ATCS is an Automated Toll Collection System used for collecting tax automatically. A vehicle will hold an RFID tag. This tag is nothing but unique identification number assigned. This will be assigned by RTO or traffic governing authority. In accordance with this number we will store, all basic information as well as the amount he has paid in advance for the TOLL collection. Reader will be strategically placed at toll collection center. Whenever the vehicle passes the toll Plaza, the tax amount will be deducted from his prepaid balance. New balance will be updated. Incase if one has insufficient balance, his updated balance will be negative one. To tackle this problem, we are alarming a sound, which will alert the authority that this vehicle doesn’t have sufficient balance and that particular vehicle can be trapped. As vehicles don’t have to stop in a queue, it assures time saving, fuel conservation and also contributing in saving of money.
2. Introduction- What is ETC System?
Objectives of ETCS
Problems in Barcodes
Need for RFID
RFID
RFID Tags
Types of RFID Tags
Reader
In Lane Computer
Schematic of ETC System
Working
Advantages
Limitations
Conclusion
3. What is ETC System?
The Electronic Toll Collection
(ETC) System is a new toll
system designed to enhance
convenience for drivers by
enabling cashless toll
collection and thus Reducing
congestion at High-way
tollgates.
4. Avoid the fuel loss.
Saving of time in collecting toll.
Avoid financial loss.
Reduce longer waiting time in a toll queue
Provide traveler ease of toll payment
Reduce illegal toll gate entry
5. Transmission of data is performed optically- hence, clear line of
sight is required
Information storage is limited (upto 1 Mb)
Read only one tag at a time
Read capability can be affected by dirt, water and scuffing
Reduced security
6. Communicates through radio waves, line of sight not required
RFID tags store significantly more information (upto 2 Mb)
RFID is dynamic and information can be added or deleted at every
step in the supply chain
Increased functionality: covert and difficult to counterfeit
Read multiple tags at once
7. RFID is a technology to identify and authenticate tags that are us
attached on vehicles.
Each user holds a unique id for his vehicle, when user scans his
ID, some amount is charged from his account depending upon his
vehicle category.
This system depends on three devices
Tag: Transponder
RF Reader: Antenna
In-Lane Computer
8. • An RFID tag, or transponder, consists of
a chip and an antenna.
• The microchip contains memory and logic
circuits to receive and send data back to the
reader.
• Each tag contains an identification
number, data identifying the issuing
agency, tag type, a description of the
•vehicle, and other agency-specific data.
• The RFID Tag is mounted on windshield
of vehicle.
9. Active Tags
• Tag transmits radio signal
• Battery powered memory,
radio & circuitry
• High Read Range (100
meters)
• Bulky, Expensive
• Can last over 10 years
Passive Tags
• Tag reflects radio signal
from reader
• Reader powered
• Shorter Read Range (10cm –
5 meters)
• Can be packed small, light,
inexpensive
• Can last generally from 2 to
7 years
10. Reader
• A reader contains an antenna
to transmit and receive data
from the tag.
• The reader also contains a
decoder and an RF module. It
could be mounted or built as a
portable handheld device.
11. In Lane Computer
• The In Lane Computer checks
the data against a database of
valid tags and active accounts,
deducts the appropriate toll
from the customer’s account,
and approves passage or raises
a tollgate to allow the vehicle
to pass through the toll plaza.
12. RFID
Tag
ReaderAntenna In Lane
Computer
Transmits
identification
data to the
RFID Reader
Coiled
antenna of
reader creates
magnetic
field with
coiled
antenna
of tag
Transmit
data to
Central
Database
Associates
tag info
with
complete
info about
owner,
vehicle etc
Deducts
appropriate
amount from
the
customer’s
prepaid
account
13. Working
• As a vehicle approaches a
toll plaza, the radio-
frequency (RF) field emitted
from the antenna activates
the transponder.
• The transponder broadcasts
a signal back to the
lane antenna with some basic
information.
That information is
transferred from the lane
antenna to the central
database.
14. •If the account is in good
standing, a toll is deducted from
the driver's prepaid account.
• If the toll lane has a gate, the
gate opens.
• A green light indicates that the
driver can proceed.
15. Entire process takes a matter of seconds to complete.
Electronic system records transaction, including the time,
date, plaza and toll charge of each vehicle.
Safe Transaction (Less chances of Corruption)
16. •If RFID fails whole system fails. The RFID system we are
here using for detecting the vehicle number means the
vehicle identity which we are further using for storing
into memory & also to display on the LCD.
•If the RFID fails to detect the correct identity of the
vehicle the data regarding the vehicle will be wrong which
will may create many problems & system fails.
17. By doing automation of toll plaza we can have the best solution
over money loss at toll plaza by reducing the man power required
for collection of money and also can reduce the traffic indirectly
resulting in reduction of time at toll plaza.
In our paper, we have introduced the techniques such as Radio
Frequency Identification. This technique will include the RFID tag
& reader which in coordination with each other can be used to
detect the vehicle identity.
By effectively utilizing this technique at different stages of our
project we are able to represent the automation in toll plaza which
will reduce the complete processing time by few seconds which is
very important as well as helps to reduce money leakage in a very
cost effective manner.
18. [1] RFID based toll collection system,2011 IEEE third
international Conference
[2] D. M. Grimes and T. O. Jones, ―Automotive radar: A brief
review, ǁ Proc. IEEE, vol. 62, no. 6, pp. 804–822, Jun. 1974.
[3] ActiveWaveInc. http://www.activewaveinc.co
[4] Smart key Access Control System http://www.smartkey-
rfid.com
[5] D. M. Grimes and T. O. Jones, ―Automotive radar: A brief
review,ǁ Proc. IEEE, vol. 62, no. 6, pp. 804–822, Jun. 1974.