Unmanned aerial vehicles (UAVs) or drones try regulators in new ways. Blockchain in concert with established technologies may help address the challenges
This document discusses wind turbine inspection methods, with a focus on using drones. It describes:
1) The benefits of drone inspections for wind turbines, such as providing safe, efficient access to otherwise inaccessible areas to detect defects.
2) The types of inspection methods, including visual surface inspections, sub-surface techniques like thermography, and condition monitoring systems.
3) How drone inspections work in practice, from capturing high-resolution photos and video to analyzing data to identify defects and schedule maintenance.
DAR is a Drone Aviation Radar Prevents Drone Collisions with Aircraft. It Proactively Defends Aircraft Airspace Up to 10 Miles Away and Works with and Integrates into Radar Systems.
ClearSpace Aeronautics (CSA) is a futuristic Drone (sUAS) Aviation, Aeronautics and Aerospace Company. It’s the home of the first DRONE AVIATION DEFENSE SYSTEMTM that protects Aircraft from Drones by keeping Drones away from Aircraft flight paths to prevent catastrophic Drone collisions with Aircraft and save lives. The Drone Aviation Defense System is part of CSA’s Drone Defense System Core which uses propriety algorithms, sensors, firmware and devices to equip the “Drone Avionics Radar” (DAR), which is the only proactive Drone Radar System.
This document discusses the use of unmanned aerial systems (drones) in the construction industry. It provides an overview of drone technology and applications, as well as new FAA regulations for commercial drone use. Key points include:
- Drones can be used for tasks like 3D modeling, site monitoring, safety inspections, and marketing, allowing dangerous or difficult jobs to be done remotely.
- The FAA's new Part 107 rules allow commercial drone use with restrictions like pilot certification, 55 lb weight limit, and visual line of sight operation.
- Proper risk management and insurance are important due to risks of accidents, privacy issues, and potential liability. Coverage options include aviation policies or CGL
INNOVATIVE TECHNOLOGIES IN RPAS by Sarah Bardelli ALIAS Network
IDS is an Italian company that has developed HERO, a remotely piloted aircraft system weighing 150kg that will be operational in 2015. Most of the innovative technologies used in remote piloted aircraft systems, such as positioning, navigation, and communication, are software-based, which presents a major issue of software liability. IDS worked closely with Italy's civil aviation authority, ENAC, during the development and testing of HERO to ensure it meets applicable regulations and limits risks, and HERO will be the first remotely piloted aircraft certified in Italy in its weight category.
The presentation is all about drones and their legal background in India. It also gives you information about the permit and UIN requirements along with respect to drone.
This presentation gives several examples of how commercial drones are used in industry. Originally presented at the Day of Drones, Hiller Museum of Aviation, San Carlos, California, August 27, 2016
This document discusses wind turbine inspection methods, with a focus on using drones. It describes:
1) The benefits of drone inspections for wind turbines, such as providing safe, efficient access to otherwise inaccessible areas to detect defects.
2) The types of inspection methods, including visual surface inspections, sub-surface techniques like thermography, and condition monitoring systems.
3) How drone inspections work in practice, from capturing high-resolution photos and video to analyzing data to identify defects and schedule maintenance.
DAR is a Drone Aviation Radar Prevents Drone Collisions with Aircraft. It Proactively Defends Aircraft Airspace Up to 10 Miles Away and Works with and Integrates into Radar Systems.
ClearSpace Aeronautics (CSA) is a futuristic Drone (sUAS) Aviation, Aeronautics and Aerospace Company. It’s the home of the first DRONE AVIATION DEFENSE SYSTEMTM that protects Aircraft from Drones by keeping Drones away from Aircraft flight paths to prevent catastrophic Drone collisions with Aircraft and save lives. The Drone Aviation Defense System is part of CSA’s Drone Defense System Core which uses propriety algorithms, sensors, firmware and devices to equip the “Drone Avionics Radar” (DAR), which is the only proactive Drone Radar System.
This document discusses the use of unmanned aerial systems (drones) in the construction industry. It provides an overview of drone technology and applications, as well as new FAA regulations for commercial drone use. Key points include:
- Drones can be used for tasks like 3D modeling, site monitoring, safety inspections, and marketing, allowing dangerous or difficult jobs to be done remotely.
