7

I have time series data in CSV from vehicle with following information:

  • trip-id
  • timestamp
  • speed

The data looks like this:

trip-id | timestamp  | speed

001     | 1538204192 | 44.55
001     | 1538204193 | 47.20 <-- start of brake
001     | 1538204194 | 42.14
001     | 1538204195 | 39.20
001     | 1538204196 | 35.30
001     | 1538204197 | 32.22 <-- end of brake
001     | 1538204198 | 34.80
001     | 1538204199 | 37.10
...
001     | 1538204221 | 55.30
001     | 1538204222 | 57.20 <-- start of brake
001     | 1538204223 | 54.60
001     | 1538204224 | 52.15
001     | 1538204225 | 49.27
001     | 1538204226 | 47.89 <-- end of brake
001     | 1538204227 | 50.57
001     | 1538204228 | 53.72
...

A braking event occurs when there's a decrease in speed in 2 consecutive records based on timestamp.

I want to extract the braking events from the data in terms of event start timestamp, end timestamp, start speed & end speed.

+-------------+---------------+-------------+-----------+---------+
|      breakID|start timestamp|end timestamp|start speed|end speed|
+-------------+---------------+-------------+-----------+---------+
|0011538204193|     1538204193|   1538204196|       47.2|     35.3|
|0011538204222|     1538204222|   1538204225|       57.2|    49.27|
+-------------+---------------+-------------+-----------+---------+

Here's my take:

  1. Defined a window spec with partition according to trip-id, ordered by timestamp.
  2. Applied window lag to move over consecutive rows and calculate speed difference.
  3. Filter out records which have positive speed difference, as i am interested in braking events only.
  4. Now that I only have records belonging to braking events, I want to group records belonging to same event. I guess i can do this based on the timestamp difference. If the difference between 2 records is 1 second, those 2 records belong to same braking event.

I am stuck here as i do not have a key belonging to same group so i can apply key based aggregation.

My question is:

  1. How can I map to add a key column based on the difference in timestamp? So if 2 records have a difference of 1 seconds, they should have a common key. That way, I can reduce a group based on the newly added key.

  2. Is there any better & more optimized way to achieve this? My approach could be very inefficient as it relies on row by row comparisons. What are the other possible ways to detect these kind of "sub-events" (e.g braking events) in a data-stream belonging to a specific event (data from single vehicle trip)?

Thanks in advance!


Appendix:

4
  • 1
    After step 3, how about adding a column for if it the start of a break (eg timestamp is more than 1 greater than the row preceding it) and encode 1 as the start and 0 for all other rows. Then, you could do a cumulative sum on the derived column which would leave all events in the first break labeled 1, all in the second labeled 1, etc (eg stackoverflow.com/questions/46979685/…). – David Aug 16 '19 at 13:13
  • You do not need to think about the timestamp difference at all. You can use a cumulative sum to see which events belong to the same braking event. – pault Aug 16 '19 at 15:40
  • @pault Not sure if i understand that. Could you please explain this a bit more? How would that work out? – Shumail Aug 16 '19 at 15:48
  • @Shumail do you want dataframe with no trip-id with just columns start timestamp, end timestamp, start speed & end speed? – C.S.Reddy Gadipally Aug 16 '19 at 16:29
2

Hope this helps. Scala code.

Output

+-------------+---------------+-------------+-----------+---------+
|      breakID|start timestamp|end timestamp|start speed|end speed|
+-------------+---------------+-------------+-----------+---------+
|0011538204193|     1538204193|   1538204196|       47.2|     35.3|
|0011538204222|     1538204222|   1538204225|       57.2|    49.27|
+-------------+---------------+-------------+-----------+---------+

