1,841
Views
28
CrossRef citations to date
0
Altmetric
Articles

A study in integrity of an RFID-monitoring HMSC

, &
Pages 1145-1158 | Received 20 Jan 2016, Accepted 16 Jun 2016, Published online: 02 Nov 2016

References

  • Bosona, T.; Gebresenbet, G. Food Traceability as an Integral Part of Logistics Management in Food and Agricultural Supply Chain. Food Control 2013, 33(1), 32–48.
  • Zulfakar, M.H.; Jie, F.; Chan, C. Halal Food Supply Chain Integrity: From a Literature Review to a Conceptual Framework. RMIT University Paper, 2012; 1–23.
  • Lodhi, A. Understanding Halal Food Supply Chain, 1st Ed; HFRC UK Ltd.: London, 2009.
  • Mansor, M.A.; Shah Baki, S.-R.M.; Tahir, N.M.; Rahman, R.A. An Approach of Halal Poultry Meat Comparison Based on Mean-Shift Segmentation. IEEE Conference on Systems, Process and Control (ICSPC2013), Kuala Lumpur, Malaysia, 13–15 December 2013; pp. 279–282
  • Junaini, S.N.; Abdullah, S. MyMobiHalal 2.0: Malaysian Mobile Halal Product Verification using Camera Phone Barcode Scanning and MMS. International Conference on Computer and Communication Engineering, Kuala Lumpur, Malasyia, 10-12 June 2008; pp. 528–532.
  • Shanahan, C.; Kernan, B.; Ayalew, G.; McDonnell, K.; Butler, F.; Ward, S. A Framework for Beef Traceability Fromfarmto Slaughter Using Global Standards: An Irish Perspective. Computers and Electronics in Agriculture 2009, 66(1), 62–69.
  • Kassim, M.; Haroswati, C.; Yahayal, C.H.; Hafiz, M.; Zaharuddin, M. A Prototype of Halal Product Recognition System. International Conference on Computer & Information Science (ICCIS). Kuala Lumpur, Malaysia, 12-14 June 2012; 990–994 pp.
  • Bahrudin, S.M.M.; Illyas, M.I.; Desa, M.I. Tracking and Tracing Technology for Halal Product Integrity over the Supply Chain. International Conference on Electrical Engineering and Informatics, Bandung, Indonesia, 11-13 July 2011; H1–2.
  • Feng, J.; Fu, Z.; Wang, Z.; Xu, M.; Zhang, X. Development and Evaluation on a RFID-Based Traceability System for Cattle/Beef Quality Safety in China. Food Control 2013, 31(2), 314–325.
  • Bowling, M.B.; Pendell, D.L.; Morris, D.L.; Yoon, Y.; Katoh, K.; Belk, K.E. Review: Identification and Traceability of Cattle in Selected Countries Outside of North America. The Professional Animal Scientist 2008, 24, 287–294.
  • Kang, R.J.; Zhang, X.S.; Fu, Z.T.; Mu, W.S. Method of Traceability Information Acquisition and Transmission for Beef Cattle Sector Based on PDA and FSM. Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering 2010, 26(1), 227–231.
  • Shi, L.; Fu, Z.T.; Zhang, L.X. An RFID-Based Traceability System for Quality Insurance of Beef Cattle Breeding. Computer Applications and Software 2010, 27(1), 40–43.
  • Lu, G.M.; Zhang, X.S.; Mu, W.S.; Fu, Z.T.; Zhang, J. Method of Quality Traceability Data Acquisition and Transmission for Beef Processing. Computer Engineering and Design 2009, 30(15), 3657–3659.
  • Lu, G.M.; Zhang, X.S.; Mu, W.S.; Fu, Z.T.; Zhang, J. Implementation of Traceability System for Beef Processing Based on Web Multilayer Structure. Computer Applications and Software 2010, 27(1), 20–22.
  • Expósito, I.; Gay-Fernández, J.A.; Cuiñas, I. A Complete Traceability System for a Wine Supply Chain Using Radio-Frequency Identification and Wireless Sensor Networks. IEEE Antennas and Propagation Magazine 2013, 55(2), 255–267.
