Friday, December 27, 2019

Utah drone searchers may have solved missing hiker’s disappearance at California national park

SALT LAKE CITY — A Utah-based nonprofit group that uses drones to seek missing people may have solved the mystery of what happened to a hiker who disappeared at Joshua Tree National Park more than a year ago.
Park officials announced on Saturday they had recovered human remains in the 49 Palms Oasis area of the park the previous day. That came after Western States Aerial Search, which is based in Salt Lake City, alerted them that images taken at the park indicated possible human remains. Continue

Do you have a story of drones coming to the rescue or assisting your agency? Please share in the comments.

Wednesday, December 11, 2019

Public Safety and Government - Federal Aviation Administration (FAA)

Public Safety Agencies, such as Law Enforcement, are in the best position to deter, detect, and investigate unauthorized or unsafe UAS operations. While drones can serve as a useful tool, these agencies also have an important role in protecting the public from unsafe and unauthorized drone operations. This information will help law enforcement and public safety professionals understand safe drone operations and their authority.  Read more

Tuesday, December 3, 2019

FEMA Grant Requirements System, Small Unmanned Aircraft - 03OE-07-SUAS

Are you interested in applying for a Small UAS grant from FEMA for your Public Safety Agency, below are the complete instructions and requirement.


03OE-07-SUAS - System, Small Unmanned Aircraft

Description: 
A small unmanned aircraft system (sUAS) comprises an unmanned aircraft and the equipment necessary for the safe and efficient operation of that aircraft (see definitions below).  The system generally includes a fixed or rotary-wing (tethered or non-tethered) aircraft and a Ground Control Station (GCS).  sUAS must be operated in accordance with Federal Aviation Administration (FAA) regulations and statutory requirements.  Comprehensive sUAS guidance is available on the FAA’s website at https://www.faa.gov/uas/

Definitions (see 44 U.S.C. § 44801; 49 U.S.C. § 40101 note; 14 C.F.R. § 107.3 for these and other relevant definitions): 
  • Small unmanned aircraft means an unmanned aircraft weighing less than 55 pounds on takeoff, including everything that is on board or otherwise attached to the aircraft.
  • Small unmanned aircraft system (small UAS) means a small unmanned aircraft and its associated elements (including communication links and the components that control the small unmanned aircraft) that are required for the safe and efficient operation of the small unmanned aircraft in the national airspace system.
  • Unmanned aircraft means an aircraft operated without the possibility of direct human intervention from within or on the aircraft.
See item 03OE-07-UPGD for accessories and upgrades.

Note: Previous item 03OE-07-RPVS has been replaced by 03OE-07-ROVL (for land vehicles), 03OE-07-UMVS (for maritime systems), and 03OE-07-SUAS (for aircraft systems).

Grant Notes: 
Unmanned aircraft systems (UAS)—also known as unmanned aerial vehicles (UAV) or drones—are used across our Nation to support emergency incident situational awareness, to monitor and assess critical infrastructure, to provide disaster relief by transporting emergency medical supplies to remote locations, and to aid efforts to secure our borders.  However, UAS can also be used for malicious schemes by terrorists, criminal organizations (including transnational organizations), and lone actors with specific objectives.  Additional information on this subject is available on the Department of Homeland Security, Cyber and Infrastructure Security Agency (CISA) website at:  https://www.dhs.gov/uas-law-enforcement and https://www.dhs.gov/publication/uas-fact-sheets

This category allows for the purchase of special-purpose aviation equipment where: (a) such equipment will be utilized primarily for homeland security objectives and permissible program activities; and (b) the costs for operation and maintenance of such equipment will be paid from non-grant funds.  Allowable costs include the purchase of customary and specialized equipment necessary for Chemical, Biological, Radiological, Nuclear, and Explosive materials (CBRNE) prevention, response, and/or recovery.  Recipients must obtain a waiver from FEMA by consulting with their Program Analyst and providing a detailed justification for obligating funds in this category and receiving approval to obligate funds.  The detailed justification must:

1. Provide a complete description/specification(s) of the UAS to include, but not limited to, make, model, operating weight, and manufacturer's country of origin;

2. Include a line-item breakdown of cost(s) contained in the request (e.g., aircraft, cameras, sensors, monitors, accessories, etc.);

3. Explain the method used to determine cost reasonableness;

4. Provide the number of neighboring jurisdicsions and/or response agencies with similar shareable capabilities;

5. Justify the need for the UAS and how the requested platform best meets that need as compared to other options;

6. Explain how the requested UAS fits into the State/Urban Area's integrated operation plans;

7. Explain the types of terrorism prevention and incident response equipment with which the requested UAS will be outfitted;

8. Describe how this UAS will be used operationally and which response assets will be deployed using the requested aircraft;

9. Describe how this UAS will be utilized on a regular, non-emergency basis; and

10. Certify that you reviewed and understand the DHS Cybersecurity and Infrastructure Security Agency (CISA), Unmanned Aircraft Systems (UAS) Fact Sheets at https://www.dhs.gov/publication/uas-fact-sheets and DHS CISA, Chinese Manufactured Unmanned Aircraft Systems Industry Alert (updated and located on the Homeland Security Information Network (HSIN)).

Additionally, pursuant to the February 20, 2015, Presidential Memorandum titled Promoting Economic Competitiveness While Safeguarding Privacy, Civil Rights, and Civil Liberties, in Domestic Use of Unmanned Aircraft Systems, (https://obamawhitehouse.archives.gov/the-press-office/2015/02/15/presidential-memorandum-promoting-economic-competitiveness-while-safegua) recipients and subrecipients of Federal funding for the purpose or use of UAS of their own operations are required to have in place policies and procedures to safeguard individuals’ privacy, civil rights, and civil liberties prior to expending such funds for the use of UAS.  Policies and procedures must conform to the Presidential Memorandum and be included with the waiver request submission.  This requirement applies to the jurisdiction that will purchase, take title to, or otherwise use the UAS equipment.

Licensing, registration fees, insurance, and all ongoing operational expenses are the responsibility of the recipient or the local units of government and are not allowable under this grant. 

FEMA Related Grant Programs: 
  • State Homeland Security Program (SHSP)
  • Urban Areas Security Initiative Program (UASI)
  • Tribal Homeland Security Grant Program (THSGP)
  • Port Security Grant Program (PSGP)
  • Transit Security Grant Program (TSGP)
  • Emergency Management Performance Grant Program (EMPG)
  • Operation Stonegarden Program (OPSG)
Standardized Equipment List
For more information on operating considerations, mandatory and applicable standards, and training requirements, visit the Interagency Board’s Standardized Equipment List site. You may also access 03OE-07-SUAS directly hereNote: some equipment items on the Authorized Equipment List may not be listed on the Standardized Equipment List.

System Assessment and Validation for Emergency Responders
For market survey reports, visit the System Assessment and Validation for Emergency Responders site. To search for an equipment item, use the same Authorized Equipment List item number. Note: some equipment items may not have market survey reports.