CODE

import org.apache.spark.sql.expressions.Window
import org.apache.spark.sql.expressions.WindowSpec
import org.apache.spark.sql.functions._

scala> df.show
+-------+----------+-----+
|trip-id| timestamp|speed|
+-------+----------+-----+
|    001|1538204192|44.55|
|    001|1538204193| 47.2|
|    001|1538204194|42.14|
|    001|1538204195| 39.2|
|    001|1538204196| 35.3|
|    001|1538204197|32.22|
|    001|1538204198| 34.8|
|    001|1538204199| 37.1|
|    001|1538204221| 55.3|
|    001|1538204222| 57.2|
|    001|1538204223| 54.6|
|    001|1538204224|52.15|
|    001|1538204225|49.27|
|    001|1538204226|47.89|
|    001|1538204227|50.57|
|    001|1538204228|53.72|
+-------+----------+-----+

val overColumns = Window.partitionBy("trip-id").orderBy("timestamp")
val breaksDF = df
  .withColumn("speeddiff", lead("speed", 1).over(overColumns) - $"speed")
  .withColumn("breaking", when($"speeddiff" < 0, 1).otherwise(0))

scala> breaksDF.show
+-------+----------+-----+-------------------+--------+
|trip-id| timestamp|speed|          speeddiff|breaking|
+-------+----------+-----+-------------------+--------+
|    001|1538204192|44.55| 2.6500000000000057|       0|
|    001|1538204193| 47.2| -5.060000000000002|       1|
|    001|1538204194|42.14|-2.9399999999999977|       1|
|    001|1538204195| 39.2|-3.9000000000000057|       1|
|    001|1538204196| 35.3|-3.0799999999999983|       1|
|    001|1538204197|32.22| 2.5799999999999983|       0|
|    001|1538204198| 34.8| 2.3000000000000043|       0|
|    001|1538204199| 37.1| 18.199999999999996|       0|
|    001|1538204221| 55.3| 1.9000000000000057|       0|
|    001|1538204222| 57.2|-2.6000000000000014|       1|
|    001|1538204223| 54.6| -2.450000000000003|       1|
|    001|1538204224|52.15|-2.8799999999999955|       1|
|    001|1538204225|49.27|-1.3800000000000026|       1|
|    001|1538204226|47.89| 2.6799999999999997|       0|
|    001|1538204227|50.57| 3.1499999999999986|       0|
|    001|1538204228|53.72|               null|       0|
+-------+----------+-----+-------------------+--------+


val outputDF = breaksDF
  .withColumn("breakevent", 
    when(($"breaking" - lag($"breaking", 1).over(overColumns)) === 1, "start of break")
    .when(($"breaking" - lead($"breaking", 1).over(overColumns)) === 1, "end of break"))

scala> outputDF.show
+-------+----------+-----+-------------------+--------+--------------+
|trip-id| timestamp|speed|          speeddiff|breaking|    breakevent|
+-------+----------+-----+-------------------+--------+--------------+
|    001|1538204192|44.55| 2.6500000000000057|       0|          null|
|    001|1538204193| 47.2| -5.060000000000002|       1|start of break|
|    001|1538204194|42.14|-2.9399999999999977|       1|          null|
|    001|1538204195| 39.2|-3.9000000000000057|       1|          null|
|    001|1538204196| 35.3|-3.0799999999999983|       1|  end of break|
|    001|1538204197|32.22| 2.5799999999999983|       0|          null|
|    001|1538204198| 34.8| 2.3000000000000043|       0|          null|
|    001|1538204199| 37.1| 18.199999999999996|       0|          null|
|    001|1538204221| 55.3| 1.9000000000000057|       0|          null|
|    001|1538204222| 57.2|-2.6000000000000014|       1|start of break|
|    001|1538204223| 54.6| -2.450000000000003|       1|          null|
|    001|1538204224|52.15|-2.8799999999999955|       1|          null|
|    001|1538204225|49.27|-1.3800000000000026|       1|  end of break|
|    001|1538204226|47.89| 2.6799999999999997|       0|          null|
|    001|1538204227|50.57| 3.1499999999999986|       0|          null|
|    001|1538204228|53.72|               null|       0|          null|
+-------+----------+-----+-------------------+--------+--------------+