- The FAA's new Part 107 rules allow commercial drone use with restrictions like pilot certification, 55 lb weight limit, and visual line of sight operation.
- Proper risk management and insurance are important due to risks of accidents, privacy issues, and potential liability. Coverage options include aviation policies or CGL
INNOVATIVE TECHNOLOGIES IN RPAS by Sarah Bardelli ALIAS Network
IDS is an Italian company that has developed HERO, a remotely piloted aircraft system weighing 150kg that will be operational in 2015. Most of the innovative technologies used in remote piloted aircraft systems, such as positioning, navigation, and communication, are software-based, which presents a major issue of software liability. IDS worked closely with Italy's civil aviation authority, ENAC, during the development and testing of HERO to ensure it meets applicable regulations and limits risks, and HERO will be the first remotely piloted aircraft certified in Italy in its weight category.
The presentation is all about drones and their legal background in India. It also gives you information about the permit and UIN requirements along with respect to drone.
This presentation gives several examples of how commercial drones are used in industry. Originally presented at the Day of Drones, Hiller Museum of Aviation, San Carlos, California, August 27, 2016
European Rotors - Certification by SimulationLeonardo
During European Rotors we presented our view and experience on certification by simulation with a look at the RoCS (Rotorcraft Certification by Simulation) project
The document discusses the growing commercial drone market and its applications. It notes that spending on drones and related hardware is expected to double over the next decade, reaching $13 billion annually by 2024. While defense has traditionally dominated the market, commercial applications are growing and expected to account for one-fourth of the drone market by 2024. Key commercial applications mentioned include precision agriculture, energy/mining, real estate, media/entertainment, and aerial imaging. The document also provides an overview of the stakeholders in the drone industry supply chain.
A Drone project planned for implementation in an Urban environment for delivering parcels in an area using Autonomous drones which can carry upto 2Kg weight and 30 KM's flight time. This project could not move forward due to restrictions posed by the Authority in urban areas.
Carolina Rius Alarco - liabilities and automation in aviation - rpasALIAS Network
The document discusses liability issues related to the use of remotely piloted aircraft systems (RPAS) and provides 10 scenarios to illustrate potential liability situations. It notes that under most legal frameworks, RPAS operators are strictly liable for any damages caused, although manufacturers and technology providers could also be liable depending on what caused the incident. The document recommends that operators carry insurance, RPAS have safety features like remote disabling, and minimum safety standards be required to help prevent accidents and allocate liability when they do occur.
The document discusses India's drone regulations version 1.0 and provides an overview of the permit and operational requirements for drones in India. Key points include:
1) The Digital Sky Platform is a national unmanned traffic management system that implements a "no permission, no takeoff" policy requiring pre-approval for all drone flights.
2) Operators must obtain an Unmanned Aircraft Operator Permit, register drones with a Unique Identification Number, and remote pilots require training and security clearance.
3) Drones are categorized based on weight and higher categories have increased equipment and licensing requirements. Operational restrictions include daytime visual line of sight flights below 400 feet.
The document discusses various applications and trends related to drones and unmanned aerial vehicles (UAVs). It covers current FAA regulations for different types of drone use, as well as trends showing increasing civilian, commercial, and public sector applications. These include infrastructure inspection, agriculture, filmmaking, emergency response, and more. The document also examines technologies like sensors, cloud computing and big data that are enhancing drone capabilities and potential uses.
Drone Insights 2021, and its Impact on other sectors in IndiaKaushik Biswas
The Booming Drone Industry and its prospect by 2025. What are the sectors in which Drones can be used in India, the regulatory frameworks comparing World Vs India, What are the Top 3 companies we can do business with, who are the other players in the industry?
I have also done a small survey on what Indians think about the drone industry overall, and finally a conclusion on where we are vs the world
These slides use concepts from my (Jeff Funk) course entitled Biz Models for Hi-Tech Products to analyze the business model for Airware, a provider of operating systems for drones. Developing applications for drones involves high development costs and these costs can be reduced through the use of a well-designed operating system that is used in many types of drones. Just as Android, iOS, and Windows have reduced the development costs for application software in smart phones and personal computers, Airware’s operating system, or aerial information platform as they call it, can reduce the cost of implementing drones for agriculture, delivery, movie production, security, and the many other applications that have been proposed. Airware is trying to develop an eco-system of drone manufacturers, application developers, sensor manufacturers, and drone operators, each of which contributes towards low cost and high performance applications for drones. These slides describe the value proposition, customers, method of value capture, scope of activities and the method of strategic control for Airware.
