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Commercial Vehicle Fleet
Management System
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Computer and Automation
Research Institute, HAS
KNORR-BREMSE
Research and Development
Center
Budapest University of
Technology and Economics
Hungarian National
Police
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MTA SZTAKI
KNORR-BREMSE
BME
ORFK
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Commercial Vehicle Fleet Management System
Project Objectives
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 Built-in intelligent control and communication device for
commercial vehicles
On-board unit
 Adapted on-board system
 On-board system with a new architecture
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 Development of the theoretical basis for the fleet
management hardware and software systems
Server center
 Architecture development
 Research and development of functions
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Commercial fleet management system
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Connections of management and
communication systems
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GSM satellite
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Users
GSM
GPS
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Internet
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On-board
controller
Fleet Management
Center
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Information Center
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Commercial fleet management system
Adapted on-board system
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APLICOM platform
GPS receiver
GSM modem
Microcontroller
I/O ports
CAN interface
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Functions
Position detection
Vehicle and cargo safety
Maintenance
Remote diagnostics
Driver analysis
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APLICOM on-board unit
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Commercial fleet management system
Adapted on-board system
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Position and navigation
 Recommended routes
 Dynamic navigation points
 On-line dynamic parameters
• Expected arrival time
• Distance from the destination
• Recommended velocity
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Commercial fleet management system
Adapted on-board system
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Vehicle and cargo safety
 Velocity restriction
 Acceleration monitoring
 Axle loads
 Temperature of the brake disk
 Deterioration of the brake shoes
 Detection of punctures
 Estimation of road roughness
 Cargo hold temperature
 Door and tank-valve status
 Stowaway recognition
 Driver identification
 Black-box function
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Commercial fleet management system
Adapted on-board system
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Operation and maintenance
 Management of maintenance (service) periods
 Monitoring of vehicle parameters, specification of intervals
o Condition of brakes
o Condition of shoes
o Condition of air-drier cartridge
o Oil, oil-filter, air-filter
o Coolant level
o Fuel level
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Commercial fleet management system
Adapted on-board system
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Remote diagnosis
 Error led status
o ABS/EBS
o ELC
o ADC
o ESP
 Pressures
o brake circuits
o air springs
 Error reading
 Battery voltage
 Axle loads
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Commercial fleet management system
Adapted on-board system
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Driver analysis
150%
1. Fuel consumption
100%
2. Brake demand
3. Torque demand
50%
4. Lateral acceleration
0%
5. Tachometry
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400
800
1 200
1 600
2 000
2 400
2 800
6. ABS activity
Evaluation based on weight distribution
7. ESP activity
8. Monitoring of driving and resting time
9. Exceeding speed limits
10.Deviation from planned route
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Commercial fleet management system
Experimental on-board system
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GPS/GSM modulok,
Érzékelők, jelinterfészek
PC/104 CAN vezérlő
PCMCIA WLAN,
PCMCIA video frame grabber
PC/104 hordozókártyán
3.5” egykártyás számítógép
Tápegység
in: 9-48V DC
out: +5V, +DC
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Commercial fleet management system
Experimental on-board system
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Application areas of the on-board computer
Measurement, data collection
Estimation of the kinematical and dynamical state of the system
Environment recognition (lanes, traffic blocks)
High precision positioning, navigation
Modeling, system identification
Control features
Feedback control: stability enhancement, lane-tracking
Reliability enhancement methods: fault tolerant control, fault
detection and diagnosis
Intelligent unmanned vehicle
Flexible and mobile experimental system
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Commercial fleet management system
Experimental on-board system
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Development of new features
 Adhesion coefficient estimation
 Tire pressure estimation
 Road surface evaluation
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Commercial fleet management system
Experimental on-board system
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Development of new features
 Inertial correction (INS/GPS) for accuracy improvement
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acc.
gyro
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inertial
navigation
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GPS
v,r,C
dv, dr, eC
Kalman filter
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Commercial fleet management system
Experimental on-board system
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Detection and prevention of unintended lane departures
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front left wheel speed [m/s]
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front right wheel speed
[m/s]
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pressure of the right rear brake chamber [bar]
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trigger from the vision system
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yaw rate of the vehicle [0.1/s]
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ORFK
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Commercial fleet management system
Experimental on-board system
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Communication technologies
 Short-distance communication (depots, service stations)
 Long-distance communication (fleets)
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TCP/IP
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On-board
Data Logger
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Communi
GSM
TCP/IP
cation
Centre
Server
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WLAN
GPRS
Vehicle
SMS
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Commercial fleet management system
Server architecture
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The main functions of the centre
 Vehicle and fleet recording
 Logistics
 Dynamic fleet management
 Navigation and trace
 Maintenance and diagnostics
Fleet setup
Fleet scheduling
(Logistic)
Trace
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Maintenance
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Commercial fleet management system
Server architecture
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Route plan and optimization
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Fastest route selection
Cheapest route selection
 based on distances
 based on traffic data
Dynamic route modification
 based on traffic data
 based on weather data
Disposition planning
 based on vehicle-park
 based on deliverable goods
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Commercial fleet management system
Server architecture
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Design and implementation of GIS database
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• building of map-graphs
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Commercial fleet management system
Server architecture
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Design and implementation of GIS database
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• Complexity and reachability analysis
• Icy roads, dangerous crossings
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Commercial fleet management system
Server architecture
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System structure
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Communi
cation
Server
DataBase
(MySQL)
Webserver
(Tomcat)
Java Middleware
Browser
Gateway
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Diagnostics
HTML
GIS
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Logistics
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Vehicle
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Information system
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Commercial fleet management system
Server architecture
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Advantages of the server architecture
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 The security of the stored and exchanged information is
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guaranteed by the strict rules of the safety management of the
database handler and Java environment.
 As a result of the database-centered architecture, the servers
can be developed independently on arbitrary platforms by
different groups and the updated modules can be inserted into
the system without interrupting the operation.
 In the case of increasing demands the modules of the centre can
be easily multiplied.
 Every user has individual web interface, which contains the
services the user needs or has subscribed to.
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Commercial
management system
A projekt
főbbfleet
eredményei,újdonságai
Server
architecture
Szerver
központ
architektúrája
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User request
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DataBase
Query /
Modification
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DataBase
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SMS receiving /
sending
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Fleet
Management
Functions
Functional
Server
Req
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User Interface (applet)
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Communication
Server
DataBase
Connection
DataBase
Query /
Modification
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GSM
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Functions and information exchange
GSM
information
processing
KNORR-BREMSE
Vehicle
SMS
GPRS
BME
ORFK
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Commercial
management system
A projekt
főbbfleet
eredményei,újdonságai
Server
architecture
Szerver
központ
architektúrája
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Map
download
request
Map
Position
DataBase changed
Functional
Server
Notification
Position
request
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Functional
server
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Communication
Server
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Request for SMS
sending
SMS
BME
GSM
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Cooperating modules in vehicle navigation
Vehicle
ORFK
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Commercial Vehicle Fleet Management System
Expected utilization of development results
Increasing details of
functionality
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Basic
Safety
EconoDiagfeatures
mical
nosis
package
package
package package
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Increasing detail of engineering
solution
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Load
safety
Administration
Real-time intervention
Function limitation
Sound effects and visual information
Communication
Vehicle position
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Commercial Vehicle Fleet Management System
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More information:
Url:
http://daedalus.scl.sztaki.hu/nkfp
Phone: (361) 279-6000
Fax:
(361) 466-7503
Contact person:
Prof. Jozsef Bokor, academician
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