Announcement • Apr 01
DUKE Robotics Corp. has filed an IPO in the amount of $8.05 million. DUKE Robotics Corp. has filed an IPO in the amount of $8.05 million.
Security Name: Units
Security Type: Equity/Derivative Unit Announcement • Mar 12
Duke Robotics Corp. Announces Appointment of Yehoshua Abramovich and Ran Ben Yehuda as Advisory Board Members Duke Robotics Corp. announced the appointment of Mr. Yehoshua Abramovich and Mr. Ran Ben Yehuda to the Company’s Advisory Board. Mr. Abramovich held key positions in the Israeli capital markets for more than 25 years. He currently serves as a member and independent director on the boards of several public companies and previously served on the board of directors of the Tel Aviv Stock Exchange until 2008. He held leadership positions in prominent investment and brokerage firms, including serving as Chief Executive Officer of Clal Finance, and held senior roles within the Clal group, including Deputy Chief Executive Officer of Clal Insurance Enterprises Holdings. Mr. Ben Yehuda served for 30 years in the Israeli Navy and holds the rank of retired (Rear) Admiral. Following his retirement from active duty, he served as Vice President for Customer Operations at a Motorola-owned mobile cellular company. He later joined the executive team of ZIM, a global shipping and maritime company, where he held senior leadership roles, including Business Unit Manager and Senior Vice President. Mr. Ben Yehuda brings extensive experience in defense technology, operational leadership, and working with mission critical organizations. As members of the Advisory Board, Mr. Abramovich and Mr. Ben Yehuda will support management on strategic priorities and business development activities across Duke’s infrastructure and defense focused initiatives. Announcement • Feb 06
Duke Robotics Corp. Announces Launch of AEROTRACE™ - AI-Powered Advanced Aerial Monitoring and Intelligence Solution Duke Robotics Corp. announced the launch of AEROTRACE™?1, a new aerial monitoring and intelligence product designed to provide infrastructure operators with actionable insights and enhanced situational awareness. AEROTRACE is an aerial monitoring and intelligence solution, integrating a combination of capabilities and developments in the fields of hardware, sensors, software and artificial intelligence ("AI"), including through collaboration with other parties. AEROTRACE™®? captures stabilized, high-resolution aerial data and transforms it into practical insights for infrastructure assessment and operational planning. The AEROTRACE™™? system is designed to support utilities and industrial operators in identifying asset conditions, prioritizing maintenance activities, and improving decision-making across large-scale and distributed infrastructure networks. AEROTRACE combines stabilized aerial data capture with software-driven analytics, including AI-assisted image analysis, to help identify areas of interest and potential anomalies across infrastructure assets. Leveraging Duke's technologies, the IC Drone provides a safer, more efficient, and cost-effective alternative method. In defense, through a collaboration agreement with Elbit Systems Land Ltd. ("Elbit"), the Bird of Prey weapons drone system is an agile, fully stabilized remote weapon system designed for non-line-of-sight and stand-off engagements, marketed by Elbit under the brand name Bird of Prey (formerly known as TIKAD). Announcement • Jan 13
Duke Robotics Corp.'s Wholly Owned Subsidiary Duke Robotics Hellas I.K.E. Secures Regulatory Approval for IC Drone Operations in Greece Duke Robotics Corp. announced that its wholly owned Greek subsidiary, Duke Robotics Hellas I.K.E. has received operational authorization for its Insulator Cleaning Drone (system from the Hellenic Civil Aviation Authority (“HCAA”), Greece’s civil aviation regulator. The authorization to operate the IC Drone in Greece was granted following Duke Robotics Greece’s successful completion of the Specific Operations Risk Assessment process, a comprehensive, risk-based methodology developed by the European Union Aviation Safety Agency (“EASA”) to ensure that complex drone operations are conducted safely and in compliance with EU Regulation 2019/947. The authorization permits Duke Robotics Greece to conduct drone flights as part of its IC Drone product. With the receipt of this authorization, Duke Robotics Greece has completed the regulatory process required to enable IC Drone operations in the Greek market. This milestone follows the establishment of Duke Robotics Greece earlier in 2025 and the qualification of local drone operators. It represents the transition from regulatory approval into the operationalization phase of the Company’s IC Drone activities in Greece. The SORA framework is an accepted means of compliance under EASA regulations governing drone operations across all European Union member states. While authorizations remain subject to review by individual national aviation authorities, the completion of the SORA process under the EU-harmonized framework aligns the IC Drone system with the regulatory standards applicable across the EU. Announcement • Dec 04
Duke Robotics Advances U.S. Market Readiness Efforts to Support Commercial Expansion of IC Drone Technology Duke Robotics Corp. announced meaningful progress in its preparations for U.S. market readiness. As part of these efforts, the Company is working to identify and evaluate NDAA-compliant drone systems and certified U.S. drone operators as potential platforms for its Insulator Cleaning Drone technology. The Company's U.S. readiness efforts are designed to ensure that the IC Drone, Duke Robotics' aerial system for the cleaning, inspection, and monitoring of high-voltage electric utility infrastructure, can be deployed on platforms that meet National Defense Authorization Act (NDAA) requirements and the operational expectations of regulated, security-sensitive environments. Importantly, these efforts come amid rising national focus on grid reliability and energy-inf infrastructure security. In April 2025, President Trump issued an Executive Order emphasizing the urgent need to strengthen the resilience and security of the U.S. electric grid. With electricity demand surging due to AI data centers, domestic manufacturing, and rising nationwide consumption, the resilience of the electric grid has become a strategic national priority. The Company is assessing the suitability, compliance, and integration of drone platforms capable of serving as the aerial backbone for scalable IC Drone operations in the United States. Leveraging Duke's technologies, the IC Drone provides a safer, more efficient, and cost-effective alternative method. In defense, through a collaboration agreement with Elbit Systems Land Ltd. ("Elbit"), the Bird of Prey weapons drone system is an agile, fully stabilized remote weapon system designed for non-line-of-sight and stand-off engagements, marketed by Elbit under the brand name Bird of Prey (formerly known as TIKAD). Announcement • Jun 10
Duke Robotics Unveils Next-Generation Ic Drone System - the Icds2 Duke Robotics Corp. announced the launch of its next-generation Insulator Cleaning Drone System (ICDS2), representing a significant technological advancement in the Company's innovative utility maintenance drone solution. The ICDS2 builds upon the Company's proven IC Drone technology with substantial performance improvements designed to enhance operational capabilities for utility providers worldwide. The ICDS2 features several key technological advancements over its predecessor: Extended Flight and Operational Time: The ICDS2 offers significantly longer flight duration, enabling more efficient servicing of multiple high-voltage insulators in every flight mission. Increased Maximum Takeoff Weight (MTOW): A considerably higher payload capacity allows the system to carry more cleaning agent, allowing longer refill intervals and enhancing operational efficiency. Enhanced Stability and Position Holding: Advanced stabilization algorithms and improved communication systems deliver superior precision during cleaning operations, enabling operational capabilities even in more challenging weather conditions. Advanced Radar System: Next-generation sensors provide improved detection capabilities, enhancing safety and allowing for operations in more complex environments. Superior Cleaning Durability: Reinforced cleaning mechanisms and optimized water delivery systems increase cleaning effectiveness while reducing maintenance requirements. 