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Intelligent parking system based on RFID. Qingye Chen Group 3. Inspiration. The Galleria (the largest mall in Texas and ninth-largest in the United States). Contents. Intelligent parking system Basic concepts Technology used in the IPS Purpose & Challenges RFID Principle
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Intelligent parking system based on RFID Qingye Chen Group 3
Inspiration The Galleria (the largest mall in Texas and ninth-largest in the United States)
Contents Intelligent parking system • Basic concepts • Technology used in the IPS • Purpose & Challenges RFID • Principle • Application A RFID-based parking system • Framework • Collision • Anti-collision algorithm
Intelligent parking system Histroy: The first version of the system was deployed on the Prius Hybrid sold in Japan in 2003. In 2006, an upgraded version debuted for the first time outside Japan on the Lexus LS luxury sedan, which featured the automatic parking technology among other brand new inventions from Toyota. In 2009, the system appeared on the third generation Prius sold in the U.S. Basic function: The intelligent parking system assists drivers in parking their vehicle, finding their way in the parking lots and retriving their cars. It is designed based on the traditional parking lots framework, and upgraded by modern communication technology.
Intelligent parking system What is the shortcoming of this system? 1, Electricity outage 2, Waiting time(when too many customers) 3, Expensive
Intelligent parking system Technology used in the IPS Sensoring technology: pressure sensor, infrared sensor, ect. Communication technology: RFID, blue tooth, ZigBee, WIFI, ect. Allocation algorithm: RSSI, TOA, TOAD
Intelligent parking system Some features of above two types of sensors: Pressure sensor: one of the most frequently used, low consumption, low cost Infraed sensor: one of the most frequently used, accurancy, efficiency
Intelligent parking system Purposes: 1, Alleviate the traffic congestion in the city, reduce the cost of transportation, and serve the intelligent city. 2, Solve the problem of finding the right spot for parking and retriving the car 3, Minimize the waste of humen resource
Intelligent parking system Challenges: 1, The implementation of all kinds of sensor nodes requires accuracy. 2, Allocation algorithm. 3, Anti-collision algorithm.
Q&A How does IPS related to IoT?
RFID Some terminology: 1, Electronic tag: Stay in the dormant state before entering the working area 2, Activator: Activate the tag and send out information(ID) to it 3, Reader: Receive the signal sent by the tag
RFID Concept: Radio-frequency identification (RFID) uses electromagnetic fields to automatically identify and track tags attached to objects. The tags contain electronically stored information. Passive tags collect energy from a nearby RFID reader's interrogating radio waves. Active tags have a local power source such as a battery and may operate at hundreds of meters from the RFID reader. Unlike a barcode, the tag need not be within the line of sight of the reader, so it may be embedded in the tracked object. RFID is one method for Automatic Identification and Data Capture.
RFID Application: 1, Transportation location 2, Medical monitoring system 3, Supply chain and logistics management 4, Manufacturing process 5, Navigation
RFID Problems and concerns: 1, Useless data: A large amount of data may be generated that is not useful for managing inventory or other applications 2, Global standardization: The frequencies used for RFID in the USA are currently incompatible with those of Europe or Japan 3, Security concerns: A primary RFID security concern is the illicit tracking of RFID tags
A RFID-based parking system Framework:
A RFID-based parking system RSSI algorithm: Received signal strength indication (RSSI) measurement principle: RSSI measurement calculates the signal loss in the dissemination process with the theory or experience loss of signal propagation model. Common propagation path loss model is free space propagation model, the logarithmic distance path loss model, hata model. The logarithmic distance path loss model is shown by equation
A RFID-based parking system Collision: 1, Collision of readers: overlap of frequency range 2, Collision of tags: multiple tags within the same range of one reader
A RFID-based parking system Collision:
A RFID-based parking system The importance of anti-collision algorithm analysis: In a typical RFID system, a RFID reader remotely recognizes unique objects and ranging them by communicating with attached tags using a pre-defined algorithm. The task for the reader is required to identify tags as quickly as possible which causes tag responses to collide at the reader as multiple tags transmit simultaneously, when communicating over shared wireless channels. This tag collision problem hinders fast identification. As the reader can not recognize multiple tags simultaneously due to signal collisions, efficient and fast anti-collision algorithms are especially important in RFID systems.
Thank you Questions?