Eye in the sky – the role of drones in oil spill management

Offshore Technology December 2, 2019
Having eyes on the ground, quickly, is essential to any effective disaster management plan. Having them in the air, however, looks set the be the next big thing in the offshore oil and gas industry. We consider the critical role drones can play in the minutes and hours after an oil spill.

An oil spill is a disaster – environmentally, commercially and in PR terms, not to mention the significant danger they can put offshore crew in. BP’s Deepwater Horizon in the Mexican Gulf in 2010, believed to be the worst ever recorded, spilt 210 million gallons of oil into the region over a period of several months. In more recent months, a spill of crude oil off the coast of Brazil has impacted thousands of miles of the country’s north-eastern coastline.

drone, oil, spill, response, uas, uav, offshore, disaster,

UAVs and what they might mean for the future of spill management
The best way to tackle such events is to respond quickly and effectively. However, doing so is a major challenge for oil companies and other responders. Can the latest technologies help?

Terra Drone believes it has proven they can. One of its subsidiaries, Terra Drone Angola, says it has successfully demonstrated how drones can be used as a surveillance and reconnaissance tool for oil spill incidents, speeding up the decision-making process in the event of a spill. During the oil spill response exercise conducted by a major oil and gas producer, an oil spill was simulated off the coast of West Africa to assess how drones or unmanned aerial vehicles (UAVs) can be used to quickly collect critical information to relay to responders.

“Environmentally friendly dye was released at the surface of the sea a few hundred meters from the nearest floating production storage and offloading (FPSO) platform using a surfer,” explains Terra Drone Angola’s operations director, Siva Keresnasami. The dye simulated an offshore spill with the aim of demonstrating how UAVs can support response measures.

“We wanted to promote the adoption of UAV technology as a tool to be used to enable effective management and monitoring of actual oil spill incidents,” Keresnasami continued.

An emergency response vessel was positioned a few hundred metres from the simulated spill, onboard was a trained team of UAV pilots operating an octocopter fitted with an RGB camera. Keresnasami says they anticipated one of the biggest challenges, the sun’s glare from the surface of the water, fitting the camera with a polarizing filter to reduce the effect.

What do UAVs have to offer in oil spill management?
The selection of UAV was critically important to the success of the project. The small and often crowded deck of a response vessel renders fixed wing drones unsuitable for this type of mission. Therefore, Vertical Take-Off and Landing (VTOL) UAVs are ideal for this type of scenario. Keresnasami adds UAVs equipped with Extended Visual Line of Sight (EVLOS) or Beyond Visual Line of Sight (BVLOS) capabilities are best suited for this type of work.

EVLOS refers to an unmanned vehicle which can be operated at distance, extending beyond the line of sight of the pilot with so-called spotters relaying its flight information to the controller. BVLOS, an increasingly popular capability, enables flights to go even further. They are controlled by a pilot who is informed about their position, altitude, speed and direction by onboard instruments.

“The plan was to use software to track the flight path of the drone in real-time, while the UAV was used to fly the perimeter of the simulated spill area,” Keresnasami explains.

However, it’s not just the physical structure and onboard capability of a drone that is important: time in the air is critical too. Keresnasami says: “The longer the UAV can stay in the air, the better suited it will be for an oil spill response job. Oil spills can be spread over a large surface area and UAVs used in this application need to have the capacity to be in the air for more than an hour at least.”

During flight the UAV collects data, equipping responders with everything they need to make the right decisions. It can take photos, provide and record live video streams – helpful for post incident analysis – take thermal images, and provide the GPS coordinates necessary to target a response.

“Real-time transmission of videos and GPS coordinates can be incredibly helpful to identify the exact location of a spill so that other vessels with spill containment equipment – such as booms and dispersants – can be directed to the incident location,” Keresnasami says.

During the exercise, six flights were undertaken with the aim of locating and then sizing the spill. In the event of a real spill, this data would have been used to determine the most appropriate response. However, Keresnasami says there is much more UAVs can do: “Drones can also be used to assess the efficacy of spill containment efforts to see how well booms are containing the spill, or how well the dispersants are working to break down the oil sheen.”

The future of UAVs in the oil and gas industry
The use of drones in the oil and gas industry is not new, they have been used to conduct inspections and surveys for some time. However, as technology advances, their application will continue to grow. Keresnasami says he expects to see increased automation, increased onboard processing capabilities, greater integration of artificial intelligence and new payloads (sensors). He also believes there will be less need for human intervention as they become “smarter machines”.

In the simulated scenario, and others like it, just two operators are needed to provide up to 10 hours of flight a day, making the proposition even more attractive as it reduces logistical requirements and therefore costs.

“There is a small window of time where oil slicks and spills can be effectively dispersed,” he concludes. “They can take to the sky quickly to identify the location of the spill, saving a great amount of time.”

The oil and gas exploration community is always looking to reduce risk, but in the event of a spill, having an eye in the sky quickly is one way of managing a response and reducing the impact on the surrounding environment. The success of this simulation might very well herald a new age in emergency response.

Wednesday, November 20, 2019

FLIR Introduces StormCaster Payload Family for its SkyRaider and SkyRanger Drones

FLIR, drone, uas, uav, sensor, stormcaster, public safety,

Next-Generation Line of UAS Payloads Delivers High-Performance, Multi-Sensor Capabilities for ISR, Event Overwatch, Search and Rescue, and Force Protection Missions

ARLINGTON, Va., November 19, 2019 ― FLIR Systems, Inc. (NASDAQ: FLIR) announced today the FLIR StormCaster™ family of Unmanned Aerial System (UAS) payloads for its SkyRanger® R70 and R80D SkyRaider® airframes. The new line launches with two multi-sensor products –StormCaster-T, which delivers continuous zoom and longwave infrared (LWIR) imaging; and StormCaster-L, which provides ultra-low-light imaging, tracking, and mapping.

StormCaster represents FLIR Systems’ next generation payload family for the company’s own UAS airframes gained through the acquisition of Aeryon Labs in February 2019. The new line reflects a leap forward in scalable performance, offering a 7X improvement in line-of-sight stabilization, enhanced range of motion, and greater geolocation accuracy – all in a rugged package. 
Interoperability across the StormCaster family enables users to quickly and easily change modules on the FLIR SkyRanger and SkyRaider UAS systems. The StormCaster line will leverage continuing improvements in aircraft performance, providing small units with the organic capability to conduct increasingly demanding missions such as intelligence, surveillance, and reconnaissance (ISR).

“StormCaster-L and –T are just the beginning of this new line of advanced, high-performance payloads for our small, tactical UAS platforms,” said David Ray, president of the Government and Defense Business Unit at FLIR. “For mission needs ranging from force protection and border security to clandestine operations, FLIR StormCaster will provide heightened situational awareness, bolstered by our aircraft’s onboard, real-time artificial intelligence.

