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NTSB: GA Fatalities Drop In 2015



 
 
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Old September 23rd 16, 02:19 PM posted to rec.aviation.piloting
Larry Dighera
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Default NTSB: GA Fatalities Drop In 2015

http://www.avweb.com/avwebflash/news...-227004-1.html

NTSB: GA Fatalities Drop In 2015

By Elaine Kauh | September 22, 2016

General aviation accident rates dropped in 2015 amid a rise in flight hours,
according to figures
http://www.ntsb.gov/investigations/data/Documents/2015_preliminary_aviation_statistics.xls
reported by the National Transportation Safety Board Thursday. There were 276
accidents reported for general aviation flights in 2015, with 376 fatalities.
The accident totals for GA added up to 1,209 GA accidents last year, 229 of
those accidents involving fatalities, including three people on the ground. The
GA accident rate last year was 5.85 per 100,000 flight hours, with a rate of
1.09 for fatal accidents. That’s down from 6.23 accidents per 100,000 hours a
year prior, with a fatality rate of 1.31 per 100,000 hours in 2014
http://www.avweb.com/avwebflash/news/NTSB-GA-Fatalities-Up-Slightly-in-2014-224670-1.html.

The board and the FAA
http://www.faa.gov/news/fact_sheets/news_story.cfm?newsId=20574 have focused
on educating pilots on loss-of-control safety and use of technology in recent
years, emphasizing LOC as the ongoing top cause of GA crashes. Stick-and-rudder
skills have gained renewed attention and the FAA also is promoting the use of
new tools such as angle-of-attack indicators in GA aircraft. “Even though the
fatality rate in 2015 was the lowest it has been in many years, 376 people
still lost their lives, which is why improving general aviation safety is on
the NTSB’s Most Wanted List of transportation safety improvements,” said NTSB
Chairman Christopher A. Hart. “While lower, these numbers are still too high.’’
Flights under Part 135, including commuter and on-demand operations, saw five
total accidents in 2015 with one fatality, resulting in an accident rate of
1.458 per 100,000 hours flown – nearly level with 2014, when four accidents and
no fatalities were reported. Meanwhile, U.S. air carriers saw no fatalities in
2015 or 2014.
---------------------------------------------------------------------------------l

http://www.faa.gov/news/fact_sheets/...m?newsId=20574

Fact Sheet – General Aviation Safety

For Immediate Release

July 28, 2016
Contact: Alison Duquette or Les Dorr
Phone: 202-267-3883

The Federal Aviation Administration (FAA) and industry are working on a number
of key initiatives to improve general aviation (GA) safety: the GA Joint
Steering Committee (GAJSC), Equip 2020 for ADS-B Out, new Airman Certification
Standards (ACS), streamlining aircraft certification, the Got Data? External
Data Initiative, and the Fly Safe outreach campaign on Loss of Control.

The United States has the largest and most diverse GA community in the world,
with more than 220,000 aircraft, including amateur-built aircraft, rotorcraft,
balloons, and highly sophisticated turbojets. By working together, government
and industry are making a difference to put the right technologies,
regulations, and education initiatives in place to improve safety. The FAA’s
goal is to reduce the GA fatal accident rate by 10 percent over a 10-year
period from 2009-2018. Inflight Loss of control – mainly stalls – accounts for
the largest number of GA fatal accidents. Although the fatal accident rate is
beginning to decline, too many lives are still being lost. Last year, 384
people died in 238 general aviation accidents.

The FAA and the rest of the aviation community are focused on reducing general
aviation accidents by using a primarily non-regulatory, proactive, and
data-driven strategy to get results, which is similar to the strategy the FAA
uses in commercial aviation.

Reducing Risk

The FAA and industry are working together to use data to identify risk,
pinpoint trends through root cause analysis, and develop safety strategies. The
FAA and the GA community carry out this work through the GAJSC.

Formed in the mid-1990s, the GAJSC recently has renewed its efforts to combat
GA fatal accidents. The government and industry group uses the same approach as
the Commercial Aviation Safety Team (CAST). It uses a data-driven,
consensus-based approach to analyze safety data to develop specific
interventions that will mitigate the root causes of accidents. Recent
accomplishments include more than 29 safety enhancements, (such as training,
procedures, and technology) to address loss of control. Examples include a
streamlined policy for angle of attack (AOA) system approvals and outreach to
the GA community on loss of control topics… With power-plant system and
component failures being the number two cause of fatal GA accidents, the GAJSC
analyzed fatal GA accidents involving total or partial engine power loss. The
GAJSC approved and initiated implementation of ten SEs, which focused on
improving engine technology, aiding the pilot in decision making post-engine
failure, and improving resources available to mechanics, as well as their
education and training.

