Bitsensing Achieves ISO/IEC 27001:2022 Certification
Bitsensing, a South Korean company, has received ISO/IEC 27001:2022 certification for their radar solutions used in various sectors including automotive, smart cities, and healthcare. This certification highlights the company’s commitment to high standards of information security and data protection.
ISO/IEC 27001:2022 is the latest international standard for managing information security, offering a framework for organizations to protect sensitive data using a risk-based approach. It includes updated controls to address modern security challenges such as cloud security and data leakage and focuses on continuous improvement of information security management systems (ISMS).
CEO Jae-Eun Lee says, “At bitsensing, we understand the importance of protecting the data and information security of our employees, customers, and stakeholders. Achieving the ISO/IEC 27001:2022 certification supports our mission to provide advanced radar solutions across various applications”.
Adopting ISO/IEC 27001:2022 shows a commitment to data protection by aligning with global best practices, enhancing stakeholder trust, and improving credibility in the marketplace. It helps organizations meet legal and regulatory requirements and maintain resilience in a complex security-focused environment.
DVN comments
Bitsensing’s Traxight intelligent transport system (ITS) solution received a CES 2025 Innovation Award in the Smart Cities category. The company also partnered with the City of Verona and FAMAS Systems to install advanced traffic sensors at Porta Nuova in Verona. Additionally, bitsensing secured $25m in Series B funding in June 2024, and was included in Forbes’ Asia 100 to Watch list in September.
Special Report on European Microwave Week, Paris
See the complete document on the DVN website
In response to new active safety regulations and the deployment of L3-4 systems, substantial efforts are being made across all facets of the radar ecosystem. Innovations in antennas structures, internal processing architectures, and the integration of artificial intelligence aim to achieve improved resolution and range performances. Additionally, physical modifications related to various types of coatings are essential for the seamless incorporation of standard or imaging radars. During the recent European Microwave Week, 14 companies showcased their advancements toward enhanced Automotive Imaging Radars during a dedicated Automotive Forum:
Automaker requirements: Mercedes-Benz focused on improving radar performance for ADAS systems, with specific requirements for L3 and L4 urban systems, including elevation separability and the use of ‘AI’.
Bosch design considerations: Bosch highlighted the benefits of their SoC radar technology, which uses 22-nm FD-SOI technology for low power consumption and high performance, with features such as adaptive cruise control and automatic emergency braking.
Bosch Radar Solutions: Bosch offers the SX600 and SX601 chips, SoC radar solutions running in the 77-GHz band, offering enhanced processing and memory capabilities, and using advanced 22-nm RFCMOS technology.
Radar Interference: Magna discussed the challenges of interference testing, pointing out that the characteristics of the sensor and the interference scenario have a major impact on the effect of interference.
Mobileye Imaging Radar: Mobileye introduced their imaging radar with improved azimuth and vertical resolution, high dynamic range, and low presence of side lobes, enabling accurate target detection.
Uhnder’s Digital Radar Technology: Uhnder highlighted the benefits of their digital radar technology, which offers better accuracy and resolution, as well as advanced interference reduction techniques.
Zendar Coherent Radar Fusion: Zendar talked about the consistent merging of multiple radars to improve resolution and accuracy, with minimal requirements for classifying road debris and identifying vehicles stopped under a bridge.
Automotive Radar Market: The automotive radar market is rapidly evolving, with significant growth expected for 4D radars and imaging radars between 2023 and 2029, while traditional radars are seeing their market share decline.