
[Federal Register Volume 78, Number 138 (Thursday, July 18, 2013)]
[Notices]
[Pages 42994-42997]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2013-17169]


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DEPARTMENT OF TRANSPORTATION

Federal Aviation Administration

Office of Commercial Space Transportation


Waiver of 14 CFR 437.29 and 437.55(a) for Scaled Composites, LLC

AGENCY: Federal Aviation Administration (FAA), DOT.

ACTION: Notice of waiver.

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SUMMARY: This notice concerns a waiver to Scaled Composites, LLC 
(Scaled) from the requirements of 14 CFR 437.29 and 437.55(a) to 
provide the FAA a hazard analysis that identifies, mitigates, and 
verifies and validates mitigation measures for hazards created by 
software and human error. The FAA finds that a waiver is in the public 
interest and will not jeopardize public health and safety, safety of 
property, and national security and foreign policy interests of the 
United States.

FOR FURTHER INFORMATION CONTACT: For technical questions concerning 
this waiver, contact Michael Kelly, Chief Engineer, Commercial Space 
Transportation, AST-004, 800 Independence Avenue SW., Washington, DC 
20591; telephone: (202) 267-7588; email: Michael.S.Kelly@faa.gov. For 
legal questions concerning this waiver, contact Sabrina Jawed, 
Attorney-advisor, Space Law Branch, AGC-250, Office of the Chief 
Counsel, Regulations Division, Federal Aviation Administration, 800 
Independence Avenue SW., Washington, DC 20591; telephone: (202) 267-
8839; email: Sabrina.Jawed@faa.gov.

SUPPLEMENTARY INFORMATION: 

Background

    On May 23, 2012, the FAA's Office of Commercial Space 
Transportation (AST) issued Scaled Experimental Permit No. 12-007. On 
March 6, 2013, Scaled submitted an application to renew its 
experimental permit, which was to expire on May 22, 2013. In its 
application for renewal, Scaled included modifications to its permit to 
reflect changes made to SpaceShipTwo (SS2). In March of 2013, Scaled 
provided updates to the original hazard analysis for FAA assessment. 
Upon reviewing Scaled's application to renew its permit, the FAA 
determined that Scaled did not fully meet the requirements of 14 CFR 
437.29 and 437.55(a).
    Scaled did not meet these requirements because it did not identify 
human or software error as causing

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hazards. It did not identify these errors as causing hazards on the 
grounds that the mitigations it had in place would prevent the hazards 
from occurring. Scaled emphasizes aircraft and spacecraft design 
redundancy, flight and maintenance procedures, and ground and flight 
crew training to mitigate against hazards caused by human and software 
errors.
    Scaled employs a number of different approaches to safety derived 
from its aviation heritage. These include a training program, an 
incremental approach to flight testing, use of chase planes, use of a 
two-pilot model, the remoteness of its operating area and use of a 
winged vehicle.

The FAA's Authority and Waiver Criteria

    The FAA issues experimental permits under authority granted to the 
Secretary of Transportation under 51 U.S.C. 50906 and delegated to the 
FAA Administrator. The FAA may waive an experimental permit requirement 
if the waiver (1) Will not jeopardize public health and safety or 
safety of property, (2) will not jeopardize national security and 
foreign policy interests of the United States, and (3) will be in the 
public interest. 51 U.S.C. 50905(b)(3); 14 CFR 404.5(b).

A. Scaled did not Meet the Requirements of Sections 437.29 and 
437.55(a)

    Section 437.29 requires an applicant for a permit to perform a 
hazard analysis that complies with section 437.55(a), and to provide 
the FAA all results of each step of the hazard analysis required by 
section 437.55(a). Section 437.55(a) requires an applicant to perform a 
hazard analysis that identifies, mitigates, and validates and verifies 
mitigation measures for each hazard. Scaled did not identify and 
describe all hazards resulting from human and software error as part of 
its hazard analysis, and therefore did not fully satisfy sections 
437.29 and 437.55(a).