scala> outputDF.filter("breakevent is not null").select("trip-id", "timestamp", "speed", "breakevent").show
+-------+----------+-----+--------------+
|trip-id| timestamp|speed|    breakevent|
+-------+----------+-----+--------------+
|    001|1538204193| 47.2|start of break|
|    001|1538204196| 35.3|  end of break|
|    001|1538204222| 57.2|start of break|
|    001|1538204225|49.27|  end of break|
+-------+----------+-----+--------------+

outputDF.filter("breakevent is not null").withColumn("breakID", 
  when($"breakevent" === "start of break", concat($"trip-id",$"timestamp"))
  .when($"breakevent" === "end of break", concat($"trip-id", lag($"timestamp", 1).over(overColumns))))
  .groupBy("breakID").agg(first($"timestamp") as "start timestamp", last($"timestamp") as "end timestamp", first($"speed") as "start speed", last($"speed") as "end speed").show


+-------------+---------------+-------------+-----------+---------+
|      breakID|start timestamp|end timestamp|start speed|end speed|
+-------------+---------------+-------------+-----------+---------+
|0011538204193|     1538204193|   1538204196|       47.2|     35.3|
|0011538204222|     1538204222|   1538204225|       57.2|    49.27|
+-------------+---------------+-------------+-----------+---------+
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|
2
  • Its all good except that the final result is incorrect. I guess it is fixable though, by using lag instead of lead? – mazaneicha Aug 17 '19 at 19:41
  • @C.S.Reddy Gadipally You're a genius! The part where you generate trip-id is quite novel. Thank you. – Shumail Aug 18 '19 at 9:18
5

For Pandas users, there is pretty much a common programming pattern using shift() + cumsum() to setup a group-label to identify consecutive rows matching some specific patterns/conditions. With pyspark, we can use Window functions lag() + sum() to do the same and find this group-label (d2 in the following code):

Data Setup:

from pyspark.sql import functions as F, Window

>>> df.orderBy('timestamp').show()
+-------+----------+-----+
|trip-id| timestamp|speed|
+-------+----------+-----+
|    001|1538204192|44.55|
|    001|1538204193|47.20|
|    001|1538204194|42.14|
|    001|1538204195|39.20|
|    001|1538204196|35.30|
|    001|1538204197|32.22|
|    001|1538204198|34.80|
|    001|1538204199|37.10|
|    001|1538204221|55.30|
|    001|1538204222|57.20|
|    001|1538204223|54.60|
|    001|1538204224|52.15|
|    001|1538204225|49.27|
|    001|1538204226|47.89|
|    001|1538204227|50.57|
|    001|1538204228|53.72|
+-------+----------+-----+

>>> df.printSchema()
root
 |-- trip-id: string (nullable = true)
 |-- unix_timestamp: integer (nullable = true)
 |-- speed: double (nullable = true)

Set up two Window Spec (w1, w2):

# Window spec used to find previous speed F.lag('speed').over(w1) and also do the cumsum() to find flag `d2`
w1 = Window.partitionBy('trip-id').orderBy('timestamp')

# Window spec used to find the minimal value of flag `d1` over the partition(`trip-id`,`d2`)
w2 = Window.partitionBy('trip-id', 'd2').rowsBetween(Window.unboundedPreceding, Window.unboundedFollowing)

Three flags (d1, d2, d3):

  • d1 : flag to identify if the previous speed is greater than the current speed, if true d1 = 0, else d1 = 1
  • d2 : flag to mark the consecutive rows for speed-drop with the same unique number
  • d3 : flag to identify the minimal value of d1 on the partition('trip-id', 'd2'), only when d3 == 0 can the row belong to a group with speed-drop. this will be used to filter out unrelated rows

    df_1 = df.withColumn('d1', F.when(F.lag('speed').over(w1) > F.col('speed'), 0).otherwise(1))\
             .withColumn('d2', F.sum('d1').over(w1)) \
             .withColumn('d3', F.min('d1').over(w2))
    