The GAJSC combines the expertise of many key decision makers across different
parts of the FAA, several government agencies, and stakeholder groups. The
other federal agencies are the National Aeronautics and Space Administration
and the National Transportation Safety Board (NTSB), which participates as an
observer. Industry participants include the Aircraft Owners and Pilots
Association, Experimental Aircraft Association, General Aviation Manufacturers
Association, Light Aircraft Manufacturers Association, National Business
Aviation Association, National Air Transportation Association, National
Association of Flight Instructors, Society of Aviation and Flight Educators,
and the aviation insurance industry. The European Aviation Safety Agency (EASA)
also participates as an observer.

Other achievements include several web-based resource guides, information on
flying and medications, and overall GA community coordination on Loss of
Control topics. Resources include targeted themes and articles in the FAA
Safety Briefing magazine.

The GA community and the FAA are moving toward using de-identified GA
operations data in the Aviation Safety Information Analysis and Sharing (ASIAS)
program to help identify risks before they become accidents. In March of 2014
the FAA announced the start of a one-year project to illustrate the value,
capabilities, and benefits of the ASIAS program for the GA community. The
project explored potential new information sources such as General Aviation
Flight Data Monitoring, voluntary safety reports, manufacturer reports, and
information collected from avionics and using new common technologies such as
iOS and Android personal electronic devices. This project has led to a broader
expansion of GA in ASIAS. Tools are now available to the GA community to help
explore and understand their own flight data and look for potential risks.
Through this program, the FAA does not have access to any individual pilot’s
data as the system is hosted by a third party. The de-identified aggregate data
is used by the GA community through ASIAS to identify trends and look for
system risks that may need to be mitigated. Data from these programs will be
used for GA JSC initiatives and research conducted by the GA community. The
GAJSC is working with the community to incorporate their data into ASIAS so
that it may be used to identify risk.

New Technology

The NextGen program is comprised of innovative technologies and procedures to
make flying safer, greener, and more efficient. In March 2015, the FAA achieved
a major milestone by completing one of the largest automation changeovers in
the history of the agency. We completed our new high altitude air traffic
control system, known as En Route Automation Modernization (ERAM). This system
will accommodate the technologies of NextGen, giving the U.S. a more powerful
air traffic system.

The FAA is working with manufacturers to define equipage requirements and
support NextGen by streamlining the certification and installation of NextGen
technologies, such as Automatic Dependent Surveillance-Broadcast (ADS-B). It is
a foundational element of NextGen and transforms aircraft surveillance using
satellite-based positioning.

ADS-B enhances GA pilots’ awareness of other traffic and improves safety in
areas that radar cannot reach, such as Alaska and the Gulf of Mexico. Pilots
flying properly-equipped aircraft can see graphical weather information on
cockpit displays, where they are in relation to nearby aircraft, and flight
information such as temporary flight restrictions.

The full benefits of ADS-B can only be realized if all of the planes that fly
in controlled airspace are equipped. The FAA has set January 1, 2020, as the
deadline to equip for ADS-B Out in controlled airspace. On June 6, DOT and the
FAA announced a $500 rebate incentive for GA aircraft owners who equip their
aircraft with required avionics technology. Accelerating compliance is
critical to ensuring that pilots, manufacturers, and retail facilities have
adequate time and capacity to equip aircraft in a timely and efficient manner,
ahead of a 2020 regulatory deadline. The rebates will be available this fall.
In the meantime, the FAA has published information about the goals and
structure of the program, and encourages aircraft owners to look at the
available equipment on the market and to schedule an installation appointment
with a qualified installer starting in the fall of 2016. Aircraft owners will
only qualify for the rebate if the installation is scheduled after the FAA
begins offering the rebates.

Airman Testing Standards and Training

In collaboration with a diverse group of aviation training community experts,
the FAA has updated key elements of the airman certification system to include
an enhanced focus on risk management. In June, the FAA replaced the Practical
Test Standards (PTS) for the Private Pilot certificate in the airplane category
and the Instrument Rating (also in the airplane category) with the
corresponding Airman Certification Standards (ACS).

