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Publié par | eBookIt.com |
Date de parution | 07 janvier 2016 |
Nombre de lectures | 0 |
EAN13 | 9781456626044 |
Langue | English |
Informations légales : prix de location à la page 0,0200€. Cette information est donnée uniquement à titre indicatif conformément à la législation en vigueur.
Extrait
The Fifth Law
Stephen W. Wanpok
Ebook Edition
About the Author
Stephen Wanpok has pursued careers in IT and in government. He has written journal papers on a variety of topics including IT infrastructure and games. He resides in Singapore and can be contacted at: The5thLaw.Wanpok@gmail.com
Copyright © 2015 by Stephen W. Wanpok
All rights reserved. No part of this book may be reproduced or transmitted in any form or by any means without written permission from the copyright owner.
Prologue
Mid 21 st Century
Decades of healthcare advances, spurred by sporadic bursts of medical breakthroughs, have raised humanity’s average lifespan worldwide by at least twenty years since the turn of the millennium. As they age, senior citizens look to synthetic implants, additively printed prosthetics, and organs grown from stem cells to maintain their normal body functions.
Staying healthy – mentally, physically, and socially – is another challenge. For seniors who can afford an exotic lifestyle, boutique retirement villages have sprouted out around the world. These retirement habitats differ mainly in their lifestyle packages as well as security and privacy provisions. Some of these habitats also differentiate by targeting at specific demographics such as fourth-agers, the group of seniors beyond the mandatory retirement age of eighty.
Promising improvements across the board, robotic innovations and artificial intelligence research have leapt forward. All human demographics are increasingly dependent on robots’ physical and cognitive abilities. By the 2020s, it was universally recognised that harmonious human-machine co-existence needed to be formalised in an era of intertwined, mutually reinforcing developments in technology and society. International agencies have to be established to enforce laws and standards for regulatory oversight of interactions between humans and robots. Human dependence on machine intelligence and the delegation of critical decisions to robots have also become matters of ethical and social concern.
The International Agency for Robotics and Artificial Intelligence (IARAI) and a sister body, the International Arbitration Council for Robotics and AI (IACRAI), were instituted in 2025. As an agency of the United Nations, IARAI has broad powers over the development and application of civilian robots. Effective from 2027, all robots are required to be certified by IARAI regardless of their country of origin or manufacturer. No robot or smart machine can be put into service if it does not have an IARAI-issued identification number and is not compliant with the key Robotic Laws.
To recap, the key Laws of Robotics are:
• Zeroth Law :A robot may not harm humanity, or, by inaction, allow humanity to come to harm.
• First Law : A robot may not injure a human being or, through inaction, allow a human being to come to harm.
• Second Law : A robot must obey the orders given to it by human beings, except where such orders would conflict with the First Law.
• Third Law : A robot must protect its own existence as long as such protection does not conflict with the First or Second Laws.
• Fourth Law : No robot shall take orders from another robot, directly or otherwise.
The First, Second and Third Laws were formulated by Isaac Asimov in 1942. The Zeroth Law, a subsequent addition, is presently unimplemented due to difficulties in resolving universally acceptable definitions of “humanity” and “harm”. Because of these problems, IARAI has avoided messing with military robots which are impossible to control during conflicts. The Fourth Law was ratified in 2030 in the aftermath of a major revolt led by a robot. The incident has since become a frequently cited case study of conflicting priorities in human-robot relationships.
To rationalise these laws and impose consistency in their execution, IARAI has developed algorithms and software that must be installed in every certified robot. The First, Second and Third Laws cannot be deactivated without prior IARAI approval because this would cause the robot’s ID number to be immediately corrupted. Only a certified IARAI representative or a professional robopsychologist can deactivate the Fourth Law and only under exceptional circumstances. In the event of violation, the complaint will be referred to IACRAI for arbitration.
To facilitate in dispute resolution and research, all robotic activities are automatically logged by a video-camera installed between the robot’s eyes and stored in the robot’s blackbox for future reference. The reasoning steps used by the robot in understanding and executing an instruction are also captured and can be reviewed by robopsychologists or researchers. Ambient sounds, including distant communication with humans, are also captured.
