by Paul Scharre
FLA
Fast Lightweight Autonomy
GGE
Group of Governmental Experts
GPS
global positioning system
ICRAC
International Committee for Robot Arms Control
ICRC
International Committee of the Red Cross
IEEE
Institute of Electrical and Electronics Engineers
IFF
identification friend or foe
IHL
international humanitarian law
IMU
inertial measurement unit
INF
Intermediate-Range Nuclear Forces
IoT
Internet of Things
J-UCAS
Joint Unmanned Combat Air Systems
LIDAR
light detection and ranging
LOCAAS
Low Cost Autonomous Attack System
LRASM
Long-Range Anti-Ship Missile
MAD
mutual assured destruction
MARS
Mobile Autonomous Robotic System
MMW
millimeter-wave
NASA
National Aeronautics and Space Administration
NGO
nongovernmental organization
NORAD
North American Aerospace Defense Command
ONR
Office of Naval Research
OODA
observe, orient, decide, act
OPM
Office of Personnel Management
PGM
precision-guided munition
PLC
programmable logic controllers
RAS
IEEE Robotics and Automation Society
R&D
research and development
ROE
rules of engagement
SAG
surface action group
SAR
synthetic aperture radar
SAW
Squad Automatic Weapon
SEC
Securities and Exchange Commission
SFW
Sensor Fuzed Weapon
SORT
Strategic Offensive Reductions Treaty
START
Strategic Arms Reduction Treaty
SUBSAFE
Submarine Safety
TASM
Tomahawk Anti-Ship Missile
TBM
tactical ballistic missile
TJ
Thomas Jefferson High School
TLAM
Tomahawk Land Attack Missile
TRACE
Target Recognition and Adaption in Contested Environments
TTO
Tactical Technology Office
TTP
tactics, techniques, and procedures
UAV
uninhabited aerial vehicle
UCAV
uninhabited combat aerial vehicle
UK
United Kingdom
UN
United Nations
UNIDIR
UN Institute for Disarmament Research
U.S.
United States
WMD
weapons of mass destruction
Illustration Credits
(All photographs courtesy of Paul Scharre unless otherwise indicated.)
Text images:
here
Center for a New American Security
here
U.S. Navy
here
© Lockheed Martin
here
© Lockheed Martin
here
Center for a New American Security
here
Center for a New American Security
here
Anh Nguyen, Jason Yosinski, Jeff Clune
here
Christian Szegedy, Wojciech Zaremba, Ilya Sutskever, Joan Bruna, Dumitru Erhan, Ian Goodfellow, Rob Fergus
here
Anh Nguyen, Jason Yosinski, Jeff Clune
here
U.S. Air Force
Insert images:
1.
U.S. Marine Corps Historical Division Archives
2.
John Warwick Brooke / Imperial War Museum collection
3.
Mass Communication Specialist 3rd Class Eric Coffer / U.S. Navy
4.
U.S. Navy
5.
Mass Communication Specialist Seaman Anthony N. Hilkowski / U.S. Navy
6.
Israel Aerospace Industries
7.
U.S. Navy
8.
Glenn Fawett / Department of Defense
9.
Senior Airman Christian Clausen / U.S. Air Force
10.
NASA
11.
Alan Radecki / U.S. Navy courtesy of Northrop Grumman
12.
Elizabeth A. Wolter / U.S. Navy
13.
Israel Aerospace Industries
14.
John F. Williams / U.S. Navy
15.
John F. Williams / U.S. Navy
16.
John F. Williams / U.S. Navy
17.
DARPA
18.
DARPA
19.
DARPA
20.
Specialist Lauren Harrah / U.S. Army
21.
DARPA
22.
Daryl Roy / Aegis Training and Readiness Center
23.
Mass Communication Specialist 2nd Class Michael Ehrlich / U.S. Navy
24.
Mass Communication Specialist 2nd Class Michael Ehrlich / U.S. Navy
25.
John F. Williams / U.S. Navy
26.
Ben Santos / U.S. Forces Afghanistan
27.
Campaign to Stop Killer Robots
28.
DJI Technology, Inc.
29.
Courtesy Paul Scharre
30.
Staff Sergeant Sean Harp / Department of Defense
31.
Mass Communication Specialist 3rd Class Sean Weir / U.S. Navy
Index
Page numbers listed correspond to the print edition of this book. You can use your device’s search function to locate particular terms in the text.
Page numbers followed by f indicate figures and illustrations; page numbers followed by m indicate maps; page numbers followed by t indicate tables.
