145 
 

LPPM - Universitas Narotama 
ISSN : 2594 - 4777 (Online) 

     2597 - 4742  (Print)  
https://jurnal.narotama.ac.id/index.php/scj/index  

 

The Spirit of 
Society Journal 
International Journal of Society Development and Engagement 
   

The Spirit of Society Journal 
Volume 5, Number 2 
March 2022 

Evaluation of Parking Performance at    Semut Station Surabaya 
 

Sugiarti1*, Sri Wiwoho Mudjanarko2 
 Civil Engineering, Narotama University Surabaya 

suggiarti28@gmail.com, sri.wiwoho@narotama.ac.id 
 
Abstract: Parking is one element of the facility that cannot be separated from the system road 
transport as a whole. With the increase in the population of a city, this will lead to an increase 
in the need to carry out various activities. Semut Station Surabaya is one of the public facilities 
with a fairly high level of activity. However, in reality the parking lot at the Surabaya Semut 
Station is often full and disturbing the surrounding traffic. Therefore, it is necessary to analyze 
the performance capacity and parking space at the Surabaya Semut Station. The method used 
is  first conducting a literature study on parking, a preliminary survey at the studied site, 
collecting primary data and secondary data, then proceed with data analysis in the form of 
performance capacity and parking space. The results of this study show that the parking 
characteristic have a maximum parking volume of 247 motor bikes/day and 160 cars/day, the 
average duration of parking for motor bikes is 5.66 hours and cars is 4.62 hours, the maximum 
parking accumulation for motor bikes is as much as 87 vehicles/day and 64 cars/day, the 
maximum parking index for motorbikes and cars are 2.18% and 2.56% respectively, and the 
parking space requirement for motorcycles (SRP) is 95 SRP and for cars is 52 SRP. 
 
Keywords: parking performance, parking space requirement, station 
 
INTRODUCTION 

Background 

As one of the second largest cities after Jakarta, Surabaya City is a Metropolitan which is the 
center of business, trade, industry, and education in Indonesia. With a population of 3 million people, 
Surabaya is the main and central commercial trade city in eastern Indonesia. In 1870, the Dutch East 
Indies government, transporting land and plantations in the inland of East Java for the first time using 
the train which is owned by Staatsspoorwegen (SS) which is  located at Surabaya Kota Station, the other 
name of the Surabaya Semut Station. The route dedicated at that time from Malang to Tanjung Perak 
port is still being pioneered starting from Surabaya-Malang and Pasuruan. On O May 16, 1878, the station 
was inaugurated and functions for the Pasuruan-Travel trip and Malang-Probolinggo. However, in the 
process of development, problems arise and failure in achieving service  to consumers, especially on 
problems of comfort, safety and preservation of the building, this makes Semut Station damaged and 
not maintained, so that in the end in 1899 the old station building finally demolished and replaced with 
a new building to date.  

In order for the transportation system to be efficient, a busy place has many activities which 
generate travel movements and it must provides service facilities that  adequate (Sholikhin and 
Mudjanarko, 2017). Parking facility is a specified location as a temporary stopping place for vehicles to 
carry out activities at a certain time (Zaimuddin,  Mudjanarko, et al, 2019). It is necessary to be considered 
that the existence of an activity center must be kept to a minimum so as not to cause disruption to the 
surrounding traffic flow. Parking has a good purpose and it is must be easy to access. Yet, If a person 
can't park his vehicle, they can't carry out activities as they should (Yulmida, Mudjanarko, et al, 2017).

The increasing number of residents in the city of Surabaya will lead to an increase in the need for 
various kinds of inter-trade activities and consumer activities around Semut Station Surabaya. To 

https://jurnal.narotama.ac.id/index.php/scj/index
mailto:suggiarti28@gmail.com
mailto:sri.wiwoho@narotama.ac.id


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overcome traffic jams because of consumer and vehicle activities, can be made easier by providing 
parking space. It needs  to be solved by conducting a field survey in order to find out existing problems 
appropriately by conducting a survey of vehicle calculations in the area station. The results of this 
calculation are expected to help the handling steps furthermore, in order to  create an orderly, safe and 
comfortable environment. Solution to problem can be done by making parking lots and structuring 
parking areas. 