The ACS improves the PTS by adding task-specific knowledge and risk management
elements to each PTS Area of Operation and Task. By integrating knowledge and
risk management requirements with skill tasks, the ACS offers a comprehensive
presentation of the standards for what an applicant needs to know, consider,
and do in order to pass both the knowledge and practical tests for a
certificate or rating. This format helps applicants, instructors, evaluators,
and other stakeholders understand what the FAA expects in each phase of the
certification process, from the FAA knowledge exam to the practical test. It
also helps everyone understand how knowledge, risk management, and skill work
together for safe operation in the NAS.

Aeronautical Data

In April, the FAA launched the Got Data? External Data Access Initiative to
give the private sector better access the FAA’s aeronautical data and spur
innovation. The goal is to help industry be in a position to create innovative
products and technologies that improve safety and efficiency. The initiative
includes data such asairports, navigation aids, fixes, obstacles, holding,
approaches, and Temporary Flight Restriction information. Based on stakeholder
feedback, the FAA is delivering new features such as the Data Innovation
Center, geofenced aeronautical chart product data in consumable formats, and
automated digital product downloads. The FAA has also expanded the digital
Terminal Procedures Publication, Coded Instrument Flight Procedures, the 8620-2
for all fixes, and added new symbology to charts.

Aircraft Design

On March 9, the FAA issued a proposal to overhaul the airworthiness standards
for small general aviation aircraft. The FAA’s proposal, which is based on
industry recommendations, would reduce the time it takes to get safety
enhancing technologies for small airplanes into the marketplace and reduce the
cost. The Notice of Proposed Rulemaking restructures the existing certification
standards and replaces the current prescriptive design requirements in Part 23
with performance-based standards that maintain the same level of safety. It
would add new certification standards to address general aviation loss of
control accidents and in-flight icing conditions. The proposal establishes
performance- and risk-based divisions for airplanes with a maximum seating
capacity of 19 passengers or less and a maximum takeoff weight of 19,000 pounds
or less. It would streamline how the FAA approves new technologies for small
piston-powered airplanes all the way to complex high-performance executive
jets.

The agency’s effort addresses recommendations presented in 2013 by a 55-member
rulemaking committee that included representatives from the FAA, European
Aviation Safety Agency, National Civil Aviation Agency of Brazil, Civil
Aviation Administration of China, Transport Canada, Civil Aviation Authority of
New Zealand, several airplane and avionics manufacturers, and industry groups.

Streamlining Certification

NORSEE

On March 31, the FAA published a new policy (PDF) to help aircraft owners
voluntarily install safety equipment on airplanes and helicopters that is not
required by the agency’s regulations. It will reduce costs and streamline the
installation of Non-Required Safety Enhancing Equipment (NORSEE) into the
general aviation fleet.The policy is the result of collaboration under the
GAJSC andexpands the 2014 FAA policy, which simplified the design approval
requirements for a cockpit instrument called an angle of attack (AOA)
indicator. AOA devices can be added to small planes to supplement airspeed
indicators and stall warning systems, alerting pilots of a low airspeed
condition before an aerodynamic stall occurs. Such stalls are particularly
dangerous during takeoff and landing.

NORSEE includes avionics, electronic instruments, displays and mechanical
equipment. Equipment approved as NORSEE increases overall situational
awareness; provides additional information other than the aircraft primary
system; provides independent warning, cautionary, or advisory indications; and
provides additional occupant safety protection. Examples of NORSEE equipment
include: traffic advisory systems, terrain awareness and warning systems;
attitude indicators; fire extinguishing systems; and autopilot or stability
augmentation systems.

The policy has the flexibility to accommodate the installation of new
technology safety enhancements into Part 23, 27, and 29 aircraft that are
determined to be a minor change to type design. The benefits must outweigh the
risk. The policy will reduce equipment costs by allowing the applicants the
flexibility to select various industry standards that suit their product, as
long as it meets the FAA’s minimum design requirements. NORSEE approval under
the policy is not an approval for installation on the aircraft – it just makes
the equipment eligible for installation on the aircraft.

