USS News

14Jun

6 Drones For Professional Film and Photography

cinema_top_6The film and photography industry has quickly become one of the biggest adopters of drone technology. When DJI released a drone equipped with an HD camera and steadying technology, it was a game changer. Suddenly, an entire niche gained affordable access to perspectives previously reserved for helicopter and fixed-wing pilots. Most professional film and photography enthusiasts are primarily concerned with the quality of the camera. However, factors such as flight stability and ease of use are also important considerations. This short list includes 6 drones for professional film and photography that integrate these features best.  

Thor X4 Cinema Class UAS

Thor X4 Cinema Class UASThe Thor X4 Cinema Class UAS is a heavy lift octocopter. It's designed to carry professional filming cameras such as the Sony Fs700, or Canon C300. The Thor X4 is ATI's most advanced octocopter and is optimized for professional film applications. A number of upgrades have improved the drones' overall flight and performance. It is equipped with a dual battery box that can hold two, 20,000 mAH cell batteries, which provides a massive power source up to 40,000 mAH. In addition, the battery box gives the drone a stronger anchor point. A top plate provides extra protection for electronics and helps strengthen the frame. Main Features:
  • Designed to carry heavy cameras and other payloads
  • Optimized for professional filming applications
  • 18″ carbon fiber props that provide reduced flex and vibration
  • Better stability even in strong winds
  • Dual 20,000 mAH batteries for a combined 40,000 mAH power source
Rating: 10/10  

Chroma Camera Drone with 4K CGO3

The Chroma Camera Drone offers everything needed for professional film and photography -- all in one package. This quadcopter boasts a 4K camera, a long lasting power source and a touch screen controller. It is also equipped with advanced safety technology and modes for assisting beginner pilots. The Chroma Camera Drone is fairly easy to fly with smooth and predictable response. Plus, its aerial photography mode makes it easy for pilots to capture great shots. It also uses GPS and GLONASS for exceptional positional accuracy and reliability. It also captures steady and distortion-free images in amazing 4K high definition. Safety features include: Follow Me and Tracking modes, as well as a Return Home function. These features enable safer landings and enhance the equipment’s security. In addition, the Chroma Camera Drone allows for adjustable flight boundaries for responsible flying. Main Features:
  • Flight ready drone equipped with a stabilized 4K CGO3 camera
  • ST-10+ Controller with a touch-screen display
  • Smart Mode feature for first-time pilots
  • Aerial Photography mode for great panning and tracking shots
  • Adjustable flight boundaries
  • Return home mode for safe landings at the start-off point
Rating: 9/10  

DJI Phantom 3 Professional

The Phantom 3 Professional is widely regarded as one of the best film and photography drones available today. The Phantom 3 has worry-free navigation -- even while it processes and completes complex calculations in real time -- to assist pilots during flight. It isequipped with GPS-assisted hover to help operators keeps track of the equipment and easily fly the UAV back home. The Phantom 3 also boasts an unmatched propulsion system for its class and a smart battery for increased power. Sensors calculate battery power in real time so that pilots always know how much flight time is left. In addition to the above features, the DJI Phantom 3 Professional also compiles automatic Flight Logs, including flight route, time and distance information, as well as cached versions of any shots or video taken during the flight. Main Features:
  • Ultra HD recording with a 4K camera
  • Lightning fast brushless motors for fast, agile, and responsive flight
  • Advanced autopilot for automatic take off, flight, and return at the push of a button
  • Automatic flight logs that save details of each flight for future reference
  • Three axis gimbal for improved stability, crisp images, and smooth footage
Rating: 9/10  

DJI Inspire 1 Pro/Raw

Helix Inspire 1 Pro Aerial Drone KitThe DJI Inspire 1 Pro/Raw is a professional filming platform that combines the best of DJI's industry leading UAV technology and world class imaging capabilities. The Inspire 1 Pro/Raw drones are the smallest and easiest to fly in their class. They come equipped with the Zenmuse X5 and X5R professional cinema-quality cameras. The DJI Inspire 1 Pro/Raw has all the features flyers have come to expect: one button take-off, stable flight, return home, 360° camera views, to name a few. Main Features:
  • The world's smallest and easiest to fly professional aerial filming platform
  • Cinema quality Zenmuse X5 and X5R cameras designed for aerial imaging
  • Remote camera focus
  • Comprehensive control of drone and camera at all times
  • New design propellers and motors for fast and agile flying
  • Intelligent flight modes include home lock, course lock, and points of interest
Rating: 9/10  