Formulation of the Problems 

Based on the background above, the formulation of the problem from the research that will be 
discussed in the Final Project, among others: 
1. What is the maximum parking performance for both two-wheeled and four wheeled at Surabaya 

Station? 
2. How is the parking performance for now and the next five years (parking duration, parking 

accumulation, turnover rate, parking capacity, parking index, average parking duration, number of 
parking spaces needed) at Surabaya Kota Station? 

3. What recommendations can be given to the Surabaya City Station parking manager? 
Scope of Problem 

In order to avoid deviations from the discussion of the problems and topics taken, the preparation 
of this final project uses problem boundaries which include: 
1. Parking vehicle data is taken for 6 days which is divided into 1 month. On the wrong one on weekdays 

and one on holidays starting at 07.00 – 17.00 WIB. 
2. The data analyzed are all motorcycles and cars that enter the country Surabaya Semut Station 

parking area. 

Location 

The location of the Surabaya Semut Station where the research was carried out is located at 
Station Kota Street No. 9, Surabaya, East Java 60161. 

 

Figure 1. Location of Surabaya City Station  
(Source: Google Maps, 2021) https://maps.google.co.id/ 

 

LITERATURE REVIEW 

According to the Parking Facility Planning Guidelines, the Directorate General of Land 
Transportation (1998) parking is a temporary immobile state of a vehicle. Included in the definition of 
parking is every vehicle that stops at certain places, whether stated by  signs or not, and not solely for 
the purpose of raising and lowering people or goods PP No. 43 of 1993 explains the definition of parking 
is a condition where the vehicle does not move for a certain period of time or is not temporary. 

https://maps.google.co.id/


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Types of Parking According to Placement 

a. Parking in the Road Agency (on-street parking) 
Parking on the street means parking the vehicle on the street, anywhere or along the sidewalk street, 
as opposed to parking it in a parking garage. But some have Limits, some most of these restrictions 
are presented on traffic signs. Sometimes only one parking is allowed side of the road, and parking 
is not permitted on the side of the road at all. 

b. Parking Off Road Agency (off street parking) 
Namely parking that is located off the road. This type of parking is very expensive big or expensive. 

Parking by Vehicle 

Several types of parking vehicles can be classified as follows: 
a. Parking for two-wheeled bicycles but does not use gasoline (bicycles). 
b. Parking for two-wheeled vehicles using gasoline (motorcycles). 
c. Parking for three-wheeled or four-wheeled vehicles, and uses more gasoline (public transport, car 

and truck). 

Parking Space Unit (SRP) 

Parking Space Unit (RSP) is a measure of the effective area for placing vehicles, however must 
consider the free space and width of the door opening. Data analysis techniques with the parameters 
used to calculate the parking characteristics (SRP) are: 

1. Parking Volume 
Parking volume is the number of vehicles that enter the parking lot at a certain time (Hobbs, 1995). 

𝑉𝑉𝑜𝑜𝑙𝑙𝑢𝑢𝑚𝑚𝑒𝑒 = 𝐸𝐸𝑖𝑖 + 𝑋𝑋…………………………………………………………………………..………... (1)  
Where: 
Ei = Number of incoming vehicles (vehicles) 
X = Vehicles that existed before the time of the survey (vehicles) 
 

 
Figure 2. Standard Vehicle Dimensions for Passenger Cars 

Source: Technical Guidelines for Parking Facilities Operation, 1997 

2. Parking Duration 
Parking duration is the length of time the vehicle is parked, calculated based on the difference in 
time of entry and parking vehicle exit times (Oppenlander, 1976). But the time used parking can 
be classified as follows: 
a) Short Time Parking (Short Park) 

Namely parking that uses a parking space of less than one hour. 
b) Medium Time Parking (Middle Park) 

Namely parking that takes between 1-4 hours for shopping purposes. 
c) Long Time Parking (Long Park) 



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That is parking that uses the parking space for more than 4 hours, usually used for work 
purposes. 

 
𝐷𝐷 = 𝑇𝑇𝑥𝑥 − 𝑇𝑇𝑖𝑖……………………………………………………….………………………………... (2) 
Where: 
T X  = recorded time when the vehicle exits the parking location 
T i  = the time recorded when the vehicle enters the parking location 

3. Parking Capacity 
Parking capacity consists of 2 types, namely static capacity and dynamic capacity.  Capacity Static 
is the number of parking spaces available in a parking lot. Dynamic capacity is the ability of a 
parking lot to accommodate vehicles (McShane, 1990).  
 

