Bosch is a leading global supplier of technology and services. Its operations are divided into four business sectors: Mobility, Industrial Technology, Consumer Goods, and Energy and Building Technology. With its business activities, the company aims to use technology to help shape universal trends such as automation, electrification, digitalization, connectivity, and an orientation to sustainability. Bosch uses its proven expertise in sensor technology, software, and services to offer customers cross-domain solutions from a single source. It also applies its expertise in connectivity and artificial intelligence in order to develop and manufacture user-friendly, sustainable products. With technology that is “Invented for life,” Bosch wants to help improve quality of life and conserve natural resources.

Next-level ADAS solutions

With the ADAS product family, Bosch offers a seamlessly compatible ecosystem of software, sensors, and services with the necessary computing power for assisted and automated driving and parking. The comprehensive solutions can be adapted to the specific needs of each market, allowing vehicle manufacturers worldwide to bring their individual and cost-effective ADAS solution from Bosch to the market quickly.

Video-based perception of the vehicle’s surroundings plays a central role in the transition from assisted to automated driving and parking. With this technology, image data of the vehicle’s surroundings is captured and processed by various camera sensors. The corresponding data can then be used by subsequent driver assistance and automated driving functions for various driving and parking applications. Video perception from Bosch is a purely software-based solution and can be used on different preselected SoCs (systems on chip).

Radar systems are perfectly suitable for near and far field monitoring on mobile machines. They are robust and functionally reliable in harsh environmental conditions as fog, strong rain and snow. The Bosch radar systems are optimized for object detection in the off-highway environment and supporting the operators with information about distance, position or relative velocity of detected targets or objects. The Bosch radar systems are ideal as assistance systems for collision avoidance and driving lane monitoring on mobile machines.

The ultrasonic sensors enable extremely comfortable parking in very small parking spaces, maneuvering in narrow situations and automatic/remote parking. The system supports emergency braking functions at low speeds through faster reaction to various obstacles.

Driving the AI-powered future of ADAS

Bosch is at the forefront of innovation in ADAS systems by integrating a modular, end-to-end AI architecture with the power of foundation models and innovative collaborative AI training techniques. Bosch’s agility is demonstrated by advanced global AI training capabilities, which serve as innovative grounds for ADAS development and facilitate the adaptation of technology for diverse markets. As a result, Bosch delivers superior ADAS solutions that enhance safety and comfort for drivers worldwide.

For more details listen to Bosch plenary speaker’s at the IEEE IV 2025 Symposium or read more here: https://www.bosch-mobility.com/en/mobility-topics/adas/

Looking to start a career at Bosch? Follow the next 2 steps:

1. Click this link to learn more: https://www.bosch.ro/cariere/
2. Apply for a Career at Bosch (Platinum Patron of IEEE IV 2025) using the conference application form: https://ieee-iv.org/2025/career-at-bosch/ 

Founded in 1987, Huawei is a leading global provider of information and communications technology (ICT) infrastructure and smart devices. We have approximately 208,000 employees and we operate in over 170 countries and regions, serving more than three billion people around the world. We are committed to bringing digital to every person, home and organization for a fully connected, intelligent world.

AROBS Transilvania Software is a leading Romanian technology group and the largest IT company listed on the Bucharest Stock Exchange. With over 25 years of experience, 1,300+ specialists across 11 countries, and more than 11,000 global customers, AROBS delivers high-quality software services and products characterized by engineering excellence and innovation.

AROBS brings high-level expertise in automotive, aerospace, medical devices, travel technology, clinical trials, fintech, intelligent automation, cybersecurity and other important industries. Leveraging artificial intelligence and machine learning, over 350 specialists build intelligent solutions for autonomous driving focusing on scene perception, object detection, and system optimization. They offer complete lifecycle support across software, hardware, system safety, compliance and project management.

AROBS’ excellence is recognized with multiple awards, including Continental’s Supplier of the Year 2021 and Deloitte’s Best Managed Company 2024. Backed by the EBRD and several other institutional investors, AROBS continues to scale technology that shapes the future in a durable, growth-focused and quality-driven way.

Innovative Technologies Powering Software-Defined Vehicles
msg is an independent, globally active group of innovative companies with over 10,000 specialists. Our expertise lies in delivering intelligent IT and industry-driven solutions.

As part of the msg group, msg automotive is your trusted partner in transforming the mobility landscape. Leveraging deep automotive industry knowledge, cutting-edge technological capabilities, and practical transformation support, we assist organizations across the entire automotive value chain—from strategic realignment to operational execution.
Whether you’re interested in developing advanced digital platforms, streamlining processes, or shaping forward-looking business models, our mission is to generate sustainable, measurable value. Together with artificial intelligence, cloud technologies, and data ecosystems, the Software-Defined Vehicle (SDV) paradigm shift shapes in our solution and services portfolio.

