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be sent to the customer at the end of the month. The system is implemented to automatically register vehicles getting on or off a motorway or highway, cutting the amount of time for paying toll in large queues. View full-textĪn efficient utilization of communication link between RF Modems over a wireless channel to facilitate vehicle monitoring, vehicle authentication and automated toll collection on the highways is proposed. The experimental results were obtained by using the fourth order Runge-Kutta numerical method to integrate the differential equations of the controller, where the results were measured with a digital oscilloscope. By taking advantage of the execution and implementation facilities of microcontroller based chaotic systems in digital devices, the active controller is implemented in a 32 bits ARM microcontroller. by means of the dynamic of the error synchronization is designed to guarantee the convergence to zero of error states and the synchronization process is verified by numerical simulation.
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For the active control, the parameters of both systems are assumed to be a priori known, the control law. 2017, 7, 976) on master-slave configuration.
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New chaotic dynamical system with a conic-shaped equilibrium located on the plane structure. This paper presents an active control design for the synchronization of two identical Petrzela chaotic systems (Petrzela, J.
#Serial communication pdf code
Designers often devote a significant amount of time to reduce code size so that the code will fit into available ROM exceeding onchip ROM size could require expensive redesign of the entire IC. Code size matters a great deal in embedded systems since program code resides in onchip ROM, the size of which directly translates into silicon area and cost. The programmable component in embedded systems can be an application-specific instruction processor (ASIP), a general-purpose microprocessor, such as the SPARe, a microcontroller, such as Intel 805 I, or a digital signal processor (DSP), such as TMS320C25. e.g., FAX modems, laser printers, and cellular telephones. Such microarchitecture can currently be found in many diverse embedded systems. An increasingly common microarchitecture for embedded systems is to integrate a microprocessor or microcontroller, a ROM, and an application-specific integrated circuits (ASIC) all on a single IC. This chapter focuses on the digital signal processing application domain, where embedded systems are increasingly used.