𝑃𝑃 =  𝐾𝐾𝑠𝑠 𝑥𝑥 𝑇𝑇 𝑥𝑥 𝐹𝐹
𝐷𝐷

 ……………………………………………………………………………(3) 
Where: 
Ks  = Static Capacity (SRP) 
T  = Length of observation in the parking lot (hours) 
D  = Average parking duration during the observation time period (hours 
 F  = reduction factor, the amount is between 0.85 to 0.95 

 
4. Accumulation 

Accumulation is the number of parking vehicles in a certain period of time. The unit of 
accumulation is the vehicle (Hobbs, 1995). 

 
Accumulation = 𝑋𝑋 + 𝐸𝐸𝑖𝑖 − 𝐸𝐸𝑥𝑥………………………………………..……………...…………………….(4)  
Where: 

X  = Number of existing vehicles 
Ei  = Entry (Number of vehicles entering the parking location)  
Ex  = Entry (vehicles that exit at the parking location) 

 
5. Parking Index 

The parking index is a comparison between the accumulation of parked vehicles and the available 
parking capacity. This parking index is used to determine whether the number of parking plots 
available at the research site meets or not to accommodate parked vehicles (Hobbs, 1995). 

 

𝐼𝐼𝑃𝑃 =  𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴 𝑥𝑥 100%
𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴𝐴 𝑃𝑃𝐴𝐴𝑃𝑃𝑃𝑃𝐴𝐴𝐴𝐴𝑃𝑃 𝑆𝑆𝑆𝑆𝐴𝐴𝐴𝐴𝐴𝐴

      ……………………………………………….…………………….(5) 
 
6. Parking Turnover 

The parking turnover rate will indicate the level of use of the parking space that obtained from the 
division between the numbers of vehicles parked during the observation time (Oppenlander, 1976). 

𝑃𝑃𝑇𝑇𝑃𝑃 =  𝑁𝑁𝑡𝑡
(𝑆𝑆)𝑥𝑥 (𝑇𝑇𝑠𝑠)

  …………………………………………………...….…………………………….(6) 

Where: 
PTO = Parking Turnover Rate (vehicles/plot/hour)  
Nt = Number of Parking Vehicles (Vehicles) 
S = Number of Parking Plots (Parking Plots)  



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TS = Length of Survey Period (hours) 
 
7. Parking Space Needs 

Parking Needs Analysis Parking space requirement is the number of places needed to 
accommodate vehicles that require parking based on facilities and functions of a land use. To 
determine the need for parking in an area that is in the study (Suprianto and Mudjanarko, 2015). 

 

𝑍𝑍 = 
𝑌𝑌 𝑥𝑥 𝐷𝐷

   ……………………………………………………………..……………………………… (7) 
𝑇𝑇 

Where: 
Z  = Parking Space Required 
Y = Number of vehicles parked during the study period (Vehicles) 
 D = Average Parking Duration 
T  = Length of observation time (hours) 

 
RESEARCH METHODOLOGY 

Research sites 

The research location is at Semut Station Surabaya because the location is adjacent  to the Atom 
market shopping whole sale center which causes a mix of goods expedition land (people who interact 
at Atom market) with people traveling by train at Semut Station Surabaya, this makes the land suitable 
for transportation. Inadequate to make consumers who go to park temporarily outside whether people 
park online or not so that it interferes with traffic around the station and congestion often occurs. 

Research time 

The vehicle entry and exit survey at the Semut Station Surabaya was carried out for 1 month divided 
into the first week of the month, followed by the middle of the month, and the end of the month on one 
weekdays and holidays. Data collection is carried out at 06.00 – 17.00, this is adjusted to the time of 
departure or arrival of the train. 

Design Process Flowchart 

The steps in the Performance Analysis of Parking Space and Capacity at Semut Station Surabaya 
can be seen in Figure 3. 

