I-94 Dan Ryan Expressway I-90 Skyway to I-57

Feb 12, 2014

I-94 Dan Ryan Expressway (I-90 Chicago Skyway to I-57)

Crash scans show the rate of total highway crashes per 100 million vehicle-miles traveled (VMT) for 1/10 mile segments.  The purpose of these crash scans is to show highway planners and system managers how crashes are related to congestion.  Understanding where crashes are concentrated can help planners and engineers focus on improving those locations with the worst performance.

Congestion scans were created by averaging five-minute speed data obtained from mobile technology data.  The congestion scans display average speed by milepost by time of day by direction of travel.

 

 

Congestion Scan

I-94 Dan Ryan Expressway from I-90 Chicago Skyway to I-57. Congestion Scan, 2016.  Showing average speed by milepost by time of day by direction of travel.

Note: for best viewing, in Chrome, right-click on the graphic, then open in a new tab.  In other browsers, the image may be saved or downloaded as a PDF below.

Download high-resolution PDF (all vehicles, as above)

Download high-resolution PDF (trucks only)

 

 

Crash Scan

I-94 Dan Ryan Expressway, I-90 Skyway to I-57 Crash Scan, 2008-12. Showing number of crash rates per 100 million vehicle miles traveled.

Download hi-res PDF

Performance Data

2008 - 2011 highway perfromance measures are not available at this time due to data issues.

About the Data

2016 scans were prepared using the RITIS system, developed by the University of Maryland's CATT Lab.  Data comes from the National Performance Measure Research Dataset (NPMRDS), a HERE dataset made available to states and MPOs through the Freight Management and Operations Program of the Federal Highway Administration.  
 

Notice: 2016 congestion scans are based upon work supported by the Federal Highway Administration under contract number DTFH-13-C-00012. Any opinions, findings, and conclusions or recommendations expressed in this publication are those of the author(s) and do not reflect the views of the Federal Highway Administration. 

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Feb 12, 2014

I-94 Dan Ryan Expressway (I-90 Chicago Skyway to I-57)

Crash scans show the rate of total highway crashes per 100 million vehicle-miles traveled (VMT) for 1/10 mile segments.  The purpose of these crash scans is to show highway planners and system managers how crashes are related to congestion.  Understanding where crashes are concentrated can help planners and engineers focus on improving those locations with the worst performance.

Congestion scans were created by averaging five-minute speed data obtained from mobile technology data.  The congestion scans display average speed by milepost by time of day by direction of travel.

 

 

Congestion Scan

I-94 Dan Ryan Expressway from I-90 Chicago Skyway to I-57. Congestion Scan, 2016.  Showing average speed by milepost by time of day by direction of travel.

Note: for best viewing, in Chrome, right-click on the graphic, then open in a new tab.  In other browsers, the image may be saved or downloaded as a PDF below.

Download high-resolution PDF (all vehicles, as above)

Download high-resolution PDF (trucks only)

 

 

Crash Scan

I-94 Dan Ryan Expressway, I-90 Skyway to I-57 Crash Scan, 2008-12. Showing number of crash rates per 100 million vehicle miles traveled.

Download hi-res PDF

Performance Data

2008 - 2011 highway perfromance measures are not available at this time due to data issues.

About the Data

2016 scans were prepared using the RITIS system, developed by the University of Maryland's CATT Lab.  Data comes from the National Performance Measure Research Dataset (NPMRDS), a HERE dataset made available to states and MPOs through the Freight Management and Operations Program of the Federal Highway Administration.  
 

Notice: 2016 congestion scans are based upon work supported by the Federal Highway Administration under contract number DTFH-13-C-00012. Any opinions, findings, and conclusions or recommendations expressed in this publication are those of the author(s) and do not reflect the views of the Federal Highway Administration. 

To Top