Förflyttning som drivkraft: Case Årstaberg / Movement as driving force: Case Årstaberg

Lundin Kleberg, Helena

January 2013

Rörelse i staden är avgörande för hur staden fungerar. Platser och stråk med stora flöden har annorlunda förutsättningar än platser och stråk med små flöden. Flödena påverkas i sin tur av stadens struktur.  Det här examensarbetet handlar om hur förtätning kan vara en del i en medveten förändring av stadsstrukturen och hur man genom förändringar i stadsstrukturen kan skapa varierande rumsliga förutsättningar som kan utgöra ett ramverk för framtida utformning. Föremålet för den här studien är området runt Årstabergs pendeltågsstation i södra Stockholm. Området är en viktig kollektivtrafikknutpunkt och många människor passerar här dagligen för att byta mellan olika kollektivtrafikslag. Men det finns få rumsliga förutsättningar för att man ska röra sig här till fots av någon annan anledning. Genom att förbättra den rumsliga integrationen mellan Årstaberg och omkringliggande stadsdelar och genom förtätning i strategiska lägen skapas en diversitet av rumsliga förutsättningar i området. Baserat på dessa olika förutsättningar utvecklas principer fram för program, offentliga platser och byggnadernas möte med det offentliga rummet. / Movement in a city is crucial for how the city works. Streets and spaces with big flows of people have different potential than streets and spaces where few people moves. The flow of people is in turn influenced by the urban structure. This master thesis examines how densification can be a part of a transformation of the urban structure and how changes of the urban structure can create a variety of spatial conditions that forms a framework for future urban design. The case for this study is the area around Årstaberg commuter station in southern Stockholm. The area is an important transit hub and many people passes here every day to switch between transport modes. But there are few spatial conditions that promote walking here for any other reason. Through changes of the spatial integration and densification in strategic locations a diversity of spatial conditions are created. Based on these different conditions principles for the program, public spaces and building frontages are developed.

Urban Design

Urban Planning

Spatial analysis

Space Syntax

Place Syntax

Urban Structure

Densification

Urban Development

Walkability

Årstaberg

Stockholm

Stadsbyggnad

Stadsplanering

Spatial analys

Space Syntax

Place Syntax

Stadsstruktur

Förtätning

Stadsutveckling

Walkability

Årstaberg

Stockholm

Architecture

Arkitektur

Är pendeltågens stopp för långa : - En studie av Stockholms pendeltågs uppehållstider . / Are the Stops in Stockholm’s Commuter Train System too Long : – A Survey of the Dwell Times of the Commuter Trains in Stockholm

KENNERÖ, JONAS

January 2023

An important aspect during the planning of commuter trains is how long they will be waiting at the platform. All travelers must be able to board and get off the train in time while the process cannot take too long. The train’s waiting time is called its dwell time, and this is a study of how the dwell time of the commuter trains in Stockholm behaves with a focus on the larger station Stockholm Odenplan and the smaller station Årstaberg. The duration of the dwell time compared to the stations planned dwell time was analyzed with manual measurements on the stations. The dwell time was analyzed both during and after rush hours. Possible reasons for the dwell time’s length were also analyzed and a potential factor that was in focus was the impact of the removal of train conductors. Train conductors in Stockholm’s rail system are responsible for monitoring the boarding and closing the train’s doors after it is finished. They began to dismantle from the trains Mars 2023 due to efficiency reasons. Half of the trains will run with a train conductor until autumn 2023, where they will disappear entirely. The train drivers will afterwards monitor the travelers with cameras instead. The commuter trains in Stockholm have three routes between Bålsta and Nynäshamn, Uppsala/Märsta and Södertälje and Södertälje and Gnesta. Factors considered when planning their timetables are the system’s capacity, how long the train should wait at a station and how long it takes to drive between stations. 94 % of the trains run on time in the system according to the operator MTR. The analyzed stations Stockholm Odenplan and Årstaberg are in Stockholm and have their separate conditions. Stockholm Odenplan is the second to largest station in the system and is in a central part of the city. The station is underground, and the rails are separated from the platform with platform doors. The doors are shown to cause delays for the dwell time as they are slow. Årstaberg has considerably fewer travelers than Stockholm Odenplan and is in the south parts of the city. The station is over the ground and has no platform doors. There are many theories about the causes behind a train’s dwell time based on the behavior of the passengers. They vary from where they are waiting on the platform, how they are queueing during boarding and the behavior during the boarding. The study shows that the dwell time in Årstaberg stays under its planned 42 seconds, but it is six seconds too long from its planned 60 seconds in Stockholm Odenplan. The dwell time increases during rush hour in Årstaberg and decreases outside of it, while Stockholm Odenplan seems to be largely unaffected by rush hours. Trains with train conductors seem to have a lower dwell time than those without them. The boarding has a shorter duration with train conductors, which shows that they are more efficient than the train drivers using cameras to monitor the boarding. However, it does take a little longer for the train to depart after the boarding is finished when they have a train conductor. Factors causing the dwell time are believed to be related to the flow of passengers and the design of the stations. The platform doors are believed to increase the dwell time in Stockholm Odenplan. Meanwhile, the protection from the weather and the location of the entrance in Årstaberg might impact its dwell time. When the number of passengers increases will the boarding take longer. The boarding will also be concentrated on a few doors in Årstaberg depending on the weather or if the trains are short. The dwell time should be analyzed further for a longer period and during more hours of the day. More stations in Stockholm’s rail system should be analyzed too.

: dwell time

commuter trains

Stockholm Odenplan

Årstaberg

platform doors

train conductor

delays

short trains

rush hour

behavior of travelers

observational study

linear regression.

Engineering and Technology

Teknik och teknologier