Difference between revisions of "Micromobility"
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==Figures of Merit== | |||
This table outlines the key metrics for evaluating the performance and effectiveness of micromobility systems. | |||
{| class="wikitable sortable" style="margin-left: auto; margin-right: auto; border: none;" | |||
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! Figure of Merit (FOM) !! Unit !! Description | |||
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| Energy Efficiency || Wh/km || Measure the energy consumption per kilometer traveled by the micromobility vehicle. | |||
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| Utilization Rate || rides/vehicle/day || Indicates how frequently a vehicle is used on average in a shared system. | |||
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| Trip Duration || Minutes || Represents the average time taken for a typical trip by users. | |||
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| Trip Distance || Kilometers || Measures the average distance covered during a single trip. | |||
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| Battery Life || Hours or Kilometers traveled || Evaluates the battery’s operational time/distance before needing a recharge. | |||
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| Per-Unit Operational Cost || $/ride || Calculates the cost associated with maintaining and operating the vehicle for each ride. | |||
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| Downtime || Hours || Represents the amount of time a vehicle is unavailable for use, typically due to maintenance or charging. | |||
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| Safety Incidents || incidents/1,000 rides || Tracks the frequency of safety-related issues or accidents to assess the system’s safety. | |||
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| App/platform user engagements || sessions/user/day || Measures the average number of interactions a user has with the app per day. | |||
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Revision as of 02:39, 10 October 2024
The Micromobility System (1MMS) market, a level 1 roadmap, represents a segment of the broader urban mobility market. Level 2 roadmaps focus on specific micromobility solutions (e.g., shared electric scooters, e-bikes), level 3 roadmaps target the subsystems within these solutions (e.g., powertrain, connectivity, structural), and level 4 roadmaps delve into individual components (e.g., battery cells, sensors, motors).
Technology Roadmap Overview
Micromobility refers to a range of small, lightweight vehicles operating at speeds typically below 25 km/h (15 mph) and driven by users personally. These include bicycles, e-bikes, electric scooters, electric skateboards, shared bicycles, and electric pedal-assisted bicycles. Micromobility represents a significant shift in urban transportation, offering flexible, sustainable solutions for short-distance travel that are ideal for city settings. Originating in the 19th century, micromobility has advanced into electric folding bikes and motorized vehicles. Today, micromobility solutions focus on shared, electric, and connected vehicles integrated into an urban network. Micromobility is interfacing with user data and contextual information more efficiently and seamlessly and is gaining traction in autonomous personal mobility. It is also venturing into other modes other than land mobility, such as air and water transportation. Micromobiliity is poised to play an increasingly important role in the future of urban mobility and smart cities. It is core to city planning, from historic city centers to today’s most transformative giga-projects.
Roadmap Model using OPM
Below, we provide an object-process diagram (OPD) of the 1MMS roadmap. This diagram captures the main object of the roadmap, its decomposition into subsystems (powertrain, connectivity, structural...), its characterization by Figures of Merit (FOMs), as well as the main processes and actors involved.
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Figures of Merit
This table outlines the key metrics for evaluating the performance and effectiveness of micromobility systems.
| Figure of Merit (FOM) | Unit | Description |
|---|---|---|
| Energy Efficiency | Wh/km | Measure the energy consumption per kilometer traveled by the micromobility vehicle. |
| Utilization Rate | rides/vehicle/day | Indicates how frequently a vehicle is used on average in a shared system. |
| Trip Duration | Minutes | Represents the average time taken for a typical trip by users. |
| Trip Distance | Kilometers | Measures the average distance covered during a single trip. |
| Battery Life | Hours or Kilometers traveled | Evaluates the battery’s operational time/distance before needing a recharge. |
| Per-Unit Operational Cost | $/ride | Calculates the cost associated with maintaining and operating the vehicle for each ride. |
| Downtime | Hours | Represents the amount of time a vehicle is unavailable for use, typically due to maintenance or charging. |
| Safety Incidents | incidents/1,000 rides | Tracks the frequency of safety-related issues or accidents to assess the system’s safety. |
| App/platform user engagements | sessions/user/day | Measures the average number of interactions a user has with the app per day. |