SkySafe

SkySafe provides a drone detection and airspace intelligence platform enabling organisations to identify, track, and act on unauthorised UAV activity in real time. The system serves enterprise security, critical infrastructure, and aviation safety applications across 350+ deployments.

Share
SkySafe
11340 West Bernardo Ct
San Diego, California 92127
RobotToday Initiative

Robotics needs a service framework.

RSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.

Share

Related Content

Dahuang Technology Showcases Advanced AI Multimodal Capabilities at WAIC 2026

Dahuang Technology Showcases Advanced AI Multimodal Capabilities at WAIC 2026

On July 17, 2026, the World Artificial Intelligence Conference (WAIC) commenced in Shanghai, focusing on the theme 'Intelligent Partners, Co-Creating the Future.' Dahuang Technology presented its AI multimodal capabilities, showcasing a comprehensive system that includes understanding, connecting, interacting, and controlling complex data. The demonstration highlighted the company's transition from video-centric solutions to a broader AI multimodal framework. Dahuang Technology's Sports AI system, based on the BlackEye multimodal spatial model, was a key feature, providing real-time analysis of sports events. This system can automatically label players, track movements, and generate slow-motion replays, demonstrating the AI's ability to comprehend complex video scenarios. The technology has already been validated in high-profile events like the 2026 World Cup and the Paris Olympics. The company also introduced its AI multimodal perception compression technology, achieving over tenfold compression efficiency while maintaining video quality. This capability is crucial for applications in drone inspections, remote communications, and robotic operations, addressing the growing demands for bandwidth and data transmission efficiency in various sectors. No further timeline was disclosed at the time of publication.

AI Multimodal Technology Video AI Data Compression Sports AI Human-AI Interaction
The Rise of Force Sensing Technology in China's Robotics Industry

The Rise of Force Sensing Technology in China's Robotics Industry

Recent trends in the robotics industry indicate a shift from mere mobility to operational intelligence, particularly in humanoid robots. Companies are now focusing on practical applications such as tool handling and assembly, highlighting the importance of force sensing technology. As robots engage in physical tasks, understanding the force exerted becomes crucial for effective operation. This transition underscores the growing significance of six-dimensional force sensors, which are evolving from optional components in industrial robots to essential infrastructure for next-generation intelligent robots. The recent funding rounds exceeding 100 million yuan reflect a broader interest from both traditional investors and state-owned enterprises, signaling a pivotal moment in the industry's development. Looking ahead, the demand for comprehensive sensing, control, and manufacturing infrastructure will likely increase as the humanoid robotics sector matures. The complexity of enabling robots to perform sustained tasks, such as assembly and material handling, will challenge developers to innovate beyond flashy capabilities and focus on the intricate details that drive commercialization.

Humanoid Robots Force Sensing Technology Industrial Automation Robotics Innovation
SkySafe Partners with Cellebrite to Enhance Drone Forensics for Law Enforcement

SkySafe Partners with Cellebrite to Enhance Drone Forensics for Law Enforcement

Since the World Cup began last month, over 600 drones have been seized by federal law enforcement for flying too close to tournament venues. These seizures mark the start of investigations into whether drone operators violated airspace regulations or posed a threat. To aid these investigations, SkySafe has partnered with Cellebrite to combine drone detection and digital forensics. This partnership is significant as it addresses the growing role of drones in criminal activities. SkySafe's drone detection technology will work alongside Cellebrite's forensic capabilities to provide law enforcement with crucial evidence. SkySafe CEO Grant Jordan emphasized the importance of integrating historical data about drone activities with forensic evidence to strengthen investigations. Looking ahead, the collaboration aims to streamline the investigative process for law enforcement agencies. By merging real-time data from seized drones with SkySafe's extensive database, investigators can access vital information regarding drone ownership and flight history. No further timeline was disclosed at the time of publication.

