In our developing and changing world increasing the effectiveness and efficiency of factories, it is important to adapt to changes in technology. In parallel to technological changes, security measures are updated in accordance with age. For example, a large number of conveyor belts in factories often used to transport raw materials. Here, as a security measure, only a one band is used to stop along the steel wire. With this type of system used a mechanical protection is not possible to provide complete security. In this study, steel wire standing next to a belt conveyor system was removed and instead of mechanical system, scanning laser system was placed across the entire band system. Thus, the system automatically stops when accident occur, to work whole system again someone must pres the reset button or intervention will be required from the automation center. This work; both employees and employers, in terms of prevention is very important to material and moral losses.
 Gonen S, Celik M. Evaluation of the productions costs of implementing flexible manufacturing systems in business. Ege Academic Review, No.1 4:133-143, 2004.
 Ching WK, Loh AW. Iterative methods for flexible manufacturing systems. Applied Mathematics and Computation, 141:553–564, 2003.
 Maleki AR. Flexible production systems: the technology and management. Prentice-Hall Inc, USA, 1991.
 Ulgen O, Upendram S. Role of simulation in design of material handling systems. Paper Presented at the Autofact Conference, 1995.
 Jing GG, Kelton WD, Arantes JC and Housmand A A. Modelling a controlled conveyor network with merging configuration. Proceedings of the 1998 Winter Simulation Conference, 1041-1048, 1998.
 Williams EJ and Gonzalez R. Improving logistics within a flow shop-a simulation project within the context of a university course. http://st.itim.unige.it/hms2000/listweb.html#s6;1-6, 22.06.2005.
 Brost FB. Construction and operation of a cable belt conveying system at twin buttes. Mining Engineering, pp. 1686-1692, December 1979.
 Thomson M. Operation experiences and the development of cable belt conveyors. CIM Bulietlon, November 75-81, 1975.
 Alspaugh M. Bulk material handling by belt conveyor 7. Proceedings of Special Symposium of the 2008 SME Annual Meeting, February 2008.
 Hosmer P. Use of laser scanning technology for perimeter protection. IEEE Aerospace and Electronic Systems Magazine, 19:13-17, 2004.
 Chang K. RF&Microwave Wireless Systems, Wiley Series in Microwave & Optical Engineering, 2000.
 Doddamani ND, Harishchandra Nandi AV. Design of SPDT switch, 6 bit digital attenuator, 6 bit digital phase shifter for L-band T/R module using 0.7 uM GaAs MMIC technology. International Conference on Signal Processing, Communications and Networking, ICSCN '07, 302-307, 2007.
 Stece C. RF power amplifiers for wireless communications, Artech House, 1999.
 Bon-Hyun Ku, Bonghyuk Park and Songcheol Hong. A 3.1 to 5 GHz CMOS RF transmitter for direct Sequence code division multiple access applications. Microwave and Optical Technology Letters, 49: 3140-3145, 2007.
 Kaya A, Kılınç S, Yüksel EY & Cam U. Bandwidth enhancement of a microstrip antenna using negative inductance as impedance matching device. Microwave and Optical Technology Letters, 42, 476-478, 2004.