A master thesis from Aalborg University
Kørekomfort i busser på Rute 17 i Aalborg
[Comfort on board buses at Route 17 in Aalborg]
Forfatter(e)
Semester
4. semester
Uddannelse
Udgivelsesår
2019
Afleveret
2019-06-06
Antal sider
65 pages
Abstract
Projektets formål er at undersøge, hvor stor en sideværts acceleration, buspassa- gerer kan modstå, før følelse af ubehag op- står. Ubehag og evt. transportsyge opleves af en del passagerer, især ifm. passage af ujævnheder og sving. Det er mindre klart, hvilken sammenhæng der er mellem størrelsen af den sideværts acceleration (ved svingning) og følelsen af det ubehag en buspassager oplever. Passagerkomforten undersøges på en ud- valgt busrute i Aalborg. Ruten gennem- køres af seks testpersoner samtidigt med, at bussens position samt den sideværts ac- celeration registreres med et accelerome- ter i en smartphone app, der måler g- påvirkningen i x-, y- og z-retningen. Test- personerne angiver via en knap på en an- den smartphone app, når følesen af ubehag opstår under turen. Databehandlingen har vist at ubehags- hændelser ikke pålideligt kan findes ud fra de kraftigste sideværts accelerationer ale- ne. Det er nødvendigt at lede efter mere komplekse mønstre i data. Hændelser af ubehag blev lokaliseret på ruten og årsagen til, at ubehag opstod blev analyseret. Informationen herom kan bru- ges til at pege på steder, hvor vejens trace og/eller chaufførens kørsel bør ændres, så komforten for passagererne højnes.
Comfort on board of public buses plays an essential role in the level of satisfaction perceived by bus passengers. In order to increase the number of passengers on public transport, discomfort should be minimized. It is clear that discomfort and transport sickness is caused by bumps and in turns. However, the relationship between the magnitude of the lateral acceleration (when the bus is turning) and the feeling of discomfort is less clear. The overall purpose of this study is to find a method which can automatically identify when and where a person will feel discomfort during transportation. This study focuses on the lateral impact on passengers, as several studies have previously analyzed the impact of passengers over bumps. Passenger comfort is investigated on a selected bus route in Aalborg. The route was traversed by a number of test persons, while the lateral acceleration was recorded with an smartphone accelerometer. The test persons indicate when they feel discomfort during the trip by pressing a button on a separate smartphone. The data processing has shown that unpleasant events cannot be reliably found from lateral peak accelerations alone. It turns out that the greatest lateral accelerations occurred outside the events. Thus, it is necessary to look for more complex patterns in the data. The causes of discomfort were found by analyzing notes from the data collection and pictures of event areas taken from Google Maps. The analysis shows that the road surface and road design is often to blame. The causes of events seem to be bumps, turns, cars parked along the route, curbstones, drains, and uneven roads with potholes. The results also indicate that the feeling of discomfort depend on where the test person is looking during the bus ride. If the test person was very focused on the app, events were entered faster. This was evident when bumps or bends came as a surprise, whereas test persons who tried to take in the surroundings were better prepared for a turn or the route’s alignment. In turn, the tolerance of discomfort seems to be higher for these persons. These factors affect the number of events for particular test persons. One test person is reported as many as 53 discomfort events, while another only reported 25 events for the same route. The average of all six test persons was 35 events. The main takeaways from this study is thus twofold: Automatic detection of discomfort events is not as easy as looking at peak lateral acceleration, but analyzing discomfort events by asking passengers is a viable way of optimizing bus routes for comfort.
Emneord
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