Drone Systems and Airframe Selection - Scope and OptionsColin Snow
Presentation to 2016 Commercial UAV Expo: SCOPE & OPTIONS FOR SPECIFIC PROJECTS
Knowing the reasons you want to implement a new technology and ensuring it’s achievable have a huge bearing on its success or failure. If business benefits are not realized, or budgets are busted, the project has failed. So if you are considering acquiring or incorporating an unmanned aircraft system for your business, it pays to be prepared. In this session we’ll cover the five most important things to consider when adopting drones for your business.
Are you in utter need of a drone survey company in India that can capture aerial photos and digital data of land, buildings, and other features from a bird's eye view? Well, the Garud survey can help. When carried out as a topographical survey, topographic survey, geotechnical survey, or geographical study, these (Drone surveying) techniques also save us time.
We are Team 71representing Face of Art Technologies. Face of Art Technologies is an established IT company in Bangladesh providing software, hardware and IOT solutions which include Robotics.
The members of Team 71 are
• MD. Ashraful Islam (CEO)
• MD. Mohammad Milon (COO)
• MD. Ashikuzzaman (Manager Operation)
• MD. Assadujjazam Asif (Programmer)
• Faria Mahmud (Software Developer)
2. Our Topic is Unmanned Drone Based Aerial Pesticide Sprayer. This technology is based on drone which aims to help the farmers working on the fields.
3. Usually a farmer carries the spray with them and visits the field physically to spray the pesticides on the land. But we plan to set booths at several locations where the farmer visits the booth, pays for the pesticide and provides the address of the land. The person of the booth uses GPRS to find the land and sends the drone to that field. So there is zero involvement of human with the harmful pesticides.
4. This technology helps general people in three main ways:
Time, Value and Health.
Starting with the first point time, usually it takes 8 hours to spray 15kgs of fertilizers on the land. But with the help of our system it only takes 30 minutes to spray the same fertilizer. This saves a huge amount of time.
Coming to the second point, it cost around 15-20 USD in this normal process but it will cost only 2-3 USD with the drone technology
The third point is the health issues. In a research we found that this pesticides exposure causes several diseases such as neurological and skin disease. According to a research by WHO, around 3million worker are affected from which 18000 dies.
All these issues can be solved with the use of this drone technology.
6. We have calculated and found that this technology reduces 10% of the effect that I have mentioned earlier which saves 1800 in one year. We believe this percentage will gradually increase every year making the technology 100% effective.
This document provides an introduction to drone technology. It discusses the history of drones, key terms and acronyms, how drones work internally with components like sensors and navigation systems, popular drone sizes, safety features, potential use cases across industries like delivery, agriculture, filmmaking, and more. It also profiles some major drone companies and concludes with suggestions for getting hands-on experience with drone technology through simulators and open source software.
Unmanned aerial vehicles (UAVs), also known as drones, provide a low-cost platform for aerial photography, mapping, and remote sensing applications. They can carry various sensor payloads and be used for infrastructure inspection, wildlife monitoring, search and rescue operations, and more. Regulations currently require certification to operate drones commercially, but their utility is driving efforts to expand approved uses. This document discusses various drone types, payloads, examples of applications, and the training and equipment required.
This document discusses the emerging wearable technology segment and Qualcomm's role in leading it. Some key points made include: 1) Wearable device shipments are expected to grow significantly over the next few years across categories like smartwatches, fitness/wellness, and healthcare; 2) Qualcomm is developing the core technologies needed for wearables like connectivity, power management, displays, and integrated systems-on-chips; 3) A successful personal wearable will need to optimize for characteristics like thin/light design, long battery life, always-on sensing capabilities, and continuous connectivity.
- LiveViewGPS HOS is a comprehensive Hours of Service tablet app and portal that can track drivers' hours of service, vehicle inspections, team driving, and optional features like IFTA tracking.
- It is fully customizable for fleets of all sizes and can be white-labeled for resellers.
- The app and portal provide full visibility into drivers' hours of service for compliance as well as real-time vehicle tracking and dispatching for mobile workers.
