
Embedded Systems in Automotive Applications
- 1st Edition - January 1, 2026
- Imprint: Elsevier
- Editors: Aboubakr El Hammoumi, Saad Motahhir
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 3 3 8 6 1 - 8
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 3 3 8 6 2 - 5
With its well-thought-out overview of the topic, Embedded Systems in Automotive Applications is a resource that serves a variety of audiences both in academia and industry. Its co… Read more
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With its well-thought-out overview of the topic, Embedded Systems in Automotive Applications is a resource that serves a variety of audiences both in academia and industry. Its comprehensive coverage includes both software and hardware aspects, model-based design methods for control systems, practical observations with real-world illustrations, and a focus on keeping abreast of the most recent industry developments, particularly in the realms of electric and autonomous vehicles, encompassing facets of security and connectivity (including AI, blockchain, cybersecurity, and Internet of Vehicles). The volume also bridges interdisciplinary gaps through discussions on challenges such as system complexity, timely software updates, interoperability issues, power constraints, cost management, regulatory compliance, and adapting to rapid technological advancements, contributing to a more well-rounded understanding of the integration of dynamic, ever-evolving, modern techniques while ensuring synergy with standards of the highest quality for next-generation automotive applications.
- Systematically discusses automotive embedded systems, including information on the current state of the art and upcoming prospects
- Features case studies and real-world examples, offering practical insights into embedded system applications which are at the heart of modern automotive engineering
- Ensures readers are up-to-date with cutting-edge industry developments and are prepared to further steer research into prominent trends (e.g., autonomous driving, electric vehicles, and connected cars, among others)
Senior/final-year undergraduate students, postgraduate students, researchers, and academics in automotive engineering; intelligent transport engineering; applied software engineering; electronics and instrumentation engineering; applied mechanical engineering (robotics and mechatronics)
Part I. Introduction
1. Overview of Embedded Systems in Automotive Applications
Part II. AUTOSAR Architecture and Standards
2. AUTOSAR in Automotive Embedded Systems: Classic vs. Adaptive Platforms and Their Role in IoV Development with Integrated Blockchain Security
3. Multi-threading Integration in Automotive Computing: AUTOSAR-Compliant Survey
4. A Concise Survey on ADAS: Advances in Vehicle and Pedestrian Detection with a focus on the AUTOSAR Automotive Standard
Part III. Embedded Software Implementation and Validation
5. Efficient Parallel Implementation Strategies on Multicore Digital Signal Processors
6. Google Test/ Google Mock to Verify Critical Embedded Software
7. MIL and PIL Tests for SOC Estimation Algorithms of Electric Vehicles Lithium-ion Batteries and its Implementation on ARM Embedded Processor
Part IV. Battery Management Systems and Monitoring
8. Battery Management Systems: Integration and Optimization in Automotive Applications
9. Battery Real-time Power Monitoring and Control in Automotive Embedded Systems
Part V. Autonomous Driving Technologies
10. A Comprehensive Review of LiDAR-SLAM for Hardware Implementation for Autonomous Vehicles
11. Efficient FPGA-Based Hardware Architecture for High-Performance EKF-SLAM in Autonomous Vehicle Navigation
12. Advancing Autonomous Vehicle Technology with 3D LiDAR and SqueezeSeg-ROS Integration
Part VI. Connectivity and Telematics
13. 3G Universal Plugin for Car Remote Starters and Alarm Systems and Car Key Fobs
1. Overview of Embedded Systems in Automotive Applications
Part II. AUTOSAR Architecture and Standards
2. AUTOSAR in Automotive Embedded Systems: Classic vs. Adaptive Platforms and Their Role in IoV Development with Integrated Blockchain Security
3. Multi-threading Integration in Automotive Computing: AUTOSAR-Compliant Survey
4. A Concise Survey on ADAS: Advances in Vehicle and Pedestrian Detection with a focus on the AUTOSAR Automotive Standard
Part III. Embedded Software Implementation and Validation
5. Efficient Parallel Implementation Strategies on Multicore Digital Signal Processors
6. Google Test/ Google Mock to Verify Critical Embedded Software
7. MIL and PIL Tests for SOC Estimation Algorithms of Electric Vehicles Lithium-ion Batteries and its Implementation on ARM Embedded Processor
Part IV. Battery Management Systems and Monitoring
8. Battery Management Systems: Integration and Optimization in Automotive Applications
9. Battery Real-time Power Monitoring and Control in Automotive Embedded Systems
Part V. Autonomous Driving Technologies
10. A Comprehensive Review of LiDAR-SLAM for Hardware Implementation for Autonomous Vehicles
11. Efficient FPGA-Based Hardware Architecture for High-Performance EKF-SLAM in Autonomous Vehicle Navigation
12. Advancing Autonomous Vehicle Technology with 3D LiDAR and SqueezeSeg-ROS Integration
Part VI. Connectivity and Telematics
13. 3G Universal Plugin for Car Remote Starters and Alarm Systems and Car Key Fobs
- Edition: 1
- Published: January 1, 2026
- Imprint: Elsevier
- Language: English
AE
Aboubakr El Hammoumi
Dr. Aboubakr El Hammoumi is a Professor of Embedded Systems at École Supérieure de Technologie, Abdelmalek Essaâdi University, Tétouan, Morocco. He received a B.S. degree in Electrical Engineering and Industrial Computing from École Nationale Supérieure d'Arts et Métiers, Mohammed V University of Rabat, in 2014, and an M.S. degree in Automatic, Signal Processing and Industrial Computing from Faculté des Sciences et Techniques, Hassan 1st University, Settat, in 2016. He continued his studies and earned a PhD in Embedded Systems from Sidi Mohamed Ben Abdellah University, Fez, in February 2022. Dr. El Hammoumi has authored numerous publications, primarily focusing on photovoltaic solar energy optimisation and embedded systems, and has contributed to patented innovative projects. In addition to this, he is a reviewer for several journals and has been associated with many international conferences as a member of the program committee, advisory board, or reading committee.
Affiliations and expertise
Assistant Professor, École Supérieure de Technologie, Abdelmalek Essaâdi University, Tétouan, MoroccoSM
Saad Motahhir
Dr. Saad Motahhir (Eng., PhD, AGYA Member) is a Professor and Director of the Applied Sciences and Innovative Technologies Laboratory (LSATI) at ENSA, SMBA University, Fez, Morocco, with extensive expertise in embedded systems and renewable energy technologies. He previously worked as an Embedded Systems Engineer at Zodiac Aerospace Morocco (2014–2019), holds an engineering degree in Embedded Systems from ENSA Fez (2014), and a PhD in Electrical Engineering from SMBA University (2018). Dr. Motahhir has authored numerous publications, primarily focusing on photovoltaic solar energy optimisation and embedded systems, and has contributed to patented innovative projects. He is a book series editor for IET and Taylor & Francis, a guest editor for special journal issues, and serves on editorial boards and as a reviewer for various journals. Additionally, he is the Conference Co-chair of ICDTA, a member of the Arab Youth Center Council and AGYA, and has led work packages in European projects while acting as an expert and consultant for European and national initiatives.
Affiliations and expertise
Full Professor, École Nationale des Sciences Appliquées, Sidi Mohamed Ben Abdellah University, Fez, Morocco