“We will develop more multi-sensor payloads through 2020 that deliver on our promise to offer capabilities at the individual operator level that previously required larger, more expensive UAS,” Ray added.

The StormCaster-T features a FLIR Boson thermal camera to support detection, recognition, identification, and target acquisition day or night, with maximum range and time-on-station. Its continuous zoom lens, with a 75-millimeter maximum focal length, permits long distance ISR while providing clear, actionable imagery. The StormCaster-L ultra-low-light imaging camera offers superior ISR and mapping performance during twilight and nighttime operations. Key features include 4K recorded video and full-color night vision in low-light conditions.

Developed for United States (U.S.) defense and federal agencies, the R80D SkyRaider delivers a range of versatile Group 2 and 3 payload capabilities with the agility and single-operator deployment footprint of a proven Group 1 Vertical Take-Off and Landing (VTOL) aircraft. SkyRaider can carry and deliver multiple payloads up to 4.4 pounds and features an open architecture, plus one of the most powerful embedded AI computing devices available on a sUAS. Similar in capabilities to the R80D but for non-U.S. military customers, the SkyRanger R70 was designed for the most demanding UAS operators within the global defense, security, and public safety markets.

The new StormCaster payloads are available for purchase today. For more on FLIR StormCaster offerings, visit www.flir.com/StormCaster-L and www.flir.com/StormCaster-T.

Wednesday, November 6, 2019

Lack of Training, Certification Standards Ranked Top Challenge Facing Public Safety Drone Operations

DRONERESPONDERS November 5, 2019
DRONERESPONDERS names key issues facing first responders while exploring commercial UAS vendor landscape
drone, uas, uav, public safety,

MIAMI, FL – The lack of standardized training and certification is the top issue hampering public safety drone operations, according to DRONERESPONDERS – the world’s fastest growing non-profit organization supporting public safety UAS. The determination stems from a double-validated research initiative based on survey data, as well as live focus group feedback conducted during last week’s U.S. Public Safety UAS Summit held at Commercial UAV Expo Americas in Las Vegas.

Released on Monday, the new DRONERESPONDERS report Commercial Vendors and the Public Safety UAS Sector highlights the top five most important issues affecting the public safety drone sector as: airspace authorizations and COA’s; beyond visual line of sight (BVLOS) operations, training; standards, procedures and certifications; and program budgeting. These findings were based on the DRONERESPONDERS Public Safety UAS Survey conducted between August 25 and September 16, 2019.

DRONERESPONDERS then conducted focus group testing with attendees of the U.S. Public Safety UAS Summit to additionally validate the research findings. These results pointed to the lack of UAS training and certification standards as being the most pressing issue facing first responders operating drones. Rounding out the top five were: tactical BVLOS waivers; public outreach and education of drone operations; budgeting and grant funding; and data management.

“Up until now there has been widespread speculation that the lack of standards surrounding drone training and operating certification could be impacting the progression of public safety UAS programs,” says Chief Charles Werner (ret.), Director of DRONERESPONDERS. “We now have double-validated research that proves that hypothesis.”

Werner says that without formalized standards, the UAS training and certification landscape is like a “patchwork quilt of home-grown training solutions” which threatens the ability of public safety agencies to build consistent operating practices between jurisdictions.

Gene Robinson, a Texas-based drone search and rescue subject matter expert, agrees.

“The end result is that you might have drone teams from two separate agencies, trained in two entirely different protocols, showing up and trying to operate together at an incident scene,” claims Robinson. “Without common standards, flight operations can become extremely difficult while threatening to create a potentially unproductive and unsafe environment.”

Other key findings from the Commercial Vendors and the Public Safety UAS Sector report include:

1.       Long flight-time duration, visual zoom, and thermal/infrared capabilities are the top three desired features by public safety UAS operators.

2.       Search and rescue (SAR), situational awareness/live streaming, and intelligence, surveillance, and reconnaissance (ISR) are the top three UAS missions ranked in order of importance to first responders operating drones.
3.       The sweet-spot for manufactures to price a small UAS with combined visual and thermal/infrared remote sensing capabilities is between $2,000 and $5,000 USD.

“The DRONERESPONDERS public safety UAS summit really illustrated how far law enforcement, fire service, and other first responders have come in adopting unmanned aerial systems for a wide variety of missions,” said Robinson. “DRONERESPONDERS has set a new standard on what a public safety drone conference should be.”

To download a complimentary copy of the DRONERESPONDERS Commercial Vendors and the Public Safety UAS Sector report, visit: http://research.droneresponders.org

About DRONERESPONDERS Public Safety Alliance
DRONERESPONDERS is the world’s fastest growing non-profit program supporting public safety UAS. The DRONERESPONDERS mission is to facilitate preparedness, response and resilience using unmanned aircraft systems and related technologies operated by public safety, emergency management, and non-governmental volunteer organizations around the world. The DRONERESPONDERS Public Safety Alliance is a 501(c)3 non-profit operating program of AIRT, Inc. For more information on DRONERESPONDERS, please visit: http://droneresponders.org


Monday, October 28, 2019

Drone Cuts Response Time in Boating Incident - Surf Life Saving NSW



Surf Life Saving Far South Coast Duty Officer Anthony Bellette was driving past Corrigan’s Beach on Friday 25 October, when he spotted a boat that looked like it was having engine problems.

“The boat was very close to the rocks at Snapper Island. We have a UAV (drone) in the Duty Officer car so I pulled over and launched it to get a better look,” said Anthony.

As the UAV approached the vessel, Anthony could see the v-sheet being displayed off the side of the boat indicating they were in need of assistance. He immediately called SurfCom who contacted Marine Rescue and tasked the Batemans Bay SLSC callout team to launch their IRB (Inflatable Rescue Boat).

Anthony kept the UAV, part of the Westpac Lifesaver Rescue Drone program, in the air to monitor the two crew aboard the disabled boat.

In the meantime, a passing vessel stopped to assist and was able to tow the boat back to the Batemans Bay boat ramp at Hanging Rock. There were no injuries to the two onboard.

Anthony said the addition of UAVs to the Duty Officer vehicles has been helpful on a number of occasions,. “The UAVs are the best way for us to respond quickly to incidents that might take up to 15 minutes to launch powercraft . Today was a great example of how efficiently we can identify and communicate during incidents to get the most appropriate assets deployed.”

This incident was also the first time the new Batemans Bay Support Operations storage facility was utilised. Thanks to the generosity of local businesses, a container has been positioned centrally at the Batemans Bay Marina which houses rapid response rescue equipment including an IRB, allowing
callout teams to respond more quickly to incidents north of town and around the river.

“The IRB used today was taken from this new facility,” said Anthony. “It’s great for quick access and will now cut up to 30 minutes from response times to after hours emergency situations,” said Anthony.