Unmanned aircraft (UAS or UAVs) have the potential to be used in agriculture for crop sensing, aerial imaging, and other applications currently performed by manned aircraft. However, safety is the top concern as UAVs currently lack the ability to sense and avoid other aircraft. The National Agricultural Aviation Association (NAAA) has recommended requirements for UAVs such as ADS-B transmitters, strobe lights, pilot training, and aircraft certification to help address safety issues. While UAVs may be used for crop monitoring and imaging, manned aircraft remain better suited for large-scale aerial application due to efficacy and cost advantages over current small UAV technologies.
Unmanned aircraft (UAS or UAVs) have the potential to be used in agriculture for tasks like crop sensing and aerial imaging. However, integrating UAS safely into the national airspace poses challenges due to current technology limitations of UAS to sense and avoid other aircraft. The National Agricultural Aviation Association (NAAA) has safety concerns about UAS operations and recommends requirements like transponders, lighting, pilot training, and aircraft certification to address these challenges. While UAS may be used in agriculture in the future, manned aircraft currently have advantages for many agricultural applications due to greater efficacy and lower costs. Significant liability risks also exist for UAS operators until these safety issues are resolved.
Deployment of Beacon Technology in Aviation by LeantegraLeantegra
Check out the Leantegra presentation to learn how beacons, and powered by them RTLS and Proximity Marketing solutions can make every passenger's stay at an airport a positive start of a great adventure!
Deployment of Beacon Technology in Aviation by LeantegraOlga Rusnak
Check out the Leantegra presentation to learn how beacons, and powered by them RTLS and Proximity Marketing solutions can make every passenger's stay at an airport a positive start of a great adventure!
United Nations World Oceans Day 2024; June 8th " Awaken new dephts".Christina Parmionova
The program will expand our perspectives and appreciation for our blue planet, build new foundations for our relationship to the ocean, and ignite a wave of action toward necessary change.
European Rotors - Certification by SimulationLeonardo
During European Rotors we presented our view and experience on certification by simulation with a look at the RoCS (Rotorcraft Certification by Simulation) project
The document discusses the growing commercial drone market and its applications. It notes that spending on drones and related hardware is expected to double over the next decade, reaching $13 billion annually by 2024. While defense has traditionally dominated the market, commercial applications are growing and expected to account for one-fourth of the drone market by 2024. Key commercial applications mentioned include precision agriculture, energy/mining, real estate, media/entertainment, and aerial imaging. The document also provides an overview of the stakeholders in the drone industry supply chain.
A Drone project planned for implementation in an Urban environment for delivering parcels in an area using Autonomous drones which can carry upto 2Kg weight and 30 KM's flight time. This project could not move forward due to restrictions posed by the Authority in urban areas.
Carolina Rius Alarco - liabilities and automation in aviation - rpasALIAS Network
The document discusses liability issues related to the use of remotely piloted aircraft systems (RPAS) and provides 10 scenarios to illustrate potential liability situations. It notes that under most legal frameworks, RPAS operators are strictly liable for any damages caused, although manufacturers and technology providers could also be liable depending on what caused the incident. The document recommends that operators carry insurance, RPAS have safety features like remote disabling, and minimum safety standards be required to help prevent accidents and allocate liability when they do occur.
The document discusses India's drone regulations version 1.0 and provides an overview of the permit and operational requirements for drones in India. Key points include:
1) The Digital Sky Platform is a national unmanned traffic management system that implements a "no permission, no takeoff" policy requiring pre-approval for all drone flights.
2) Operators must obtain an Unmanned Aircraft Operator Permit, register drones with a Unique Identification Number, and remote pilots require training and security clearance.
3) Drones are categorized based on weight and higher categories have increased equipment and licensing requirements. Operational restrictions include daytime visual line of sight flights below 400 feet.
The document discusses various applications and trends related to drones and unmanned aerial vehicles (UAVs). It covers current FAA regulations for different types of drone use, as well as trends showing increasing civilian, commercial, and public sector applications. These include infrastructure inspection, agriculture, filmmaking, emergency response, and more. The document also examines technologies like sensors, cloud computing and big data that are enhancing drone capabilities and potential uses.