Q-Cop 450 Quadcopter

The Q-Cop 450 Quadcopter from Hitec is the company's first multirotor drone and is designed for high performance flying and image capture. Its aerodynamic design ensures greater flight stability. Its built-in high definition camera captures high resolution aerial photos and real-time videos. Q-Cop 450 features include ultra-efficient propellers and brushless motors, and flight aids such as an autopilot return function. Main Features:
  • Streamlined, ergonomic design for incredible flight stability and performance
  • Built-in high performance 90° vertical HD camera with shock isolation
  • GPS enabled directional control
  • Automatic return-to-home feature
  • 22-33 mph cruising speed and 20-25 minutes of flight time
  • 300m range for streaming video direct
Rating: 7/10  

Yuneec Typhoon Q500 4K

As a company, Yuneec has developed and manufactured RCs for over 15 years. The Typhoon Q500 4K brings that expertise together and, as such, is considered the company's flagship drone. The Typhoon Q500 has smooth and stable flying. Plus, its all-in-one controller gives the operator camera control and a first-person view of images. The Typhoon Q500 is capable of capturing ground videos and photos thanks to a hand-grip option, which is included. For new pilots, the Typhoon offers two autonomous modes: Follow Me which tethers the drone to its controller and Watch Me which keeps the pilot in the frame of view. The Typhoon Q500 4K's sturdy body and strong arms highlight its quality construction and make the UAV a complete professional film and photography package. Main Features:
  • Responsive controls and smart modes for easy flying
  • Strong, sturdy and durable construction
  • Personal Ground Station with built-in touchscreen
  • CGO3 4K 3-axis Gimbal Camera
  • Handgrip for capturing ground footage
  • Watch Me mode that continuously keeps pilot in focus
  • FAA compliant No Fly Zone feature
Rating: 7/10   Film and photography professionals, as well as enthusiasts, have a growing number of drones from which to choose.  As for now, the drones outlined are a great place to start. They provide a nice combination of high quality cameras, smooth and stable flying, and ease of use.
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13Jun

Archeologist’s Latest Tool: Drones

archaeologyThe use of Unmanned Aerial Vehicles (UAVs) and all their forms – drones, multi-rotors, and quad-copters – has exploded in recent years. This explosive growth, coupled with increased affordability, has transformed the way industries approach business. The film and photography industry are such an example; drone technology now provides access to views that were previously the domain of helicopters and fixed wings. The advantages of drone-based imaging are many, and unmanned aircraft are fast becoming an indispensable tool to various industry professionals, including archaeologists. Drones offer archaeologists the ability to survey existing and future excavation sites in detail as well as provide a different perspective to workers on the ground.

Transforming the Science of Archeology 

By using UAVs for surveying, archaeologists capture a wider view of an entire site and can also identify possible areas of interest. While drone use is especially helpful before the start of an excavation, some professionals in the field are now using them during digs. One reason drones have become a crucial piece of equipment in archeology is their ability to provide low altitude shots, close ups, wide angles, and oblique shots. Archaeologists have long employed balloons and kites fitted with cameras to get aerial shots of the site. But now drones, such as DJI’s Phantom and the Yuneec Typhoon, capture these same shots extremely well and deploy quickly. Other benefits of drone use in archeology include the ability to fly in most weather conditions, something that is not always possible with balloons or kites. Drones are also capable of reaching less accessible areas such as wooded areas or the interior of caves. Plus, these vehicles can capture/record detailed two and three dimensional data of large areas that would otherwise require a lot of time and effort when done by people on the ground. Aside from the limitations caused by battery life, drone system operating costs are negligible once they are up and running. In addition to flying stability, drones appeal to archeologists because of their relative affordability. Additionally, archeologists also cite the fact that the machines are lightweight and easy to transport. Plus, their size and discrete nature is perfectly suited for sites that receive visitors.

The Future of Drone Use in Archeology

The majority of archaeologists employing multi-rotors in the field appreciate that they are relatively easy to fly and operate and come ready to use out of the box. This ease of use means that many archeologists are fast becoming comfortable piloting these crafts – taking off, landing, and taking pictures with ease. Other archaeologists prefer to hire qualified drone pilots. The scope and difficulty of each particular project usually determines if a professional operator is needed. In terms of future trends, most industries like archeology will continue to benefit from advances in drone technology that help extend flight durations. Continued advances in automation will also be a significant factor as well as improvements to imaging technology. The ability to use imaging data to recreate archeology sites as 3D models or digital terrain is an indispensable part of any archeologists work and yet more is on the way. For example, drone-mounted systems such as ground penetration radar would be a major advance not only for surveying known locations but for finding new and, as yet, undiscovered sites of historical importance.