A800 Mobile Autonomous Robotic System (MARS), 114
AAAI (Association for the Advancement of Artificial Intelligence), 243
AACUS (Autonomous Aerial Cargo/Utility System) helicopter, 17
ABM (Anti-Ballistic Missile) Treaty (1972), 301
accidents, see failures
accountability gap, 258–63
acoustic homing seeker, 39
acoustic shot detection system, 113–14
active seekers, 41
active sensors, 85
adaptive malware, 226
advanced artificial intelligence; see also artificial general intelligence
aligning human goals with, 238–41
arguments against regarding as threat, 241–44
building safety into, 238–41
dangers of, 232–33
drives for resource acquisition, 237–38
future of, 247–48
in literature and film, 233–36
militarized, 244–45
psychological dimensions, 233–36
vulnerability to hacking, 246–47
“advanced chess,” 321–22
Advanced Medium-Range Air-to-Air Missile (AMRAAM), 41, 43
Advanced Research Projects Agency (ARPA), 76–77
adversarial actors, 177
adversarial (fooling) images, 180–87, 181f, 183f, 185f, 253, 384n
Aegis combat system, 162–67
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achieving high reliability, 170–72
automation philosophy, 165–67
communications issues, 304
and fully autonomous systems, 194
human supervision, 193, 325–26
Patriot system vs., 165–66, 171–72
simulated threat test, 167–69
testing and training, 176, 177
and USS Vincennes incident, 169–70
Aegis Training and Readiness Center, 163
aerial bombing raids, 275–76, 278, 341–42
Afghanistan War (2001– ), 2–4
distinguishing soldiers from civilians, 253
drones in, 14, 25, 209
electromagnetic environment, 15
goatherder incident, 290–92
moral decisions in, 271
runaway gun incident, 191
AGI, see advanced artificial intelligence; artificial general intelligence
AGM-88 high-speed antiradiation missile, 141
AI (artificial intelligence), 5–6, 86–87; see also advanced artificial intelligence; artificial general intelligence
AI FOOM, 233
AIM-120 Advanced Medium-Range Air-to-Air Missile, 41
Air Force, U.S.
cultural resistance to robotic weapons, 61
future of robotic aircraft, 23–25
Global Hawk drone, 17
nuclear weapons security lapse, 174
remotely piloted aircraft, 16
X-47 drone, 60–61
Air France Flight 447 crash, 158–59
Alexander, Keith, 216, 217
algorithms
life-and-death decisions by, 287–90
for stock trading, see automated stock trading
Ali Al Salem Air Base (Kuwait), 138–39
Alphabet, 125
AlphaGo, 81–82, 125–27, 150, 242
AlphaGo Zero, 127
AlphaZero, 410
al-Qaeda, 22, 253
“always/never” dilemma, 175
Amazon, 205
AMRAAM (Advanced Medium-Range Air-to-Air Missile), 41, 43
Anderson, Kenneth, 255, 269–70, 286, 295
anthropocentric bias, 236, 237, 241, 278
anthropomorphizing of machines, 278
Anti-Ballistic Missile (ABM) Treaty (1972), 301
antipersonnel autonomous weapons, 71, 355–56, 403n
antipersonnel mines, 268, 342; see also land mines
anti-radiation missiles, 139, 141, 144
anti-ship missiles, 62, 302
Anti-submarine warfare Continuous Trail Unmanned Vessel (ACTUV), 78–79
anti-vehicle mines, 342
Apollo 13 disaster, 153–54
appropriate human involvement, 347–48, 358
appropriate human judgment, 91, 347, 358
approval of autonomous weapons, see authorization of autonomous weapons
Argo amphibious ground combat robot, 114
Arkhipov, Vasili, 311, 318
Arkin, Ron, 280–85, 295, 346
armed drones, see drones
Arms and Influence (Schelling), 305, 341
arms control, 331–45
antipersonnel weapons, 355–56
ban of fully autonomous weapons, 352–55
debates over restriction/banning of autonomous weapons, 266–69
general principles on human judgment’s role in war, 357–59
inherent problems with, 284, 346–53
legal status of treaties, 340
limited vs. complete bans, 342–43
motivations for, 345
preemptive bans, 343–44
“rules of the road” for autonomous weapons, 356–57
successful/unsuccessful treaties, 332–44, 333t–339t
types of weapons bans, 332f
unnecessary suffering standards, 257–58
verification regimes, 344–45
arms race, 7–8, 117–19
Armstrong, Stuart, 238, 240–42
Army, U.S.