 



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Figure 3. Design Process Flowchart 
 

Field Survey Data 

Table 1. Parking Survey Data at Semut Station Surabaya on Thursday, 02 December 2021 

No Parking Time 
In flow out flow Motorcycle  In flow out flow Car 
Entering Exiting  Entering Exiting 

1 06.00 - 07.00 58 18 21 5 
2 07.00 -08.00 37 31 23 7 
3 08.00 - 09.00 20 13 14 9 
4 09.00 - 10.00 19 16 10 14 
5 10.00 - 11.00 9 20 27 15 
6 11.00 - 12.00 15 25 15 19 
7 12.00 - 13.00 9 23 10 25 
8 13.00 - 14.00 1 7 5 19 
9 14.00 -15.00 2 6 6 20 

10 15.00 - 16.00 7 9 9 10 
11 16.00 - 17.00 5 21 11 14 

 Total 182 189 151 157 
Source: Data analysis,2021 

 
 
 



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Table 2. Parking Survey Data at Semut Station Surabaya on Sunday, December 5, 2021 
 
 
 
 
 
 

Source: Data analysis, 2021 
 

Table 3. Parking Survey Data at Surabaya Semut Station on Tuesday, December 14, 2021 

No Parking Time 
In flow out flow Motorcycle  In flow out flow Car 

Entering Exiting Entering Exiting 

1 06.00 - 07.00 33 21 11 15 
2 07.00 -08.00 25 15 13 17 
3 08.00 - 09.00 15 12 19 9 
4 09.00 - 10.00 19 29 10 11 
5 10.00 - 11.00 22 18 17 12 
6 11.00 - 12.00 15 51 12 19 
7 12.00 - 13.00 21 25 16 19 
8 13.00 - 14.00 19 16 15 19 
9 14.00 -15.00 13 11 11 19 

10 15.00 - 16.00 15 10 12 19 
11 16.00 - 17.00 17 9 15 19 

 Total 214 217 151 19 
Source: Data analysis, 2021 

 
 
 
 
 
 
 
 
 
 
 
 

No Parking Time 
In flow out flow Motorcycle  In flow out flow Car 

Entering Exiting Entering Exiting 

1 06.00 - 07.00 47 31 11 15 
2 07.00 -08.00 26 24 18 17 
3 08.00 - 09.00 10 15 25 9 
4 09.00 - 10.00 21 38 10 14 
5 10.00 - 11.00 30 18 35 14 
6 11.00 - 12.00 22 51 12 19 
7 12.00 - 13.00 25 25 23 29 
8 13.00 - 14.00 26 16 15 19 
9 14.00 -15.00 11 11 11 20 

10 15.00 - 16.00 19 10 12 15 
11 16.00 - 17.00 13 9 15 5 

 Total 250 248 187 176 



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Table 4. Parking Survey Data at Semut Station Surabaya on Sunday, December 19, 2021 

No Parking Time 
In flow out flow Motorcycle  In flow out flow Car 
Entering Exiting Entering Exiting 

1 06.00 - 07.00 41 32 11 15 
2 07.00 -08.00 42 35 13 17 
3 08.00 - 09.00 21 21 11 9 
4 09.00 - 10.00 26 29 10 11 
5 10.00 - 11.00 19 18 17 12 
6 11.00 - 12.00 25 21 12 11 
7 12.00 - 13.00 21 25 16 12 
8 13.00 - 14.00 24 16 15 12 
9 14.00 -15.00 21 11 11 20 

10 15.00 - 16.00 21 25 12 15 
11 16.00 - 17.00 17 9 15 5 

 Total 278 242 143 139 
Source: Data analysis, 2021 

 
Table 5. Parking Survey Data at Semut Station Surabaya on Sunday, December 26, 2021 

No Parking Time 
In flow out flow Motorcycle  In flow out flow Car 
Entering Exiting Entering Exiting 

1 06.00 - 07.00 51 23 21 13 
2 07.00 -08.00 25 25 11 12 
3 08.00 - 09.00 35 28 8 8 
4 09.00 - 10.00 23 33 10 12 
5 10.00 - 11.00 21 23 12 15 
6 11.00 - 12.00 23 25 13 11 
7 12.00 - 13.00 12 25 16 11 
8 13.00 - 14.00 11 16 14 18 
9 14.00 -15.00 14 21 14 18 

10 15.00 - 16.00 21 25 8 12 
11 16.00 - 17.00 17 6 12 5 

 Total 253 250 139 135 
Source: Data analysis, 2021 

  



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Table 6. Parking Survey Data at Surabaya Semut Station on Tuesday, December 28, 2021 

