1. MOTORWAYS

2. Scope of Motorways Procedures for the calculation of free-flow speed, capacity, speed and degree of bunching on motorways designed for urban and interurban conditions Motorways are defined as roads for through traffic with complete access control, whether or not they are divided roads. In Indonesia, this definition is currently synonymous with ‘toll road’.

3. Scope of Motorway Interurban Motorways Types –Two-lane two-way roads (MW 2/2 UD) 1 X 3.5 –Four-lane two-way roads (MW 4/2 D) 2 X 3.5 –Four-lane two-way roads (MW 6/2 D) 3 X 3.5

4. Scope of Motorways Conditions: Flat, rolling or hilly alignment Specific grades (e.g. two-lane two-way undivided with climbing lane)

5. Scope of Motorways Road Segments: Between and unaffected by interchanges with on- and off-ramps, and Having similar geometric design and traffic flow characteristics along its length.

6. Objective of Motorways Design of motorways should be selected with the aim to ensure that degree of saturation does not exceed an acceptable value (normally 0,75)

7. Traffic Safety Considerations Widening of the lane decreases the accident rates between 2-5% per meter widening (the high number refers to small roads). Widening and improvement of shoulder surface conditions improves traffic safety, although to a smaller degree than lane widening

8. Traffic Safety Considerations Climbing lane in steep grades reduce the accident rate with 20-25%. A median reduces the accident rate with 30% Median barriers (used when the space is insufficient to make a full median) reduce fatal and severe injury accidents with 10- 30%, but increase damage only accidents.

9. Motorways Performance Indicator Degree of Saturation (≤ 0,75) Level of Service (A – F) Actual Free-Flow Speed Travel Time Degree of Bunching (only for MW 2/2 UD)

10. STEP A-1: General Data Date (day, month, year) and Handled by Province Motorway name Segment code Segment between … or … Segment length Motorway type (MW 4/2 UD, MW 2/2 UD) Time period Case number

11. STEP A-2: Geometric Conditions Compass arrow showing North Km-posts Sketch of the horizontal alignment Arrows identifying Direction 1 (North or East-bound) and Direction 2 (South or West-bound) Names of the places Pavement markings

12. STEP A-2: Geometric Conditions Sight Distance Class % of Segment with Sight Distance of at least 300m A> 70% B30 – 70% C< 30%

13. STEP A-2: Geometric Conditions Alignment Type Rise + Fall (m/km) Horizontal Curvature (rad/km) Flat< 10< 1,0 Rolling10 – 301,0 – 2,5 Hilly  30 > 2,5

14. CONVERSION INTO RADIANS/KM 60 O 70 O 40 O A road segment length = 3km

15. STEP A-3: Traffic Conditions Two-Way Undivided MW (2/2 UD) Alignment Type Total Flow veh/h pce MHVLB LT Flat 01,2 1,8 9001,8 2,7 1.4501,51,6 2,5  2.100 1,31,5 2,5 Rolling 01,81,6 5,2 7002,42,5 5,0 1.2002,0 4,0  1.800 1,7 3,2 Hilly 03,52,5 6,0 5003,03,2 5,5 1.0002,5 5,0  1.450 1,92,24,0

16. STEP A-3: Traffic Conditions Four-Lane Two-Way MW (4/2 D ) Alignment Type Traffic Flow veh/hPce Divided MW per DirectionMHVLBLT Flat 01,2 1,6 1.2501,4 2,0 2.2501,61,72,5  2.800 1,31,52,0 Rolling 01,81,64,8 9002,0 4,6 1.7002,22,34,3  2.250 1,81,93,5 Hilly 03,22,25,5 7002,92,65,1 1.4502,62,94,8  2.000 2,02,43,8

17. STEP A-3: Traffic Conditions Six -Lane Two-Way MW (6/2 D ) Alignment Type Traffic Flow veh/hPce Divided MW per DirectionMHVLBLT Flat 01,2 1,6 1.9001,4 2,0 3.4001,61,72,5  4.150 1,31,52,0 Rolling 01,81,64,8 1.4502,0 4,6 2.6002,22,34,3  3.300 1,81,93,5 Hilly 03,22,25,5 1.1502,92,65,1 2.1502,62,94,8  3.000 2,02,43,8

18. STEP A-3: Traffic Conditions Specific Grades Up-hill Length (km) pce Gradient (%) 34567 MHVLTMHVLTMHVLTMHVLTMHVLT 0,502,004,003,005,003,806,404,507,305,008,00 0,752,504,603,306,004,207,504,808,605,309,30 1,002,805,003,506,204,407,605,008,605,409,30 1,502,805,003,606,204,407,605,008,505,409,10 2,002,805,003,606,204,407,504,908,305,208,90 3,002,805,003,606,204,207,504,608,305,008,90 4,002,805,003,606,204,207,504,608,305,008,90 5,002,805,003,606,204,207,504,608,305,008,90

19. STEP B-1: Analysis of Free-flow Speed FV  free-flow speed for LV at actual conditions (kph) FV 0  Base free-flow speed for light vehicles (kph) FV W  Adjustment for effective carriageway width (km/h)

