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9th Automotive Sensors & Electronics Summit

  • 21st – 22nd February 2024
  • Germany flag Germany Munich & Online

The prospect of driverless cars is rapidly approaching as we edge closer to the year 2024. One of the key enablers of this transformation is the integration of increasingly sophisticated automotive sensors and electronics into driver-assist systems, a trend that gained momentum throughout 2023.  

At the #VLAutoSE 2024 we will explore the pivotal role played by these technologies in the development of autonomous vehicles, further adoption of advanced driver assistance systems (ADAS) along with the challenges and questions that continue to shape this exciting journey. 

To explore and pioneer new sensing technologies and applications, enriching the success and performance of driver-assist systems and safe manoeuvring for autonomous and self-driving cars, we're bringing together experts in the field at the 9th Automotive Sensors and Electronics Summit on February 21-22, 2024. These visionary leaders will exchange the latest practical strategies, propelling us towards the next level of sensing in highly automated driving. Get ready to be part of the driving force behind the automotive technology revolution!

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Advancing Towards Autonomous Driving: The Role of Automotive Sensors and Electronics

Introduction

The prospect of driverless cars is rapidly approaching as we edge closer to the year 2024. One of the key enablers of this transformation is the integration of increasingly sophisticated automotive sensors and electronics into driver-assist systems, a trend that gained momentum throughout 2023. At the #VLAutoSE 2024 we will explore the pivotal role played by these technologies in the development of autonomous vehicles, along with the challenges and questions that continue to shape this exciting journey.

The Benefits of Autonomous Driving

Autonomous driving holds immense promise, primarily in its potential to significantly enhance safety by reducing human errors. Central to this advancement are the various sensing technologies that make autonomous driving possible. These technologies include cameras, radar, sonar, lidar, GPS, and infrared sensors.

The Challenges of Autonomous Driving

While the prospects of autonomous driving are promising, numerous challenges persist, giving rise to common questions:

  1. When Will Self-Driving Cars Become Everyday Reality? The technology required for level 3 autonomous driving is already within our reach, and we may witness its implementation as early as the next year. However, substantial technical hurdles remain, and numerous OEMs are not yet ready to formally declare level 3 due to legal considerations. Therefore, Mercedes-Benz achieved a significant milestone by introducing SAE level 3 conditionally automated driving to the United States.
  2. Where Will Autonomous Driving Be in 2024? The landscape of autonomous driving is poised for significant advancements throughout 2023, but the pace of adoption is quite slow, and will vary across regions and industries.

The Rise of Hands-Free Partially Automated Systems

In the upcoming year, hands-free partially automated highway driving assist systems will become increasingly prevalent in many vehicles. These systems heavily rely on a combination of surround-view cameras and radar sensors to accurately detect the vehicle's position on the road and the presence of other vehicles. The growing requirements and expectations for driver-assist systems will drive the development of new capabilities in automotive sensors.

Future Growth in the Automotive Sensors Market

The adoption of advanced driver assistance systems (ADAS) and key trends such as miniaturisation, integration, intelligence, multifunctionality, convenience, connection, and the growing demand for safety and security will continue to be instrumental in the growth of the global automotive sensors market. In 2023, automobiles already incorporate fundamental ADAS functionalities, and significant strides in advanced driver assistance capabilities are expected.

Trends and Developments in Autonomous Cars in 2024 

The industry is dynamic, and advancements are continually evolving. Here are some trends and developments in autonomous cars in 2024:

