Experimental results and EMC considerations on RFID location systems University "Stefan cel Mare" Suceava - Romania Faculty of Electrical Engineering and.

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Presentation transcript:

Experimental results and EMC considerations on RFID location systems University "Stefan cel Mare" Suceava - Romania Faculty of Electrical Engineering and Computer Science COCA Eugen, Ph.D. POPA Valentin, Ph.D.

2 1. Introduction 2. RFID Location Systems 3. The RFID Radar positioning system 4. Performance evaluation based on experimental results 5. EMC Measurements 6. Conclusions RFID EURASIA 2007 Experimental results and EMC considerations on RFID location systems

3 RFID EURASIA Introduction  RFID Active / Passive  Readers – microprocessor based  Tags – memories  Multiple frequency bands  Standardized

4 2. RFID Location Systems RFID EURASIA Inertial systems – good for outdoor applications - Indoor locations: triangulation / scene analysis / proximity 1.Specialized infrastructure 2.Using wireless networks signals and information 3.Mixed - Many implementations Active Badge, Cricket, MotionStar, MSR Radar, RFID Radar, SmartFloor, SpotON Experimental results and EMC considerations on RFID location systems

5 3. The RFID Radar positioning system RFID EURASIA 2007 Catalog data: Operating frequency: 870 MHz / 10kHz band Max. range: 40 / 100 m Passive / Active tags 5uW / 200uW tags Passive TTF – Tag Talk First protocol RS232 interface Control software Experimental results and EMC considerations on RFID location systems

6 4. Performance evaluation based on experimental results RFID EURASIA 2007 Indoor test setup 1 Same setup for measurements 3 different days Experimental results and EMC considerations on RFID location systems

7 RFID EURASIA Performance evaluation based on experimental results Tag 1 at 5m Tag 2 at 10 m Results 65 % of total Error < 10%  Experimental results and EMC considerations on RFID location systems

8 RFID EURASIA Performance evaluation based on experimental results Indoor test setup 2 Same setup for measurements 3 different days Experimental results and EMC considerations on RFID location systems

9 RFID EURASIA Performance evaluation based on experimental results Tag 1 at 5m Tag 2 at 10 m Results 35 % of total Error < 10%  Experimental results and EMC considerations on RFID location systems

10 RFID EURASIA Performance evaluation based on experimental results Outdoor test setup 3 Same setup for measurements 3 different days Experimental results and EMC considerations on RFID location systems

11 RFID EURASIA Performance evaluation based on experimental results Tag 1 at 10 m Results 6 % of total Error > 10%  Experimental results and EMC considerations on RFID location systems

12 RFID EURASIA EMC Measurements Indoor / Outdoor measurements Noise floor 10 … 20 mV/m Frequency band 100 kHz – 3 GHz Isotropic Three-axis antenna (75 MHz – 3 GHz) SRM-3000 NARDA Experimental results and EMC considerations on RFID location systems

13 RFID EURASIA 2007 Electric field magnitude at 3m distance in front of the antenna Central frequency = MHz Peak E value = V/m 5. EMC Measurements Experimental results and EMC considerations on RFID location systems

14 5. EMC Measurements RFID EURASIA 2007 Electric field magnitude at 20 m distance in front of the antenna Central frequency = MHz Peak E value = V/m Experimental results and EMC considerations on RFID location systems

15 Performances 1. Performances greatly affected by interferences 2. Only 40 to 60 percent of total measurements under 10 % accuracy 3. Not suitable for high-precision applications 4. Small errors in open-areas – 93 % accuracy EMC aspects 1. NOT suitable for indoor applications – high E field 2. Very good for long-range outdoor positioning applications A lot of work to do in the future ! CONCLUSIONS RFID EURASIA 2007 Experimental results and EMC considerations on RFID location systems

Thank you ! Q u e s t i o n s ?

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