  • Barge, P.; Gay, P.; Merlino, V.; Tortia, C. Item-Level Radio-Frequency Identification for the Traceability of Food Products: Application on a Dairy Product. Journal of Food Engineering 2014, 125, 119–130.
  • Hsu, C.I.; Liu, K.P. A Model for Facilities Planning for Multi-Temperature Joint Distribution System. Food Control 2011, 22(12), 1873–1882.
  • Hsu, Y.-C.; Chen, A.-P.; Wang, C.-H. A RFID-Enabled Traceability System for the Supply Chain of Live Fish. IEEE International Conference on Automation and Logistics. Qingdao, China, 1-3 September 2008; 81–86 pp.
  • Abada, E.; Palaciob, P.; Nuinc, N.; González de Záratec, A.; Juarrosa, A.; Gómezb, J.M.; Marco, S. RFID Smart Tag for Traceability and Cold Chain Monitoring of Foods: Demonstration in an Intercontinental Fresh Fish Logistic Chain. Journal of Food Engineering 2009, 93(4), 394–399.
  • Trebar, M.; Grah, A.; Melcon, A.A.; Parreno, A. Towards RFID Traceability Systems of Farmed Fish Supply Chain. Software, Telecommunications and Computer Networks (SoftCOM), 2011; 1–6 pp.
  • Sun, C.; Li, W.-Y.; Zhou, C.; Li, M.; Yang, X.-T. Anti-Counterfeit System for Agricultural Product Origin Labeling Based on GPS Data and Encrypted Chinese-Sensible Code. Computers and Electronics in Agriculture 2013, 92, 82–91.
  • Jedermanna, R.; Behrensb, C.; Westphalb, D.; Langa, W. Applying Autonomous Sensor Systems in Logistics—Combining Sensor Networks, RFIDs and Software Agents. Sensors and Actuators A: Physical 2006, 123(1), 370–375.
  • Zhang, J.; Liu, L.; Mu, M.; Moga, L.M.; Zhang, X. Development of Temperature-Managed Traceability System for Frozen and Chilled Food During Storage and Transportation. Food, Agriculture and Environment 2009, 7(3&4), 28–31.
  • Chen, Y.-Y.; Wang, Y.-J.; Jan, J.-K. A Novel Deployment of Smart Cold Chain System Using 2G-RFID-Sys. Journal of Food Engineering 2014, 141, 113–121.
  • Wang, L.; Kwok, S.K.; Ip, W.H. A Radio Frequency Identification and Sensor-Based System for the Transportation of Food. Journal of Food Engineering 2010, 101(1), 120–129.
  • Academy, Islamic Fiqh, July 1999. http://ar.islamway.net/fatwa/28033/ ( accessed October 26, 2014).
  • Lomiwe, D.; Farouk, M.; Frost, D.A.; Dobie, P.M.; Young, Q.A. The biochemical basis in trendiness in beef. A PhD project, Hamilton, New England: Food & Bio-based Product Group, 2010; n.d.
  • Amin, S.; Zhang, G. A Multi-Objective Facility Location Model for Closed-Loop Supply Chain Network Under Uncertain Demand and Return. Applied Mathematical Modelling 2013, 37(6), 4165–4176.
  • Kannan, G.; Sasikumar, P.; Devika, K. A Genetic Algorithm Approach for Solving a Closed Loop Supply Chain Model: A Case of Battery Recycling. Applied Mathematical Modelling 2010, 34(3), 655–670.
  • Lee, D.; Dong, M. Dynamic Network Design for Reverse Logistics Operations Under Uncertainty. Transport. Research Part E: Logistics and Transportation Review 2009, 451(1), 61–71.
  • Pishvaee, M.S.; Razmi, J. Environmental supply Chain Network Design Using Multi-Objective Fuzzy Mathematical Programming. Applied Mathematical Modelling 2012, 36(8), 3433–3446.
  • HMC, (UK), 2016, http://www.halalhmc.org/, http://www.halalhmc.org/test-demo.htm (accessed October 26, 2014).
  • Wang, Q.; McIntosh, R.; Brain, B. A new-generation automated warehousing capability. International Journal of Computer Integrated Manufacturing 2010, 23(6), 565–573.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.