Beehive Drones

At Beehive Drones, we believe that collaboration and knowledge sharing are the foundation of innovation. To strengthen our team dynamics, we hold regular sharing sessions, creating a space for open discussions, insights exchange, and continuous learning. Our most recent gathering was more than just a presentation; it was an interactive experience designed to inspire new ideas and foster collaboration across our team. 🚀 Through engaging presentations, Q&A sessions, and group discussions, we explored current advancements, shared real-world experiences, and brainstormed innovative ideas that align with our project goals. But beyond professional knowledge, this session was also a fantastic opportunity to build team bonds, making it feel less like work and more like catching up with friends over shared passions. This collaborative spirit is at the heart of Beehive Drones, driving not only project progress but also unity and inspiration among our team. ✨ Stay tuned for more updates and future sharing sessions – exciting things are always on the horizon at Beehive Drones! 🙌🏻 #BeehiveDrones #KnowledgeSharing #TeamCollaboration #InnovateTogether #ContinuousLearning #InspireAndGrow #TeamBonding #DroneInnovation #SharingSession #CollectiveWisdom #CompanyActivity #RedefiningtheSustainableFuture

Attention! We’ve got some exciting news for you! 🔊🧑🏻🔧🧑✈️ Beehive Drones is hosting an exclusive Drone Mapping Training in Yogyakarta! Mark your calendars: Wednesday, November 6 – Friday, November 8, 2024 Over these 3 action-packed days, you’ll dive deep into both theory and hands-on practice, learning to: 1️⃣ Core concepts of aerial mapping. 2️⃣ Operational mechanisms of drone mapping. 3️⃣ Strategic flight path planning. 4️⃣ Data acquisition via drone mapping. 5️⃣ Data processing into orthophotos. We’ve got you covered with full facilities, including: 🏢 Meeting Room 🌿 Outdoor training ground 📜 Certificate 🛠 Seminar kits 🍴 Lunch & coffee breaks 🎮 Drone mapping practice Sign up now and enhance your drone piloting skills! 🥳🤩 Contact us for more information or to register! Website: www.beehivedrones.com Email: marketing@beehivedrones.com LinkedIn: Beehive Drones WhatsApp: +62818999771 #DroneMapping #DroneTraining #MappingTraining #GeospatialData #AerialDataAcquisition #DigitalMapping #GeospatialTraining #DroneSurvey #AerialSurvey #DroneTechnology #MappingIndonesia #GeospatialSkills #DroneDataProcessing #DroneMappingTraining #Orthophoto #BeehiveDrones #RedefiningthePossibilities

Beehive Drones is thrilled to announce that our Beehive Intelligent Robotics Laboratory (BIRL) team have been awarded the prestigious Best Paper Award at the International Conference on Computer, Control, Informatics, and Its Applications (IC3INA) 2024, hosted by Badan Riset dan Inovasi Nasional RI (BRIN RI) ✨🤩 Our research, "The Impact of ISW on AUV Control Systems and Stability in Bali’s Deep Sea," highlights our dedication to pushing the boundaries. to redefine the possibilities, of technology and innovation. This groundbreaking work received great acclaim from both national and international researchers, academics, and students at the conference in Bandung 🙌🏻 Follow Beehive Drones to stay updated on our next big innovations! 🚀 #BeehiveDrones #BeeColony #BIRL #IC3INA2024 #BestPaperAward #TechInnovation #CuttingEdgeResearch #DroneIndonesia #MarineTech #AUV #UnderwaterTechnology #InnovationNation #FutureOfResearch #BRIN #ControlSystems #Robotics #ResearchExcellence #ComputerScience #RedefiningPossibilities