No Parking Time 
In flow out flow Motorcycle  In flow out flow Car 
Entering Exiting Entering Exiting 

1 06.00 - 07.00 36 27 15 15 
2 07.00 -08.00 38 35 13 17 
3 08.00 - 09.00 29 21 11 9 
4 09.00 - 10.00 18 29 10 15 
5 10.00 - 11.00 15 19 12 14 
6 11.00 - 12.00 25 25 16 11 
7 12.00 - 13.00 15 25 21 19 
8 13.00 - 14.00 12 16 24 18 
9 14.00 -15.00 21 11 11 20 

10 15.00 - 16.00 21 25 12 15 
11 16.00 - 17.00 17 9 15 5 

 Total 247 242 160 158 
Source: Data analysis, 2021 
 

RESULTS AND DISCUSSION 

Parking characteristics are found in the existing parking space of Semut Station Surabaya 

1. Parking Volume 
Based on the results of data collection in the field, it was found that the volume of motorcycles was 
247 vehicles/day, and cars were 160 vehicles/day. Volume calculation results on weekdays have a 
higher volume compared to holidays. 

2. Parking Duration  
Table 7. Results of the Analysis of the Duration of Motorized Vehicles Parked at the Surabaya 

Semut Station 

Source: Data analysis, 2021 

Table 7 above shows the average duration of parking for motorbikes and cars for parking vehicles 
within a span of 3 hours. This shows that the majority of station visitors have long-term needs, even 
days. 

 

 

Day  
Parking 
Vehicle 

Parking 
Time 

(minute) 

Total 
Vehicle 

Parking 
Time x 
Total 

Vehicle 

Average 
Duration  

Average 
Duration 

(1) (2) (3) (3)/ ∑ (2) (hour) 
Tuesday, 

December 14, 
2021 

Motorcycle 660 214 72720 339,81 5,66 

Tuesday, 
December 28, 

2021 
Car  660 160 44340 277,13 4,62 



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3. Parking Capacity 
Table 8. Parking Capacity 

Static Capacity  
Motorcycle  

(SRP) 
Car  

(SRP) 
40 25 

Source: Data Analysis, 2021 
 

Table 8. Results of Parking Dynamic Capacity Analysis at Semut Station Surabaya 

Day  Type of Vehicle 
Static 

Capacity  
Average 
Duration 

Dynamic 
Capacity 

SRP Hour  SRP 
Tuesday, 

December 14, 2021 Motorcycle 
40 5,66 66 

Tuesday, 
December 14, 2021 Car  

25 4,60 51 

Source: Data analysis, 2021 

Based on table 8 above, the dynamic capacity of motorbike and car parking is 66 SRP and 51 
SRP. 

4. Accumulation 
Based on the results of field data collection, the largest accumulation of vehicles entering the 
parking lot occurred on Thursday, December 2, 2021, at 09.00 – 10.00 with 87 vehicles for 
motorcycles and 64 vehicles for cars. 

5. Parking Index 
Table 9. Results of Parking Index Analysis at Semut Station Surabaya 

Day 
Type of 
Vehicle 

Static 
Capacity  

Max 
Accumulation 

Index of 
Parking  

SRP Vehicle  % 
Thursday, December 

2, 2021 
Motorcycle 40 87 2,18 

Thursday, December 
2, 2021 

Car 25 64 2,56 

Source: Data analysis, 2021 

Based on the results of table 9 above, it is found that the highest parking index for motorbikes 
is 2.18% and cars is 2.56%. This is because parking at Semut Station is problematic, namely 
the motorcycle and car parking index exceeds the normal capacity or capacity. 

6. Parking Turnover 
Table 10. Result of Parking Turnover Analysis at Semut Station Surabaya 

Day  
Type of 
Vehicle 

Parking 
Volume  

Static 
capacity  Turnover 

Vehicle SRP 



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Sunday, December 
19, 2021 

Motorcycle 309 40 0,70 

Sunday, December 
05, 2021 

Car 215 25 0,78 

Source: Data Analysis,, 2021 

Based on Table 10 above, the largest parking turnover rate for motorcycles is 0.70 times for 
Sunday, December 19 2021 and 0.78 times for cars on Sunday, December 5 2021. So it can be 
concluded that the rate of change in car parking is greater than motorcycles. 

