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This article dives into multimodal public transport and routes that make or break multimodal transport.
Imagine any one of these scenarios:
These scenarios are examples of multimodal transport journeys which are relevant for both commute and cargo applications. Multimodal transport refers to the combined use of multiple transport options such as moving by foot, bicycle, taxi, bus, train, aeroplane and car to move from point A to point B.
This is contrary to unimodal transport, which obviously refers to getting from A to B using just 1 mode of transport (for example, driving your own car). But the chances of a transport route being unimodal might be close to nil. You’re actually more likely to take a multimodal route if you’re a public transport user.
Why? According to a 2020 Victoria Transport Policy Institute (VTPI) report by Todd Alexander Litman, most of the transport planning has been car-centric, resulting in well-developed road systems suitable for the movement of cars, but at the expense of the needs of the following non-automobile users:
Hence, multimodal transport accommodates the infinite ways these non-automobile users need to travel without a car or even a pricey taxi ride.
However, most multimodal transport routes can be inconvenient if the following factors of multimodal transport access and convenience are ignored:
Anyone who has taken public transport can agree to the pain of multimodal transport routes because of these factors. Let’s imagine this example:
The nearest train station is a 10-minute drive from your house. To reach the train station, you have a few options:
Let’s assess each of these options and see which option is optimal.
Option 1
Drive a car to the train station and park there, assuming that the train station has a parking bay. It’s a convenient option since your car will provide much-needed comfort.
But it will only be possible if you have a driver’s license and your own private car, which means that you have money to buy the car. If you cannot afford it, then this option is off the table.
Even if you have a driver’s license and choose to rent a car using a car-sharing (or car rental) app, there are other issues with car-sharing that might put you off, like difficulties in finding a one-way-trip option instead of the round-trip option for this particular journey and the hassle of inspecting the car before using it.
Option 2
Book a taxi to the train station, assuming that you have an e-hailing app on your phone to make the booking. It’s also a convenient option since you get to just sit in the passenger seat and you don’t need to have a car or even a license to drive.
But, due to the high price of any ride, using the e-hailing app daily can add up to a huge chunk of your monthly expenses, so this option is only for those who are willing to add this to their budget.
Option 3
Cycle to the bus stop, wait for the bus and carry your bicycle into the bus to go to the train station. The feasibility of this option really depends on whether there’s a nearby bus stop that is included in your target bus route (i.e., the bus that goes to your target train station). It also depends on whether you have a bicycle and can cycle confidently on the roadside.
It would be safe if there is a dedicated cycling lane but that is not always the case for every cyclist. And also, you’ll have to wait for the bus to arrive at the bus stop or to be careful not to miss the bus, hope there is enough space for your bicycle and carry your bicycle onto the bus. But why go through all that trouble when you might as well cycle all the way to the train station?
Option 4
Cycle all the way to the train station. It’s healthier than Option 3 because you’re pedalling (while balancing) for a longer distance and you don’t have to stress yourself over any bus delays. But you still need to have a bicycle and know how to ride it.
Option 5
Walk to the bus stop, wait for the bus and board the bus to the train station. The feasibility of this option also depends on whether there’s a nearby bus stop that is included in your target bus route.
And you don’t need a bicycle for this. You just have to walk for a certain length of time, depending on the distance of the bus stop from the house. It’s still a healthy option, obviously because it involves some physical activity. But you still have to wait for the bus.
Option 6
Walk all the way to the train station. This option crosses out the need to have any vehicle of some sort and the ability to operate the vehicle or pay for it.
It’s even healthier than Option 5 since you’re not stressing over any bus and you’re walking longer, hence, getting your heart pumping and legs moving for a longer time. But, it would take about half an hour to reach the train station on foot.
What is your best option?
Until now, we have assumed that the bus stop and pedestrian facilities are in tip-top condition and that the bus has enough seating space. In reality, however, it’s not always the case.
