Post on 03-Dec-2015
description
Israel Ronn
President & Founder
israel@spotam.com
www.spotam.com
Knowledge and services center for:
Connected car
Vehicle Telematics
Location based services
Internet of things (IOT, WEB3.0)
Services include:
Information & training services
Product enrichment
Business services
Marketing planning
Consultation
Source: World urbanization prospects UN 2014
Pollution Parking Safety Congestion
Peer 2 peer services
Multi modal transportation
Car sharing CAAS
Traffic planning & monitoring
Traffic applications
Parking applications
Bike E-bike rental
Active traffic control
Traffic information detection:
Road sensors
Cell based
GPS signals
2nd generation road censors (IOT based)
Data analysis technologies
Traffic monitoring:
Congestion identification
Short term traffic predication
EAT estimation
Traffic planning:
Origen destination analysis
Traffic simulations
On street short term car rental
Charged by the hour/minutes
Business model might include: membership/registration fees
Car sharing types: General/commercial Municipal B2B (Exclusive – Car pooling, shared use) Neighborhood – Open door, close door
Car sharing forms: Owned fleet P2P
Connected features • Customer communications • Access control (of/online) • Tracking
Management • A to A / A to B • Resource allocation • Check in/out • Operation/ CRM • RVM
Reservation handling • In advance (Home, Cell) • Off street • Billing
• Maintenance • Driver behavior • Security (SVR)
Elapsed time Service extension
Assistance & Support Cost
Navigation
Private Services – Zipcar, Car2Go, Orix, Student car
Automotive mobility – DriveNow(BMW), Car2Go(MB), PSA
Municipal programs – Autolib (Paris) , WeGo (Amsterdam)
Car rental Companies – Avis (Zipcar), Enterprise car share
P2P solutions - Relay ride, Uber, Park ME, FlightCar
Conjunction, parking
Traffic
EVs fits car sharing operation model EV
Fit to need Smaller cars
Short replacement cycle = better green technologies
adaption
Adaption
Improved urban life quality
Improvement in air pollution
Higher environmental awareness
Unification of all forms of personal service transportation
Ride share or exclusive ride
Private section
Business model: distance, mileage, sharing
Lower cost – no driver expenses
Simpler control (A to A, A to B)
Better city and society:
Safer
Traffic efficiency (congestion, parking)
Less pollution
Economical savings (Personal efficiency)
Partners: ZMP, DeNa,
Location: Fujisawa Japan
Long term goal: Tokyo Olympics 2020
Travel optimization system – optimizing urban traffic
All travel types: car, sharing, bus, cab, P2P, subway, bike, foot
Process large number of smart city inputs
Personal clients of all fixed & mobile types
Central charging system
Optimizes: Cost, Eco, time, personal preferences
Projects: Superhub, UbiGo
Commercial: Move me (MB), BMW connected drive (BMW)
System
• Traffic optimization
• Central billing
• Operational management
Data • Traffic
• Demographics
• Public Transportation data
• Parking
• POIs
• Road construction
• Weather
• More…..
Transportation
• Car
• CAAS
• Bus
• Metro /trains
• Bike/e-bike
• Taxi
• Rideshare
• More…
User
• Trip planning
• Ticket/access purchasing
• Billing
Large car sharing projects
Gradual multi modal
Autonomous vehicles
Gradual change of car ownership paradigm
Car Owners
Suburbs, rural, fun, sports, elderly
Street View
Less congestion, more parking, smaller cars,
Changed Industries
Insurance, rental, leasing, service, parking, taxi, used cars
Cyber security Interoperability
ITS will create a subnet
On a need bases subnets will communicate, share data & sensors
At a Point: Smart city information highway (also a subnet to IOT)
Only limited by business models
All information available to all
solutions and use case =
Smart City
Online
Internet of things
Connected car
Intelligent transportation systems
Autonomous driving On site