The Singularity Is Near: When Humans Transcend Biology (119 page)
Read The Singularity Is Near: When Humans Transcend Biology Online
Authors: Ray Kurzweil
Tags: #Non-Fiction, #Fringe Science, #Retail, #Technology, #Amazon.com
gene therapy and, 215–216, 219, 220, 256, 323, 416–417, 553
n
guidelines for, 402, 418
nanotechnology compared with, 227, 232, 251, 256, 257, 412
regulation of, 416–417, 423
in reversal of aging, 28, 141, 206, 212–215, 218–221, 256, 257, 323, 371, 373, 396
in reversal of degenerative disease, 210, 217–221, 396, 553
n
–555
n
RNA interference and, 12, 214, 256, 323, 417, 422, 551
n
see also
cloning; stem cells
bioweapons program, 393
Bird, Jon, 271
birth control,
see
contraception
Bissi, E., 541
n
Black, Keith L., 541
n
black holes, 23, 404, 503
n
event horizon of, 7, 23, 29, 363, 486–487, 503
n
as ultimate computer, 362–364
universe-generating, 360
Blakeslee, Sandra, 548
n
Block, Steven, 157
blood:
nanobots in, 248, 253–257, 300, 303, 317, 377, 432, 472
programmable, 305–306
protein in, 282
blood-brain barrier (BBB), 163–165, 242
blood cells, 254, 276
mechanical red,
see
respirocytes
white, microbivores as replacements for, 254, 306
blood vessels, angiogenesis and, 218
blue goo, 416
Boahen, Kwabena, 530
n
body, biological, 199, 257–258
emotions and, 193, 203
functional simulations of, 124
human longevity and, 325
identity and, 315, 383–387
limits of, 9, 27, 28, 29, 203, 325
nanotechnology problems and, 251
pattern of, 371, 383–384
reverse engineering of, 127
body, GNR impact on, 299–311, 583
n
–586
n
brain and, 307–309, 585
n
digestive system and, 301–305
heart and, 306–307
organ elimination and, 304–307, 310–311
programmable blood and, 305–306
body, virtual, 28–29, 199, 203, 319, 325
Boehm, T., 554
n
Boese, Christine, 338, 589
n
bombs:
atomic, 392–393, 404, 408, 594
n
hydrogen, 391, 401, 404, 408
Bonds, A. B., 541
n
Bone
, 215
bone metabolism markers, 215
Bonner, John Tyler, 509
n
bonobos, 192
Bostrom, Nick D., 259–260, 369, 401, 403, 404, 596
n
Bouissou, Brigitte, 336, 589
n
boundaries, of self, 387
bowel functions, 304
Boyer, Paul D., 501
n
BP Amoco, 102
Bradbury, Robert, 350
Brader, Mark, 515
n
brain, human, 4, 71–72, 120, 257–258
aesthetics and, 310
analog processes in, 71, 126, 147–151, 428, 442, 483
architecture of regions of, 152–153
cerebellum of,
see
cerebellum
chaos of, 148, 149, 151, 152, 178, 198, 440, 446, 449, 450, 452, 460, 462, 483
of children, 152, 177
Church-Turing thesis and, 454–455
complexity of, 89, 145, 147, 198, 200, 428–429, 430, 442–450, 463, 465, 475, 523
n
computational efficiency of, 137–138
computer compared with, 149–153, 293, 444
computer’s interfacing with, 194–195
contradictory views held by, 152
damage to, 173, 177
as deeply connected network, 152
design of, 46–47, 85, 147, 153, 317, 429, 442–443, 444, 446–449, 479, 517
n
digital processes in, 71, 85, 126, 147–151, 442, 483, 519
n
emergent properties of, 151, 463–464, 475, 477–478
evolution as learning paradigm of, 152
evolution of, 16, 27, 129, 143, 146, 505
n
–506
n
, 522
n
experience beamers and, 316, 380
fractal nature of, 46–47, 68, 446–449
frontal lobe of, 505
n
genome and, 89, 147, 180, 428–429, 440, 443–444, 523
n
GNR age impact on, 307–309, 312–320, 564
n
, 586
n
–587
n
gray-matter tissue in, 27, 505
n
–506
n
;
see also
cortex, cerebral
hippocampus of,
see
hippocampus
as holographic, 148, 152, 483
identity and, 383–387
imperfections of, 151–152
implants and,
see
neural implants
left prefrontal region of, 175
limitations of, 8–9, 20, 27, 143, 203, 227, 340, 445, 503
n
music in, 519
n
nanobots in, 28, 163–167, 201, 300, 316, 374
nonbiological intelligence in, 28, 201–202, 377, 472
parallelism of, 8, 25–26, 130, 148, 149, 150, 270, 439, 462, 483, 504
n
parietal lobes of, 202
pattern recognition and, 8, 16, 25–26, 124, 143, 149, 150, 173, 441, 456, 501
n