Visit our booth at the symposium to engage with our experts on how SDV technologies are reshaping mobility. Discover the key innovations driving this transformation and explore hands-on demonstrations showcasing real-world applications. Experience a state-of-the-art SDV interface featuring Android Automotive-based human-machine interaction, vehicle-to-everything (V2X) communication, and a modern multi-core, virtualized hardware platform. See how vehicle data is collected, processed in the cloud, and utilized to enable highly automated driving functions and remote ADAS services.

We look forward to meeting you, sharing insights and discussing how these technologies are shaping the future of mobility in 2025 and beyond.

The FZI Research Center for Information Technology is an independent non-profit foundation cooperating with partners from industry and the public sector on pioneering research projects.

In the context of technology transfer, the FZI has been introducing state-of-the-art information technologies into practice for almost four decades now and providing new innovation impulses. With its research, the FZI contributes to society’s welfare and addresses the central social challenges.

To enable businesses and society to shape digital transformation efficiently, the FZI is not only a research and transfer institution but also an interdisciplinary training facility for academic careers and a career entry in business or self-employment. With the FZI House of Living Labs, the FZI also provides a unique research environment for applied research.

CoCar NextGen, a pioneering research platform for automated and connected driving, is presented with its various high-end sensors, high-performance hardware, and modern connectivity components. Additionally, the capabilities of the sensors and its perception pipeline are presented.

A full description of the FZI exhibition and demonstration at IEEE IV 2025 can be found here: IV2025-FZI-Demonstration

Transport Weather Applications: Sensors and Solutions from OTT HydroMet

INOESY SRL is an important player in the Romanian ITS market, with large expertise in the weather applications. Together with our partner, OTT Hydromet Germany, we want to share with all participants our knowledge and expertise.

Professionals worldwide rely on Lufft’s stationary and mobile road weather information systems by OTT HydroMet for Ice and Road Weather Detection (RWIS), Traffic Control, Vehicle Management Systems (VMS), road maintenance, and operation management. These solutions monitor road and railway conditions, friction, temperatures, visibility, and more.

Together with OTT HydroMet, INOESY SRL offers sensors like MARWIS, which transforms vehicles into mobile weather stations, providing real-time data for winter maintenance, airports, and patrol cars. The sensor detects water films, ice percentage, road status, friction, temperatures, and more, ensuring safety and efficient route management.

The Non-Invasive Road Sensor NIRS31 uses optical measurement principles to measure water, snow, and ice layer thickness, surface conditions, friction, and road surface temperature. It analyzes roads safely from the side, especially useful on bridges. OTT HydroMet also manufactures embedded passive IRS31-UMB and active ARS31Pro-UMB sensors.

Complementing road sensors, the weather sensors family measures various parameters within one housing, including temperature, humidity, precipitation, air pressure, wind direction, speed, global radiation, and lightning. These compact, all-in-one sensors have low power consumption, integrated heating, and are maintenance-free with open communication protocols.

OTT HydroMet’s advanced sensor technologies enhance road safety and efficiency, making them a trusted choice for professionals worldwide.

The Technical University of Cluj-Napoca, an “Advanced Research and Education” awarded university is today a tertiary education institution having a long-standing tradition as well as national and international recognition.

The Technical University of Cluj-Napoca comprises twelve faculties in the two academic centres, Cluj-Napoca and Baia Mare, and programme locations in Alba-Iulia, Bistrita, Satu Mare and Zalau. The educational offer, aligned to the Bologna system, includes bachelor’s, master’s, and doctoral programs, as well as life-long learning programs. These cover a wide range of domains, from engineering, architecture, fundamental sciences, to social sciences, humanities and arts. 

Alongside quality education, research is a main priority in the Technical University of Cluj-Napoca. There are numerous research structures, from groups and laboratories to research centers and platforms, in all faculties of the university. Open research directions are oriented towards global priorities and perspectives: from the Information and communications technology to Renewable Energy and Ecology; from superconductivity, spintronics and nanomaterials, to management and robotics; from mechatronics and electrical engineering to the automobile and the home of the future, or to urbanism and society.

The Image Processing and Pattern Recognition Research Center at the Technical University of Cluj-Napoca is one of Romania’s leading academic groups in the field of computer vision and machine perception. Founded in 1998 by Professor Sergiu Nedevschi and formally recognized as a research center in 2010, the group is part of the Department of Computer Science and has built a strong reputation in both fundamental research and applied innovation. Its core mission revolves around advancing the state of the art in 2D and 3D image processing, pattern recognition, and sensor fusion, with applications ranging from autonomous vehicles to medical diagnostics and aerial imaging.

The group’s research spans a wide array of domains, including stereo vision, LiDAR and RADAR fusion, semantic segmentation, object detection, tracking, and deep learning-based 3D perception. A major focus has been on developing robust algorithms for real-time environment perception, especially in the context of autonomous driving. Additionally, the center has conducted pioneering work in UAV-based computer vision systems, integrating aerial imagery and onboard sensing into advanced scene understanding frameworks for applications in mapping, surveillance, and environmental monitoring.