Exhibitions & Demonstrations
Exhibitions
Founded in 1977, Hanwha Aerospace has become a leading company in the aerospace industry in South Korea. Today, our product portfolio includes not only aerospace but also the defense and marine sectors. With an unwavering focus on customer-centric quality management, technological innovation, and product competitiveness reinforced by advanced technologies, we are surging forward as a global leader in the burgeoning space and aerospace business as well as in the land, sea, and air defense industries.
Hanwha Aerospace is the innovating pioneer for a sustainable tomorrow: we think the future with our technology. We strive for excellence, innovation, and sustainability on all the products in our portfolio. Among those endeavors, the most relevant ones to the 35th IEEE Intelligent Vehicles Symposium are the R&D on autonomous systems and on next-generation propulsion system. In particular, we’re building an autonomy stack for unmanned ground and air vehicles, and are going to expand this stack to those for space and sea. To reduce carbon-footprint and increase survivability at the same time, we’re investigating those technologies for special-purpose EVs, electro-mechanical transmission, and hybrid propulsion systems.
Please come by Hanwha Aerospace’s booth to learn more about what we have been up to. And we’re always looking for the talents who can build a sustainable tomorrow with us, so when you stop by our booth, please don’t forget to talk to the HR reps about the openings.
Seoul Robotics provides an Industrial Autonomous Driving Solution called LV5 CTRL TWR.
Seoul Robotics’ ATI(Autonomy Through Infrastructure) Solution, Level 5 Control Tower (LV5 CTRL TWR), turns non-autonomous cars into self-driving vehicles. The solution is a mesh network of sensors and computers on infrastructure that guides vehicles autonomously in a controlled area without requiring that sensors be placed on individual vehicles.
1. Bringing Autonomy to First and Last Mile Logistics
BMW is the first OEM to commercially adopt LV5 CTRL TWR at their BMW iFactory in Dingolfing for the BMW i7 and 7 Series. This is the world’s first autonomous driving deployment at an automotive factory and is the largest global deployment of sensors with over 200 to build a unified, complex environmental model.
2. Proven Performance
LV5 CTRL TWR is a safe and reliable autonomous driving system, for use within controlled logistics grounds and parking lots. It performs in both indoor and outdoor environments, and in adverse weather conditions to provide 24/7 autonomous driving.
3. Deployment at Scale
Hundreds of vehicles can be autonomously driven simultaneously in a controlled network, safely navigating around obstacles and other vehicles, with data from sensors on the infrastructure.
LV5 CTRL TWR is a revolutionary approach to bring autonomy to finished vehicle logistics using smart infrastructure.
See you at the Live Demo Event on the 5th of June!
The Autoware Foundation is a non-profit organization that hosts the Autoware project, the world’s leading open-source software project for autonomous driving. The Autoware project is built on Robot Operating System (ROS), and through using open source, it lowers the entry barrier to autonomous driving technology and enables commercial deployment of autonomous driving in a broad range of vehicles and applications. Autoware democratizes autonomous driving technology through open-source development and is committed to creating synergies among the world’s leading technology companies, academic/non-profit organizations and individual contributors.
Core Products Expansion: ML and GL for Robotics, Automotive, and Infrastructure
● ML 3D LiDAR (Mobility LiDAR)
1. Solid-State Structure:
- Resembles a camera with its solid-state structure
2. Independent Structure/COGM Reduction:
- Core components optimized for standalone structure, reducing COGM (Cost of Goods Manufactured)
3. Compact and Lightweight:
- Easily installable in various locations due to its smaller and lighter design
● GL 2D LiDAR (General LiDAR)
1. Optimized Optical Design:
- Ensures high efficiency and enables easy long-range measurements
2. Space Detection/Object Detection Filters:
- Detection of specific objects within defined spaces of interest
3. OHT Application in Semiconductor Factories:
- Utilizes proprietary obstacle detection filters for high-speed OHT (Overhead Traveler) operations
1. Auto-Labeling and Auto-Calibration Toolbox for 4D Radar
- 4D Radar dataset generation toolbox using 3D bounding boxes from LiDAR and Camera
- Auto-calibrated 4D Radar, LiDAR, and Camera sensors
2. 4D Radar Data Generator
- Data-driven simulator to generate 4D Radar data from LiDAR point cloud
3. Deep RL Driving Agent in UNS
- Deep IL & RL based driving agent for safety enhanced driving in unexpected novel situations
4. Deep sensor fusion in Jetson Orin Nano board
- Auto-Calibration & Deep fusion of 4D Radar + Camera
- Auto-Calibration & Deep fusion of LiDAR + Camera
- Auto-Calibration & Deep fusion of LiDAR + 4D Radar
Zeta Mobility is revolutionizing autonomous vehicles with cutting-edge sensing technology driven by AI, enabling unprecedented clarity in perceiving surroundings. Our pioneering 4D radar research, now in the final stages of commercialization, utilizes advanced AI algorithms to discern target objects with precision, compensating for the limitations of LiDAR and cameras. Additionally, our expertise in sensor fusion enhances recognition rates and compensates for sensor weaknesses, facilitated by auto-labeling and auto-calibration technologies. Visit us at IV 2024 in Jeju, Korea, to witness the future of mobility firsthand!