✨Collaborative Payload Transport with Multiple Drones✨ Drones have evolved from hobbyist gadgets to essential tools across industries like agriculture, construction, logistics, and public safety. A key innovation is collaborative payload transport, where multiple drones work together to carry heavy or large objects that a single drone couldn't manage. This advancement expands drone capabilities in logistics, robotics, and autonomous systems. 🚀 Why Collaborative Payload Transport? 🤔 Traditional drones are limited by payload capacity due to battery power and motor strength. However, by coordinating multiple drones, these limitations can be overcome, allowing for heavier loads, larger objects, energy efficiency, increased redundancy. 1️⃣ Swarm Robotics: Algorithms enable drones to fly in formation and adjust positions dynamically. 2️⃣ Payload Balancing: Machine learning helps optimize flight patterns and load distribution in real time. 3️⃣ Advanced Sensors: LiDAR, GPS, and cameras improve environmental awareness and safety during transport. Future Applications 🚀 ✅ Construction: Transporting materials to hard-to-reach locations. ✅ Disaster Response: Delivering essential supplies to inaccessible areas. ✅ Environmental Monitoring: Deploying sensors for research and conservation in remote locations. Collaborative payload transport offers a new frontier in drone technology, allowing for heavier, larger, and more efficient autonomous transport. As research advances, drones will play an even bigger role in industries needing flexible and rapid transport solutions, pushing the boundaries of what's possible. 🙌🏻 At Beehive Drones Intelligent Robotics Laboratory (BIRL), we're pushing the boundaries of drone technology by developing advanced algorithms for swarm robotics. This innovative approach enables multiple drones to work together seamlessly, unlocking new potential for collaborative tasks such as payload transport. Stay tuned for the next update! 🤩👋🏻 Picture source: https://lnkd.in/gg3Wn6dj #CollaborativeDrones #PayloadTransport #DroneTechnology #AutonomousSystems #InnovativeLogistics #DroneCoordination #FutureOfTransport #MultiDroneSolutions #SmartDrones #AerialLogistics #DroneInnovation #DroneCollaboration #TechInConstruction #DisasterReliefDrones #HeavyLiftDrones #AutonomousDrones #DroneSwarm #BeehiveDrones #RedefiningthePossibilities

FPV (First-Person View) drones have surged in popularity, offering an immersive flying experience by allowing pilots to see in real-time what the drone sees. Beyond recreation, FPV drones are now widely used in cinematography for dynamic shots and in competitive racing, where pilots test speed and control on challenging courses. ✨ #FPVDrones #DroneRacing #DroneTechnology #BeehiveDrones #DronePilots #FPVFlight #AerialInnovation #TechForGood #DroneLife #FPVCommunity #DroneApplications #UnmannedAerialSystems #FPVHobby #FPVWork #DroneCompetition #FutureOfFlight #DroneSolutions #RedefiningthePossibilities

✨Pioneering Low-Cost Bathymetry Technology with AUVs✨ The Beehive Drones research division, BIRL, is pushing the boundaries of bathymetry by developing low-cost solutions using cameras mounted on Autonomous Underwater Vehicles (AUVs). This innovative approach offers a compelling alternative to traditional sonar-based systems, which are often expensive and demand significant time, labor, and technological resources. 🤩 At the heart of this project, the BIRL team employs the ORB-SLAM2 algorithm on stereo cameras to capture and process underwater features, transforming them into detailed maps. While ORB-SLAM2 is widely used in terrestrial and aerial robotics, its application in underwater environments is still novel and largely untapped. The underwater environment presents unique challenges, such as limited light and vehicle instability, both of which can affect image quality and mapping accuracy. These factors can complicate the mapping process or even render it impossible. Despite these hurdles, the BIRL team is continuously refining its techniques to create an effective, low-cost bathymetry solution that holds great potential for advancements in marine robotics. This initiative not only highlights Beehive Drones expansion into underwater robotics but also underscores its commitment to developing groundbreaking technology across land, air, and sea. Stay tuned for more exciting innovations on the horizon! 💫 #AUV #Bathymetry #UnderwaterRobotics #MarineTechnology #LowCostTech #SLAM #VisualSLAM #RoboticsResearch #ORB_SLAM2 #TechInnovation #AutonomousVehicles #MarineExploration #UnderwaterMapping #AUVMapping #TechAdvancement #DroneTech #RoboticsEngineering #AffordableTech #TechSolutions #InnovationInScience #MarineSurvey #UnderwaterExploration #ResearchAndDevelopment #UnderwaterImaging #BeehiveDrones #RedefiningthePossibilities