7. Parking Space Needs 
Table 11. Results of Analysis of Parking Space Requirements at Semut Station Surabaya 

Day  
Type of 
Vehicle 

Total 
Vehicle  

Length of 
observation 

Time 
(hour) 

Average 
Duration 

(hour) 

SRP 
needs 

Y T D (Y x D)/ T 
Sunday, 

December 19, 
2021 

Motorcycle 278 11 5,35 135 

Sunday, 
December 05, 

2021 
Car 187 11 4,53 77 

Source: Data analysis, 2021 

Based on the results of table 11 above, the parking space requirements at Semut Station 
Surabaya are 135 SRP and 77 SRP for motorbikes and cars. So the lack of parking at the 
Surabaya Semut Station, namely motorcycles 135 – 40 = 95 SRP and cars of 77 – 25 = 52 SRP. 

 

CONCLUSIONS AND SUGGESTIONS  

Based on the calculation of data analysis, the following conclusions are obtained. The maximum 
parking volume for motor bikes at Semut Station Surabaya occurs on Sunday, December 19, 2021, at 
309 vehicles/day and for cars on Sunday, December 5, 2021, at 215 vehicles/day. The average duration 
of parked vehicles is more than 3 hours. The available parking capacity is 40 SRP for motorbikes and 
25 SRP for cars, while the dynamic parking capacity is 158 SRP for motorbikes and 56 SRP for cars. 
The largest accumulation of vehicles entering the parking lot occurred on Thursday, December 2, 2021, 
at 09.00-10.00 WIB, with 87 motor cycles and 64 cars. With the highest parking index for motor cycles 
at 2.18% and cars at 2.56%. So the need for parking space at Semut Station Surabaya cannot 
accommodate vehicles for station’s visitors. Meanwhile, based on the results of the analysis, it is found 
that a good parking solution for additional parking spaces is 95 SRP for motorbikes and 52 SRP for cars. 

 

REFERENCES 

D. A. Yulmida, S. W. Mudjanarko, M. I. Setiawan, and A. D. Limantara, “Analisis Kinerja Parkir 
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http://dx.doi.org/10.30737/u%20karst.v1i1.81  

Direktorat Jendral Perhubungan Darat. (1996). Pedoman Teknis Penyelenggaraan Fasilitas Parkir. 
Keputusan Direktur Jendral Perhubungan Darat Jakarta. 

http://dx.doi.org/10.30737/u%20karst.v1i1.81


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Direktorat Jendral Perhubungan Darat. (1998). Pedoman Perencanaan dan Pengoperasian Fasilitas 
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ANDROID, Jurnal TAM, Vol. 10, No. 2, STMIK Pringsewu Publisher. 

Munawar, Ahmad, 2006, “Manajemen Lalu Lintas Perkotaan”, Beta Offset, Jogjakarta. Hobbs, F. D, 
Terjemahan Suprapto dan Waldijono. (1995).  

Oppenlander, J.C. and Box P.C. (1976). Manual of Traffic Engineering Studies. Fourth Edition. Institue 
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Pemerintah Republik Indonesia. (1993). Peraturan Pemerintah Nomor 43 Tahun 1993  t enang Prasarana 
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Perencanaan dan Teknik Lalu Lintas, Edisi Kedua, Gadjah Mada University Press. Yogyakarta. 

Riyadlus Sholikhin, Sri Wiwoho Mudjanarko, (2017), ANALISIS KARAKTERISTIK PARKIR DI 
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Faculty of Engineering, Universitas Maarif Hasyim Latif Publisher. 

Tamin, O. Z. (2008). Perencanaan dan Pemodelan Transportasi: Teori. Contoh Soal dan Aplikasi, 
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© 2022 by the authors. Submitted for possible open access publication under the terms and 

conditions of the Creative Commons Attribution (CC BY SA)  Creative Commons Atribusi-
BerbagiSerupa 4.0 Internasional. 

 

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http://creativecommons.org/licenses/by-sa/4.0/

	Keywords: parking performance, parking space requirement, station
	Formulation of the Problems
	Scope of Problem
	Location
	LITERATURE REVIEW
	Types of Parking According to Placement
	Parking by Vehicle
	Parking Space Unit (SRP)
	Research sites
	Research time
	Design Process Flowchart