The Westpac Lifesaver Rescue Drone program operates at 25 locations and has trained 300 pilots across NSW. It is the first comprehensive national approach to surf rescue using innovative drone technology. The drones have given surf lifesavers the ability to have eyes in the sky to improve beach
surveillance, increase rescue response time, and decrease risks to members.

Thursday, October 10, 2019

CAP Debuts sUAS as Search and Rescue Tool in S. Dakota

CAP Debuts sUAS as Search and Rescue Tool in S. Dakota: Civil Air Patrol’s first two searches using small Unmanned Aerial Systems (sUAS) are in the books after a pair of South Dakota Wing missions.

The wing began deploying drones with a missing-person search in Custer State Park in Custer County, on the state’s western border, after a 22-year-old South Dakota School of Mines and Technology was las...

Sunday, September 1, 2019

Drones Used To Rescue Stranded Hikers Near Breakneck Ridge

The Putnam County Sheriff’s Office turned to technology to help rescue two hikers who found themselves in a precarious position near Breakneck Ridge in Philipstown.
Two hikers called the Sheriff’s Office on Sunday, June 9, after becoming stranded on a steep precipice approximately a half mile south from Breakneck Ridge, Sheriff Robert Langley Jr. said. Continue Reading

Saturday, August 31, 2019

Texas Gulf Coast Public Safety UAS Response Team Hold Training Event.

Texas Gulf Coast Regional Public Safety Unmanned Response Team held a multi-scenario training event utilizing drones for coastal Search and Rescue operations. 

SUAS News 30 August 2019
On August 27th the Texas Gulf Coast Regional Public Safety Unmanned Response Team (Texas Drone Force) held a multi-scenario training event utilizing drones for coastal Search and Rescue operations.  Over 20 agencies from across the region participated in the event and had a guest appearance by Texas State Senator Larry Taylor.  The training started with a classroom session at the Galveston Beach Patrol Headquarters where the United States Coast Guard UAS team discussed lessons learned and their workflow for Search and Rescue operations.  Following the classroom session, the participants then started the land-based Search and Rescue scenarios.  

The participants were tasked to search a coastal roadway for six missing children.  The pilot would then use their drone to search the area for six lids that were hidden in the area and report the letter designation that was attached to the lid for verification.  The participants then were tasked to conduct a search and rescue scenario over open water.  The United States Coast Guard deployed their rescue dummy known as “Oscar” at an unknown location in a search area.  The pilots were then tasked to locate Oscar and coordinate rescue efforts with ground and marine assets.  

After lunch, which was provided by Darley, the participants then met at the Galveston Sector Coast Guard Field Office to train how to deploy from a moored waterborne vessel.  The participants practiced hand takeoffs and retrievals for the scenario to safely deploy the drone due to the moving platform of the vessel.  While participants were practicing waterborne deployments, the other teams competed in a fast track course where they tested their skills against the clock.  This course was developed by Galveston’s Community Emergency Response Team member and former NASA ISS Subsystem manager Bill Spenny.  Pearland Police Department pilots Officer Oubre and Officer Arnold won the competition with the fastest times.  

These scenarios were conducted to better prepare the region for search and rescue events for the upcoming Hurricane season.  During Hurricane Harvey in 2017 the Gulf Coast Region saw extreme flooding throughout the greater Houston area.  These agencies are now better prepared to respond to local or regional flooded or coastal areas for Search and Rescue operations.

The Texas Gulf Coast Public Safety UAS Response Team is comprised of over 60 government agencies and over 90 pilots.  The team has responded to multiple large scale search and rescue events such as the Llano River Flood Incident, Kemah Chief of Police Search and Rescue, and have assisted in several other incidents.  The team also holds monthly meetings and provides several UAS related training to better prepare agencies to provide safer communities through technology.  

A special thank you goes out to Officer Larry Boggus with Memorial Villages PD and Chief John Venzke with Bayou Vista Fire Department for planning and coordinating the event.  Gary Messmer and The United States Coast Guard for coordinating and setting up the waterborne deployment scenarios.  Bill Spenny, Officer Herbert Oubre, and Officer Chris Nash for coordinating and instructing the land based scenarios.  

Thursday, August 29, 2019

North Texas Public Safety UAS Response Team (NTXPSURT) - UAS Best Practices Updated


The North Texas Public Safety UAS Response Team (NTXPSURT) recently updated and posted their UAS Best Practices that were written to assist jurisdictions regionally and statewide in developing UAS programs and response operations standards. The best practices are the collaboration of members from the NTXPSURT and their subcommittees. 

If this valuable document can assist your UAS Public Safety group/agency in developing standards and procedures, I urge you to contact NTXPSURT through their official page.

uas, uav, texas, drone public safety, response, team,

The mission of the North Texas Public Safety Unmanned Response Team is to provide professional UAS assistance to jurisdictions and emergency operations centers in support of their response, relief, and immediate recovery efforts.

Tuesday, August 27, 2019

Putting Drones to Work for the Public

Putting Drones to Work for the Public
Inside Unmanned Systems August 25, 2019
UAS are becoming a common tool in emergency services, with more agencies using the technology to increase efficiencies and help keep both personnel and the public safe.

When the Wayne Township Fire Department first started deploying drones a few years ago, pilots were flying the systems just about every day. Beyond their community, they traveled across Indiana to support agencies that didn’t have drone programs, helping out during emergency situations from pursuing suspects during foot chases to locating fire hot spots.

Back then, the department received calls around the clock from agency leaders asking for assistance, the department’s Public Information Officer Captain Michael Pruitt said. That doesn’t happen anymore, but it’s not because interest has waned. The calls stopped because more agencies have developed programs in-house; recognizing the benefits UAS provide, they decided to purchase drones of their own—a trend that’s being seen across the country.

As noted in the Market Map on page 16, at least 910 state and local police, sheriff, fire and emergency services agencies in the U.S. now have drones, according to data the Center for the Study of the Drone at Bard College collected in 2018. That’s up about 82 percent from the previous year, and many expect drones to become a tool found in every police and fire department, no matter how big or small.

Why the sudden interest in deploying drones for public safety? There are several reasons, said Gene Robinson, vice president of flight operations for Drone Pilot Inc., of Austin, Texas, including the fact UAS are now seen as a proven tool. Public safety leaders wanted drones to be vetted for improved efficiencies and safety before they started building programs in their communities. Now they know.

It also helps that the systems being deployed, typically DJI products such as Mavic Pros and lower-end Matrices, are affordable and easy to use. And as they see the technology’s benefits, the public is becoming more accepting of drones and less worried about being spied on—which was a huge concern that limited adoption, particularly by police departments early on.

“Talk about a quantum leap from even two years ago,” Robinson said. “We have more agencies that are looking into using drones or are already using drones than ever, and almost every agency I have spoken to is considering putting drones in their toolkits. Public safety has embraced the technology and will continue to push it.”

