Thoughtless Purposefulness

The word designating military drones comes from the word for bee. This is true all over the world, in countless languages. Partly because of this linguistic consistency, it is a common misperception that drones take their name from the buzzing sound when unmanned aircraft fill the air. More accurately, however, drones trace their etymological lineage to the male honey-bee that is called a drone. The male drone-bee is distinguished from the female worker-bees. It does no useful work and has one single function: to impregnate the queen-bee. What unites military drones with their apiary namesakes is not sound, but thoughtless purposefulness.

The beauty of the drone-bee—like the dark beauty of the military drone—is its single-minded purpose. It is a miracle of efficiency, designed to do one thing. The drone-bee is not distracted by the perfume of flowers or the contentment of labor. It is born, lives, and dies with only one task in mind. Similarly, the military drone suffers neither from hunger nor from distraction. It does what it is told. If necessary, it will sacrifice itself for its mission. It is a model of thoughtless efficiency.

A few weeks ago I wrote about Ernst Jünger’s novel The Glass Bees, in which a brilliant inventor produces tiny flying glass bees that offer limitless potential for surveillance and war. Today I turn to Jake Kosek’s recent paper “Ecologies of Empire: On The New Uses of the Honeybee.” Kosek does not cite Jünger’s novel, and yet his article is in many ways its non-fiction sequel. What Kosek sees is that the rise of drones in military strategy is tied deeply to their ability to mimic the activity and demeanor of male honey-bees. It is because bees can fly, swarm, change direction, alter their course, and yet achieve their single purpose absent any intentionality or thinking that bees are so useful in modern warfare.

Bees have long been associated with military endeavors, both metaphorically and literally. Kosek tells that our word bomb comes from the Greek bombos, which means bee. The first bombs were, it seems, beehives dropped or catapulted into the heart of the enemy camp. Bees are today trained to sniff out toxic chemicals; and beeswax was for generations an essential ingredient in munitions.

In the war on terror, bees have taken on a special significance. The “enemy’s lack of coherence—institutionally, ideologically, and territorially— makes the search for the enemy central to the politics of the war on terror.” War in the war on terror is ever less a contest of armies on the battlefield and is increasingly a war of knowledge. This means that surveillance—for centuries an important complement to battlefield tactics—comes to occupy the core of the modern war on terror. In this regard, drones are essential, as drones can hover in the air unseen for days, gathering essential intelligence on persons, groups, or even whole cities. All the more powerful would be miniature drones that fly through the air unseen and at ground level. That is why Kosek writes that “Intelligence gathering [is] not just limited to psychologists, sociologists, lawyers, and military planners, but [has come] to include biologists, anthropologists, epidemiologists, and even entomologists.”  What the military use of bees promises is access to information and worlds not previously open to human knowledge. Bees, Kosek writes, are increasingly the model for the modern military.

The advantage of bees is not simply their thoughtlessness, but is found also in their ability to operate as part of a swarm. Current drone technology requires that each drone be controlled by a single pilot. What happens when hundreds of drones must share the airspace around a target? How can drones coordinate their activity? Kosek quotes a private contractor, John Sauter, who says:

“A central aspect of the future of warfare technology is to get networks of machines to operate as self-synchronized war fighting units that can act as complex adaptive systems. . . We want these machines to be fighting units that can operate as reconfigurable swarms that are less mechanical and more organic, less engineered and more grown.”

The point is that drones, be they large or small, must increasingly work in conjunction with each other at a speed and level of nuance that is impossible for human controllers to manage. The result is that we must model the drones of the future on bees.

The scientists working with the Pentagon to create drones that can fly and function like bees are not entomologists, but mathematicians. The DNA of the glass or silicone bees of the future will be complex algorithms inspired by but actually surpassing the ability of swarms “to coordinate and collect small bits of information that can be synchronized to make collective action by drones possible.” Once this is possible, one controller will be able to manage a single drone “and the others adapt, react, and coordinate with that drone.”

Kosek’s article is provocative and fascinating. His ruminations on empire strike me as overdone; his insights about the way our training and use of bees has transformed the bee and the ways that bees are serving as models and inspiration for our own development of new ways to fight wars and solve problems are important. So too is his imagination of the bee as the six-legged soldier of the future. Whether the drones of the future are cyborg bees (as some in Kosek’s article suggest) or mechanical bees as Jünger imagined half a century ago, it is nevertheless the case that thinking about the impact of drones on warfare and human life is enriched by the meditation on the male honeybee. For your weekend read , I offer you Jake Kosek’s  “Ecologies of Empire: On The New Uses of the Honeybee.”

-RB