B. Operation of the SpaceShipTwo Vehicle

    The FAA waives the hazard analysis requirements of sections 437.29 
and 437.55(a) for Scaled for software and human error because the SS2 
operation will not jeopardize public health and safety or safety of 
property, national security or foreign policy interests of the United 
States, and is in the public interest.
i. Public Health and Safety or Safety of Property
    A hazard analysis serves to reduce risk to the public by limiting 
the possibility of a vehicle mishap. Although Scaled did not complete 
its hazard analysis as required by the regulations, the combination of 
its training program, incremental approach to flight testing, use of 
chase planes, and two-pilot model, as well as the limited duration of 
the permit and thus the waiver, the remoteness of its operating area 
and its use of a winged vehicle combine to allow the FAA to find that 
Scaled's activities will not jeopardize public health and safety or 
safety of property.
(1) Training Program
    Although Scaled's hazard analysis under section 437.55(a) did not 
associate the hazards it mitigated specifically with whether they were 
caused by human error, Scaled's training program provides part of the 
basis for the FAA to find that Scaled's permitted activities will not 
jeopardize public health and safety or safety of property. Scaled's 
approach to flight safety and training derives from aviation flight 
testing. Scaled generally requires that its pilots have at least 1,500 
hours of flight time, as well as specific experience in jet and glider 
aircraft. Scaled uses three different devices to train SS2 pilots and 
crew. The devices are (1) An SS2 simulator, (2) a WhiteKnightTwo 
aircraft, and (3) an aerobatic aircraft, or other g tolerance training 
device.
    Scaled's SS2 simulator mimics the SS2 itself. The simulator 
duplicates the SS2 cabin layout, including the avionics, switches, 
controls, and windows. The simulator also provides wrap-around video 
simulation and sound effects. This gives the pilot depth perception and 
the ability to make accurate landing approaches and other maneuvers. 
The simulator also mimics SS2 flight dynamics. The simulator has the 
ability to dynamically simulate both control forces and effectiveness 
in all flight regimes. The control forces are dynamically linked to 
aerodynamics of all phases of flight. The simulator also simulates wind 
profiles, thrust asymmetries, and an array of failure conditions.
    Using flight simulators allows for in-depth training, including the 
practice of critical emergency procedures, in a safer environment. 
Scaled's use of a flight simulator that mimics the SS2 allows Scaled's 
pilots to become familiar with how the SS2 operates and responds during 
launch, flight, and reentry, and helps improve the SS2 pilot's response 
time. Simulators allow pilots to gain experience flying the spacecraft. 
Simulators also allow pilots and crew to practice flying in emergency 
or other flight conditions that would be dangerous to recreate in the 
airspace.
    Scaled also uses its flight simulator to develop mission specific 
trajectories, identify the envelopes of potential failure trajectories, 
and validate flight rules and abort procedures. The simulator models 
nominal and off-nominal flight environment and incorporates reasonably 
foreseeable failure scenarios. Scaled updates the simulations based on 
data obtained from actual flights to improve the simulator's fidelity 
and accuracy. Scaled runs its simulator 1.4 times faster than actual 
flight in order to ensure that pilots and ground crew are trained to 
respond quickly to various flight conditions and anomalies. By 
practicing various nominal and non-nominal scenarios in the SS2 
simulator, pilots are able to rehearse how to operate the SS2. This 
training also enhances the speed and reaction time of the crew, and 
allows the crew to practice working together to run various procedures, 
such as going through the checklist. Continuous updates ensure that the 
simulator provides the most accurate modeling of the way the vehicle 
will perform at various altitudes and attitudes, so that the crew can 
best experience how the SS2 will react during flight.
    SS2's flight crew also uses WhiteKnightTwo for training because it 
replicates SS2's flight profile. When the WhiteKnightTwo's spoil-flaps 
are deployed, it has a similar flight path and descent profile to the 
SS2. SS2 pilots fly at least three WhiteKnightTwo flights simulating 
SS2 approaches prior to an SS2 flight. Flight crew are able to fly in 
the WhiteKnightTwo in order to practice what it will be like when they 
are flying the SS2.
    Use of the WhiteKnightTwo builds upon the simulator training. While 
the simulator mimics flight conditions in most cases, it is not a 
multi-axis simulator, which means it will not pitch in a vertical 
motion and not always mimic real flight conditions. The WhiteKnightTwo 
is able to replicate the full flight and the actual feel of flight in 
the SS2. Additional training in the WhiteKnightTwo, which has a cockpit 
that mimics the SS2, allows pilots and crew to experience more accurate 
flight conditions than the simulator in some instances.
    Lastly, as part of ongoing g tolerance training, the SS2 crew 
completes an aerobatic training course that covers g tolerance, motion 
sickness, and unusual