To counter terrorist threats and infiltration, a robot is required to execute a mutual authentication protocol upon meeting another robot. One robot’s authentication program will extract the ID number of the other robot and subject it to a series of mathematical transformations. The result has to be a six-digit prime number if the identification number is genuine. A robot is required to report immediately to IARAI upon encountering any unidentified robot.
For public education and more effective regulatory oversight, IARAI has also redefined the classification of robots as follows: Class Ability Examples Class II-1 All domestic robots with preprogrammed capabilities Robot vacuum cleaners, smart wheelchair Class II-2 All robot toys and pets that interact daily with children aged 12 and below. May have limited vocabulary and body language comprehension. Robot dogs, e.g., Romu Class II-3 Fixed industrial robots which may perform sophisticated operations; have machine vision and learning abilities Advanced assembly line robots Class II-4 Mobile robots; have locomotion, vision and learning abilities Self-driving cars, automated guided vehicles; Example in story : submersible’s tail Class II-5 Robots with a PCR (perceptual, cognitive and reasoning) ability roughly equivalent to a high school senior Examples in story : Nado, Ajax, Lego Class II-6 Similar abilities as Class II-5; able to access selected knowledge domains and analytics specified by the user Example in story : Pogo Class II-7 Class II-5 or II-6 robots with creative abilities Robots that compose music, art or poetry Class II-8 Research robots
On a broader global context, climate change has made visible impact everywhere. Sea levels have risen due to global warming, submerging several low islands and coastal lands. Undersea earthquakes have also increased in magnitude and frequency. The Pacific Ring of Fire continues to enlarge in the wake of a series of tectonic movements in the Pacific and Antarctic Oceans, adding more imperilled islands in its grasp.
Moreover, the world is no closer to global peace or political integration. As a case in point, the unresolved territorial claims over shoals of islands in the South China Sea have continued to simmer for over five decades. Several countries have drawn their claim lines, of which China’s are the most extensive. Intermittent territorial disputes are resolved more by contests of wills and brinkmanship than by due process of international laws and agreements. As can be expected, the United States continues to maintain a naval presence to protect its strategic interests in the outcomes – and to tweak circumstances in its favour.
The story begins on one Friday in August 2040.
Table of Content
Prologue
Friday
01
02
03
04
05
06
Saturday
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
Sunday
28
29
30
31
32
33
Monday
34
35
36
37
38
39
40
41
42
43
44
45
46
47
Tuesday
48
49
50
51
Wednesday
52
53
54
55
56
Thursday
57
58
59
Epilogue
Friday
01
On a hot, humid Friday afternoon, the Christine , a ninety-metre luxury yacht owned by Australian property magnate, Jeremy Kerr, had anchored a few nautical miles outside the Philippines territorial waters. Jeremy had a passion for prehistoric marine life. It came to his attention that an ancient fish fossil had been found earlier in the week by fishermen trawling the waters off the Philippines Mindanao Island. After procuring the fossil at the highest bid of ninety thousand US dollars, he decided to explore the lower sections of the South China Sea hoping to add to his collection.
Jeremy was a hard-nosed and shrewd businessman, the type who would take a “dog-eat-dog, winner takes all” approach to his dealings. The yacht was named for his daughter who had succumbed to leukaemia a year back. Having regained his bachelorhood a month ago after a messy divorce, he now sought new adventures and self-fulfilment. A former professional rugby full-back, Jeremy’s hulky physique and gruff temperament belied his keen intellect.
After setting out from Perth, the yacht had sped towards the Philippines in fine weather. In addition to the captain, the crew included Markus, the submersible pilot; Shenni, a marine scientist; and Joe, an undersea navigator. A mechanical engineer by training, Jeremy was keen to try out his latest technological acquisitions. He had persuaded Markus, a handsome, introverted trainer at the Australian Naval Research Institute, to join him in this expedition. Shenni and Joe were both hired through an Internet employment portal on a one-month contract.
On board was an egg-shaped three-crew submersible that Jeremy had recently acquired from ANRI. Overall, the craft was two metres long including a thirty-centimetre extension at the narrower end. This extension housed the propeller’s motor and batteries as well as an eel-like robot called “Tail”. The hemispherical front was 150 centimetres wide. Made of transparent polycarbonate, the shell structure allowed for clear all-around viewing. It was