* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download How useful is an intelligent computer
Survey
Document related concepts
Human–computer interaction wikipedia , lookup
Computer Go wikipedia , lookup
Visual Turing Test wikipedia , lookup
Technological singularity wikipedia , lookup
Artificial intelligence in video games wikipedia , lookup
Wizard of Oz experiment wikipedia , lookup
Embodied cognitive science wikipedia , lookup
Chinese room wikipedia , lookup
Turing test wikipedia , lookup
Intelligence explosion wikipedia , lookup
Existential risk from artificial general intelligence wikipedia , lookup
Ethics of artificial intelligence wikipedia , lookup
Transcript
How useful is an intelligent computer ? Rieks op den Akker Twente University, Enschede 7500AE, the Netherlands, [email protected] Although the notion of machine intelligence (or the synonymous artificial intelligence) has been an issue of heavy debating for some decades (’is it possible to make intelligent machines?’), it seems that there has always been agreement among the debaters that the abilities to have a conversation in natural language -that is: understanding natural language and being able to generate a coherent text- are among the most typical phenomena of human intelligence. Indeed, human language is the manifestation of intelligence and when other primates were as intelligent as human beings they would have invented and developed a language like we have. ”As I can see it, any ordinary person who can understand an ordinary conversation must have already in his head most of the mental power that our greatest thinkers have.” A good composer, for example, has to master many skills of phrase and theme- but those abilities are shared, to some degree, by everyone who talks coherently. An artist also has to master larger forms of form - but such skills, too, are shared by everyone who knows good ways to ”tell a tale”. These two quotations are from ”Why People Think Computers Can’t” an essay in which Marvin Minsky, one of the leading thinkers that have shaped the field of Artificial Intelligence, tries to unravel the minds of those peoples who don’t believe that machines will ever ”really think” ([4]). The people who built the first computers were engineers concerned with huge numerical computations. ’That’s why these things were called computers’. Alan M. Turing (1912-1954) was one of those scarce scientists at the fringe of people who envisioned what is now called AI ’because they realized that computers could manipulate not only numbers but also symbols.’ 1 Turing proposed to set up a test to settle the question whether a machine could be considered intelligent: the Imitation Game. An interrogator may ask questions to two creatures; one of these is a machine, the other one is a human being. Based on the answers the interrogator should try to decide who is who. When the machine is able to convince the questioner that he is the human being he should be called intelligent (see Turing’s Computing Machinery and Intelligence, [6], that also appeared in [1] and in [2].) Most critics agree that the 1 On Minsky’s web site http://web.media.mit.edu/ minsky/ you’ll find the complete text of this paper and many more publications of the author of The Society of Mind ([5]). Imitation Game is a good test for machine intelligence: the ability to understand questions and answer them correctly is a strong sign of intelligence. In 1950 Turing had rather high expectations about the progress made in the field of artificial intelligence. I believe that in about fifty years’ time it will be possible to programme computers, with a storage capacity of about 109 , to make them play the Imitation Game so well that an average interrogator will not have more than 70 per cent chance of making the right identification after five minutes of questioning. At the time of this writing, more than fifty years after the publication of the imitation game, no computer system has passed Turing’s test. For some critics of AI, like D.C. Dennett this means that the question is still open - and it remains open until a computer will pass the test - others like J.R. Searle and also S. Stenlund do not consider Turing’s test a valid test for the existence of machines that are able to think like people do and try to answer the question in a more principal, philosophical way by means of an analysis of the basic concepts involved: mind, machine, and meaning. (See the contributions of Dennet and Searle to the special issue of ’Wijsgerig Perspectief ’ [9]), and Searle’s ”Minds, Brains and Programs” ([7, 2]). The development of technology has always had a strong impact on the way man conceives himself. In the age of ICT man sees him self as an information processing device. In the age of interacting computers man conceives man as a conversational agent performing speech acts. The Swedish mathematician and Philosopher Sören Stenlund noticed the strong relation between what might be called ’the machine conception of the human mind’, and ’the calculus conception of human language’. (see his essay ’Language, Mind and Machines’ in [8]). In this ’calculus