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attitudes. This training is performed in a small aerobatic aircraft. 
SS2 crew may also train in a g tolerance training device, such as a 
centrifuge.
    To the extent that physical human vulnerability plays a role in 
safety, Scaled's coverage of g tolerance, motion sickness and unusual 
attitudes helps safety on two fronts. First, it trains a pilot to 
recognize the onset of, experience, and recover from the anticipated 
stresses of launch. Also, it allows an operator to determine that a 
pilot remains functional while withstanding the anticipated stresses of 
the launch.
(2) Incremental Approach to Flight Testing
    Another important factor in the FAA's ability to grant this waiver 
is Scaled's incremental approach to flight testing. Scaled's test 
program is divided into three phases: 1) Subsonic glide flights, 2) 
powered flight to maximum altitude, and 3) repeatability 
demonstrations.
    Scaled employs an incremental approach to flight testing, and 
flight tests in three different phases. Before moving to a new phase, 
Scaled ensures that it has mitigated or eliminated the hazards it 
observed during the previous phase. By changing only a limited number 
of variables at a time, Scaled is able to identify which variables 
result in hazards, isolate those variables, and take steps to mitigate 
or eliminate the hazards. Scaled then runs additional tests until it is 
satisfied that it has eliminated or mitigated the hazard.
    During phase one, WhiteKnightTwo releases SS2 to allow Scaled to 
observe its actions during glide flight. During phase two, 
WhiteKnightTwo releases SS2, and SS2 performs rocket-powered flight. 
Phase two ends with a successful demonstration of the maximum altitude 
performance of the vehicle. Phase three demonstrates that SS2 can 
repeatedly perform proficiently during rocket-powered flight. For each 
new flight, Scaled varies only one parameter at a time, especially in 
the case of critical components where a failure could quickly take the 
aircraft from a safe flight condition to a potentially hazardous one. 
For example, Scaled tests the feathering operation of the vehicle 
during each phase. To do this, Scaled feathers and defeathers the 
vehicle in flight at varying Mach numbers and altitudes. Test pilots 
will evaluate the handling of the vehicle in both the feathered and 
unfeathered configuration at each Mach number and altitude.
    Incremental testing ensures that Scaled is able to study the 
reactions of the vehicle during different stages of flight. By moving 
from a less complex flight (glide) to a more complex flight (rocket-
powered), Scaled is able to isolate and identify variables that cause 
hazards, address those hazards, and re-test to ensure that the 
mitigations were effective.
(3) Use of Chase Planes and Two-Pilot Model
    Scaled uses two chase planes and two pilots for SS2's flight. 
Scaled's use of two chase planes and two pilots allows Scaled to 
identify problems when the system itself fails to disclose them, and 
provides redundancy. The chase planes are able to monitor the 
WhiteKnightTwo and the SS2, so that if there is a computer failure and 
the pilot would not otherwise know of an external failure, such as the 
failure of the landing gear to lower, the chase planes are able to 
provide that information. Upon reentry of SS2, Scaled uses 
WhiteKnightTwo as an additional chase plane.
    The pilots of chase planes look for any external abnormalities in 
SS2. If an abnormality is identified, the chase plane is able to 
communicate the issue to both the ground crew and the pilots onboard 
SS2. If the communications and telemetry systems stop functioning in 
the carrier aircraft, the chase planes can communicate with the carrier 
aircraft by radio. The radio operates on a separate frequency than the 
telemetry system on the SS2 and WhiteKnightTwo. Also, if the SS2 
multifunctional displays and the independent attitude/air data computer 
and display become inoperable during gliding flight, the chase planes 
can lead the vehicle to landing if necessary.
    The chase planes provide additional situational awareness for 
pilots and crew on the carrier aircraft and SS2, and ground crew. The 
use of two chase planes is a safety measure that eliminates or 
mitigates potential hazards. The chase planes are able to identify 
anomalies and communicate them directly to the SS2 or carrier airplane 