patterns of, 325, 371, 383–384, 463–464, 475, 477–478
plasticity of, 27, 151, 172–178, 202, 203, 445
quantum computing and, 450–452
quantum wave collapse in, 450–451
randomness of, 149, 151, 152, 153, 440, 443–444, 449
redesign of, 27, 307–309, 383
repetition and redundancy in, 146, 147, 428
self-organizing processes of, 25–26, 148, 152, 153, 293, 371, 440, 443–444, 446, 456, 460, 483, 501
n
, 523
n
size of, 452
slow circuitry of, 150
spindle cells in, 191–194,
192
, 468
as “sub-critical,” 259
surgery on, 315–316, 384
three-dimensional organization of, 68, 72
-to-brain communication, 316, 585
n
uploading of, 166, 198–202, 324, 451, 548
n
–549
n
virtual reality and, 487
weight of, 137
see also
computational capacity of the human brain, achieving of
brain, of primates, 27, 152
brain cells, gene therapy and, 215, 216
brain models, 407, 443, 445
analytic vs. neuromorphic, 146
early attempts at, 154–157
electronic neurons and, 173
latest technology as, 458
neuron, 4, 172–173, 428, 443, 446, 452, 455
peeling the onion and, 148–149
of regions, 177–194, 197, 265, 292–293, 428, 440, 443, 452, 479
reverse engineering and, 4, 25, 143–149, 153, 167–194, 196, 197, 428, 439, 538
n
, 541
n
–547
n
right level for, 153, 167–169
subneural, 169–172, 541
n
see also
neuromorphic models
brain reverse engineering, 143–203, 265, 317, 377, 407, 435, 439, 446, 456, 485, 522
n
, 537
n
–549
n
accelerated pace of, 195–198, 293, 428
brain compared with computer and, 149–153, 461, 463
computational capacity and, 122, 127
exponential growth of, 73, 144, 196–98
GNR age and, 307–308
neural nets and, 269–270, 574
n
at neuron level, 163–167, 440, 444, 530
n
overview of, 144–149, 537
n
–538
n
reverse engineering of computer compared with, 157–158
self-understanding and, 4, 198
sound localization and, 123–124
strong AI and, 84, 93, 194–195, 293, 294, 407, 461
tools for, 25, 144–145, 158–162, 197
see also
brain models; brain scanning; neuromorphic models
brain scanning, 73, 443
bandwidth of, 25, 144, 161, 197, 292
brain models and, 147, 171–174, 178, 292–293, 407
destructive, 161–162
exponential growth of, 25, 161, 197, 407
fMRI and, 150, 158, 160–161
imaging time and, 160,
160
noninvasive, 158,
159
, 162–163, 164, 197
price-performance of, 144, 197, 265, 292
resolution improved in, 25, 158,
159
, 160–163, 167, 175, 197, 265, 292, 407, 428
reverse engineering and, 25, 144, 147, 158–67, 171–172, 175, 176, 254, 262
tools for, 158–162, 197, 428
uploading the brain and, 166, 198–202, 324, 548
n
–549
n
using nanobots, 163–167, 197, 200, 262, 293
brain simulations, 144, 145, 178, 196, 197, 265, 292, 293, 407, 428, 439, 445, 450, 452
functional, 122–25, 148, 150, 527
n
, 529
n
neuromorphic, 122, 124–125, 438, 440, 527
n
, 530
n
University of Texas cerebellum, 182–183,
182
, 545
n
brain stem, 172, 179, 181, 193, 203
Brain Tissue Scanner, 161–162
Brand, Stewart, 588
n
Bray, Hiawatha, 535
n
Bremermann, Hans J., 133, 535
n
Brenner, Donald W., 562
n
, 563
n
Brickell, Edie, 382
Bridis, Ted, 598
n
Brigade Combat Teams (BCTs), 331–332
Bright, R. K., 554
n
Brill, Eric, 287
British Columbia Cancer Agency, 514
n
Britt, Robert Roy, 580
n
broadband communication, 278
Broca, Paul, 173
Broderick, Damien, 24, 504
n
, 569
n
Brody, Herb, 591
n
Brooks, David, 601
n
Brooks, Rodney, 263, 265, 300, 333
Brousseau, M. E., 554
n
Browman, Steve, 597
n
Brownian motion, 254, 388, 520
n
, 570
n
Brumfiel, G., 585
n
Brun, Todd, 140–141
bubonic plague, 398, 402
Buchan, Bruce, 286
Buchanan, Mark, 592
n
Buckingham, Edgar, 536
n
Buddha, 392
Buddhism, 380, 387, 388
Buechel, C., 543
n
Büettrich, Sebastian, 533
n
buildings, 250, 397
as centralized technologies, 340, 409, 420, 421
Buonomano, Dean, 545
n
Burch, Greg, 598
n
Bureau of Labor Statistics, 100
Burenhult, G., 502
n
Burke, Peter, 113–114, 115, 527
n
Burkhard, Barbara, 542
n
business, AI systems in, 271, 283–284, 287