Drone Insights 2021, and its Impact on other sectors in IndiaKaushik Biswas
The Booming Drone Industry and its prospect by 2025. What are the sectors in which Drones can be used in India, the regulatory frameworks comparing World Vs India, What are the Top 3 companies we can do business with, who are the other players in the industry?
I have also done a small survey on what Indians think about the drone industry overall, and finally a conclusion on where we are vs the world
These slides use concepts from my (Jeff Funk) course entitled Biz Models for Hi-Tech Products to analyze the business model for Airware, a provider of operating systems for drones. Developing applications for drones involves high development costs and these costs can be reduced through the use of a well-designed operating system that is used in many types of drones. Just as Android, iOS, and Windows have reduced the development costs for application software in smart phones and personal computers, Airware’s operating system, or aerial information platform as they call it, can reduce the cost of implementing drones for agriculture, delivery, movie production, security, and the many other applications that have been proposed. Airware is trying to develop an eco-system of drone manufacturers, application developers, sensor manufacturers, and drone operators, each of which contributes towards low cost and high performance applications for drones. These slides describe the value proposition, customers, method of value capture, scope of activities and the method of strategic control for Airware.
Drone Systems and Airframe Selection - Scope and OptionsColin Snow
Presentation to 2016 Commercial UAV Expo: SCOPE & OPTIONS FOR SPECIFIC PROJECTS
Knowing the reasons you want to implement a new technology and ensuring it’s achievable have a huge bearing on its success or failure. If business benefits are not realized, or budgets are busted, the project has failed. So if you are considering acquiring or incorporating an unmanned aircraft system for your business, it pays to be prepared. In this session we’ll cover the five most important things to consider when adopting drones for your business.
Are you in utter need of a drone survey company in India that can capture aerial photos and digital data of land, buildings, and other features from a bird's eye view? Well, the Garud survey can help. When carried out as a topographical survey, topographic survey, geotechnical survey, or geographical study, these (Drone surveying) techniques also save us time.
We are Team 71representing Face of Art Technologies. Face of Art Technologies is an established IT company in Bangladesh providing software, hardware and IOT solutions which include Robotics.
The members of Team 71 are
• MD. Ashraful Islam (CEO)
• MD. Mohammad Milon (COO)
• MD. Ashikuzzaman (Manager Operation)
• MD. Assadujjazam Asif (Programmer)
• Faria Mahmud (Software Developer)
2. Our Topic is Unmanned Drone Based Aerial Pesticide Sprayer. This technology is based on drone which aims to help the farmers working on the fields.
3. Usually a farmer carries the spray with them and visits the field physically to spray the pesticides on the land. But we plan to set booths at several locations where the farmer visits the booth, pays for the pesticide and provides the address of the land. The person of the booth uses GPRS to find the land and sends the drone to that field. So there is zero involvement of human with the harmful pesticides.
4. This technology helps general people in three main ways:
Time, Value and Health.
Starting with the first point time, usually it takes 8 hours to spray 15kgs of fertilizers on the land. But with the help of our system it only takes 30 minutes to spray the same fertilizer. This saves a huge amount of time.
Coming to the second point, it cost around 15-20 USD in this normal process but it will cost only 2-3 USD with the drone technology
The third point is the health issues. In a research we found that this pesticides exposure causes several diseases such as neurological and skin disease. According to a research by WHO, around 3million worker are affected from which 18000 dies.
All these issues can be solved with the use of this drone technology.
6. We have calculated and found that this technology reduces 10% of the effect that I have mentioned earlier which saves 1800 in one year. We believe this percentage will gradually increase every year making the technology 100% effective.
This document provides an introduction to drone technology. It discusses the history of drones, key terms and acronyms, how drones work internally with components like sensors and navigation systems, popular drone sizes, safety features, potential use cases across industries like delivery, agriculture, filmmaking, and more. It also profiles some major drone companies and concludes with suggestions for getting hands-on experience with drone technology through simulators and open source software.
Unmanned aerial vehicles (UAVs), also known as drones, provide a low-cost platform for aerial photography, mapping, and remote sensing applications. They can carry various sensor payloads and be used for infrastructure inspection, wildlife monitoring, search and rescue operations, and more. Regulations currently require certification to operate drones commercially, but their utility is driving efforts to expand approved uses. This document discusses various drone types, payloads, examples of applications, and the training and equipment required.