cultural resistance to robotic weapons, 61
Gray Eagle drone, 17
overcoming resistance to killing, 279
Patriot Vigilance Project, 171–72
Shadow drone, 209
ARPA (Advanced Research Projects Agency), 76–77
Article 36, 118
artificial general intelligence (AGI); See also advanced artificial intelligence
and context, 238–39
defined, 231
destructive potential, 232–33, 244–45
ethical issues, 98–99
in literature and film, 233–36
narrow AI vs., 98–99, 231
timetable for creation of, 232, 247
as unattainable, 242
artificial intelligence (AI), 5–6, 86–87; see also advanced artificial intelligence; artificial general intelligence
“Artificial Intelligence, War, and Crisis Stability” (Horowitz), 302, 312
Artificial Intelligence for Humans, Volume 3 (Heaton), 132
artificial superintelligence (ASI), 233
Art of War, The (Sun Tzu), 229
Asaro, Peter, 265, 285, 287–90
Asimov, Isaac, 26–27, 134
Assad, Bashar al-, 7, 331
Association for the Advancement of Artificial Intelligence (AAAI), 243
Atari, 124, 127, 247–48
Atlas ICBM, 307
atomic bombs, see nuclear weapons
ATR (automatic target recognition), 76, 84–88
attack
decision to, 269–70
defined, 269–70
human judgment and, 358
atypical events, 146, 176–78
Australia, 342–43
authorization of autonomous weapons, 89–101
DoD policy, 89–90
ethical questions, 90–93
and future of lethal autonomy, 96–99
information technology and revolution in warfare, 93–96
past as guide to future, 99–101
Auto-GCAS (automatic ground collision avoidance system), 28
automated machines, 31f, 32–33
automated (algorithmic) stock trading, 200–201, 203–4, 206, 210, 244, 387n
automated systems, 31
automated weapons
first “smart” weapons, 38–40
precision-guided munitions, 39–41
automatic machines, 31f
automatic systems, 30–31, 110
automatic target recognition (ATR), 76, 84–88
automatic weapons, 37–38
Gatling gun as predecessor to, 35–36
machine guns, 37–38
runaway gun, 190–91
automation (generally)
Aegis vs. Patriot, 165–66
and complex systems, 156–59
and “moral buffer,” 277
role in accidents, 155–56
automation bias, 144–45, 170, 278–79, 324–25
automobiles
autonomous features, 28
self-driving, 28, 31–32, 147, 217, 277
Autonomous Aerial Cargo/Utility System (AACUS) helicopter, 17
autonomous cyberweapons, 222–30
autonomous machines, 31f, 32–33
autonomous navigation, autonomous targeting vs., 123–24
autonomous swarms, 11–13
autonomous targeting, 116, 123–24, 187
autonomous weapons, 130–33
accountability gap, 258–63
antipersonnel weapons, 71, 355–56, 403n
arms race in, 117–19
authorization of, 89–101
automatic weapons as predecessor to, 37–38
bans of antipersonnel weapons, 355–56
basics, 35–56
Brimstone missile, 105–8
and communications disruption, 303–4, 328
complete ban of, 352–55
consequences of, 272
cyber warfare, 211–30
danger of d
elegating authority to, 192–95, 192f
destructive potential of out-of-control logarithms, 207–10
early history, 35–40
ethical issues, 6–8, 271–96
experimental programs, 59–77
FLA as step towards, 70
flash wars, 229–30
as fundamentally inhuman, 285–87
future of, 54–56, 96–99
ground combat robots, 111–17
hacking of, 246–47
human dignity and, 287–90
human role in deployment, 52–53; see also human judgment
inevitability of accidents, 175–79
laws of war and, 251–70
legal status, 258–59
limitations, 53–54
limited autonomy of homing munitions, 42
LRASM designation, 63–65, 68
mines, 50–51
outside of U.S., 102–19
PGMs, 40–41
potential for behaving more ethically than humans, 279–84
potential to be more humane than conventional weapons, 6
potential to inflame crises, 317–18
problems inherent in banning of, 346–53
regulation, see arms control
risk of failure, 189–95
“rules of the road” treaties, 356–57
Samsung SGR-A1 robot, 104–5
secret development of, 8
stability and, 297–318
swarms, 11–13
autonomous weapon systems, 44–45
defined, 44
failures in, 137–60
fully autonomous systems, 46–50
human intervention and risks, 147–49
supervised, see supervised autonomous weapon systems
unanticipated consequences of failures, 145–47
autonomy
dimensions of, 27–33
