指导专家组战略研究及平台建设费用计划

Focusing on major national demands and making important contributions to ensure the national security and public safety , to promote the development of information services and related industries and raise the level of national life and health, the purposes of the major research plane "Cognitive Computing of Visual and Auditory Information" are to investigate and build new computational models and methods based on the human visual and auditory cognitive mechanism in order to improve the computer's comprehension ability of unstructured visual and auditory perception information and its processing efficiency of heterogeneous mass information and to overcome bottleneck difficulties of the images, speech sounds and text (language) information processing. The specific performances are as follows: the important progresses will be made in the basic theory research of visual and auditory information processing; major breakthroughs will be achieved in three key technologies such as the collaborative computing of visual and auditory information , the Chinese understanding and the brain-computer interface related with the visual and auditory perception; and the unmanned vehicle verification platforms will be developed with the perceived ability to natural environment and the intelligent decision-making ability by integrating the related research achievements above, where its main performance indicators should reach the advanced world level. Therefore the goal of this plane is to enhance China's overall research strength in the field of visual and auditory information processing, to cultivate outstanding talents and teams with international influence and to provide the research environments and technical supports for the national security and social development.

围绕国家重大需求，充分发挥信息科学、生命科学和数理科学的交叉优势，从人类的视听觉认知机理出发，研究并构建新的计算模型与计算方法，提高计算机对非结构化视听觉感知信息的理解能力和海量异构信息的处理效率，克服图像、语音和文本（语言）信息处理所面临的瓶颈困难，为推动信息服务及相关产业发展以及提高国民生活和健康水平、确保国家安全与公共安全做出重要贡献。具体表现为：在视听觉信息处理的基础理论研究方面取得重要进展；在视听觉信息计算、与视听觉认知相关的脑-机接口等关键技术方面取得重大突破；集成上述相关研究成果，研制具有自然环境感知与智能行为决策能力的无人驾驶车辆验证平台，主要性能指标达到世界先进水平，从而提升我国在视听觉信息处理领域的整体研究实力；培养具有国际影响力的优秀人才与团队，为社会发展和国家安全提供相关研究环境与技术支持。