conception of language’, the use of language is conceived as ’symbol manipulation’ (see the reference to Minsky above) and as something distinct from the ’manipulation of numbers’. No doubt, the relation between man and his environment and between man and him self and other people change through the development of technology. Ambient intelligent environments imply a completely new dimension in the relation between man and technology. Technology takes - among others - the form of a Personal Assistant. Man do not use the computer, they do not program it, they have a personal relation with it. But how can such a relation be established ? What is the common basis on which such a relation can be built? The statement I want to make is this: will there be a relationship between man an his environment that could be called ”personal” then the environment should be able to learn how to communicate with its inhabitants by means of natural language. This language is not a built in language, predefined by the makers, but it is shaped through the interaction between the inhabitants and the environment. A number of questions concerning human conversations and the way personal relationships are established by means of conversations have to be answered in order to make such personal environments become reality. A few of these questions are: – How does a Personal Assistant learn the meaning of new words and new language constructs? – How does an environment learn when he is addressed by an inhabitant and how he has to address the inhabitants in an acceptable way? – How does a Personal Assistent learn when he is allowed and expected to take initiative to act on his own and when he has to ask his ’master’ permission to act following his own insight in the situation ? In general, a personal relation can only be established when the environment, or assistant is cognitively and linguistically flexible enough to be able to learn new language and new behavior. In other words when the relation invents new relations between signs and the things they signify: things, events, actions, feelings, based on common experiences. The idea of ambient intelligent environments and personal assistants implies a challenge for the development of techniques for learning social conversational behavior. Now, I come to the final issue I want to raise -whence the title of this contribution. It concerns the distinction between the personal and the technical realm. Technical things are instances of a general abstract idea. The technical idea completely specifies the instances, and they are all exactly the same. That is what makes a technical device something that we can count on and a device that we can use for our aims. The technological view on language conceives a sentence as some abstract thing, as something that has a meaning outside its situation of use and whose instances we can use and re-use in ’appropriate’ situations. A person, on the contrary is something unique: an individual being that is not an implementation of some idea, but that itself defines what it is and becomes. The very idea of a Personal Computer has always been an intriguing one. Suppose that we were able to make such an intelligent being, some being that becomes our personal assistant. Will we still consider it as a useful thing? Or will it fall outside the scope of things that we call technical devices; a means that we use for achieving something, some end that is outside the value of the relation itself. Can we use our Butler, the way we use a technical device, and have a personal relation with it? Turing’s beliefs about the possible capabilities of machines were not limited to such activities as playing the imitation game. He considered it very well possible to develop a machine that would relish the taste of strawberries and cream. However, Turing also thought it would be ’idiotic’ to attempt to make one (see [3]). Why should we bother ourselves creating a personal assistant? Just, because it’s fun, or also because it’s really useful? References 1. A.R. Anderson (ed.) Minds and Machines. Contemporary Perspectives in Philosophy Series. Prentice-Hall, Inc, Englewood Cliffs, New Jersey, 1964. 2. R. Cummins and D.D. Cummins (ed.). Minds, Brains and Computers; the foundations of cognitive science; an anthology. Blackwell Publishers, 2000. (this reader contains, a reprint of Searle’s ’Minds, Brains and Programs’ as well as Turings ’Computing Machinery and Intelligence’). 3. K. Gunderson. The Imitation Game In: Minds and Machines. Contemporary Perspectives in Philosophy Series. Prentice-Hall, Inc, Englewood Cliffs, New Jersey, 1964. 4. M. Minsky. Why People Think Computers Can’t. In: The AI Magazine; Fall 1982:315. 5. M. Minsky. The Society of Mind. Simon and Schuster, New York; 1985. 6. A.M. Turing. Computing Machinery and Intelligence. In: Mind, LIX, 1950. 7. J.R. Searle. Minds, Brains and Programs. In: The Behavioral and Brain Sciences, 3, 1980.) 8. S. Stenlund. Language and Philosophical Problems, Routledge, London and New York, 1990. 9. Menselijk denken en computers; Wijsgerig Perspectief op maatschappij en wetenschap; 24(4), 1983.