References

Aminzadeh, R., 2014. Modified design of a precision planter for a robotic assistant farmer. MSc Thesis, University of Saskastchhewan, Saskatoon, Saskatchewan.

Bak, T. and H. Jakobsen, 2004. Agricultural robotic platform with four wheel steering for weed detection. Biosyst. Eng., 87: 125-136.
Direct Link  |  

Bawden, O., D. Ball, J. Kulk, T. Perez and R. Russell, 2014. A lightweight, modular robotic vehicle for the sustainable intensification of agriculture. Proceedings of the Australian Conference on Robotics and Automation (ACRA 2014), December 2-4, 2014, University of Melbourne, Melbourne, Victoria, Australia, pp: 1-9.

Bay, H., T. Tuytelaars and V.L. Gool, 2006. Surf: Speeded up robust features. Proceedings of the European Conference on Computer Vision, May 7-13, 2006, Springer, Berlin, Germany, pp: 404-417.

Bechar, A. and C. Vigneault, 2016. Agricultural robots for field operations: Concepts and components. Biosyst. Eng., 149: 94-111.
Direct Link  |  

Borenstein, J. and L. Feng, 1995. UMBmark: A benchmark test for measuring odometry errors in mobile robots. Proceedings of the Conference on Photonics East'95, December 27, 1995, SPIE, Philadelphia, Pennsylvania, pp: 113-124.

Green, O., T. Schmidt, R.P. Pietrzkowski, K. Jensen and M. Larsen et al., 2014. Commercial autonomous agricultural platform-kongskilde robotti. Proceedings of the 2nd International Conference on Robotics, Associated High-technologies and Equipment for Agriculture and Forestry-Rhea, May 21-23, 2014, Denmark's Electronic Research Library, Denmark, ISBN:9788469702482, pp: 351-356.

Grimstad, L., C.D. Pham, H.T. Phan and P.J. From, 2015. On the design of a low-cost, light-weight and highly versatile agricultural robot. Proceedings of the IEEE International Workshop on Advanced Robotics and its Social Impacts (ARSO), June 30-July 2, 2015, IEEE, As, Akershus, Norway, ISBN:978-1-4673-8029-4, pp: 1-6.

Haibo, L., D. Shuliang, L. Zunmin and Y. Chuijie, 2015. Study and experiment on a wheat precision seeding robot. J. Rob., 2015: 1-12.
CrossRef  |  Direct Link  |  

Jorgensen, R.R.N., C. Sorensen, J. Maagaard, I. Havn and K. Jensen et al., 2007. Hortibot: A system design of a robotic tool carrier for high-tech plant nursing. Manuscript ATOE, 9: 1-13.
Direct Link  |  

Kalman, R.E., 1960. A new approach to linear filtering and prediction problems. Trans. ASME. J. Basic Eng., 82: 35-45.
Direct Link  |  

Linz, A., A. Ruckelshausen, E. Wunder and J. Hertzberg, 2014. Autonomous service robots for orchards and vineyards: 3D simulation environment of multi sensor-based navigation and applications. Proceedings of the 12th International Conference on Precison Agriculture, July 20-23, 2014, ISPA, Sacramento, California, USA., pp: 1-13.

Ruckelshausen, A., P. Biber, M. Dorna, H. Gremmes and R. Klose et al., 2009. BoniRob-An Autonomous Field Robot Platform for Individual Plant Phenotyping. In: Precision Agriculture '09, Henten, E.J.V., D. Goense and C. Lokhorst (Eds.). Wageningen Academic Publishers, Wageningen, Netherlands, ISBN:978-90-8686-113-2, pp: 841-843.

Underwood, J.P., M. Calleija, Z. Taylor, C. Hung and J. Nieto et al., 2015. Real-time target detection and steerable spray for vegetable crops. Proceedings Workshop on Robotics in Agriculture and International Conference on Robotics and Automation (ICRA), May 30, 2015, ICRA, India, pp: 1-4.