✨Visual SLAM: Transforming Aerial and Underwater Navigation✨ Visual SLAM (Simultaneous Localization and Mapping) is a key technology in robotics that enables real-time mapping and navigation in environments where GPS is unreliable, such as aerial and underwater settings. What is Visual SLAM? 🤔 Visual SLAM combines camera inputs and advanced algorithms to map unknown areas while tracking a system's position. It uses principles from projective geometry to estimate depth and employs probabilistic methods for continuous position updates. 🔎 Visual SLAM in Aerial Navigation ✅ GPS-Denied Environments: Enables drones to navigate effectively in areas without GPS. ✅ Precision Mapping: Creates detailed maps for applications like search and rescue and infrastructure inspection. ✅ Obstacle Avoidance: Provides real-time feedback for autonomous obstacle detection. 🔎 Visual SLAM in Underwater Navigation ✅ Accurate Navigation: AUVs can map uncharted areas, such as reefs and shipwrecks. ✅ Real-Time Localization: Allows tracking of positions using visual features on the seafloor. ✅ Enhanced Data Collection: Facilitates extensive visual data gathering for research and military uses. The Beehive Drones Intelligent Robotics Laboratory (BIRL) is advancing Visual SLAM systems for aerial and underwater navigation, focusing on improving accuracy and reliability in challenging conditions through enhanced algorithms for feature extraction and matching. 🚀 Curious about how Visual SLAM could shape the future of robotics? Or have insights on its challenges and opportunities in real-world use? We'd love to hear your thoughts! Drop a comment below and join the conversation on the future of intelligent navigation systems! 👇 #VisualSLAM #SLAM #AutonomousSystems #NavigationTechnology #SimultaneousLocalization #SimultaneousLocalizationandMapping #AerialNavigation #Drones #UAVTechnology #AerialMapping #ObstacleAvoidance #UnderwaterNavigation #AutonomousUnderwaterVehicles #MarineTechnology #SubseaMapping #OceanExploration #EnvironmentalMonitoring #ScientificResearch #BIRL #BeehiveDrones #RedefiningthePossibilities

✨ Unveiling Indonesia's Maritime Potential with USV Technology ✨ As the largest maritime nation in the world, Indonesia's vast oceans hold immense potential for exploration and resource management. Yet, much of this potential remains unexplored due to technological, knowledge, and facilities limitations. Bathymetry, the science of measuring sea depth and topography, is crucial for safe maritime navigation, sustainable underwater resource extraction (such as fisheries and oil), disaster mitigation (like tsunami hazard mapping), and marine infrastructure development. For Indonesia, accurate bathymetric data is essential to secure our maritime sovereignty and enhance economic security. 🤩 Traditional bathymetric surveys, however, are costly, requiring large vessels, specialized sonar equipment, and substantial operational expenses. This has hindered its widespread application, especially in Indonesia's remote and expansive waters. Enter Unmanned Surface Vehicles (USVs), a cost-effective and efficient solution. These remotely operated vessels reduce energy consumption, provide operational flexibility, and can access hard-to-reach areas. USVs, equipped with echosounders and GPS, can deliver precise bathymetric data at a fraction of the traditional costs. 🚀 At Beehive Drones, through our Beehive Intelligent Robotics Laboratory (BIRL), we’ve developed a low-cost USV prototype for bathymetric surveys. This prototype integrates GPS and a Ping Sonar Echosounder, merging location and depth data to generate 3D underwater topography. With a remote operation range of up to 2 kilometers and a depth measurement capacity of 100 meters, our USV is advancing towards optimal accuracy and reliability for future applications. Beehive Drones is not just innovating aerial robotics—we’re pioneering new technologies across land, sea, and beneath the ocean’s surface. Our vision extends far beyond the skies, as we work to redefine the boundaries of what’s possible in ocean technology and maritime exploration. We believe that through innovation and cutting-edge solutions, Indonesia’s marine potential can be fully realized, driving sustainable growth and enhancing national security. 🙌🏻 #MaritimeNation #Batimetry #USV #BeehiveDrones #Innovation #MarineExploration #BathymetricSurvey #MaritimeExploration #USVTechnology #Batimetry #BeehiveDrones #MarineInnovation #UnderwaterSurvey #OceanMapping #ArchipelagoNation #BlueEconomy #MarineSovereignty #TechnologyForGood #SmartOceans #BathymetricMapping #SeaExploration #3DTopography #RedefiningthePossibilities #BIRL #BeehiveDronesResearchTeam