  1. Advancements in Level 3 and Level 4 Autonomy: The development and deployment of vehicles with higher levels of autonomy, particularly level 3 and level 4, were anticipated to progress and, according to McKinsey, will become more widely available in private passenger cars by 2025. These levels of automation involve a higher degree of self-driving capabilities.
  2. Improved Sensor Technologies: Continued advancements in sensor technologies, including lidar, radar, and cameras, are expected. These sensors are crucial for providing vehicles with a comprehensive understanding of their surroundings.
  3. AI and Machine Learning Integration: Enhanced integration of artificial intelligence (AI) and machine learning algorithms to process sensor data and make real-time decisions, increasing the safety and efficiency of autonomous vehicles.
  4. Data Security and Privacy: A growing emphasis on data security and privacy as autonomous vehicles collect and transmit vast amounts of data. Ensuring the protection of sensitive information became a paramount concern.
  5. Regulatory Frameworks: The development of clearer regulatory frameworks and standards to govern autonomous vehicles and their technologies, as governments worked to address the legal and safety aspects of self-driving cars.
  6. V2X Communication: Increased use of vehicle-to-everything (V2X) communication, enabling vehicles to exchange data with other vehicles, infrastructure, and even pedestrians. This technology enhances safety and traffic management.
  7. Ride-Sharing and Mobility as a Service (MaaS): The integration of autonomous vehicles into ride-sharing platforms and mobility as a service (MaaS) solutions, offering more convenient and cost-effective transportation options.
  8. Commercial Applications: A focus on autonomous vehicles for commercial applications, such as delivery services and long-haul trucking, with potential impacts on logistics and supply chain management.
  9. Sensor Fusion: Enhanced sensor fusion techniques that combine data from various sensors to create a more comprehensive and reliable perception of the environment.
  10. Infrastructure Upgrades: Upgrades to road infrastructure to accommodate autonomous vehicles, including smart intersections and dedicated lanes.
  11. Consumer Acceptance: Efforts to increase consumer trust and acceptance of self-driving technology through education and experience.
  12. Testing and Validation: Rigorous testing and validation processes to ensure the safety and reliability of autonomous systems.

Join the 9th Automotive Sensors & Electronics Summit and Exhibition

To gain deeper insights and be part of the driving force behind advanced sensing systems, join us at the 9th Automotive Sensors & Electronics Summit and Exhibition on February 21-22, 2024. At this event, you will have the opportunity to explore:

  • Groundbreaking sensing technologies and applications
  • Enhanced performance and success of driver-assist systems
  • Improved safety of manoeuvring for autonomous and self-driving vehicles
  • Partnerships within the automotive, sensors, and electronics sectors

Conclusion

As we gear up for the #VLautoSE in February 2024, it’s clear that the automotive industry is on the cusp of another unprecedented paradigm shift in advanced sensing systems. Key stakeholders will come together to exchange practical strategies for achieving the next level of sensing in highly automated driving and navigating the evolution from ADAS systems to fully autonomous vehicles. We look forward to seeing you at this exciting event, where the future of automotive sensors and electronics will unfold before our eyes.

Who Should Attend:

Chief Executives, Directors, Vice Presidents, Department Heads, Leaders, and Managers specialising in: 

  • Business/Product Development
  • Consultants/Analysts
  • Diagnostics/Testing
  • Engineering
  • Investors/Startups
  • Manufacturing Operations
  • Marketing & Sales
  • Project & Program Management
  • Purchasing
  • Regulatory
  • Software Development
  • Quality Affairs/Control
  • R&D/Innovation
  • Advanced Driver-Assistance Systems (ADAS)
  • Advanced/Platforms Development
  • Artificial intelligence (AI)
  • Application-Specific Integrated Circuit (ASIC)
  • Automotive & Automation
  • Autonomous Driving
  • Big Data
  • Blockchain
  • Camera & Video & Radar
  • Chip
  • Cloud Computing/Applications
  • Complementary Metal–Oxide–Semiconductor (CMOS)
  • Connected Car
  • Control Systems Design
  • Cyber Security
  • Design of Experiments
  • Digital/Mixed Signal
  • Electronics/Software/Systems/Process/Advanced Engineering
  • Embedded Systems 
  • Emission
  • Fabrication & Packaging
  • Graphene, Carbon Nanotubes, E-Textiles, Transparent Conductive Films, Other Materials
  • Human-Machine Interface (HMI)
  • Integrated Circuit (IC)
  • Infotainment
  • Internet of Things (IoT)
  • Light-Emitting Diode (LED)
  • Light Detection and Ranging (LiDAR)
  • Micro-Electro-Mechanical Systems (MEMS)
  • Microsystem Technologies (MST)
  • Microcontrollers
  • Microelectronics
  • Navigation
  • Optics
  • Optoelectronics
  • Photonics
  • Powertrain
  • Privacy
  • Radio Frequency (RF)
  • Robotics
  • SaaS
  • Safety
  • Semiconductors
  • Sensor Fusion
  • Sensors
  • Signal Processing
  • Silicon
  • Simulations
  • System Architecture
  • Telematics
  • Vehicle-to-Vehicle (V2V) 
  • Vehicle-to-Everything (V2X)
  • Virtual & Augmented Reality
  • 3D/4D Imaging

