| 12:20-12:30 | x | |
| 12:30-12:40 | x | |
Without baseline data, it is difficult to show improvement in learning in a class as a whole or in identified subgroups of that class: identified students, students ready for additional challenge, students who speak English as a second language, etc.
Baseline data should always serve as a starting point for instruction and can be gathered from prior student work, student assessment scores (classroom or standardized), or other anecdotal data. It is not recommended that teachers use homework as baseline data, since it is difficult to ascertain whether or not students’ completed the work independently.
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Baseline data must be gathered from a pretest or other assessments directly targeting the skills to be taught in the lesson. In sequential lessons with objectives that build on one another, new prior evidence might include the data and work samples from the most recent preceding lesson.
Once baseline data has been collected, it must be analyzed to determine an appropriate instructional response for each student. To do so, consider proficiency in regard to your objective as described above. Which students are close to proficiency based on their pretest data? Which students are far from proficiency and will need scaffolded support to move toward mastery? Complete an error analysis for each student’s mistakes. Next, look for patterns in student understanding and misunderstanding in an effort to determine possible student groupings during the lesson. It is easier to see patterns in data if you represent your data in a graph or chart.