CREATING PROGRAMS
In the beginning, the public safety agencies deploying drones didn’t really have programs in place, said John Fernandez, U.S. chief instructor for the UK management and training company Consortiq. Typically, someone on the force with experience flying drones would offer to deploy his system for a mission, most likely search and rescue (SAR); if that was deemed successful, ideas for applications would follow. Drones were used sporadically and weren’t seen as something that needed to be managed. That’s changing.

UAS are becoming part of everyday operations for public safety agencies, making it vital to create standard operating procedures (SOPs) and to ensure pilots are properly trained, even beyond what’s required through Part 107.

“In the law enforcement sector there are regulations and procedures for everything, but they’re finding out they don’t have an already-defined area for this type of tool to be grouped in. It doesn’t fi t into aviation or infrastructure but it has elements of both. It takes understanding what key issues need to be addressed early on.”- John Fernandez, U.S. chief instructor, Consortiq

Public safety officials also continue to focus on building a positive public perception, said Anthony DeMolina, CEO and founder of Tactical Drone Concepts, which is based in Sheridan, Wyoming. Privacy remains a concern for some citizens, and image-building includes providing education about why and how drones are being used. Civil liberties training is becoming a common part of these programs, which helps to make the public more comfortable with drones flying in their communities.

THE APPLICATIONS
Law enforcement, fire departments and other public safety agencies are finding innovative ways to deploy UAS while still reaping the benefits of use cases that saw success in the early days.

Search And Rescue (SAR)
SAR is the “original and oldest” use for drones in public safety, said Dan Gettinger, co-director at the Bard College center. UAS give searchers a view they can’t get on foot, and their thermal cameras also help locate missing persons.

While there really isn’t much new about how drones are used in SAR missions, there have been changes on the post processing side, Robinson said. Robinson developed techniques to analyze images collected during UAS flights, but they were labor-intensive and time-consuming. Now, software makes this process a lot quicker, specifically Loc8’s image scanning software, which was released in April.

How does it work? Let’s say searchers know the missing person is wearing blue jeans. In about four minutes, the software can go through hundreds of images and pull out every one with something blue—a capability Robinson calls a game changer.

Defining and refining the information to give to ground search teams has come a long way as well, Robinson said. Access to real-time video feeds and images tells teams the distance, compass bearing and obstacles between them and a victim. Solid data saves both time and resources.

As far as sensors, the FLIR camera is probably one of the most successful night-time search aides, Robinson said, enabling searches to go on long after they would have been stopped in the past.

Delivering supplies to victims is another way drones support SAR, said Matt Sloane, CEO of Atlanta-based Skyfire. Drop mechanisms allow some drones to deliver a radio or bottle of water to stranded hikers, or to carry a lifejacket to someone in need of a water rescue. In other situations, such as if a police officer is hurt and barricaded somewhere, the drone can bring in medical supplies.

Law Enforcement
Crime scene photography and accident scene reconstruction are among the most common ways drones are used in law enforcement, Gettinger said.

With UAS, officers can collect 4K aerial video of a scene, as well as generate a 3-D orthomosiac map, said Anthony Galante, an assistant professor in the UAS program at Embry Riddle Aeronautical University and an officer for the Daytona Beach (Florida) Police Department. This saves officers time; instead of closing down a highway for hours when investigating a crash, they can collect everything they need in about 20 minutes.

“If you have an accident scene or homicide or anything you need to record in high detail, you want to do that before everyone gets there and stomps around and messes it up,” Robinson said. “If you send a drone in, nobody touches a thing and you have a nice baseline to begin with. DAs and lawyers love it because it’s irrefutable photographic evidence that can be quantified, making it acceptable in a court of law.”

Traffic management via drone is similarly gaining traction. In Daytona, for example, officers look at traffic flow during large events, Galante said. During one such event, the police chief asked his officers to obtain traffic footage via drone. After looking at the live video streamed back to him, he quickly saw there were barely any cars on the street. Sending officers home early saved the city about $10,000 in overtime pay.

One of the more recent trends is to use drones in tactical situations, DeMolina said. This creates a new dynamic because such operations often happen inside structures where there’s no GPS, which means it takes a more skilled pilot to manage the drone.

These missions might include a barricaded suspect, or any kind of situation where it’s dangerous for police to respond, Gettinger said. The drone can provide situational awareness so there are no surprises.

That’s one of the many ways Jeff Kleven and his team at the Fremont Fire Department in California have used drones to help the local police department (the two agencies have a joint program and often fly for each other). “Giving them eyes inside,” they’ve checked out building perimeters and indoor environments ahead of tactical teams, and they’ve surveilled warehouses converted into drug labs, getting the layout and letting officers know if anyone is there. The department also has used drones to pursue suspects on foot.

Bomb squads are starting to see the advantages of UAS over ground robots, DeMolina said. Ground robots may have trouble getting near an explosive device if there are obstacles in the way. A UAS can fly overhead and send images back to the team, providing vital information before officers arrive on scene.

Cold case investigation is another new and interesting use for law enforcement. Using near-infrared imagery, drones can identify shallow graves that are up to four years old, Robinson said. This can aid in closing unsolved missing person cases.

“Talk about a quantum leap from even two years ago. We have more agencies that are looking into using drones or are already using drones than ever, and almost every agency I have spoken to is considering putting drones in their toolkits. Public safety has embraced the technology and will continue to push it.” – Gene Robinson, Vice President of flight operations, Drone Pilot Inc.

Fire
Drones are also proving their worth to fire departments. Kleven, who is the UAS program manager in Fremont, has flown UAS for better views of fires engulfing single-story homes, multi-story apartment complexes and commercial buildings. Via images captured from the FLIR infrared camera, firefighters can gather significant intelligence before sending anyone in, such as which areas of the roof have been weakened by the flames.

“As incident commander, I used to rely on traffic radio to make a plan to attack a fire,” Kleven said. “Depending on who I asked, the answer could come back a little different every time. With the drone we can see so many things. We can see where the hose lines are going in, we can see where most of the heat generation is coming from and we can see smoke production. The amount, color and velocity tells us a lot about what the fire is doing. We can join radio feedback with the visual, so tactically we’re light years ahead of where we’ve ever been before.”

Structural images allow for pre-planning before a fire ever happens, Pruitt said, as well as post-fire overhead views to help determine what caused it. Pruitt’s team is also deploying drones for hazmat incidents; spotting markings or whatever is leaking gives firefighters an idea of what they’re dealing with before they ever get to the scene. Responding to train derailments and water rescues are also on a long list of how fire departments are deploying drones to serve the public.

Fremont Fire has been exploring several upgrades. While optical and thermal sensors are the most popular imaging tools, Kleven is looking into multispectral as well. This sensor can be used to help with pre-planning for wildland fire management, enabling teams to predict where a fire is going to go and the rate of speed it will travel.

While most departments rely on DJI products that are easy to deploy and operate, Fremont Fire recently invested in a SkyRanger, Kleven said. This fixed-wing option offers more flight time (45 minutes instead of 25) and can handle inclement weather better. It’s also waterproof, he noted, so if it’s flown into a contaminated area and it can be cleaned after, whereas the other systems would need to be discarded.

