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What You Can Learn From 10,000 Ants
What You Can Learn From 10,000 Ants
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What You Can Learn From 10,000 Ants

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What You Can Learn From 10,000 Ants
Peter Miller

Collins Shorts – insight in an instant.The swarm behaviour of ant colonies has inspired computer programs for streamlining factory processes, telephone networks, and truck routes – find out how in this enlightening short that introduces a new take on the concept of collective intelligence and how it can be used to solve some of our most complex problems in business, science and technology.Collins Shorts are a fresh look at the ebook short, with the emphasis on vibrant design, animated content and expert authors who can provide accessible insight. They satisfy your thirst for knowledge without the need for time commitment.This ebook will work on all e-readers but delivers its full punch on devices that support colour and animation. Please note the extent is between 20 to 40 pages, depending on your settings.

Copyright (#ud256ac38-d2e2-5fe5-a151-a9926f3127a1)

What You Can Learn From 10,000 Ants contains material first published in Smart Swarm by Peter Miller, first published in 2010 by Collins, an imprint of HarperCollinsPublishers Ltd.

HarperCollinsPublishers Ltd. 1 London Bridge Street London SE1 9GF www.harpercollins.co.uk (http://www.harpercollins.co.uk)

Text © Peter Miller 2012

Illustrations © HarperCollinsPublishers; Shutterstock.com

Peter Miller asserts his moral right to be identified as the author of his work

A catalogue record for this book is available from the British Library

All rights reserved under International and Pan-American Copyright Conventions. By payment of the required fees, you have been granted the non-exclusive, non-transferable right to access and read the text of this e-book on-screen. No part of this text may be reproduced, transmitted, down-loaded, decompiled, reverse engineered, or stored in or introduced into any information storage and retrieval system, in any form or by any means, whether electronic or mechanical, now known or hereinafter invented, without the express written permission of HarperCollins e-books

Hardback ISBN: 9780007279906

Collins Shorts ebook edition © NOVEMBER 2012

ISBN: 9780007506859

Version 2018-07-13

Contents

Title Page (#uc1f094ae-851f-5d73-be36-1895222477b6)Introduction (#ulink_efcfab39-5fd5-5d4d-9a00-dfe0a58dda67)What do ants and airlines have in common? (#litres_trial_promo)Will there be enough food? (#litres_trial_promo)How many workers will the hive need? (#litres_trial_promo)How will the weather affect the herd? (#litres_trial_promo)How do they do it? (#litres_trial_promo)Ants aren't smart — ant colonies are (#litres_trial_promo)About the Publisher (#litres_trial_promo)

Not long ago Southwest Airlines was wrestling with a difficult question: Should it abandon its long-standing policy of open seating on planes? Of all the major airlines, Southwest was the only one that let passengers choose where to sit once they got on board. The airline had done it that way for more than thirty-four years, and it took pride in being an industry maverick. The company’s independent attitude had helped make it one of the largest airlines in the world. Southwest, remember, was the first carrier to encourage flight attendants to tell jokes in the air.

The question turned out to be more complicated than it seemed. For one thing, no one knew how assigned seating would affect the amount of time it would take for Southwest to board everybody. If assigned seating made the process faster, then switching made sense, of course. But if it slowed things down, it wouldn’t help.

To a Southwest analyst named Doug Lawson, the answer seemed obvious: the best way to determine whether assigned seating would be faster was to create a computer simulation of passengers boarding a plane, and then try out one pattern after the other. Other airlines had done more or less the same thing over the years. But Lawson’s plan had a difference—it was based on the behavior of ants.

Why was an ant-based simulation a good idea for Southwest? What do ants and airlines have in common? The answer has to do with the remarkable phenomenon I call a smart swarm. Simply put, a smart swarm is a group of individuals who respond to one another and to their environment in ways that give them the power, as a group, to cope with uncertainty, complexity, and change.

The fact is, ants and other creatures have been dealing with the most difficult kinds of problems for millions of years: Will there be enough food for the colony this week?

Where will it be found? How many workers will the hive need to build a nest?

How will the weather affect the herd’s migration this year?

The way they’ve responded to these challenges has been to evolve a special form of group behavior that is flexible, adaptive, and reliable.

•••••

Just off Route 533 in southwestern New Mexico, a barbed-wire fence surrounds sixty acres of what used to be a sprawling cattle ranch at the foot of the Chiricahua Mountains. For more than two decades now biologist Deborah Gordon, of Stanford University, has documented the life histories of several hundred colonies of red harvester ants that live here.

The workday starts early at Colony 550, an older nest of some ten thousand ants near the eastern border of the site. From dawn to midmorning, one group after another emerges from the nest to carry out various tasks. The first on the job are patrollers, who poke their heads out of the entrance hole just before sunrise. Appearing to be in no hurry, they mill around on the circular nest mound, inspecting the pebbly surface like groundskeepers at a golf course assessing the health of a green. If something has happened during the night, patrollers will be the first ants to know. Has the rain left a pile of debris on a foraging trail? Has the wind redistributed the seeds the ants collect for food? What are the neighbors up to this morning?

The patrollers are soon joined by a crew of nest maintenance workers, each carrying a bit of dirt, seed husk, or other trash up from below ground. In contrast to the patrollers, they seem narrowly focused on their tasks, searching for a suitable place to deposit their loads. The moment they find one, they drop what they’re carrying, turn around, and head back down into the nest.

Next come a handful of midden workers, who tidy up what the maintenance workers have left behind.

The last to appear are the foragers, who greatly outnumber the other workers. Streaming out of the entrance hole, they charge directly for the tall grass that rings the nest mound and disappear into a sea of Mormon tea, acacia, and snakeweed. Following ant highways through the underbrush, the foragers may venture as far as sixty feet from the nest in search of seeds. Because these seeds, for the most part, have ridden the winds from other parts of the desert, rather than coming from plants on the site, they tend to be scattered in unpredictable ways. So it could take a forager as long as twenty minutes to find one. As soon as it does, it picks up the seed and carries it straight back to the nest.


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