Anti-drone technology C-UAS Drone News Drone News Feeds drone security Featured – Safety and Security
WeRide Launches WITT: A Physical AI Foundation Model for Multimodal Scene Understanding

WeRide Launches WITT: A Physical AI Foundation Model for Multimodal Scene Understanding

WeRide has introduced WITT, a groundbreaking physical AI foundation model designed to enhance multimodal scene understanding. This model utilizes minimal physical fact units, which are crucial for applications in autonomous driving and robotics. The launch of WITT is significant as it aims to streamline the integration of various data types, improving the efficiency and effectiveness of AI systems in interpreting complex environments. This advancement could lead to more reliable autonomous systems that can better navigate real-world scenarios. Looking ahead, the implications of WITT's capabilities in the fields of autonomous driving and robotics will be closely monitored. No further timeline was disclosed at the time of publication.

Technology
Qianjue Robotics Launches X-TouchMind V1 and TacVerse 1k for Enhanced Robot Interaction

Qianjue Robotics Launches X-TouchMind V1 and TacVerse 1k for Enhanced Robot Interaction

On July 16, Qianjue Robotics unveiled its first embodied tactile model, X-TouchMind V1, alongside the TacVerse 1k multimodal dataset. This development addresses the limitations of traditional visual models in robotic operations, particularly in precision assembly and handling delicate objects, where failures often occur after contact. The new model integrates visual, linguistic, tactile, and robotic state data to enhance physical interaction capabilities. The significance of this release lies in Qianjue's comprehensive approach, which encompasses tactile perception hardware, self-developed multimodal data collection devices, and the new tactile model. Unlike previous attempts that merely supplemented tactile signals to visual data, the VTLA embodied tactile model establishes a closed-loop system that fundamentally redefines the perception boundaries of robotic models. This innovation allows robots to understand and respond to physical interactions more effectively. Looking ahead, Qianjue Robotics will demonstrate the capabilities of the VTLA model at the WAIC 2026 exhibition, showcasing real-world applications such as autonomous box stacking and precise assembly of headphones. The focus will be on how the model can dynamically adjust actions based on tactile feedback, marking a significant advancement in robotic interaction technology. No further timeline was disclosed at the time of publication.

Tactile Intelligence Robotic Interaction Precision Assembly Multimodal Data AI Robotics
AI Agent Autonomy's Impact on Robotics Safety and Control Mechanisms

AI Agent Autonomy's Impact on Robotics Safety and Control Mechanisms

Robotic systems are increasingly capable of perceiving, choosing, and altering their behavior autonomously, without human intervention. This shift towards autonomy enhances adaptability in various environments such as warehouses and labs, but it also raises significant concerns regarding safety and control. Traditional safety measures, including physical barriers and emergency buttons, may no longer suffice as robots undertake more complex tasks. The implications of this autonomy are profound, as organizations must now assess the quality of decisions made by autonomous systems, the reliability of their software, and the protocols for monitoring their actions. Unlike conventional robots that follow fixed commands, autonomous robots can evaluate multiple scenarios and make decisions based on real-time conditions, which complicates safety protocols. Ensuring that these systems operate safely requires a reevaluation of existing safety standards that focus on speed and force. Looking ahead, it is crucial for operators to have adequate information to respond effectively to unexpected robot behavior. Autonomous robots utilize various sensors to interpret their environment, but factors like dust and poor lighting can affect input quality. Organizations should prioritize the definition and testing of triggers for human intervention to maintain a balance between autonomy and safety. No further timeline was disclosed at the time of publication.