REQUEST A BROCHURE

To request an agenda for this Summit, please complete the details below. We will send you the agenda via email.

Key Practical Learning Points

  • Advancements Towards Full Automation: Delve into the advanced development and integration of sensors, electronics, and related components as a pathway to achieving fully automated driving
  • Image and AI-based Technologies: Learn about emerging image and AI-based sciences, technologies, and applications that enable the next level of sensing in highly automated driving
  • Enhancing ADAS and Vision-Based Tech: Discover how automotive sensors and electronics contribute to enhancing ADAS and vision-based technologies, ensuring the safe maneuvering of autonomous and self-driving cars
  • Elevating Sensor Capabilities: Explore strategies for achieving the next level of sensing, functionality, quality, intelligence, convenience, and comfort while managing sensor complexity
  • Sensor Fusion for Robustness: Understand the role of sensor fusion in bringing robustness, reliability, safety, and new capabilities to in-vehicle systems for autonomous driving vehicles
  • Future Integration Strategies: Gain insights into future strategies that merge sensor technology with connected cars, facilitating the evolution from ADAS systems to fully autonomous vehicles

Dr. Jörg Schrepfer, DE

Advanced Development Director I Research and Development Site Manager

Valeo CDA Kronach-Neuses

About Speaker

Plato Pathrose, DE

Technical Director ADAS & Autonomous Driving

Vinfast

About Speaker

Dr. Kathrin Kind-Trueller, DE

Chief Data Scientist and AI Asst. Director, Nordics

Cognizant

About Speaker

Alejandro Morate, SE

Director - Autonomous Drive

CEVT (China Euro Vehicle Technology AB)

About Speaker

Dr. Dan Levi, IL

Computer Vision & Perception Lab Group Manager

General Motors

About Speaker

Dr. Javier Ibanez-Guzman, FR

Corporate Expert on Autonomous Systems

Renault S.A.