Angle of Attack Indicators

On February 5, 2014, the FAA took an important step to help improve safety in
small aircraft by simplifying design and production approval requirements for
an AOA indicator. AOA indicators provide the pilot with a visual aid to prevent
loss of control of the aircraft in the critical phases of flight. Previously,
cost and complexity of indicators limited their use to the military and
commercial aircraft. Under new FAA guidelines, AOA devices can be added to
small airplanes to supplement airspeed indicators and stall warning systems,
giving pilots an additional tool to avoid a dangerous aerodynamic stall and
subsequent loss of control.

The FAA continues to work to improve RVSM Letter of Authorization (LOA) process

Since January 2005, Reduced Vertical Separation Minimum (RVSM) has allowed
pilots to fly domestically with 1,000 feet of vertical separation rather than
the previous 2,000 feet at cruising altitudes. On January 27, 2014, the FAA
issued a policy that streamlined the process for granting approval to use RVSM.
The FAA now considers previous operator and aircraft experience to determine
the extent of the evaluation, reducing the amount of time it takes for
operators to receive an authorization.

On July 20, 2016, the FAA published a revision to the RVSM rule removing the
application requirements for an operator to submit an approved RVSM maintenance
program solely for the purpose of RVSM authorization. Because of other,
independent FAA airworthiness regulations, all aircraft operators continue to
be required to maintain RVSM equipment in an airworthy condition. The rule
change becomes effective on August 19, 2016.

Engagement & Outreach

Fly Safe

On June 6, 2015, the FAA and GA groups launched the Fly Safe national safety
campaign to educate the GA community on how to prevent Loss of Control (LOC)
accidents. An LOC accident involves an unintended departure of an aircraft from
controlled flight. LOC can happen because the aircraft enters a flight regime
that is outside its normal flight envelope and may quickly develop into a stall
or spin. It can introduce an element of surprise for the pilot. LOC happens in
all phases of flight. It can happen anywhere and at any time. There is one
fatal accident involving LOC every four days. Join the campaign at #FlySafe and
follow it on Facebook, Twitter, and Instagram.

Weather

Most weather-related accidents are fatal and a failure to recognize
deteriorating weather continues to be a frequent cause or contributing factor
in accidents. The GAJSC has produced several safety enhancements related to
weather as part of their work on Loss of Control in flight. The 2014 FAA and
industry’s Got Weather? national safety outreach campaign reached approximately
4.5 million people.

Helicopter Safety

The FAA partners with the International Helicopter Safety Team (IHST) and the
U.S. Helicopter Safety Team (UHST) to promote safety and reduce civil
helicopter accidents and fatalities worldwide. The organization was formed in
2005 to lead a government and industry cooperative effort to address factors
that were contributing to an unacceptable helicopter accident rate. Prior to
2006, the number of worldwide civil helicopter accidents was rising at a rate
of 2.5 percent per year. Since 2006, the worldwide civil helicopter fleet has
grown by 30 percent, but the number of accidents has decreased in key global
regions by 30 to 50 percent.

IHST members establish partnerships with countries with significant helicopter
operations and encourage overseas industries to perform accident analysis and
develop safety interventions. Partners include government and industry
participants from the United States, Canada, Brazil, Mexico, New Zealand,
India, Russia, and multiple countries in Europe, Central Asia, and the Middle
East.

Since 2013, the UHST has focused on the U.S. commercial helicopter community.
In 2014, the U.S. civil helicopter industry experienced a 26 percent accident
rate reduction compared to 2013 and a 54 percent accident rate reduction
compared to the 2001-2005 baseline accident rate. In 2015, the accident rate
per 100,000 helicopter flight hours was 3.67, a 54 percent decrease compared to
the 7.97 accident rate from the 2001-2005 baseline set by the UHST. In
addition, fatal accidents are down 41 percent and the fatal accident rate is
down 61 percent compared to a decade ago.

Total U.S. Accidents

2001-05 Baseline: 184 accidents, 29 fatal accidents, 55 fatalities

2013: 146 accidents, 30 fatal accidents, 62
fatalities

2014: 138 accidents, 21 fatal accidents, 37
fatalities

2015: 123 accidents, 17 fatal accidents, 28
fatalities

(33% decrease in accidents)

U.S. Accident Rate (per 100,000 flight hours)

2001-05 Baseline: 7.97 accident rate, 1.31 fatal accident rate, 2.45
fatality rate

2013: 4.95 accident rate, 1.02 fatal accident rate,
2.10 fatality rate

2014: 4.26 accident rate, 0.65 fatal accident rate,
1.14 fatality rate

2015: 3.67 accident rate, 0.51 fatal accident rate,
0.84 fatality rate

(54% decrease in accident rate)

Online Resources

The FAASTeam’s website is a good resource for pilots to help improve their
skills and knowledge. The site hosts the FAA WINGS pilot proficiency program.
It also contains online pilot training materials and includes courses to help a
pilot avoid the pitfalls of VFR flight into Instrument Meteorological
Conditions (IMC). Pilots, flight instructors, and mechanics are encouraged to
register online.