pilots. They serve as an extra set of eyes to ensure that any unplanned 
events that do occur are identified and addressed as quickly as 
possible.
    Scaled uses two rather than one pilot because if one pilot becomes 
incapacitated, the other pilot can fly the spacecraft. In both 
emergencies and nominal flight operations, both pilots are able to work 
together to enhance situational awareness. For example, each pilot is 
able to verify with the other that the checklist is correct and the 
spacecraft is functioning normally. Pilot error on the part of one 
pilot can be corrected by the other, and in situations where a decision 
must be made, two fully-qualified pilots can consult quickly. The use 
of two pilots may eliminate or mitigate potential hazards.
(4) Duration
    Because an experimental permit is by design a brief authorization 
of one year, minimal levels of residual error and thus risk may 
accumulate, but not at levels that would jeopardize public health and 
safety. Without a full system safety analysis of software and human 
error, error may accumulate over time. For example, latent software and 
hardware incompatibilities may develop with changes and updates. 
Although such error could build over time, it would not within the time 
period of a permit. Additionally, the one-year duration of the permit 
means that this waiver will also be of brief duration, and there is a 
reduced likelihood of employee turnover and any attendant loss of 
corporate memory at Scaled in that time.
(5) Remoteness of Operating Area and Controllability of Vehicle
    Finally, Scaled's operating area is remote enough that, were it to 
experience a catastrophic failure, it would not jeopardize public 
health and safety. Additionally, the SS2 is a winged vehicle, and 
therefore maneuverable.
    Scaled is conducting launches of SS2 in a very remote location. The 
southern end of the operating area where Scaled plans to conduct its 
test flights has a population density of about 17 people per square 
mile. The area Scaled plans to use for the rocket-powered ascent phase 
of flight includes approximately 450 people in a 140 square mile area, 
or just over three people per square mile. The operating area for SS2 
is also very large at approximately 5,000 square miles, in order to 
ensure that SS2 operations are contained within a sparsely populated 
area.
    Additionally, SS2 is a winged vehicle. Scaled's pilots are able to 
control and maneuver SS2 to ensure it stays away from populated areas, 
including the exclusion zones inside the operating area. The pilots can 
ensure that the SS2 operates only in the areas with the sparsest 
population.
    Scaled did not fully comply with the hazard analysis required by 
section 437.55(a), but the FAA finds that Scaled's operations will not 
jeopardize public health and safety or safety of property because of 
the combination of its flight test program, training, incremental 
flight testing, chase planes, two pilots, and the remoteness of its 
operating area.

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ii. National Security and Foreign Policy Implications
    This waiver does not have an impact on any national security or 
foreign policy interests of the United States. Scaled's launch 
operations will take place within the United States and within a 
specifically defined area that is used for military operations.
iii. Public Interest
    The FAA finds that granting this waiver is in the public interest. 
The Commercial Space Launch Act provides that the United States should 
encourage private sector launches, reentries, and associated services. 
Additionally, Congress established Chapter 509 to promote economic 
growth and entrepreneurial activity through use of the space 
environment for peaceful purposes.
    This waiver is consistent with the public interest goals of Chapter 
509. The SS2 test flights will stimulate economic growth, spur 
technological developments and create aerospace business opportunities 
such as carrying scientific payloads and space tourists on trips to the 
edge of space and back. The FAA finds that granting this waiver is in 
the public interest because the SS2 flights further the purposes 
Congress articulated for Chapter 509.

    Issued in Washington, DC on July 9, 2013.
George C. Nield,
Associate Administrator for Commercial Space Transportation.
[FR Doc. 2013-17169 Filed 7-17-13; 8:45 am]
BILLING CODE 4910-13-P