About Speaker

Simone Ferri, IT

VP I Analog, MEMS, and Sensors Group

STMicroelectronics

About Speaker

Dr. Ralph Grewe, DE

Product Manager, Perception – Innovation Line Driverless

About Speaker

Miquel Testar, DE

Senior Product Manager I Radar

Bosch

About Speaker

Dr. Richard Dixon, DE

Senior Principal Analyst, Sensors & Electronics

S&P Global Mobility

About Speaker

Danilo da Costa Ribeiro, DE

System Safety Manager | Expert Safety-in-Use for Automated Systems

Continental

About Speaker

Jamie Smith, US

VP of Products for Safety-Critical Systems

Imandra

About Speaker

Robert Krutsch, DE

SW CTO

NXP

About Speaker

Dr. Ofer David, IL

CTO and Exec. Chairman

BrightWay Vision

About Speaker

Simon Dürr, DE

Senior Expert

Elektrobit

About Speaker

Dr. Alexander Wischnewski, DE

Co-Founder and Managing Director

driveblocks

About Speaker

Dr. Felix Govaers, DE

Deputy Head of Sensor Data Fusion and Information Processing

Fraunhofer FKIE

About Speaker

Pierre Delbos, FR

Technology & Market Analyst, Sensing and Actuating

Yole Intelligence

About Speaker

Lenora Clark, US

Director of Autonomous Driving and Safety Technology

MacDermid Alpha Electronics Solutions

About Speaker

Dr. Jörg Schrepfer, DE

Advanced Development Director I Research and Development Site Manager

Valeo CDA Kronach-Neuses

Dipl. Ing. Jörg Schrepfer graduated from Friedrich Alexander University (Germany) with a degree in electrical engineering. From 1998-12 he held various positions in the pre-development and development of product areas such as automotive DVD players, displays, gateways, and new bus systems. From 2012-14 he was the ASL vision director for business development in Germany at Image Processing Solutions. From 2014-16 he worked at Continental as a senior manager of technical sales and R&D Kronach, specialising in surround-view camera systems for vehicles. Since 2017, Jörg has been the head of driver assistance research Germany at Valeo. He works on algorithms and functions for laser scanners, cameras, and ultrasound, as well as algorithms for autonomous driving using deep learning.

Plato Pathrose, DE

Technical Director ADAS & Autonomous Driving

Vinfast

Dr. Kathrin Kind-Trueller, DE

Chief Data Scientist and AI Asst. Director, Nordics

Cognizant

Kathrin Kind-Trueller started her career in 1999 in the quality engineering of international communication mobile networks at Siemens. Later on, she developed complete vehicle functions for ADAS, engine management, steering, braking, cockpit infotainment, and autonomous driving at several automotive suppliers such as Bosch, ZF-TRW, and Magneti Marelli, and at automotive OEMs such as BMW in Munich, Mercedes Benz Cars in Sindelfingen, and Audi in Ingolstadt. She was a senior research scientist in AI for the Volkswagen Group in Wolfsburg. She currently is the chief data scientist and AI assistant director for Cognizant in the Nordics.

She has a doctorate in AI applied to business, from SSBM Geneva and the faculty of business from the University of Zagreb, an MBA in AI from the University of Cumbria, an MSc. in computer science and software engineering from the University of Hertfordshire, and a master of arts in leading innovation and change from York St. John.

Alejandro Morate, SE

Director - Autonomous Drive

CEVT (China Euro Vehicle Technology AB)

Alejandro Morate is currently leading the autonomous drive department in one of the most innovative automotive companies in Sweden. Their mission is to deliver the mobility solutions of the future. Due to the nature of the work, most of the time his team is navigating in uncharted territory working out ideas, innovations, and using strategies thinking to ensure that CEVT is among the market leaders as a company.

In the past he has worked for Tier 1 suppliers, for big OEMs, and also has led the engineering department of a small startup developing their own innovations. His background is computer engineering, specialised in robotics and SW processes like ASPICE and ISO26262.

Dr. Dan Levi, IL

Computer Vision & Perception Lab Group Manager

General Motors

Dr. Dan Levi is currently a technical fellow at General Motors R&D Israel, leading the computer vision and perception research group. He received a BSc degree with honours in mathematics and computer science from Tel-Aviv University, in 2000, and MSc and PhD degrees in applied mathematics and computer science from the Weizmann Institute, in 2004 and 2009, respectively. In his studies he researched human and computer vision under the supervision of Prof. Shimon Ullman. Since 2007, he has been conducting industrial computer vision research and development at several companies, including General Motors and Elbit Systems, Israel.

Dr. Javier Ibanez-Guzman, FR

Corporate Expert on Autonomous Systems

Renault S.A.