The future is bright

While most archeologists and academic researchers using drones are already familiar with flying the UAV's, there is still a place for commercial drone services to thrive within this industry. It is clear that drone use has already transformed archeology work, and future trends point to the science's increased reliance on unmanned aerial vehicles.
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06Jun

UAVs May Help Extend Tornado Warning Times

tornado_ussThe growth of UAV applications in recent years has led to a surge of innovation in Industry and Scientific Research. Weather Forecasting and accurate storm path prediction is one such area that continues to benefit from the unique capabilities UAVs offer – including the possibility of lengthening tornado warning times up to 3-fold. Currently, Meteorologists employ Doppler radar to help predict where a Tornado will hit to within 20 minutes. But Doppler radars has its limitations; it cannot measure air pressure directly and it is also designed to monitor higher altitudes. Acquiring detailed air pressure measurements from ground level to 1000 feet, known as the “sweet spot”, has been problematic. UAV technology may hold the key to obtaining detailed and localized measurements, thus increasing accuracy.

Cloud-Map project takes shape

Jamey Jacob, a professor of Mechanical and Aerospace Engineering at Oklahoma State University, believes UAV technology may be the key to obtaining detailed and localized measurements, thereby increasing accuracy. Jacob recently outlined the fundamentals of the project, Cloud-Map, at AUVSI's XPONENTIAL 2016 in New Orleans, Louisiana. Cloud-Map is a joint project between four Midwestern universities: Oklahoma State University, University of Nebraska-Lincoln, University of Oklahoma, and University of Kentucky. Together with the National Science Foundation they aim to triple the warning time for tornados and to improve weather predictions nationwide in general through the use of UAVs.

Droning in on the “sweet spot”

The project envisions a network of drones deployed directly from weather stations. Typically, most weather stations have a tower that reaches 30 feet into the air. Cloud-Map aims to extend this reach up to one thousand feet through the use of drones to collect data up to the altitude where Doppler radar currently covers. This overlap in data collection should help Meteorologists get a better picture of air pressure movements nationwide and predict the path of tornadoes, hurricanes, and other extreme weather events with more accuracy. This fleet of drones will be designed to operate up to 5,000 feet but will hone in on that all-important “sweet spot” of weather forecasting – 1000 feet above the ground – and will capture temperature, pressure and humidity data. Currently, weather balloons are used to measure air pressure but once released they rise roughly 1,000 feet in a minute. So, while they do capture air pressure at low altitudes, they do so only for about 60 seconds before continuing their trajectory up into the stratosphere.

Designing for the Unknown

There are a lot of unknowns with the proposed deployment of UAV technology into harsh and extreme weather environments. Currently the Cloud-Map team is designing the vehicle to withstand winds up to 120 mph – essentially a Cat-3 hurricane – and still maintain critical data transmission from inside extreme weather events such as a tornado. Jacob announced that Cloud-Map's prototypes have been successfully stress-tested in lab conditions that prove they can withstand the extreme pressures from turbulent wind speeds without shattering. One drone reportedly sent back measurements from inside a storm that had winds gusting up to 30 mph. But further field tests are still needed to determine if a UAV can safely operate in much more violent storms while maintaining stable flight control and the transmission of usable data. The Cloud-Map team is also considering the use of smaller multi-rotor drones which some believe may handle such extreme conditions better than larger UAVs.

Extending warning times

The advent of a UAV capable of withstanding tornado-strength winds would give scientists a new opportunity to learn more about this phenomena from a safe remote location. And with better understanding could come extended warning times and increased opportunity for individuals to seek cover from these deadly weather events. In addition to the low-altitude drones, Cloud-Map is also developing a top-down weather measurement UAV called MARIA. The plan is to create a fixed-wing platform that would fly above a storm still in its early stages of development and drop sensor packets from above directly into the storm’s path. More testing of the next iteration of UAV prototypes will be conducted by the Cloud-Map team in June.
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01Jun

Unmanned Systems Source Unveils New Look for Website

June 1, 2016 – Tucson, AZ – The website development team at Unmanned Systems Source unveiled a new look for the site which went live at midnight MST. The updated look is just the beginning of the changes planned for Unmanned Systems Source’s online warehouse.

“Our team unveiled the first phase of changes which included updating the feel and look of our home and product pages, simplifying navigation and optimizing the mobile-user experience,” said Jon Bottarini, Lead Web Project Manager for Unmanned Systems Source.

The next phase of changes will focus on the end-user's ability to find the exact part, product for their application in the most efficient way possible.

“Updates will continue to filter through the website over the next few months,” said Bottarini “As a team, we are working hard to create a better end-user experience especially as it relates to a customer’s ability to find and compare the products they need quickly and efficiently.”

