This research proposes a novel, low-cost RFID tag sensor antenna implemented using commercially available Kodak photo-paper. The aim of this paper is to investigate the possibility of stable, RFID centric communication under varying moisture levels. Variation in the frequency response of the RFID tag in presence of moisture is used to detect different moisture levels. Combination of unique jaw shaped contours and T-matching network is used for impedance matching which results in compact size and minimal ink consumption. Proposed tag is 1.49.4 cm2 in size and shows optimum results for various moisture levels upto 45% in FCC band with a bore sight read range of 12.1 m
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper chipless RFID tag, capable of carrying 9-bit data is presented. The tag is optimized f...
In this letter, 8-bit paper based printable chipless tag is presented. The tag not only justifies th...
This research proposes a novel, low-cost RFID tag sensor antenna implemented using commercially avai...
This research proposes a novel, low-cost RFID tag sensor antenna implemented using commercially avai...
RFID, as a low cost technology with a long life time, provides great potential for transmitting sens...
Nowadays, there are many communications system used for different purposes. One of these systems is ...
A compact 16-bit chipless RFID moisture sensor tag with a size of 13.2 x 19.6mm(2) is designed, fabr...
A sensor acts as a connecting medium between the physical world and electrical devices. Based on the...
Moisture measurements of the body can be used for healthcare purposes as well as for helping in exer...
A sensor acts as a connecting medium between the physical world and electrical devices. Based on the...
A novel and miniaturized semi-elliptical 20-bit fully passive chipless RFID sensor tag is proposed i...
In this letter, a miniaturized, flexible and high data dense dual-polarized chipless radio frequency...
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper chipless RFID tag, capable of carrying 9-bit data is presented. The tag is optimized f...
In this letter, 8-bit paper based printable chipless tag is presented. The tag not only justifies th...
This research proposes a novel, low-cost RFID tag sensor antenna implemented using commercially avai...
This research proposes a novel, low-cost RFID tag sensor antenna implemented using commercially avai...
RFID, as a low cost technology with a long life time, provides great potential for transmitting sens...
Nowadays, there are many communications system used for different purposes. One of these systems is ...
A compact 16-bit chipless RFID moisture sensor tag with a size of 13.2 x 19.6mm(2) is designed, fabr...
A sensor acts as a connecting medium between the physical world and electrical devices. Based on the...
Moisture measurements of the body can be used for healthcare purposes as well as for helping in exer...
A sensor acts as a connecting medium between the physical world and electrical devices. Based on the...
A novel and miniaturized semi-elliptical 20-bit fully passive chipless RFID sensor tag is proposed i...
In this letter, a miniaturized, flexible and high data dense dual-polarized chipless radio frequency...
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper, we established a new type of passive Ultra-High-Frequency (UHF) Radio Frequency Ident...
In this paper chipless RFID tag, capable of carrying 9-bit data is presented. The tag is optimized f...
In this letter, 8-bit paper based printable chipless tag is presented. The tag not only justifies th...