This document discusses the emerging wearable technology segment and Qualcomm's role in leading it. Some key points made include: 1) Wearable device shipments are expected to grow significantly over the next few years across categories like smartwatches, fitness/wellness, and healthcare; 2) Qualcomm is developing the core technologies needed for wearables like connectivity, power management, displays, and integrated systems-on-chips; 3) A successful personal wearable will need to optimize for characteristics like thin/light design, long battery life, always-on sensing capabilities, and continuous connectivity.
- LiveViewGPS HOS is a comprehensive Hours of Service tablet app and portal that can track drivers' hours of service, vehicle inspections, team driving, and optional features like IFTA tracking.
- It is fully customizable for fleets of all sizes and can be white-labeled for resellers.
- The app and portal provide full visibility into drivers' hours of service for compliance as well as real-time vehicle tracking and dispatching for mobile workers.
Unmanned aircraft (UAS or UAVs) have the potential to be used in agriculture for crop sensing, aerial imaging, and other applications currently performed by manned aircraft. However, safety is the top concern as UAVs currently lack the ability to sense and avoid other aircraft. The National Agricultural Aviation Association (NAAA) has recommended requirements for UAVs such as ADS-B transmitters, strobe lights, pilot training, and aircraft certification to help address safety issues. While UAVs may be used for crop monitoring and imaging, manned aircraft remain better suited for large-scale aerial application due to efficacy and cost advantages over current small UAV technologies.
Unmanned aircraft (UAS or UAVs) have the potential to be used in agriculture for tasks like crop sensing and aerial imaging. However, integrating UAS safely into the national airspace poses challenges due to current technology limitations of UAS to sense and avoid other aircraft. The National Agricultural Aviation Association (NAAA) has safety concerns about UAS operations and recommends requirements like transponders, lighting, pilot training, and aircraft certification to address these challenges. While UAS may be used in agriculture in the future, manned aircraft currently have advantages for many agricultural applications due to greater efficacy and lower costs. Significant liability risks also exist for UAS operators until these safety issues are resolved.
Deployment of Beacon Technology in Aviation by LeantegraLeantegra
Check out the Leantegra presentation to learn how beacons, and powered by them RTLS and Proximity Marketing solutions can make every passenger's stay at an airport a positive start of a great adventure!
Deployment of Beacon Technology in Aviation by LeantegraOlga Rusnak
Check out the Leantegra presentation to learn how beacons, and powered by them RTLS and Proximity Marketing solutions can make every passenger's stay at an airport a positive start of a great adventure!
United Nations World Oceans Day 2024; June 8th " Awaken new dephts".Christina Parmionova
The program will expand our perspectives and appreciation for our blue planet, build new foundations for our relationship to the ocean, and ignite a wave of action toward necessary change.
Jennifer Schaus and Associates hosts a complimentary webinar series on The FAR in 2024. Join the webinars on Wednesdays and Fridays at noon, eastern.
Recordings are on YouTube and the company website.
https://www.youtube.com/@jenniferschaus/videos
karnataka housing board schemes . all schemesnarinav14
The Karnataka government, along with the central government’s Pradhan Mantri Awas Yojana (PMAY), offers various housing schemes to cater to the diverse needs of citizens across the state. This article provides a comprehensive overview of the major housing schemes available in the Karnataka housing board for both urban and rural areas in 2024.
Indira awas yojana housing scheme renamed as PMAYnarinav14
Indira Awas Yojana (IAY) played a significant role in addressing rural housing needs in India. It emerged as a comprehensive program for affordable housing solutions in rural areas, predating the government’s broader focus on mass housing initiatives.
Bharat Mata - History of Indian culture.pdfBharat Mata
Bharat Mata Channel is an initiative towards keeping the culture of this country alive. Our effort is to spread the knowledge of Indian history, culture, religion and Vedas to the masses.
UN WOD 2024 will take us on a journey of discovery through the ocean's vastness, tapping into the wisdom and expertise of global policy-makers, scientists, managers, thought leaders, and artists to awaken new depths of understanding, compassion, collaboration and commitment for the ocean and all it sustains. The program will expand our perspectives and appreciation for our blue planet, build new foundations for our relationship to the ocean, and ignite a wave of action toward necessary change.