20. STEP B-1: Analysis of Free-flow Speed Road Type/Alignment Type/Sight Distance Class Base Free-Flow Speed FV 0 (km/h) LVMHVLBLT Six-Lane Divided Flat91719366 Rolling79597252 Hilly65455740 Four-Lane Divided Flat88709065 Rolling77587152 Hilly64455740

21. STEP B-1: Analysis of Free-flow Speed Road Type/Alignment Type/Sight Distance Class Base Free-Flow Speed FV 0 (km/h) LVMHVLBLT Two-Lane Undivided Flat SDC A82668563 Flat SDC B & C78638160 Rolling70556851 Hilly62445539

22. STEP B-2: Free-flow Speed Adjustment FV W for Carriageway Width [Table B-2:1] Four and Six-Lane Divided For Flat  FV W = 8W C 2 - 50W C + 77 For Rolling & Hilly  FV W = 4W C - 14 Two-lane Undivided For Flat  FV W = -2W C 2 + 31W C – 119 For Rolling & Hilly  FV W = 4W C - 14

23. STEP B-3: Determination of Free-flow Speed for Actual Conditions Free-flow speed for light vehicles (LV) FV = FV 0 + FV W Free-flow speed for other vehicle types FVMHV = FV MHV0 + FV W x FV MHV /FV 0 FV MHV0  Table B-1:1

24. STEP B-6: Determination of Free-flow Speed for Specific Grades Length km Direction 1, Uphill Gradient % Direction 2, Downhill Gradient % 3456734567 0,577,073,069,465,160,881,080,079,076,072,0 1,075,069,464,559,654,681,080,078,274,870,4 2,073,266,961,356,351,281,080,077,473,668,8 3,072,666,160,355,350,281,080,076,672,467,2 4,072,365,759,954,949,881,080,075,871,265,6 5,072,065,459,554,549,581,080,075,070,064,0

25. STEP B-6: Determination of Free-flow Speed for Specific Grades Length km LT Uphill Gradient % 34567 0,553,347,141,335,830,5 1,049,042,035,430,826,5 2,045,939,132,828,724,9 3,044,938,332,128,124,4 4,044,537,931,827,824,2 5,044,137,631,527,624,0

26. STEP C-1: Base Capacity Road Type /Alignment Type Base Capacity pcu/h/lane Four and Six-Lane Divided Flat2.300 Rolling2.250 Hilly2.150

27. STEP C-1: Base Capacity Road Type /Alignment Type Base Capacity Total Both Direction pcu/h Two-Lane Undivided Flat3.400 Rolling3.300 Hilly3.200

28. STEP C-2: Capacity Adjustment Factor FC W for Carriageway Width [Table C-2:1] Four or Six-lane divided (4/2 D or 6/2 D) FC W = -0,08W C 2 + 0,7W C – 0,47 Two-lane undivided (2/2 UD) FC W = 0,08W C + 0,44

29. STEP C-3: Capacity Adjustment Factor FC SP for Directional Split Directional split SP %-% 50-5055-4560-4065-3570-30 FC SP Undiv ided Motor ways 1,000,970,940,910,88

30. STEP C-4: Determination of Capacity for Actual Condition C  Capacity (pcu/h) C 0  Base capacity (pcu/h) FC W  Adjustment factor for carriageway width FC SP  Adjustment factor for directional split

31. STEP C-5: Determination of Capacity for Specific Condition Length of Grade /Slope of Grade Base Capacity pcu/h Length  0,5 km / all slopes 3.300 Length  0,8 km / slope  4,5% 3.250 All other cases3.000

32. STEP C-5: Determination of Capacity for Specific Condition C  Capacity (pcu/h) C 0  Base capacity (pcu/h) FC W  Adjustment factor for carriageway width FC SP  Adjustment factor for directional split

33. STEP D-1: Degree of Saturation Q  Traffic flow (pcu/h) Q  MW-2 (column 12 row 5 for undivided road) Q  MW-2 (column 12 row 3 & 4 for each direction of travel on divided road) C  Capacity (pcu/h) C  MW-3 (column 14)

34. STEP D-2: Speed and Travel Time Determine the speed at actual traffic Figure D-2:1 (two-lane undivided roads) Figure D-2:2 (four or six-lane divided roads) Enter segment length (km) in column 24 Form MW-1 Calculate average travel time (hour) for Light Vehicle

35. STEP D-3: Degree of Bunching (Platooning) Determine Degree of Bunching (DB) on two-lane two-way undivided motorway based on Degree of Saturation (DS) column 22 Form MW- 3, see figure D-3:1 or using equation:

36. STEP D-4: Speed and Travel Time for Specific Grades For analysis of a specific grade on undivided motorways, follow chapter 6 step D-4 (Interurban Roads), but use figure D-2:1 p.7-53 (Motorway) to determine uphill speed at capacity.

37. STEP D-5: Evaluation of Traffic Performance If DS > 0,75  revise calculations