Javier Ibanez-Guzman received an MSEE degree from the University of Pennsylvania, USA, as a Fulbright scholar, and a PhD from the University of Reading on a UK SERC fellowship. He was a visiting scholar at the University of California, Berkeley. Currently, he’s a corporate expert on autonomous systems at Renault S.A., and co-director of the SIVALab common laboratory between the CNRS, UTC Compiegne, and Renault working on intelligent vehicle technologies. Javier is a senior editor and associate editor for related IEEE Transactions as well as representative to ISO groups associated to autonomous vehicles and AI. He is also an expert to the EU and Eureka research programmes. Formerly, he was a senior scientist with SimTech, an A*Star research institute in Singapore, where he spearheaded work on autonomous ground vehicles. He is an IEEE member, C.Eng., and fellow of the Institute of Engineering Technology, UK.

Simone Ferri, IT

VP I Analog, MEMS, and Sensors Group

STMicroelectronics

Simone Ferri has been the general manager for STMicroelectronics MEMS sub-group since February 2016.

Simone began his career in STMicroelectronics in 1999 as an R&D engineer, before moving on to digital designer for the audio division, leading into product management after five years. In 2014, Simone was entrusted with ST MEMS consumer sensors, then with global MEMS sensor-related marketing and application activities across all markets and segments, and, more recently with AMS Group vice president and general manager of the MEMS sub-group.

Simone was born in Milan in 1972 and graduated with a degree in microelectronics from Polytechnic of Milan, where he also completed his MBA.

Dr. Ralph Grewe, DE

Product Manager, Perception – Innovation Line Driverless

Dr. Ralph Grewe started his career at Continental in 2011 with a PhD position in the field of environment modelling at the advanced engineering of systems and technology, where he took over the position as group leader for perception and environment model in 2016. In 2018, he became the domain owner for the CEM and localisation domains in the program automated driving. Since January 2022, he has been the product manager of perception at the innovation line driverless of the systems and software business at autonomous mobility.

Miquel Testar, DE

Senior Product Manager I Radar

Bosch

Miquel Testar is an ADAS product innovation professional with 15-plus years of background in the sensing space. He has experience leading both engineering teams and business strategy, as well as managing growth initiatives from the Bay Area for L4 players as well as from Germany for L2-L3 solutions with established OEMs.

Dr. Richard Dixon, DE

Senior Principal Analyst, Sensors & Electronics

S&P Global Mobility

Dr. Richard Dixon is senior principal analyst at IHS Markit (now a part of S&P Global) responsible for sensors and vehicle architectures in the EE and semiconductor team. His research area is tracking the adoption of semiconductor technology supporting major automotive trends such as electrification, emissions reduction, and autonomy, in addition to assessing the impact of the changing vehicle electronic and electric architecture on the supply chain.

In addition, Richard has led the sensor research output at IHS Markit for over 10 years. He is an expert for all sensors in cars and is tracking at least 150 different applications on a regular basis.

Danilo da Costa Ribeiro, DE

System Safety Manager | Expert Safety-in-Use for Automated Systems

Continental

Danilo de Cost Ribeiro holds a bachelor's degree in control and automation engineering from Universidade de Fortaleza (Brazil) and received his master's degree in aeronautical engineering from the traditional Instituto Tecnológico de Aeronáutica (ITA - Brazil) in 2016 after completing a joint program between ITA and the aerospace manufacturer Embraer. In the aerospace industry, he worked at Embraer for five years, mainly as systems safety engineer responsible for the functional safety assessment (according to SAE ARP4754A) for the development of the Embraer E2 family of aircraft (up to 146 passengers). After that, he joined the automotive industry at Continental AG in 2018 as a system safety manager for highly automated driving, having acted as safety manager for several platforms up to SAE Level 4 AD and is currently safety manager for autonomous mobile robots and unmanned aircraft systems. Within safety, Danilo was appointed expert safety-in-use for automated systems at Continental and is a reference within the organisation for this topic.

Jamie Smith, US

VP of Products for Safety-Critical Systems

Imandra

Jamie Smith has over 25 years of embedded design and test and measurement experience in safety-critical industries. He is currently the VP of products for safety-critical systems at Imandra. They provide development and testing tools for safety-critical systems based on formal methods and symbolic AI.  He spent most of his career at National Instruments (now NI), where Jamie led the automotive research and development team and industrial internet of things (IoT) group. Jamie earned a MSc in applied physics from Stanford (USA) and a bachelor's in physics from UC Santa Barbara (USA). He frequently speaks at autonomous vehicle and industrial IoT conferences.