UAS are quickly becoming an everyday tool, Kleven said, so much so that he’s starting to see fire engine manufacturers give departments the option to integrate a drone right into the truck. “You’re going to see drones on fire engines as frequently as you see hoses on them now,” Kleven said. “It’s becoming more affordable and systems are starting to be built that are specific to police and fire. Without a doubt it’s the biggest trend in fire service in the last 20 years.”

Disaster
Hurricane Harvey, which hit in 2017, marked the first time drones were widely used after a disaster, said Robinson, who was part of a team that spent 21 days flying missions. The drones mostly collected images for damage assessment, leaving manned aircraft to do bigger jobs like rescuing people from roofs. The pilots were happy for the help, which shows they’re becoming more accepting of UAS and how they can complement manned aircraft—another factor that has helped move UAS forward for public safety operations in general.

Galante flew UAS before and after Hurricane Irma, which wreaked havoc in Florida just a few weeks after Harvey did its damage in Texas. Before the storm, Galante captured imagery of critical infrastructure so they could be compared with post-storm displays. This helped speed up the time it took for FEMA to fund the recovery process.

After the hurricane, drones also were used to assess flooding and tell first responders where they’d run into downed trees and power lines. UAS sped responses and ensured limited resources were sent where they were needed most.

Ben Miller, director for the The Center of Excellence for Advanced Technology Aerial Firefighting in Colorado is working on innovative ways to deploy drones against wildland fires. Right now, the main use is situational awareness, with drones helping responders determine the direction a fire will travel. But the center’s team is working on several other applications: using drones to carry objects to firefighters—whether a gallon of water, lunch or a line of one-inch fire hose—or increasing payload weight and providing firefighters better cell coverage through a local area network. They’re using goTenna Pro tactile mesh networking radios and testing the technology with a SAR group.

“They put the radios over the search area via drones and they were connected,” Miller said. “We’re looking to have a fixed-wing drone carry a radio repeater and connecting everybody on the ground.”

THE FUTURE
As drones become more integrated into daily public safety operations, standards will be created and uses will become more sophisticated.

For example, today the model is to put a drone in the vehicle with the officer heading out to the scene, Sloane, of Skyfire, said. In the future, drones will automatically deploy from the dispatch center—a capability the Chula Vista, California, Police Department is already exploring (see the profile of this department, starting on page 36).

The department has been deploying drones this way for about a year, Sloane said. Recently, it obtained beyond visual line of sight (BVLOS) authorization and can now fly three miles in any direction. An officer is positioned on a nearby roof to make sure the drone flies safely and has the ability to take control if necessary.

The average drone response time is a little more than two minutes, where it might take an officer several more minutes to arrive. Officers have made dozens of arrests using this drone in a box solution and have cleared multiple calls without an officer ever going to the scene.

Drones also could be mounted on top of patrol cars, Fernandez said, automatically activating during an incident and keeping officers in view during a foot chase, for example. This would enable officers to communicate with dispatch even if they lose their radios, while also providing a location if they end up hurt and unsure of where they are.

Miller predicts first responders will actually ride drones in the future. Many advancements must be made before this can happen, such as getting an unmanned traffic management (UTM) system in place, but “what the technology has demonstrated today totally supports that future,” he said.

Then there are the sensors. While first responders typically use high resolution optical cameras with zooming capability and infrared cameras today, Pruitt, of Wayne County, Indiana, said drones will soon fly sensors that can meter an area during a hazmat incident. They’ll also be able to lift more, opening up opportunities around the type of sensors they can carry and what they’re able to deliver.

As drones become part of everyday operations, public safety personnel will need to keep up with necessary training, develop SOPs and educate the community about the benefits they provide. Setting up solid programs and continuing to look for innovative ways to use the technology will increase efficiencies and save money—and, most importantly, improve safety for both first responders and the communities they serve.

A RANGE OF USE CASES
Police and fire departments continue to seek innovative ways to deploy UAS technology:

AERIAL FORENSICS. Using infrared imagery, drones can detect what sort of insect infestation might happen to a dead body, as well as how animals might interact with it, said Gene Robinson, vice president of flight operations for Drone Pilot Inc. Last summer, he was part of a study to see how far bones are scattered by animals.
COMMUNICATION. Some new drones have speakers on them, and departments are using them to broadcast messages over a large area or to talk to suspects, said Je Kleven, UAS program manager for the Fremont Fire Department.
THE TEAM AT SKYFIRE is also taking on missions, such as delivering medical supplies and event over watch, CEO Matt Sloane said. Skyfire provided surveillance during the Super Bowl in Atlanta earlier this year.

Monday, August 26, 2019

Alaska Fire Service Drone Footage: Side by Side with Infrared Showing Firefighters Extinguishing Hot Spot

Alaska wildland firefighters pioneered the use of unmanned aerial systems, or drones, on fires across the country during the summer of 2017 to help provide fire crew support, hot spot detection and mapping. Statewide, the Bureau of Land Management in Alaska owns nearly two dozen of the small, 3D Robotic Solo quadcopters, including the nine allocated to BLM Alaska Fire Service. BLM AFS’s wildland fire suppression partner, Alaska Division of Forestry (DOF), has six. Continue Reading


Friday, August 23, 2019

Saving lives in the desert: How drones made Mesa Fire and Medical Department's search and rescue efforts more effective

The thriving East Phoenix metropolis of Mesa Arizona, surrounded by the Sonoran Desert, has long been a playground for outdoor recreation. With convenient access to Saguaro Lake, the iconic Salt River, and endless hiking trails, it’s easy to see why Mesa is one of the fastest growing cities in America, attracting thousands of millennials seeking adventure in a natural setting. 
The desert climate and complex landscape at the outskirts of Mesa offers outdoor goers breathtaking escapes ideal for hiking and mountain biking. As with any other desert landscape, the appeal of Mesa’s untamed environment comes with its own set of dangers and cautionary tales. Out of the average 5000-plus incidents the Mesa Fire and Medical Department responds to every month, many require dedicated search and rescue missions through its trails and rugged terrain.  Continue Reading

Tuesday, August 6, 2019

Body Found by Drone After Person Jumped into Youghiogheny River


drone, uas, uav, rescue, search, sar, river, water, swiftwater,

TRIBLIVE August 5, 2019
A body was discovered in the Youghiogheny River on Monday afternoon after rescuers responded to a report of a person jumping into the river following a crash on Interstate 70, according to a Westmoreland County dispatcher.

The crash was reported at 2:40 p.m. on the westbound side of the highway, at a bridge that carries the interstate over the river between Rostraver and South Huntingdon townships, near the Smithton exit.

The Westmoreland County Coroner’s Office was called to the scene just before 3 p.m. Rescue teams pulled the body from the water shortly before 4:30 p.m., according to the Sutersville Volunteer Fire Department.

