Project Summary:
We are creating an e-scooter sharing platform which lets any user get a scooter on demand and taking a ride to wherever they like for a fair price at base cost and per minute charge. How does it work and what are the rules:
[login to view URL] are initially placed at pick up stations in district 1010 (Stations are equipped with chargers)
[login to view URL] users will pick up the scooters from the established stations and leave them anywhere they would like after the usage and lock them
[login to view URL] can reserve scooters 5 mins prior arrival
[login to view URL] can reserve the scooter on standby for a cheaper price for 15 mins after which price goes back to normal rate
5. We are flexible to various charging suggestions
Scooter technical properties:
Scooter model: Xiaomi M356
[login to view URL] speed: 10-15km/h
[login to view URL] Speed: 25 km/h
[login to view URL] modes: Eco/ Normal *Eco saves battery by restricting speed to max 18km/h [login to view URL]: 10km (W/full battery)
[login to view URL] time: 5 hours (full battery) [login to view URL] strong enough to go up still hills
Geographical data about Vienna Austria:
[login to view URL]: 1.76m
[login to view URL] of Vienna:414.6 km2
[login to view URL] 151 to 542m
[login to view URL] populated districts: 1010; 1060; 1040; 1020; [login to view URL] demand areas: 1010-1090
Tasks:
[login to view URL] scooter pick up stations:
a). Plan out optimal locations for scooter pick up in district 1010
- Select 3 spread out location which have the highest traffic of people masses
- Select location based on convenience of other method of transport: taxi stands/ public transport
d). Map out locations on google maps
[login to view URL] are our service ranges?
a). Considering scooter technical properties
b). Considering pick up locations in district 1010
c). Considering scooter fleet of 1).15/2).50/3).100
d). Consider that we don’t want to bring scooters back to the city from too far away
e). Do we need to establish service boundaries?
[login to view URL] charging scooters methodology:
a). Create 2 different scooter charging methods
b). Considering scooter charging time and usage range
c). Considering that scooters should be picked up at night and returned in the morning d). Create process flows with predicted required time
e). Considering scooter fleet of 1).15/2).50/3).100
[login to view URL] serviceable demand: How many rides will we be able to service?
a). Considering scooter fleet of 1).15/2).50/3).100
b). Considering average ride of 3.5km
c). Considering available target market of 500.000 people