The team is currently developing a robust search function which will allow visitors to narrow down on the exact product they need for their application.

“Unmanned Systems Source’s catalog now includes thousands of items so it is really important that our visitors can access the products they need without a hassle. And with this in mind, we hope to unveil our new search features in the following months,” said Bottarini.

Visit Unmanned Systems Source today to shop solutions for your latest project.

About Unmanned Systems Source

Headquartered in Tucson, Arizona, Unmanned Systems Source is an online, e-commerce warehouse with the fastest growing selection of unmanned components, parts and remote sensing systems available today. It is a single source of supply and information and serves commercial, governmental and public sectors.

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19May

Hacker Motors’ product line now at Unmanned Systems Source

Hacker Motors’ product line now available at Unmanned Systems SourceMay 19, 2016 – Unmanned Systems Source is pleased to announce our latest distribution partner, Hacker Motors. Hacker Motor’s specializes in high quality, brushless motors and controllers for commercial and industrial purposes. Hacker products include the complete line of brushless motors and controllers ranging from 25 watts to 15,000 watts for RC, UAV and industrial applications. Hacker also offers in-runners and out-runners to direct drive and geared, Hacker likely has a quality lightweight motor to fit your needs. Unmanned Systems Source also offers Hacker’s DITEX telemetry servos which incorporate the latest in digital position encoders and a powerful 32-bit processor for a truly digital servo. DITEX servos also offer programmability, via a USB adapter and the manager software, and delivers numerous data points to compatible telemetry systems. "I think developers and integrators will be really pleased with the power, programmability and price-point that the DITEX provides," said Drew Osbrink, Solutions Engineer for Unmanned Systems Source. Visit www.unmannedsystemssource.com to shop Hacker Motor’s product line today.
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10May

The Future of UAV’s – Utility Companies See Potential of UAV Technologies

The Future of UAV's - Utility Companies See Potential of UAV TechnologiesUAV's and the Unlimited Potential for Utility Inspection

May 10, 2016 - In the past few years we have witnessed a boom in the proliferation on the Civilian market for Unmanned Aerial Vehicles (UAV's) or drones for commercial purposes. Power, process and utility companies certainly have need of such useful tools. General points of conversation about deploying these assets usually revolve around concerns about FAA Regulations and practical questions about Return on Investment (ROI). Of additional interest to the Utility companies is the technical limitations of such remotely operated vehicles including ceiling limits, battery life, lift capabilities, and reliability. But for the most part, utility organizations are not concerned with these particular issues. A much more pressing concern for such organizations has been how to work through the logistics of interpretation, collaboration and scalability.

Interpretation

Compliance with FAA regulations and safety requirements are not the issue as utility companies are already accustomed to operating within the legal constraints imposed by other State and Federal Authorities. The crux of the problem comes from the interpretation of such rulings. For example, if an exclusion barrier needs to be installed 500 feet from the area of the UAV's flight path to ensure any person not involved with the operation is kept out of danger, then what does that barrier need to consist of?

Collaboration

Utility companies do not need to compete with one another which allows them greater scope to collaborate on common issues. However, regional and logistical differences can make efficient collaboration more difficult in practice.

Scalability

The sheer scale of the area to be covered also poses another issue with some utility companies operating over a massive area and employing  numerous departments and sub-departments. In such instances the utilization of drones can be a double-edged sword when measuring costs versus potential savings across the entire infrastructure.

Looking to the Future

In spite of the many challenges that are inherent with utilizing UAV's, certain industry professionals see the potential for such innovation within their own organization's structures. Dave Truch, Technology Director of Digital Innovation at BP, believes that UAV's have changed the paradigm:
Drones are the culmination of data collection technology in a lot of different ways. Being able to take advantage of the computational and simulation capabilities that are now available has been incredible, and we can use drones to handle emergency situations in a way that wasn't possible just a few years ago.
This change enables utility companies the opportunity to look not just at how they are doing things like inspecting installations and power lines but also how they want to accomplish these tasls in the future. The democratization of UAV technology now allows utility companies to customize the function of a particular drone or fleet of drones to best suit their own particular needs. This serves both to decrease outgoing costs and to make the operation of such units considerably safer to company employees.

