The question of whether it is possible to automate the scientific process is of both great theoretical interest and increasing practical importance because, in many scientific areas, data are being generated much faster than they can be effectively analysed. We describe a physically implemented robotic system that applies techniques from artificial intelligence to carry out cycles of scientific experimentation. The system automatically originates hypotheses to explain observations, devises experiments to test these hypotheses, physically runs the experiments using a laboratory robot, interprets the results to falsify hypotheses inconsistent with the data, and then repeats the cycle. Here we apply the system to the determination of gene func...
Biology exhibits information processing capabilities, such as parallel processing and context sensit...
International audienceOne of the most challenging tasks in modern science is the development of syst...
The shift of post-genomics towards a systems approach has offered an ever-increasing role for artifi...
The question of whether it is possible to automate the scientific process is of both great theoretic...
We aim to partially automate some aspects of scientific work, namely the processes of forming hypoth...
The automation of laboratory techniques has greatly increased the number of experiments that can be ...
Progress in laboratory automation depends not only on automating the physical aspects of scientific ...
We review the main components of autonomous scientific discovery, and how they lead to the concept o...
Proposed computational tools can effectively search for (multiple) revision suggestions for yeast me...
The basis of science is the hypothetico-deductive method and the recording of experiments in suffici...
The basis of science is the hypothetico-deductive method and the recording of experiments in suffici...
Biology exhibits information processing capabilities, such as parallel processing and context sensit...
International audienceOne of the most challenging tasks in modern science is the development of syst...
The shift of post-genomics towards a systems approach has offered an ever-increasing role for artifi...
The question of whether it is possible to automate the scientific process is of both great theoretic...
We aim to partially automate some aspects of scientific work, namely the processes of forming hypoth...
The automation of laboratory techniques has greatly increased the number of experiments that can be ...
Progress in laboratory automation depends not only on automating the physical aspects of scientific ...
We review the main components of autonomous scientific discovery, and how they lead to the concept o...
Proposed computational tools can effectively search for (multiple) revision suggestions for yeast me...
The basis of science is the hypothetico-deductive method and the recording of experiments in suffici...
The basis of science is the hypothetico-deductive method and the recording of experiments in suffici...
Biology exhibits information processing capabilities, such as parallel processing and context sensit...
International audienceOne of the most challenging tasks in modern science is the development of syst...
The shift of post-genomics towards a systems approach has offered an ever-increasing role for artifi...