Robert Krutsch, DE

SW CTO

NXP

Robert Krutsch joined NXP as SW CTO in 2022. Prior to this, he was chief architect ADAS SoCs at Aptiv and led the platform architecture team at Intel/Mobileye. He received BSc and MSc degrees, specialising in automatics and computer science, from the Polytechnic University of Timisoara (Romania) and University of Bremen (Germany). He holds more than 25 patents and is the author of various articles and books targeting signal and image processing.

Dr. Ofer David, IL

CTO and Exec. Chairman

BrightWay Vision

Dr. Ofer David received his BSc and MSc from the Technion Haifa, Israel, and his PhD in electro-optics from Ben Gurion University. He was the head of the electro-optic group at Elbit Systems. Ofer has various publications and patents on active imaging systems and laser detection. He was the co-founder and CEO of BrightWay Vision, an automotive nighttime camera system provider until January 2023, and now serves as the CTO and executive chairman.

Simon Dürr, DE

Senior Expert

Elektrobit

Simon Dürr is a senior expert for embedded automotive software and AUTOSAR with over 13 years of industry experience. Simon is focussed on embedded security, functional safety, AUTOSAR, and automotive HPC architectures. He has a proven track record of bringing automotive software to mass production, working on various automotive platforms and embedded software solutions for worlds major OEMs.

Dr. Alexander Wischnewski, DE

Co-Founder and Managing Director

driveblocks

Alexander Wischnewski is co-founder and managing director at driveblocks, a provider of perception and sensor-fusion technology for autonomous driving with a focus on commercial vehicles. He holds a PhD degree from the Technical University of Munich in the field of autonomous driving and has been leading the TUM Team to its victory in the inaugural Indy Autonomous Challenge, an autonomous racing competition with a price award of $1 million.

Dr. Felix Govaers, DE

Deputy Head of Sensor Data Fusion and Information Processing

Fraunhofer FKIE

Dr. Felix Govaers received his diploma in mathematics and his PhD with the title "Advanced Data Fusion in Distributed Sensor Applications" in computer science, both at the University of Bonn, Germany. Since 2009, he has worked at Fraunhofer FKIE in the department for sensor data fusion and information processing where he was leading the research group on distributed systems for three years. Since 2017, he has been the deputy head of the department. Felix’s research is focussed on track-to-track fusion, state estimation in non-linear applications, and quantum algorithms for information fusion. This includes quantum optimisation methods, tensor-decomposition techniques, processing of delayed measurements as well as the distributed Kalman filter and track correlation mitigation. He is also interested in advances in state estimation such as particle flow and homotopy filters and the point process theory approaches. In 2023, his book, "Theory and Methods for Distributed Data Fusion Applications", was published by the IET.

Felix is an active member of the IEEE Aerospace and Electronic Systems Society (AESS) where he serves as an associate editor and is the financial chair of the Germany section. He also is an AESS distinguished lecturer and short course instructor. He’s an elected member of the Board of Directors (BoD) for the International Society for Information Fusion (ISIF), where he is actively contributing to the future of the information fusion community. At the University of Bonn, he has served as a lecturer since 2014 with seminars, labs, and lectures on distributed data fusion systems and quantum algorithms for data fusion.

Pierre Delbos, FR

Technology & Market Analyst, Sensing and Actuating

Yole Intelligence

Pierre Delbos is a technology and market analyst, sensing and actuating in the photonics and sensing division at Yole Intelligence, part of the Yole Group. Pierre is involved in the development of technology and market reports covering MEMS and sensing technologies, including magnetic sensors, optical and audio MEMS, along with gas and particle sensors. He also collaborates with his team on custom studies for the key players in the MEMS industry. Pierre holds a master’s degree in microelectronics and photonics engineering from Grenoble Institute of Technology, PHELMA (France).

