IMGING is an insurance-specific solution for automating drone-based property inspections and streamlining insurance workflows. It consists of drone hardware that is controlled by web and mobile software and is built on a cloud infrastructure for data processing, storage and transport. IMGING software (web and mobile) handles things like job creation and management, flight planning and the generation of inspection reports. The IMGING mobile app also executes automated inspections on site. IMGING feeds the results of these inspections directly into underwriting and claims workflows to allow insurance companies to make better decisions, faster.
No. IMGING is a toolset that insurance companies, independent adjusters, roofers, and contractors use to greatly simplify property inspections. Many of our partners are drone service providers that use IMGING in the course of their routine activities. If you’re looking for help with drone service providers, we can help.
The IMGING app is used to create an automated flight plan based upon inputs from the operator (for example, what portions of a roof to scan and what obstructions to avoid). Once defined, the app builds the flight plan, connects to DJI drones through DJI’s LightBridge protocol and controls it throughout the flight until completion or unless the operator initiates manual flight mode.
Put simply, computer vision allows a machine to see and understand things the way people do. This tech lets a computer gather data through sensors, cameras, and other data capture tools, then with the help of AI and deep learning, use that information to come to some sort of conclusion. For instance, the system could take a photo of a car and using pattern recognition, understand that the image is of a car. This technology, combined with AI and Deep Learning, allows a drone-based data capture solution to find objects, damage, and more, all by itself.
To put it simply, artificial intelligence is exactly what it sounds like: intelligence demonstrated by a machine. With AI, a machine is carrying out a complex task or calculation and mimicking cognitive thought. A simple example of AI would be a computer playing chess.
Machine learning is a sub-discipline of artificial intelligence. With machine learning, a computer can gather data and use it as part of a larger, digital neural network; a computer can “learn” as it gathers more information. This is the next level of AI, because we’re not just programming a computer to carry out a complex task that appears smart, we’re creating a system where any new data the system gathers actually makes it smarter.
Deep learning is a specific approach to machine learning. With this approach, artificial intelligence is focused on solving problems. Basically, you’re building a computer system that can make decisions. At its core, deep learning involves providing a computer system with lots of data. Collected together, this data allows the computer to make decisions about other data. And so, you’re giving a computer the ability to interpret patterns and identify “things” (e.g. is this or is this not a hail hit). Deep Learning requires specific systems, workflows, and approaches to allow a computer to make recommendations about data.
Regulatory and Compliance
You don’t need to be a licensed pilot to fly a drone with the IMGING app. However, you do need to follow Transport Canada’s regulatory requirements and demonstrate knowledge of these requirements.
Transport Canada has a number of very specific regulatory requirements for drone operators. Find out more here: http://www.tc.gc.ca/eng/civilaviation/opssvs/getting-permission-fly-drone.html.
These regulations are currently under review and changes are expected. Keep up to date by checking Transport Canada’s website frequently or get in touch with Drone Software Canada and we’ll guide you through the process of identifying requirements specific to your business.
Drones have caused some controversy in recent years because of their ability to remotely shoot video and take photos in places where they might not belong. As with any technology, responsible use is key. For insurance inspections, we recommend getting a policyholder’s signature to approve inspections. Additionally, it’s courteous to inform nearby neighbors that a drone will be flying to conduct an insurance inspection, just so they’re aware that it’s not being flown with any malicious intent.
As with any vehicle, there is a small risk of injuring someone or damaging property, though as we noted in the previous section, these risks are minimal. Drone Software Canada has partnered with a service provider that specializes in drone insurance. Contact us for more information.
The terms Unmanned Aerial Vehicles (UAVs) and drones are nearly synonymous. Both refer to aerial vehicles that are either flown remotely, or use autonomous technology to fly themselves. This can include everything from small copter-style UAVs to the large Predator drones the military uses. The term Unmanned Aerial Systems (UAS) includes UAVs and drones, and refers to all of the components that allow a UAV to fly, including controllers, communication methods, and the vehicle itself.
A drone’s endurance and flight time are essentially the same. They refer to the amount of time a drone can be in the air before the battery expires, although endurance is sometimes a measurement in battery and fuel storage whereas flight time is the calculated time that batteries and fuel will last at a given level of efficiency. Most drone manufacturers determine this number by hovering a drone just off of the ground and measuring how long its battery lasts before it automatically lands. Since flight time is measured in a low-impact hover mode, flight times in a realistic scenario are often shorter. For example, aggressively flying a drone with non-stop turns, altitude changes and hard maneuvers will invariably drain battery/fuel at a much faster rate than simple hovering.
Drone are safe when they are flown by a capable drone operator who follows established safety protocols and manufacturer’s operational instructions. Many modern drones are built to be easy for anyone to fly and have various fail-safes built into them. Sensors, battery monitors, and return-to-home technology ensure that drones can avoid collisions and autonomously return back to the pilot when the battery gets low, which greatly minimizes the risk of them causing any damage.
Even still, drones are aerial vehicles and there are certain risks such as mid-air collisions with buildings and other aircraft, crash landings, and so on. But when a pilot relies on quality drone technology and carefully follows safety procedures and regulations, these risks are greatly reduced.
Drone technology has improved very quickly in the last five years, making many excellent drone models available to hobbyists and businesses on a budget. The DJI drones we recommend using with IMGING cost as little as $2,000, but there are high endurance, heavy-payload and custom drones that can quickly rise beyond $25,000.
Modern drones are built with sophisticated IMUs and Autopilot technology that vastly simplify their control. Typically, drones can hover in a stable position, resist winds and avoid collision with objects and buildings all on their own. Because of all the sensors and complex positioning systems, drones are easy enough for just about anyone to pilot. The average person can learn to fly a drone in just a few hours, though to be skilled will take a bit longer. Best of all, drones are a blast to fly.
Modern drones have their roots in military but today are used in a wide range of applications in industries like advertising, real estate, film, mining, agriculture, law enforcement and insurance.
Most modern drones must communicate with a controller or mobile device (tablet or smartphone) in order to function. Most drone flight applications will give you a status bar indicating the strength of the communication signal and even warn you when the drone is about to go out of range. If it does, many drones have GPS systems that will allow them to return back to the pilot even if it can’t communicate with the controller. Note that Transport Canada requires that commercial drone flights must stay within the pilot’s line of sight.
Most modern drones must communicate with a controller or mobile device (tablet or smartphone) in order to function. Most drone flight applications will give you a status bar indicating the strength of the communication signal and even warn you when the drone is about to go out of range. If it does, many drones have GPS systems that will allow them to return back to the pilot even if it can’t communicate with the controller.
Depending on the model and flight behavior, drones can fly anywhere from a couple of minutes to a few hours—though most commercial drones are limited to less than 30 minutes. Military drones can even be in the air for days at a time and some experimental drones are intended to stay aloft indefinitely. The drones we offer have flight times around 27 minutes.
Climbing on a roof for estimates can pose some safety risks, and it’s also no longer the quickest way to gather measurements and analyze damage for an estimate. Using drone technology and deep learning, roofing estimators can inspect a roof, view ultra-high-resolution images of materials and damage, and even build highly polished estimates they can share with customers. With more detailed information, roofers can build more trust with customers while also proving their expertise.