Amateur-Built Aircraft

Amateur-built and other experimental aircraft were involved in more than 25
percent of U.S. fatal general aviation accidents over the past five years and
account for an estimated five percent of total general aviation fleet hours.
With the help of outreach, updated safety materials developed by the FAA and
GAJSC industry participants, and new policies, this segment of the GA industry
is showing improvement. Loss of Control remains the leading cause of fatal
accidents involving amateur-built aircraft. The FAA’s Airmen Transition to
Unfamiliar Airplanes Advisory Circular (AC 90-109A) helps plan the transition
to any unfamiliar fixed-wing airplanes, including type-certificated (TC) and/or
experimental airplanes. It provides information and guidance to owners and
pilots of experimental, simple, complex, high-performance, and/or unfamiliar
airplanes. It also provides information to flight instructors who teach in
these airplanes.

The FAA also continues to promote AC 90-116, Additional Pilot Program (APP) for
Phase I Flight Test. The AC provides information and guidance for flight
testing experimental aircraft. The APP was developed to improve safety by
enhancing Builder/Owner Pilot (BP) skills and mitigate risks associated with
Phase I flight testing of aircraft built from commercially produced kits
through the use of a qualified additional pilot and powerplant testing. The APP
is an optional program which provides another pathway to conducting Phase I
flight testing. The traditional option for a pilot to test their aircraft solo
during Phase I is not covered or affected by this AC, and remains an option for
those who choose to do so in accordance with their aircraft’s operating
limitations.

Certificated Flight Instructors

The FAA has been working with the flight instructor community to improve GA
safety through improved flight instructor training, most notably recurrent
training.

Aviation Universities and Experts

Working through the Aviation Accreditation Board International (AABI) and the
University Aviation Association (UAA), the FAA is partnering with the aviation
academic community to leverage their expertise and develop best practices for
improving flight training.

Background

The General Aviation Accident Rate

Although the number of fatal general aviation accidents over the last decade
has decreased, so have the estimated total GA flight hours. This is likely due
to economic factors.

From 2004 to 2009, fatal accidents from Controlled Flight Into Terrain (CFIT)
have been reduced by approximately 50 percent.

However, until the 2015 estimate, the general aviation fatal accident rate
appears to have remained relatively static based on the FAA’s flight hours
estimates. The preliminary estimate for FY 2015 is a fatal accident rate of
1.03 with 238 GA fatal accidents with 384 fatalities. In 2014, the fatal
accident rate was 1.09 fatal accidents per 100,000 hours, with 252 fatal
accidents. In 2013, the fatal accident rate was 1.11 fatal accidents per
100,000 hours, with 259 GA fatal accidents. In 2012, the fatal accident rate
was 1.09 fatal accidents per 100,000 hours flown, with 267 GA fatal accidents.
In 2011, the fatal accident rate was 1.12 fatal accidents per 100,000 hours
flown, with 278 GA fatal accidents. In 2010, the fatal accident rate was 1.10
fatal accidents per 100,000 hours flown, with 272 GA fatal accidents.

Previous five-year GA fatal accident rates and numbers:
GA Fatal Accidents per 100,000 Hours GA Fatal Accidents GA
Fatalities
FY10 1.10 272 471
FY11 1.12 278 469
FY12 1.09 267 442
FY13 1.11 259 449
FY14 1.09 252 435
FY15 (est) 1.03 238 384



The Top 10 Leading Causes of Fatal General Aviation Accidents 2001-2013:

Loss of Control Inflight
Controlled Flight Into Terrain
System Component Failure – Powerplant
Low Altitude Operations
Other
System Component Failure – Non-Powerplant
Fuel Related
Unknown or Undetermined
Windshear or Thunderstorm
Midair Collisions

###
 




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