Lenora Clark, US

Director of Autonomous Driving and Safety Technology

MacDermid Alpha Electronics Solutions

Lenora Clark is the director of autonomous driving and safety technology for MacDermid Alpha Electronics Solutions. She leads the team in understanding all systems involved in advanced safety on the path to full autonomy. She seeks to understand industry challenges associated with this endeavor. Lenora works closely with fabricators, tier ones, and car makers to understand the needs of the entire supply chain to achieve faster, more reliable solutions. She works in all aspects of electronics, uniting circuitry, semiconductor, and assembly solutions for a holistic approach to automotive market needs, especially for advanced driving assistance.

Lenora has worked for the company for over 20 years and has been published in numerous industry technical conferences. She holds four patents. She graduated from the University of Connecticut with a bachelor's degree in chemistry and received her master's degree in chemistry.

Dr. Jörg Schrepfer, DE

Advanced Development Director I Research and Development Site Manager

Valeo CDA Kronach-Neuses

Plato Pathrose, DE

Technical Director ADAS & Autonomous Driving

Vinfast

Dr. Kathrin Kind-Trueller, DE

Chief Data Scientist and AI Asst. Director, Nordics

Cognizant

Alejandro Morate, SE

Director - Autonomous Drive

CEVT (China Euro Vehicle Technology AB)

Dr. Dan Levi, IL

Computer Vision & Perception Lab Group Manager

General Motors

Dr. Javier Ibanez-Guzman, FR

Corporate Expert on Autonomous Systems

Renault S.A.

Simone Ferri, IT

VP I Analog, MEMS, and Sensors Group

STMicroelectronics

Dr. Ralph Grewe, DE

Product Manager, Perception – Innovation Line Driverless

Miquel Testar, DE

Senior Product Manager I Radar

Bosch

Dr. Richard Dixon, DE

Senior Principal Analyst, Sensors & Electronics

S&P Global Mobility

Danilo da Costa Ribeiro, DE

System Safety Manager | Expert Safety-in-Use for Automated Systems

Continental

Jamie Smith, US

VP of Products for Safety-Critical Systems

Imandra

Robert Krutsch, DE

SW CTO

NXP

Dr. Ofer David, IL

CTO and Exec. Chairman

BrightWay Vision

Simon Dürr, DE

Senior Expert

Elektrobit

Dr. Alexander Wischnewski, DE

Co-Founder and Managing Director

driveblocks

Dr. Felix Govaers, DE

Deputy Head of Sensor Data Fusion and Information Processing

Fraunhofer FKIE

Pierre Delbos, FR

Technology & Market Analyst, Sensing and Actuating

Yole Intelligence

Lenora Clark, US

Director of Autonomous Driving and Safety Technology

MacDermid Alpha Electronics Solutions

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What our
participants
are saying

Attending the #VLAutoSE in Munich was an eye-opening experience. The event brought together industry leaders, experts, and innovators, creating an incredible platform for knowledge sharing and networking. I left with a deeper understanding of the latest developments in automotive technology and a network of valuable contacts that will undoubtedly drive innovation in my organization. Kudos to the organizers for putting together such a remarkable event!

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PAST

Attendee

The #VLautoSE Summit exceeded my expectations. The event showcased the rapid advancements in automotive electronics and sensors, offering valuable insights into the challenges and opportunities that lie ahead. I left with a renewed sense of enthusiasm for the industry and a wealth of ideas to implement in our research and development projects.

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PAST

Attendee

I had the privilege of attending the Automotive Sensors & Electronics Summit in Munich, and it was a game-changer for me. The summit's focus on cutting-edge technologies, sustainability, and innovation was incredibly relevant to my work. The networking opportunities were outstanding, and I left with a notebook full of ideas and contacts that will undoubtedly shape the future of our automotive projects. 

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Attendee