A review on application of technology systems, standards and interfaces for agriculture and food sector

Blackmore, 2009, New concepts in agricultural automation

Sethuramasamyraja, 2010, Geospatial modeling of wine grape quality (anthocyanin) for optimum sampling strategy in mechanized on-the-go differential harvesting programs, International Journal of Engineering Science and Technology, 2, 6058

Wang, 2006, 50, 1

Agricultural Engineering and Technology Working Group, 2006, Vision 2020 and strategic research of the European Machinery Industry and Research Community

P.K. Balasankari, V.M. Salokhe, A case study of tractor utilization by farmers, Coimbatore district, India, Agricultural Mechanization in Asia, Africa and Latin America 30(3) (1999) 14–18.

Baeten, 2007, Autonomous fruit picking machine: a robotic apple harvester

Hirakawacho, 2006

Bouma, 2001, An international collaborative network for agricultural systems applications (ICASA), Agricultural Systems, 70, 355, 10.1016/S0308-521X(01)00051-8

http://cisedu.us/storage/docs/cts/08/sessions/SS4-CollaborationAndAgriculture.pdf.

2005, Spatial Data Infrastructure, Asia and the Pacific Newsletter, 2

Mahalik, 2010, Trends in food packaging and manufacturing systems and technology, Trends in Food Science and Technology Journal, 21, 115, 10.1016/j.tifs.2010.01.003

Yüksel, 2011, RFID technology in business systems and supply chain management, Journal of Economic and Social Studies, 1, 10.14706/JECOSS11115

Asha Devi, 2011, Measurement of potassium levels in the soil using embedded system based soil analyzer, International Journal of Innovative Technology & Creative Engineering, 1

http://www.bodenprobetechnik.de/startpage.html.

Blackmore, 2001, Robotic agriculture — the future of agriculture, 621

Franzen, 2008

http://www.ag.ndsu.edu/pubs/ageng/machine/ae1445.pdf.

Xinzhong, 2011, Design and test of variable-rate fertilization control device of precision planter for soybean

Murdock, 1997, Profitability of variable rate fertilization on a Kentucky Soil (a theoretical analysis), vol. 18, No 10

Nolte, 2011, The integration of variable rate technologies for a soilapplied herbicide in leafy green production, Journal of Soil Science and Environmental Management, 2, 159

Till, 1995, Wide Area Augmentation System (WAAS) test and evaluation concepts, vol. 1, 169

Nowatzki

Robert, 1995, New packaging technologies, Food and Drug Law Journal, 50, 575

Goodenough, 2008, Comparison of Aviris and AISA airborne hyperspectral sensing for above-ground forest carbon mapping

Shannon

Jiang, 2011, Design of wireless sensor node for drought monitoring in tea plantation, 1328

Zhang, 2010, Monitoring crop yield in USA using a satellite-based climate-variability Impact Index, 1815

Mahalik, 2011

Sistler, 2003, Robotics and intelligent machines in agriculture, IEEE Journal of Robotics and Automation, IEEE Robotics and Automation Society, 3, 3, 10.1109/JRA.1987.1087074

Van Henten, 2002, 13, 241

Pik Rite Inc.

Monta, 1998, End-effectors for tomato harvesting robot, vol. 12 Issue 1–3

California Tomato Machinery (CTM)

Euro Machines

http://www.aabgu.org/media-center/news-releases/robot-picks-fruit.html.

Advanced Farm Equipment, LLC

http://www.cotton.org/pubs/cottoncounts/story/how.cfm.

United States Department of Agriculture (USDA), 2007, Precision agriculture: NRCS support for emerging technologies

Blackmore, 2007, A systems view of agricultural robotics, 23

Neethirajan, 2005, Biosensors – an emerging technology for the agricultural and food industry. The Canadian Society for Food and Agriculture, 1

Torii, 2000, Research in autonomous agriculture vehicles in Japan, Computers and Electronics in Agriculture, 25, 133, 10.1016/S0168-1699(99)00060-5

Denny Oetomo, John Billingsley, in: Editorial, Special issue on agricultural robotics, Intelligent Service Robotics, Springer, vol. 3, Number 4, (2010) pp 207–208, http://dx.doi.org/10.1007/s11370-010-0079-y.

Magison, 1978, Intrinsically safe systems-trends in design and installation standards, IEEE Transactions on Industry Applications, IA-14, 10.1109/TIA.1978.4503495

Verhappen, 2006, Fieldbus Safety: Calculating your Safety Integrity Level, Manufacturing Automation, 1

2003

Qu, 2003, An architecture for the interconnecting heterogeneous fieldbuses in industrial automation, vol. 1, 396

Lian, 2001, Performance evaluation of control networks: ethernet, ControlNet, and DeviceNet, IEEE Control Systems Magazine, 21, 66, 10.1109/37.898793

LAV - Landtechnik-Vereinigung, 1998

Cugnasca, 2003, Communication protocols for application in agricultural vehicles

ISO 11783, 1999, An electronic communications protocol for agricultural equipment: ASAE distinguished lecture # 23, 1

Koen Langendoen, Aline Baggio, O. Visser, Murphy loves potatoes: experiences from a pilot sensor network deployment in precision agriculture, in: 20th IEEE International Parallel & Distributed Processing Symposium. IPDPS 2006 will be held Tuesday, 25 April - Saturday, 29 April 2006 on Rhodes Island, Greece.

Wark, 2007

http://www.omac.org/.

Roberti, 2006, Robot manipulators, trends and development, 498

Garcia, 2007, Design and validation of an open architecture for an industrial robot, 2004

Guda, 2010

Guda, 2010

Nambiar, 2010, Traceability in agri-food sector using RFID

Sarac, 2010, A literature review on the impact of RFID technologies on supply chain management, International Journal of Production Economics, 128, 77, 10.1016/j.ijpe.2010.07.039

Leong, 2005, A distributed architecture for a ubiquitous RFID sensing network, 7

Luo, 2005, A lightweight mutual authentication protocol for RFID networks

Hsu, 2009, Alleviating reader collision problem in mobile RFID networks, Personal and Ubiquitous Computing, 13, 489, 10.1007/s00779-009-0224-9

Wang, 2005, Timing analysis of real-time networked RFID systems

Oztekin, 2010, vol. 49 Issue 1, 100

Sumi, 2009, Design of a zigbee-based RFID network for industry applications, 111

Buettner, 2008, RFID sensor networks with the Intel WISP, 393

Murat Uneyyz, Mujdat Cetiny, Graphical Model-based Approaches to Target Tracking in Sensor Networks: An Overview of Some Recent Work and Challenges, in: Report for Scientific and Technological Research Council of Turkey and by the European Commission Grant, 2007.

Sean Michael Alsop, John Wesley Anderson, Kevin Paul Bell, Satnam Singh, Nicholas Jeffrey Wong, Robert Michalk, A new approach to facilitating system integration: Case study through the development of a food processing and packaging automation laboratory, accepted for presentation in the 29th Annual Central California Research Symposium, April 16, 2008.

Cheng, 2006, Development of holonic manufacturing execution systems, manufacturing the future, concepts – technologies – visions, 908

Mahalik, 2009, Processing and packaging automation systems: a review, special issue on “advances in food automation”, Journal of Sensing and Instrumentation for Food Quality and Safety, 3, 12, 10.1007/s11694-009-9076-2

ARC Advisory Group, 2007, Packaging Execution Systems Benefit Lean Manufacturing Initiatives, 2