River rescue teams and firefighting units from Yukon, Rostraver, Collinsburg, Sutersville and Turkeytown responded.

Rostraver West Newton Emergency Services used a new camera drone to help find the body and monitor the swiftwater rescue teams. The drone also aided in the police investigation by measuring the height of the bridge and providing photos and videos of the scene.

Saturday, July 27, 2019

Reunite Program finds the missing with advanced search and rescue tech

Lee County Sheriffs Office announced it would eliminate, Project Lifesaver, which was a system that used radio frequencies to try to find people.

Their Reunite Program will now use infrared technology on drones and helicopters to help find missing people.”  Read More.


Do you have a story of drones coming to the rescue or assisting your agency? Please share in the comments.

Thursday, July 18, 2019

Understanding How Law Enforcement, Firefighters, and Search & Rescue Teams are Using UAS

Commercial UAV News July 16, 2019 
Insights from the DJI Public Safety UAS Event hosted by Enterprise UAS

While public safety agencies in the United States began utilizing drones in 2013, you’d have been hard-pressed to find many organizations doing so in a major way. Part of that was due to the limitations of the technology, but payload advances that have allowed police and fire departments to do everything from remotely stream live images to utilize a thermal camera to get a heat signature of a roof have proven to be real game-changers. More and more local and state agencies are starting to adopt and utilize UAS technology, but it’s advocates like Los Angeles Fire Department Firefighter Derrick Ward that have helped these professionals truly understand what kind of increased situational awareness the technology can provide.  Read More;

uas, drone, uav, fire, public safety,

Thursday, July 11, 2019

Unmanned Aircraft Systems use on wildfires Miller Fire Wildfire

Miller Fire Wildfire News – 7/10/2019
Unmanned Aircraft Systems (UAS) The National Interagency Fire Center is building an interagency fire Unmanned Aircraft Systems (UAS) program comprised of agency personnel and private contractors. The use of UAS is one way fire managers are incorporating new technology to support fireline decisions. This allows important information to be gathered quickly without putting firefighters in aircraft. UAS are broke down into 4 types based on their capabilities.A type 1 UAS is the most capable and type 4 is the least complex but the most portable.

Agency personnel generally operate type 3 or type 4 UAS because they can be stored in a backpack and launched from the fireline. These smaller UAS operate at low altitudes, generally below 400 feet, have a battery life less than an hour, and must be operated within visual line of sight. If a fireline supervisor needs to get a better vantage point while on the line, they can launch these smaller UAS from their location and get the information back in real time. This also gives field personnel the opportunity to capture pictures of terrain and vegetation when scouting line. This information can be sent back to the incident command post for planning purposes.

Type 1and type 2 UAS are more complex systems that require more personnel and designated areas for launching. Flight crews for these larger systems can range from 3 to 9 or more crewmembers. Each of these personnel have important job responsibilities such as flying the aircraft, coordinating with ground and air resources, and interpreting data. These larger systems can fly to heights over 10,000 feet and operate for multiple hours. They can fly beyond visual line of sight and carry multiple cameras for mapping. On larger wildfires the Incident Management Team can utilize these larger “drones” for quicker turnaround times on infrared flights to identify heat along the fire perimeter.

The airspace above a wildland fire can be a complex environment with multiple fixed and rotor wing aircraft operating at different altitudes. Fire managers put a temporary flight restriction (TFR) over wildfires to maintain control of the aircraft within that space. In order to allow a UAS to climb through a complex airspace like this, fire managers use an area identified as a Launch Recovery Zone (LRZ). An LRZ is an area within the TFR that can be closed to other aircraft while the UAS ascends and descends. When an LRZ is “hot” no other aircraft can enter the space, once the UAS reaches its target altitude the LRZ is “cold” and other aircraft can fly through it again.

After landing, UAS data specialists support the operation by pulling the GPS data, photos and videos from the system to be interpreted and packaged for mapping. The data specialist can take pictures from the flight and georeference them on a map. This allows firefighters to get maps with updated aerial imagery to get an idea of burn severity or structures threatened. These larger drones also come with infrared (IR) cameras that can feed live IR information to the resources on the ground. This information allows firefighters to identify heat near the fireline so it can be suppressed before it escapes.

UAS operated by fire personnel are carefully coordinated with air and ground resources, it is important that the public remembers not to fly their own drones within the TFR of a wildfire. Individuals who are determined to have interfered with suppression efforts may be subject to civil penalties of up to $20,000 and potential criminal prosecution. Drone intrusions endanger the lives of firefighters, halt air operations, and impact the protection of values at risk.
If you fly, we can’t.

Wednesday, July 3, 2019

County in Sierra Finds Swiftwater Search and Rescue Uses for Drones

KOLOTV.com July 2, 2019
ALPINE COUNTY, CA (KOLO) Alpine County sits in a rugged corner of the Eastern Sierra just south of Lake Tahoe, barely 11 hundred residents and nearly 750 square miles of mountain and forest.

But it gets a lot of visitors, campers, hikers, kayakers, people just passing through. From time to time some get into trouble.

First responders are the small staff of the Alpine County Sheriff's Office and their search and rescue volunteers. Not a lot of manpower, but they have a powerful tool, the sheriff office's drone.

Their drone is equipped with camera and heat imaging, able to search from the air when those below can't.

"We use it during the hasty search period when we don't have other manned aircraft in the air space," says Deputy Sheriff Jake Krzaczek, "and we can also use it to search at night, which previously we were reluctant to do because it puts our volunteers in harm's way."

With the heat imaging camera, the drone operator can identify by sight and by body temperature whether he's found a lost hiker or a bear, deer or steer.


And once found and identified, the drone can carry a life saving payload.

"We can drop medical supplies. We can drop them food, water, a radio, extra clothing, anything they might need to keep them alive until we can get bodies on scene to get them out of from where they're at."

The sheriff's department and its volunteers keep finding new ways to use the drone. The latest stemmed from an incident involving a person trapped on the far side of a raging river. Standard procedure would be to throw them a rescue bag attached to a line.

"We finally had to put a rock in the bag itself to give it some weight to throw it and finally got it to him," recalls Krzaczek. "And I think everyone's shoulder hurt a little bit, so we thought, how can we make this easier? We had the payload capability in the drone and we did a dry run in the parking lot one day and thought this could work."

And so, a new use for the drone was developed. Now Krzaczek and his volunteers work it into their training routine. The exercise we witnessed was on a relatively placid spot on he west fork of the Carson River. Elsewhere the county's streams were what he described as "hairy."

"There's areas on the west fork and the east fork that are ripping right now where I wouldn't want to put my guys in the water if I didn't have to."

So imagine a kayaker or fisherman fallen into the icy water in the midst of rapids, either floating or clinging to a rock.

The drone drops the rescue line to him without endangering the volunteer.

So you can add swift water rescue to that growing list of uses for drones and that's not likely to be the end of it."

