R. Daneel, who, to all appearances, had been following the conversation with close attention, broke in. "If you will excuse me, Elijah, I would like to see if I follow Dr. Gerrigel. What you imply, sir, is that any attempt to build a robot, the working of whose positronic brain is not oriented about the Three Laws, would require first the setting up of a new basic theory and that this, in turn, would take many years."
The roboticist looked very gratified. "That is exactly what I mean."
Mr. Baley waited a moment, then carefully introduced R. Daneel: "This is Daneel Olivaw, Dr. Gerrigel."
"Good day, Mr. Olivaw." Dr. Gerrigel extended his hand and shook Daneel's. He went on, "It is my estimation that it would take fifty years to develop the basic theory of a non-Asenion positronic brain - that is, one in which the basic assumptions of the Three Laws are disallowed - and bring it to the point where robots similar to modern models could be constructed."
"And this has never been done?" asked Baley. "I mean, Doctor, that we've been building robots for several thousand years. In all that time, hasn't anybody or any group had fifty years to spare?"
"Certainly," said the roboticist, "but it is not the sort of work that anyone would care to do."
"I find that hard to believe. Human curiosity will undertake anything."
"It hasn't undertaken the non-Asenion robot. The human race, Mr. Baley, has a strong Frankenstein complex."
"A what?"
"That's a popular name derived from a Medieval novel describing a robot that turned on its creator. I never read the novel myself. But that's beside the point. What I wish to say is that robots without the First Law are simply not built."
"And no theory for it even exists?"
"Not to my knowledge, and my knowledge," he smiled self-consciously, "is rather extensive."
"And a robot with a First Law built in could not kill a man?"
"Never. Unless such killing were completely accidental or unless it were necessary to save the lives of two or more men. In either case, the positronic potential built up would ruin the brain past recovery."
"All right," said Baley. "All this represents the situation on Earth. Right?"
"Yes. Certainly."
"What about the Outer Worlds?"
Some of Dr. Gerrigel's self-assurance seemed to ooze away. "Oh dear, Mr. Baley, I couldn't say of my own knowledge, but I'm sure that if non-Asenion positronic brains were ever designed or if the mathematical theory were worked out, we'd hear of it."
"Would we? Well, let me follow up another thought in my mind, Dr. Gerrigel. I hope you don't mind."
"No. Not at all." He looked helplessly first at Baley, then at R. Daneel. "After all, if it is as important as you say, I'm glad to do all I can."
"Thank you, Doctor. My question is, why humanoid robots? I mean that I've been taking them for granted all my life, but now it occurs to me that I don't know the reason for their existence. Why should a robot have a head and four limbs? Why should he look more or less like a man?"
"You mean, why shouldn't he be built functionally, like any other machine?"
"Right," said Baley. "Why not?"
Dr. Gerrigel smiled a little. "Really, Mr. Baley, you are born too late. The early literature of robotics is riddled with a discussion of that very matter and the polemics involved were something frightful. If you would like a very good reference to the disputations among the functionalists and anti-functionalists, I can recommend Hanford's 'History of Robotics.' Mathematics is kept to a minimum. I think you'd find it very interesting."
"I'll look it up," said Baley, patiently. "Meanwhile, could you give me an idea?"
"The decision was made on the basis of economics. Look here, Mr. Baley, if you were supervising a farm, would you care to buy a tractor with a positronic brain, a reaper, a harrow, a milker, an automobile, and so on, each with a positronic brain; or would you rather have ordinary unbrained machinery with a single positronic robot to run them all. I warn you that the second alternative represents only a fiftieth or a hundredth the expense."
"But why the human form?"
"Because the human form is the most successful generalized form in all nature. We are not a specialized animal, Mr. Baley, except for our nervous systems and a few odd items. If you want a design capable of doing a great many widely various things, all fairly well, you could do no better than to imitate the human form. Besides that, our entire technology is based on the human form. An automobile, for instance, has its controls so made as to be grasped and manipulated most easily by human hands and feet of a certain size and shape, attached to the body by limbs of a certain length and joints of a certain type. Even such simple objects as chairs and tables or knives and forks are designed to meet the requirements of human measurements and manner of working. It is easier to have robots imitate the human shape than to redesign radically the very philosophy of our tools."
"I see. That makes sense. Now isn't it true, Doctor, that the roboticists of the Outer World manufacture robots that are much more humanoid than our Own?"
"I believe that is true."
"Could they manufacture a robot so humanoid that it would pass for human under ordinary conditions?"
Dr. Gerrigel lifted his eyebrows and considered that. "I think they could, Mr. Baley. It would be terribly expensive. I doubt that the return could be profitable."
"Do you suppose," went on Baley, relentlessly, "that they could make a robot that would fool you into thinking it was human?"