And now that you’ve held on to your seat on the bumpy bus ride and tapped out of the bus to make your way to the station gates, another public transport challenge awaits you: The possibility of congestion in the train station and the train you manage to board. In other words, the possibility of literally rubbing shoulders, hips and bags with other train passengers.
The challenges of braving the crowds, taking another train line and/or bus route and/or a long walk, tolerating delays (or missing a train/bus) and maybe facing more dilemmas like the one above will go on until you cross the finish line – your final destination. SO STRESSFUL!
Similar to the example in the previous section, route optimisation is the process of figuring out the most resource-effective routes to move from point A to point B.
With roots tracing back to the travelling salesman problem (TSP) in the 1950s, it’s an algorithmic concept used in transport, logistics and even garbage collection to minimise the time and cost of travelling. The data for route optimisation algorithms can be derived from:
Adding to the discussion, a 2013 paper by Jaramillo and Los Gonzalez about route optimisation in public transport presented an optimisation model based on the number of transfers, which is one of the pain points of multimodal transport.
The model attempted to balance the supply and demand decisions:
However, as the authors themselves noted, this model did not consider the costs of walking to stations or waiting times in order to keep the model simple. That’s why more complex models like the multi-dimensional approach may be more suitable in determining the Pareto-optimal solution.
“Pareto efficiency, or Pareto optimality, is an economic state where resources cannot be reallocated to make one individual better off without making at least one individual worse off.”
Investopedia’s definition of Pareto efficiency or Pareto optimality.
An example of a complex model for public transport is a 2015 paper by Faizrahnemoon, Schlote, Maggi, Crisostomi and Shorten about using the Markov chain to build a multimodal transport network optimisation model. The authors explained that the Markov chain is suitable for big data applications because its properties enable the handling of big data.
The transition matrix of the Markov chain was built using data collected from London’s multimodal transport network and validated using the mobility simulator SUMO (which stands for Simulation of Urban Mobility). A Markov chain-based approach like this can be used to answer questions about improving multimodal transport services such as:
However, there are some challenges getting in the way of analysing and optimising multimodal transport routes including:
This discussion about optimising multimodal transport routes then begs the question of how transport networks and cities should be planned in such a way that the multimodal transport experience is seamless.
According to the VTPI paper mentioned earlier, multimodal planning refers to transport and land use planning that considers the differing capabilities of different transport modes and land use factors that affect accessibility. The capabilities considered include availability, speed, density, costs, limitations and appropriate uses.
Some notable recommendations for multimodal planning in this paper are:
“People involved in transportation decision-making (public officials, planning professionals and community members) should live without using a personal automobile for at least two typical weeks each year that involve normal travel activities (commuting, shopping, social events, etc.) in order to experience the non-automobile transportation system.”
Written by Todd Alexander Litman, Victoria Transport Policy Institute, 2020.
Yes, transport and urban planners need to put themselves in the shoes of the public transport users if they truly want to learn how they should be designing the infrastructure.
Ultimately, urban planners generally need to start building better cities by following these 7 universal principles coined by urban designer Peter Calthorpe:
In its essence, better cities are the ones that aim to reduce the dependency on car usage and improve the quality of life for everyone, including those without a car.
Multimodal transport refers to the combined use of multiple transport options such as moving by foot, bicycle, taxi, bus, train, aeroplane and car to move from point A to point B.
Unimodal transport refers to getting from A to B using just 1 mode of transport.
Multimodal transport involves more than 1 mode of transport.
Most of the transport planning has been car-centric, so the ignored needs of non-automobile users in urban planning have to be compensated with combinations of public transport modes.
Route optimisation is the algorithmic process of figuring out the best way to save time and money when moving from point A to point B.
An economic state where resources like time and money cannot be reallocated to make one person better off without making at least another person worse off.
It is transport and land use planning which considers the differing capabilities of different transport modes and land use factors that affect accessibility including availability, speed, density, costs, limitations and appropriate uses. One of the best ways for planners to do multimodal planning is to experience the multimodal transport themselves.
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