Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system
With the growing of human security concerns globally, high demand of technology is needed for enhancing people's security. The rapid advancement in RFID technology offers an auspicious future to people with robust location tracking for a wide variety of indoor applications, ensuring safer commu...
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2021
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my.um.eprints.264422022-03-03T03:08:20Z http://eprints.um.edu.my/26442/ Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system Rohei, Muhammad Sadiq Salwana, Ely Shah, Nordiana Binti Ahmad Kharman Kakar, Abdul Sattar QA75 Electronic computers. Computer science Library science. Information science With the growing of human security concerns globally, high demand of technology is needed for enhancing people's security. The rapid advancement in RFID technology offers an auspicious future to people with robust location tracking for a wide variety of indoor applications, ensuring safer commutes and better monitoring. It can be used to minimize the kidnapping rate predominantly in developing countries where medical professionals are threatened for ransoms. Thus, various RFID solutions have been tested in a number of human tracking systems. However, these solutions are suffered from either being vanished, used by prohibited users or getting damaged as well as systems on the limitations of interfaces, scalability, security or privacy concerns. Therefore, an extensive approach is proposed in this study to evaluate the suitability of epidermal RFID tags (implanted under the skin) in a smart indoor human tracking system. A certifiedmodel was produced that aimed to enhance humans' safety by enabling them to obtain IDs using UHF passive RFID tags with regulated frequency of 868 MHz in developing countries. This study mostly emphasized on chip and antenna essentials such as released power gain, polarization, and read distance in order to assess the efficiency of RFID tags on their appropriateness for epidermal applications in human security. The results showed that the simulated tag had a high transmission rate with a corresponding factor of gamma = 0:6, almost 1:57 dBi power gain, and a reading distance of nearly 4 meters was achieved that indicated the suitability of the tag for use in human tracking systems. Themechanism then being implemented to a smart indoor human tracking system with a user-friendlymiddleware that worked well and able to guarantee indoor human security. Institute of Electrical and Electronics Engineers (IEEE) 2021-02-15 Article PeerReviewed Rohei, Muhammad Sadiq and Salwana, Ely and Shah, Nordiana Binti Ahmad Kharman and Kakar, Abdul Sattar (2021) Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system. IEEE Sensors Journal, 21 (4). pp. 5476-5486. ISSN 1530-437X, DOI https://doi.org/10.1109/JSEN.2020.3036233 <https://doi.org/10.1109/JSEN.2020.3036233>. 10.1109/JSEN.2020.3036233 |
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QA75 Electronic computers. Computer science Library science. Information science Rohei, Muhammad Sadiq Salwana, Ely Shah, Nordiana Binti Ahmad Kharman Kakar, Abdul Sattar Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system |
| description |
With the growing of human security concerns globally, high demand of technology is needed for enhancing people's security. The rapid advancement in RFID technology offers an auspicious future to people with robust location tracking for a wide variety of indoor applications, ensuring safer commutes and better monitoring. It can be used to minimize the kidnapping rate predominantly in developing countries where medical professionals are threatened for ransoms. Thus, various RFID solutions have been tested in a number of human tracking systems. However, these solutions are suffered from either being vanished, used by prohibited users or getting damaged as well as systems on the limitations of interfaces, scalability, security or privacy concerns. Therefore, an extensive approach is proposed in this study to evaluate the suitability of epidermal RFID tags (implanted under the skin) in a smart indoor human tracking system. A certifiedmodel was produced that aimed to enhance humans' safety by enabling them to obtain IDs using UHF passive RFID tags with regulated frequency of 868 MHz in developing countries. This study mostly emphasized on chip and antenna essentials such as released power gain, polarization, and read distance in order to assess the efficiency of RFID tags on their appropriateness for epidermal applications in human security. The results showed that the simulated tag had a high transmission rate with a corresponding factor of gamma = 0:6, almost 1:57 dBi power gain, and a reading distance of nearly 4 meters was achieved that indicated the suitability of the tag for use in human tracking systems. Themechanism then being implemented to a smart indoor human tracking system with a user-friendlymiddleware that worked well and able to guarantee indoor human security. |
| format |
Article |
| author |
Rohei, Muhammad Sadiq Salwana, Ely Shah, Nordiana Binti Ahmad Kharman Kakar, Abdul Sattar |
| author_facet |
Rohei, Muhammad Sadiq Salwana, Ely Shah, Nordiana Binti Ahmad Kharman Kakar, Abdul Sattar |
| author_sort |
Rohei, Muhammad Sadiq |
| title |
Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system |
| title_short |
Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system |
| title_full |
Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system |
| title_fullStr |
Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system |
| title_full_unstemmed |
Design and testing of an epidermal RFID mechanism in a smart indoor human tracking system |
| title_sort |
design and testing of an epidermal rfid mechanism in a smart indoor human tracking system |
| publisher |
Institute of Electrical and Electronics Engineers (IEEE) |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/26442/ |
| _version_ |
1735409413400821760 |
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13.160551 |