"It's incredible," says Krzaczek. "There's going to be so many uses for them in the next few years."

Wildwood Lifeguards Consider Using Drones to Help Save Lives



As technology keeps improving and as the Australians have shown us the benefits of drones, it is great to see more and more lifeguard agencies looking at drones as another tool in their toolbox.

Lifeguards in Wildwood, New Jersey, are considering using drones to help save lives and are putting the drone to the test.

Friday, June 14, 2019

Drone Saved Time, in Rescue of Kayakers

The Gazette June 13, 2019
A rescue of 11 kayakers — like the one Tuesday afternoon on the Upper Iowa River — usually would take Decorah volunteer firefighters one or two hours.

But thanks to drone technology, it took only three or four minutes to locate the stranded kayakers, said Zach Kerndt, whose duties with the fire department include being a licensed drone operator.

Before drones, “we’d have to go up river and basically get on the river and actually flow down the river to find them,” Kerndt said Thursday. “With the drone, we’re able to put it up in the air without putting anyone in harm’s way. ... It helps a lot.”

He said the rapid response could be lifesaving.

“It helps tremendously,” Kerndt said, specifically mentioning how a drone provides rescuers with a better “overall view of the area.”

Crews came to the aid Tuesday of a family of kayakers who became marooned on an island near Chimney Rock Park after a kayak capsized and left one family member clinging to a tree, authorities said.

Decorah bought a drone in 2016 to help with structure fires, grass fires, search-and-rescue operations and other law enforcement tasks. Since then, Kerndt said, the department has used it on four or five river rescues.

River rescues have been increasingly common for the Decorah department.

Firefighters typically handle four or five river rescues each year but have performed four already this year.

It’s a sign, Kerndt said, people need to be more careful on the water.

“We want everyone to enjoy the river,” he said. “But people need to make sure they take it seriously if there’s a tree across the river or hazards that are in the river.”

Winneshiek County Sheriff Dan Marx attributed the increased number of river rescues to a “complete lack of knowledge, skill and awareness that this is a natural river” and to “drinking to complete inebriation.”

“We’ve had people ask if they’re going in a circle like the lazy river at a water park,” Marx said.
Marx said the family members rescued Tuesday — ranging in age from 6 to 71 — were not intoxicated, indicating lack of experience was the likely culprit.

The kayakers “got caught up in a tree,” Kerndt said.

The group — some from Cedar Rapids, some from India — was there for a family reunion, Marx said.

The family called 911 when they became stranded. Once the firefighters arrived, they provided the family with a portable radio for better reception. No one required medical attention.

Officers from the Iowa Department of Natural Resources and the Iowa Department of Transportation assisted.

Saturday, June 1, 2019

Nevada County Consolidated Fire’s UAV a versatile tool for firefighters

drone, uas, uav, rescue, search, swiftwater, river, sar,

yubanet.com May 31, 2019
NEVADA CITY, Calif. – Nevada County Consolidated Fire District added an Unmanned Aerial Vehicle (UAV) to their toolbox and after close to a year, the UAV has proved a valuable addition.

Eight district personnel are certified to operate the UAV and recently we got a demonstration of some of its capabilities at Station 84.

Deputy Fire Marshal Mason explained the versatility of the UAV and how the agency uses the UAV/UAS (don’t call it a drone) in many situations.

During a structure fire, the drone can provide a 360-view of the structure, any adjacent buildings that may be impacted and, most importantly, the fire behavior. “We can send the UAV up and let it hover over the incident. It allows us to position our resources more efficiently and have visual contact with all our firefighters,” Mason said.

Multiple uses

The UAV is not just being used for structure fires, it can be deployed for any wildland fire and provide valuable reconnaissance.

River rescues, a big part of summer operations, are time-sensitive and were the major impetus to acquire the UAV. The UAV can cover a large swath of the Yuba, look for the missing person and pinpoint their location. While conventional communication in the river canyon can be spotty, the UAV uses satellite-based navigation and stays within visual range of the trained operators at all times. The district is scouting locations where the operators can see a large portion of the river and quickly direct the swift water rescue team to the patient.

The UAV can hover for 20 minutes on one battery, or fly 16-17 minutes during a river rescue – that’s about 3 miles of river canyon covered – and can fly at speeds up to 40 mph.

Hazardous materials and suspicious objects can also be safely inspected from a distance as the video above shows.

One use of the UAV that wasn’t initially obvious is defensible space inspections (DSI). Mason recounted a request from an out-of-county property owner for a defensible space inspection of a vacant parcel. “When we get a call asking for a DSI from a property owner, we can – with their permission –  fly over the property, send them the pictures and then set up a vegetation management plan.”

Upgrades and mutual aid

With the successful deployment of the UAV, the district now is looking to expanding the program. A second UAV and additional equipment for the existing one are on their wish list. The ability to carry a payload, like a floating device during a river rescue, requires an upgrade. The district is researching those options and the cost associated with it. Delivering a flotation device would be done by attaching the device to a lanyard module and carrying it to a stranded person. A camera with night-vision capabilities is another upgrade they are considering for search and rescue missions.

Meanwhile more firefighters will go through the operations training and increase the availability of the tool. “We can deploy the UAV at the request of another agency, it makes sense to share the resource and it’s part of the mutual aid we provide each other,” Mason said.

Saturday, May 25, 2019

GEO-Photo Oblique Aerial Photography

As I was looking back at where EMMU had come from and where EMMU Aerial is today, it was obvious we had come a long way and learned a lot along the way, mostly through our emergency mobile mapping and oblique aerial photography systems.

From the early days of Emergency Mobile Mapping Unit or EMMU in 2000 where we provided a true mobile emergency GIS response capability with our GIS quick response trailer to support  wildland firefighters, first responders and search and rescue professionals.  To the GEO-Photo System, with georeferenced oblique aerial photography, providing invaluable, fast and accurate geographical information and imagery for various government agencies.  All well before UAS or “drones” were even considered to be a viable tool of such information, the GEO-Photo system had proven itself.

geo, photo, gis, gps, aerial imagery oblique,

The GEO-Photo system primarily use was for handheld vertical and oblique photography, captured from existing program aircraft for quick turn geo-tagged intelligence photographs.  For many emergency, police, military and intelligence gathering operations, these crisp high-resolution photographs with embedded GPS coordinates and associated GIS data was required to conduct disaster response, mission planning and mission analysis for emergency operations.

The GEO-Photo system was composed of a hand held high resolution digital camera, GPS and gyro stabilizer.  All with the capability to record GPS latitude and longitude, elevation and direction data within a high resolution digital still photograph.  The camera system was capable of storing several hundred photographs on compact flash memory.  But most importantly, this system was portable and not mounted to any aircraft, capable of moving from aircraft to aircraft in the hands of the operator.  Today EMMU Aerial has drones for this mission, but the legacy and capabilities of the GEO-Photo system are still around.