Forward Chaining

In the rapidly evolving field of Robotics Science, mastering the principles of forward chaining is crucial for professionals and students alike. This book delves into the intricate world of knowledge representation and reasoning, equipping you with essential tools to navigate complex systems. Whether you are an undergraduate, graduate, or an enthusiastic hobbyist, “Forward Chaining” offers insights that transcend the basics, providing you with advanced knowledge to enhance your expertise. The investment in this book is a step toward your mastery in the realm of robotics.

Chapters Brief Overview:

1: Forward chaining: Discover the fundamentals of forward chaining and its significance in reasoning.

2: Expert system: Learn about the architecture of expert systems and their realworld applications.

3: Knowledge representation and reasoning: Explore techniques for representing knowledge effectively.

4: Logic programming: Understand the role of logic programming in artificial intelligence development.

5: Planner (programming language): Delve into planning algorithms that enhance robotic decisionmaking.

6: Deductive reasoning: Examine the principles of deductive reasoning in intelligent systems.

7: Inference: Uncover methods of drawing conclusions from established facts.

8: Inference engine: Analyze how inference engines function within knowledgebased systems.

9: Backward chaining: Contrast forward chaining with backward chaining in problemsolving.

10: Mycin: Study the Mycin expert system and its influence on medical diagnoses.

11: Knowledgebased systems: Investigate the structure and functionality of knowledgebased systems.

12: Business rules engine: Understand how business rules engines drive automation and efficiency.

13: Modelbased reasoning: Explore the significance of modelbased reasoning in robotics applications.

14: Production system (computer science): Learn about production systems and their role in AI.

15: Drools: Examine Drools and its application in developing rulebased systems.

16: Knowledge Engineering Environment: Understand the tools and environments for knowledge engineering.

17: Semantic reasoner: Discover how semantic reasoning improves machine understanding.

18: Rulebased system: Explore the construction and implementation of rulebased systems.

19: Opportunistic reasoning: Investigate opportunistic reasoning and its applications in dynamic contexts.

20: Reasoning system: Analyze various reasoning systems and their efficiencies.

21: VPExpert: Study the VPExpert system and its contributions to expert system evolution.

By embracing the principles detailed in this book, you will position yourself at the forefront of Robotics Science. The knowledge gained here not only enriches your understanding but also enhances your ability to tackle realworld challenges effectively. Don't miss this opportunity to invest in your future success!