Have you ever used a drone, or do you have one at home? 🤔 At Beehive Drones, we’re excited to share our top Drone Maintenance Tips and Best Practices to help you keep your drone in peak condition. 🤩🤩 Whether you're a seasoned pilot or a new drone owner, these tips will ensure your drone performs optimally and lasts longer. Curious about how to maintain your drone for the best performance? Swipe through our latest post for a detailed guide on keeping your drone in top shape and avoiding common pitfalls! 🤗 Don’t miss out on more valuable insights and updates—follow us for the latest in drone technology and best practices! Website: www.beehivedrones.com Email: marketing@beehivedrones.com LinkedIn: Beehive Drones WhatsApp: +62818999771 #BeehiveDrones #RedefiningThePossibilities #DroneMaintenance #UAV #DroneTips #DroneCare #AerialTechnology #DronesOfInstagram #DroneLife #TechTips #Drones #DronePhotography #DroneExperts #DroneCommunity #InnovativeTech #AgTech #AgriculturalDrones #DroneTech #TechInsights #DroneLove #DroneInnovation #DroneBestPractices #FlyingHigh #DroneSafety #DronePilot

The Physics of Underwater Cameras: Comparing to the Pinhole Camera Model Underwater cameras have revolutionized ocean exploration, enabling scientists to study marine life, shipwrecks, and aid in navigation. However, capturing clear images underwater is challenging due to water's optical properties. A pinhole camera is a simple device with a small hole that allows light to project an inverted image onto a screen. This model operates on ray optics, where light travels in straight lines. Both the pinhole and underwater camera models use light projection principles. However, underwater cameras need lenses for refraction correction, color filters for absorption, and algorithms for image restoration to address underwater challenges. Beehive Drones Intelligent Robotics Lab (BIRL) is advancing underwater imaging by developing: ✅ Refraction Correction Algorithms: Improving object positioning in underwater images. ✅ Image Enhancement: Compensating for light scattering and absorption. ✅ Real-Time Processing: Enhancing navigation for autonomous underwater vehicles (AUVs). The goal of BIRL’s research is to provide a reliable and clear imaging system that can support exploration, observation, and navigation in challenging underwater environments. By combining an advanced physics model with image enhancement algorithms, BIRL seeks to overcome the current limitations of underwater cameras, offering unprecedented clarity for scientific and industrial applications. ** Picture: Sketch of Underwater Camera Model ** Source of picture: https://lnkd.in/g4-uuT6p #UnderwaterCameras #PhysicsOfCameras #PinholeCamera #OceanExploration #MarineImaging #UnderwaterPhotography #ImagingTechnology #BeehiveIntelligentRobotics #BIRL #UnderwaterChallenges #UnderwaterAlgorithms #AutonomousUnderwaterVehicles #AUVs #NavigationTechnology #UnderwaterResearch #UnderwaterExploration #UnderwaterNavigation #ScientificImaging #RoboticsInnovation #BeehiveDrones #RedefiningtheSustainableFuture