SIMULATING BASIC LOGIC GATES USING TYPESCRIPT: FOUNDATIONS FOR ADVANCED ROBOTIC SYSTEMS
Keywords:
Keywords: Logic gate simulation, TypeScript, AND gate, OR gate, XOR gate, NOT gate, full adder, digital circuit design, autonomous robotic systems, binary logic, computational decision-making, virtual circuit modeling, robotic control algorithms, sensor data processing, real-time systems, digital electronicsAbstract
Abstract. The foundation of computational and robotic systems lies in the behavior of digital logic gates, which process binary inputs to make crucial decisions. This research focuses on the simulation of basic logic gates—AND, OR, NOT, XOR—using TypeScript, with the aim of creating a scalable, browser-based framework for testing and validating digital circuits. By simulating these gates, complex robotic control systems can be modeled and experimented with in a virtual environment, reducing the need for physical prototypes. The study explores the importance of logic gates in the context of robotics, where they serve as the backbone for decision-making processes, sensor integration, and real-time operations. TypeScript’s static typing and cross-platform compatibility allow for the rapid and reliable development of these simulations, which can be expanded to more complex systems, such as full adders, multiplexers, and flip-flops. The results demonstrate how logic gate simulations are integral to the development of sophisticated robotic architectures, enabling the design and testing of algorithms without the constraints and risks associated with hardware implementation. This work is a critical step toward advancing autonomous robotic systems through robust virtual modeling techniques.
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