论文信息 - A Model of Fast Concept Inference with Object-Factorized Cognitive Programs

A Model of Fast Concept Inference with Object-Factorized Cognitive Programs

The ability of humans to quickly identify general concepts from a handful of images has proven difficult to emulate with robots. Recently, a computer architecture was developed that allows robots to mimic some aspects of this human ability by modeling concepts as cognitive programs using an instruction set of primitive cognitive functions. This allowed a robot to emulate human imagination by simulating candidate programs in a world model before generalizing to the physical world. However, this model used a naive search algorithm that required 30 minutes to discover a single concept, and became intractable for programs with more than 20 instructions. To circumvent this bottleneck, we present an algorithm that emulates the human cognitive heuristics of object factorization and sub-goaling, allowing human-level inference speed, improving accuracy, and making the output more explainable.

Dileep George | Miguel L'azaro-Gredilla | Daniel P. Sawyer | Miguel L'azaro-Gredilla | Dileep George

[1] Nick Hay,et al. Cortical Microcircuits from a Generative Vision Model , 2018, ArXiv.

[2] M A Just,et al. From the SelectedWorks of Marcel Adam Just 1990 What one intelligence test measures : A theoretical account of the processing in the Raven Progressive Matrices Test , 2016 .

[3] F. Arnold. Design by Directed Evolution , 1998 .

[4] Jean M. Mandler,et al. On defining image schemas , 2014, Language and Cognition.

[5] J. S. Guntupalli,et al. Explaining Visual Cortex Phenomena using Recursive Cortical Network , 2018, bioRxiv.

[6] Pieter R Roelfsema,et al. Early Visual Cortex as a Multiscale Cognitive Blackboard. , 2016, Annual review of vision science.

[7] Rajesh P. N. Rao,et al. Embodiment is the foundation, not a level , 1996, Behavioral and Brain Sciences.

[8] L. Barsalou,et al. Whither structured representation? , 1999, Behavioral and Brain Sciences.

[9] Dileep George,et al. Beyond imitation: Zero-shot task transfer on robots by learning concepts as cognitive programs , 2018, Science Robotics.

[10] Katerina Fragkiadaki,et al. Reward Learning from Narrated Demonstrations , 2018, 2018 IEEE/CVF Conference on Computer Vision and Pattern Recognition.