Understanding the Scale, Scope and Setup of Utility Operations

Many utility companies face the unique challenge of monitoring and repairing thousands of miles of infrastructure. The costs associated with installing a new tool or process throughout an entire organization can be be enormous. But this issue of scale can work to the advantage of a Utility company once the set-up phase is complete. Jonathan Evans is the CEO of Skyward, a company he founded to help clients launch their own UAV programs, manage operations, and safely integrate their fleet of drones within the national airspace. Some of these organizations are publicly traded utility companies who are by their nature risk averse. The potential negative publicity from even a single safety breach or the heavily publicized lawsuits that might follow could significantly damage shareholder confidence and potential future investment into the business. But these organizations also recognize an opportunity when it presents itself. As Jonathan explains:
Utility companies have massive infrastructures, which means if they can use a tool to increase efficiency or reduce costs, moving the needle just a little bit can have a big economic impact.
He elaborates his point further by describing a typical Utility company problem:
When you're looking at inspections of power lines, gas lines, and especially cell phone towers, utilizing a tool like a drone can mean a serious investment, but it can have a tremendous benefit.

Lower-cost Alternative to Helicopter or Light Aircraft Surveys

One niche area where drones are making strong headway in replacing traditional technologies is that of Aerial Surveying that previously could only be conducted by hiring helicopters or light aircraft. When they initially appeared on the scene, the price point of operating a drone was almost comparable to that of a helicopter or light aircraft performing a similar role. Tasks such as monitoring areas of infrastructure or observing dangerous situations such as downed power lines were previously only possible with manned aircraft and the ensuing costs involved. But with costs coming down almost exponentially in recent years, UAV technology now provides an extremely attractive alternative both in terms of price and flexibility. Frank Scumacci is the Director of Strategic Initiatives at ComEd and he is eager to see how drones could change things at his company. He explains his approach to the new technology:
In terms of what we're doing from a utility perspective with drones, we've been working hand in hand with other industry leaders. The nice thing about our industry is that we're able to share information because we don't compete. It's not a retail market. The work that we and another handful of companies are doing in this market is creating the groundwork for operations across the country.

Safer and More Efficient Operations

Utility operations by their nature inherently involve risk. Tasks such as setting up power lines, scouting for oil in treacherous conditions, upgrading existing cell phone towers are all hazardous activities and have the potential to lead to dangerous situations. This danger is even more pronounced for the emergency response personnel sent in when something does go wrong. UAV's offer the possibility to remove humans from potentially harmful situations. As Dave Truch explains:
In our case, the majority of our excitement is around the ability to do remote sensing without humans. A lot of our activity is based on putting humans in unsafe environments to do basic data collection or do visual observation and monitoring of our activities. So we've often had to put humans in these very remote, far away, harsh arenas where it's been a challenge to get anything other than spot inspections. With these tools, we can take people completely out of those dangerous situations.
But UAV's don't just simply remove people from a potentially unsafe working environment. They also allow real-time information to be gathered and sent back to the decision maker without putting themselves in harm's way either strapped to the side of a tower or hovering high up in a helicopter. This naturally reduces the increased stress levels that are triggered when faced with the rational fear of serious injury or death to one's self, thereby allowing the knowledge expert to take a more measured approach to the situation and to figure out the best solution in a faster time. The key to UAV implementation in such scenarios according to Scumacci is to retain the previous monitoring and response procedures that have always been used but to manage them in a more efficient and cost-effective manner that the new technology affords.

Keeping People Involved

There has been an untenable degree of hype about the potential benefits and uses of UAV and drone technology in recent years. The promises of many manufacturers in regards to the capabilities their fleet of drones can bring to an organization are often fanciful at best with predictions of UAV's replacing a wide variety of previously manned operations. This in itself is a worrying trend but none of the Utility professionals actively engaged in incorporating drones into their current operations are focused on replacing workers currently involved in such roles. As Dave Truch concludes:
Drones are allowing us to move from a discrete, time-based activity set to a continuous, condition-based monitoring and surveillance. With a fleet of drones you can have continuous surveillance coverage over every spot at all times. You can see everything at once, which is great, but you still need a person responding and reacting to what's being shown.
It would seem that it is the tasks and responsibilities of the the human worker in the process that will change and evolve. Certain tasks currently being done by humans will be more efficiently accomplished by automation when possible, but this will free up that person to do something different allowing for an overall increase in efficiency for the organization. Jonathan Evans sums up this likely scenario:
No matter what we're doing with a drone, we're doing it to support people. Ultimately, UAVs are tools that augment our processes to help us succeed. But the person still has to be there to judge what is or isn't happening. And that requires robust management platforms, just like we expect with other tools and systems that we use.
Moving beyond the practice of putting UAV technology in the hands of existing employees, successful drone integration will really be reached when those individuals are allowed and encouraged to develop and create procedures that will work for them and their organization. UAVs are giving Utility companies new and far reaching capabilities around the setup, monitoring, and fixing of their infrastructures, but people are and will continue to be involved at every step of that process.
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