MOASOFT was established in 1998 with the purpose of ‘distributing analysis techniques for global standard reliability’.
Over the past 25 years, MOASOFT has grown into an IT solution provider that provides solutions and consulting services related to SW development, reliability verification, PCB design, and EMI/EMC/EMP in various industries, including automobiles.
To customers in the automotive, aviation, UAM, and electronic fields through IT technologies such as 'AI, big data, blockchain, and digital twin', which are technologies leading the 4th industrial revolution, including simulation solutions for SW, electronic products, and mobility development. We deliver the most innovative insights.
Moasoft provides a wide range of solutions related to reliability, availability, maintenance and safety analysis of automobile-related mobility devices, verification solutions for installed software, antenna and network design and analysis of automobile-related communication systems, and radio wave propagation.
FutureDrive is a deep tech startup that provides innovative mobility solutions based on autonomous driving technology.
We believes that the advancement of technology through open innovation together with our customers will greatly help to reach the ultimate autonomy.
To this end, we are actively utilizing open-source full-stack ADS(autonomous driving software) to meet the customer's demand for autonomous driving technology.
"Design-yoUr-Autonomy (DUA)", which is a customized autonomous driving mobility development solution, enables customers with varying requirements to develop autonomous mobility solution quickly and easily while minimizing development cost. "AD-OSS", a cloud-based integrated ADS development and validation tool, provides seamless management environment for DUT, from development to testing.
KAR is a company specialized in demand-based custom mobility solutions mobility solutions for the future automotive industry. Our expertise spans mobility design, control system design, electrical wiring systems, and performance durability analysis. Based in Ulsan, South Korea, our headquarters and manufacturing facilities are strategically placed to innovate and drive forward the mobility sector.
Our innovative platform includes robotaxis, roboshuttles, hydrogen-electric buses, unmanned howitzers with remote control systems, and autonomous forklifts, all of which are widely utilized in the domestic market. Additionally, we are engaged in an international project for autonomous yard trucks at overseas ports and are developing a racing kart equipped with autonomous driving features as part of global efforts to standardize autonomous driving software.
AgileMobil
AgileMobil is a startup to empower the future of autonomous mobility. Our mission is to empower engineers, researchers, and enthusiasts with the knowledge and tools they need to thrive in the exciting world of Software-Defined Vehicles. As a mobility platform base, we focus on two powerful open-source software platforms: Autoware and F1Tenth.
Apex.AI is an international developer of safety-certified base software, enabling a faster transition to software-defined vehicles and software-defined mobility. The company’s software products are based on proven open-source software, such as ROS or Eclipse iceoryx. Through a proprietary process, we add what is necessary to support commercial and safety-critical applications such as functional safety, real-time determinism and flawless performance. The company's flagship product is Apex.Grace, an automotive-grade, real-time, reliable software development kit. Apex.AI’s headquarters is located in Palo Alto, CA, USA, with offices in Berlin, Munich, Stuttgart in Germany, Gothenburg in Sweden, Tokyo in Japan and Pangyo in South Korea. To date, Apex.AI has raised over $75 million USD from world-class venture, financial and strategic investors, including AGCO, Airbus Ventures, Canaan, Continental AG, Daimler Truck, HELLA Ventures, Jaguar Land Rover’s InMotion Ventures, Lightspeed, Orillion, Toyota Ventures, Volvo Group Venture Capital and ZF.
The Technology Innovation Institute (TII) is a leading global research center dedicated to pushing the frontiers of knowledge. Its teams of scientists, researchers and engineers work in an open, flexible and agile environment to deliver discovery science and transformative technologies. TII is a part of the Abu Dhabi Government’s Advanced Technology Research Council (ATRC), which oversees technology research in the emirate.
The Digital Science and Telecommunications Unit of TII presents AUTODRAITEC, a novel AI-based system that is deployed on the road infrastructure to control the driving of Connected and Autonomous Vehicles (CAVs). The system uses cutting-edge AI techniques to improve driving safety and efficiency. The proof of concept of this system demonstrates how it eliminates accidents, increases safety distance, and enhances driving speed at highway on-ramp merging areas.