Knowledge Graph-Based Methods for Automated Driving
Editat de Rajesh Kumar Dhanaraj, M. Nalini, Malathy Sathyamoorthy, Manar Mohaisenen Limba Engleză Paperback – apr 2025
Case studies and other practical discussions exemplify these methods’ promising and exciting prospects for the maturation of scalable solutions with potential to transform transport and logistics worldwide.
- Systematically covers knowledge graphs for automated driving processes
- Includes real-life case studies, facilitating understanding of the current challenges
- Analyses the impact of various technological aspects related to automation across a range of transport modes, networks, and infrastructures
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Specificații
ISBN-13: 9780443300400
ISBN-10: 0443300402
Pagini: 400
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443300402
Pagini: 400
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Cuprins
1. Knowledge graph-based methods for automated driving
2. An overview of knowledge representation learning based on ER knowledge graph
3. Emerging technologies and tools for knowledge gathering in automated driving
4. Awareness of safety regulations and standards for automated driving
5. Reliability and ethics developments in knowledge graphs for automated driving
6. Role of knowledge graph-based methods in human-AI systems for automated driving
7. Knowledge-infused learning: A roadmap to autonomous vehicles
8. Integrated machine learning architectures for a knowledge graph embeddings (KGEs) approach
9. Future trends and directions for knowledge graph embeddings based on visualization methodologies
10. A brief study on evaluation metrics for knowledge graph embeddings
11. Design, construction, and recent advancements in temporal knowledge graph for automated
driving
12. Knowledge graph-based question answering (KG-QA) using natural language processing
13. An integrated framework for knowledge graphs based on battery management
14. Ontology-based information integration standards for the automotive industry
15. Emerging graphical data management methodologies for automated driving
16. Knowledge graphs vs collision avoidance systems: Pros and cons
17. Autonomous vehicle collision prediction systems: AI in action with knowledge graphs
18. Risk assessment based on dynamic behavior for autonomous systems using knowledge graphs
19. Case studies on knowledge graphs in automated driving
2. An overview of knowledge representation learning based on ER knowledge graph
3. Emerging technologies and tools for knowledge gathering in automated driving
4. Awareness of safety regulations and standards for automated driving
5. Reliability and ethics developments in knowledge graphs for automated driving
6. Role of knowledge graph-based methods in human-AI systems for automated driving
7. Knowledge-infused learning: A roadmap to autonomous vehicles
8. Integrated machine learning architectures for a knowledge graph embeddings (KGEs) approach
9. Future trends and directions for knowledge graph embeddings based on visualization methodologies
10. A brief study on evaluation metrics for knowledge graph embeddings
11. Design, construction, and recent advancements in temporal knowledge graph for automated
driving
12. Knowledge graph-based question answering (KG-QA) using natural language processing
13. An integrated framework for knowledge graphs based on battery management
14. Ontology-based information integration standards for the automotive industry
15. Emerging graphical data management methodologies for automated driving
16. Knowledge graphs vs collision avoidance systems: Pros and cons
17. Autonomous vehicle collision prediction systems: AI in action with knowledge graphs
18. Risk assessment based on dynamic behavior for autonomous systems using knowledge graphs
19. Case studies on knowledge graphs in automated driving