AI agents Infrastructure AI agent autonomy ai agents ai safety automation
Benchmarking Your Development System for Effective Robotics Simulations

Benchmarking Your Development System for Effective Robotics Simulations

The development of robotics begins long before physical assembly, relying heavily on simulations to validate designs and refine algorithms. These simulations demand significant computational resources, making system benchmarking crucial to identify hardware limitations early in the process. By measuring workstation performance under demanding workloads, engineers can establish a performance baseline that aids in spotting potential bottlenecks. Understanding how different hardware components affect simulation performance is essential for robotics development. Whether using macOS, Windows, or Linux, benchmarking helps determine if slowdowns are due to software changes or hardware limitations. Key components such as the processor, graphics card, memory, and storage play varying roles in performance, and the weakest link can dictate the overall experience. As robotics projects grow in complexity, the need for robust hardware becomes increasingly important. Engineers should focus on comprehensive benchmarking to ensure their systems can handle the demands of their simulations. No further timeline was disclosed at the time of publication.

Components Robot simulation ABB RobotStudio automation cpu delmia
KAIST's HOUND Robot Reaches 6m/s Speed Using 2D Data for Advanced Parkour Skills

KAIST's HOUND Robot Reaches 6m/s Speed Using 2D Data for Advanced Parkour Skills

KAIST and Korea University researchers have developed the KAIST HOUND robot, achieving a peak speed of 6m/s while autonomously navigating complex terrains. This advancement showcases the robot's ability to seamlessly switch gaits, such as trotting and bounding, based on environmental conditions without external support. The significance of this achievement lies in the innovative APT-RL framework, which utilizes a simplified 2D dynamics model to generate extensive motion data. This approach allows the robot to learn and adapt its movements in real-world 3D environments, overcoming traditional limitations of motion capture and reinforcement learning strategies. Looking ahead, the research team has demonstrated the robot's capability to handle various scenarios, including jumping and maintaining balance under challenging conditions. Future developments may focus on enhancing the perception system to support high-speed operations, as the current sensing technology has limitations in effective range.

Quadrupedal Robots Robotics Research Reinforcement Learning AI Autonomous Systems
Gravity 4D Launches First Module to Enhance World Models for Robotics

Gravity 4D Launches First Module to Enhance World Models for Robotics

On July 17, Extreme Intelligence unveiled Gravity 4D WAM, the first module of its embodied intelligence framework, at the 2026 World Artificial Intelligence Conference (WAIC). This launch addresses a critical issue in current visual language models: the discrepancy between visually plausible predictions and physical reality. Gravity 4D aims to transition world models from merely predicting visuals to accurately anticipating three-dimensional physical evolution. The significance of Gravity 4D lies in its ability to enhance robotic operations by ensuring that actions are based on physical realities rather than just visual appearances. The framework introduces a 4D latent model that allows the World Action Model (WAM) to learn essential information about RGB appearance, spatial structure, and motion dynamics. This paradigm shift is crucial for improving the reliability of robotic tasks, as it ensures that robots can effectively grasp objects and navigate environments based on true physical interactions. Looking ahead, Gravity 4D's approach could redefine how robots interact with their environments, moving from visual-based predictions to a deeper understanding of physical laws. The framework's dual-brain architecture and integration of various sensory inputs will be further detailed in upcoming technology releases. No further timeline was disclosed at the time of publication.

Robotics AI Machine Learning Automation
Orbbec and Ant Group Unveil Advanced Data Collection Solutions at WAIC 2026

Orbbec and Ant Group Unveil Advanced Data Collection Solutions at WAIC 2026

At the 2026 World Artificial Intelligence Conference (WAIC) in Shanghai, Orbbec showcased its EGO RGB-D data collection platform in collaboration with Ant Group. This partnership aims to enhance data accuracy and stability for robotics applications by integrating self-developed depth chips and 3D vision hardware with spatial perception models. The significance of this collaboration lies in its potential to improve the quality of data used for physical AI model training and robotic perception. As embodied intelligence transitions from training to real-world applications, the focus shifts to data quality, sensor performance, and scalable delivery capabilities, addressing challenges such as occlusion and depth information loss in complex environments. Looking ahead, the EGO RGB-D series, designed for precise desktop operations, is expected to play a crucial role in advancing physical AI and embodied intelligence. No further timeline was disclosed at the time of publication.

Data Collection Robotics 3D Vision AI Sensor Technology