    >>> df_1.orderBy('timestamp').show()
    +-------+----------+-----+---+---+---+
    |trip-id| timestamp|speed| d1| d2| d3|
    +-------+----------+-----+---+---+---+
    |    001|1538204192|44.55|  1|  1|  1|
    |    001|1538204193|47.20|  1|  2|  0|
    |    001|1538204194|42.14|  0|  2|  0|
    |    001|1538204195|39.20|  0|  2|  0|
    |    001|1538204196|35.30|  0|  2|  0|
    |    001|1538204197|32.22|  0|  2|  0|
    |    001|1538204198|34.80|  1|  3|  1|
    |    001|1538204199|37.10|  1|  4|  1|
    |    001|1538204221|55.30|  1|  5|  1|
    |    001|1538204222|57.20|  1|  6|  0|
    |    001|1538204223|54.60|  0|  6|  0|
    |    001|1538204224|52.15|  0|  6|  0|
    |    001|1538204225|49.27|  0|  6|  0|
    |    001|1538204226|47.89|  0|  6|  0|
    |    001|1538204227|50.57|  1|  7|  1|
    |    001|1538204228|53.72|  1|  8|  1|
    +-------+----------+-----+---+---+---+
    

Remove rows which are not with concern:

df_1 = df_1.where('d3 == 0')

>>> df_1.orderBy('timestamp').show()
+-------+----------+-----+---+---+---+
|trip-id| timestamp|speed| d1| d2| d3|
+-------+----------+-----+---+---+---+
|    001|1538204193|47.20|  1|  2|  0|
|    001|1538204194|42.14|  0|  2|  0|
|    001|1538204195|39.20|  0|  2|  0|
|    001|1538204196|35.30|  0|  2|  0|
|    001|1538204197|32.22|  0|  2|  0|
|    001|1538204222|57.20|  1|  6|  0|
|    001|1538204223|54.60|  0|  6|  0|
|    001|1538204224|52.15|  0|  6|  0|
|    001|1538204225|49.27|  0|  6|  0|
|    001|1538204226|47.89|  0|  6|  0|
+-------+----------+-----+---+---+---+

Final Step:

Now for df_1, group by trip-id and d2, find the min and max of F.struct('timestamp', 'speed') which will return the first and last records in the group, select the corresponding fields from the struct to get the final result:

df_new = df_1.groupby('trip-id', 'd2').agg(
          F.min(F.struct('timestamp', 'speed')).alias('start')
        , F.max(F.struct('timestamp', 'speed')).alias('end')
).select(
      'trip-id'
    , F.col('start.timestamp').alias('start timestamp')
    , F.col('end.timestamp').alias('end timestamp')
    , F.col('start.speed').alias('start speed')
    , F.col('end.speed').alias('end speed')
)

>>> df_new.show()
+-------+---------------+-------------+-----------+---------+
|trip-id|start timestamp|end timestamp|start speed|end speed|
+-------+---------------+-------------+-----------+---------+
|    001|     1538204193|   1538204197|      47.20|    32.22|
|    001|     1538204222|   1538204226|      57.20|    47.89|
+-------+---------------+-------------+-----------+---------+

Note: Remove the intermediate dataframe df_1, we can have the following:

df_new = df.withColumn('d1', F.when(F.lag('speed').over(w1) > F.col('speed'), 0).otherwise(1))\
           .withColumn('d2', F.sum('d1').over(w1)) \
           .withColumn('d3', F.min('d1').over(w2)) \
           .where('d3 == 0') \
           .groupby('trip-id', 'd2').agg(
                F.min(F.struct('timestamp', 'speed')).alias('start')
              , F.max(F.struct('timestamp', 'speed')).alias('end')
            )\
           .select(
                'trip-id'
              , F.col('start.timestamp').alias('start timestamp')
              , F.col('end.timestamp').alias('end timestamp')
              , F.col('start.speed').alias('start speed')
              , F.col('end.speed').alias('end speed')
            )
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1
  • 1
    Thank you so much for the answer! Do you know of any resource/pointers that has some example implementations with this kind of flag based approach for intermediate data-frames? – Shumail Aug 18 '19 at 21:13

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