Abstract: The present invention discloses a transcranial brain atlas generation method, and discloses a group application oriented transcranial brain atlas prediction method and a corresponding transcranial brain atlas prediction apparatus. The transcranial brain atlas generation method includes the following steps: creating a cranial surface coordinate system at an individual level; establishing a transcranial mapping system used to connect a cranial location and a brain location; and constructing a transcranial brain atlas by using a two-step stochastic process in a Markov chain. According to the transcranial brain atlas provided in the present invention, invisible intracerebral atlas label information is projected onto a visible scalp, so that a researcher or a doctor may “directly” use these pieces of brain structure information and function atlas information, thereby greatly improving the function of the brain atlas during use of a transcranial brain mapping technology.

Abstract: The present invention discloses a transcranial brain atlas generation method, and discloses a group application oriented transcranial brain atlas prediction method and a corresponding transcranial brain atlas prediction apparatus. The transcranial brain atlas generation method includes the following steps: creating a cranial surface coordinate system at an individual level; establishing a transcranial mapping system used to connect a cranial location and a brain location; and constructing a transcranial brain atlas by using a two-step stochastic process in a Markov chain. According to the transcranial brain atlas provided in the present invention, invisible intracerebral atlas label information is projected onto a visible scalp, so that a researcher or a doctor may “directly” use these pieces of brain structure information and function atlas information, thereby greatly improving the function of the brain atlas during use of a transcranial brain mapping technology.

Abstract: The present invention discloses an individual-level transcranial brain atlas generation method, where invisible intracerebral atlas information may be projected onto a visible scalp surface, so that an operational space and an effective space that are originally separated are fused together. For the problem of applying a transcranial brain atlas to guidance of individual placement of a transcranial device, the present invention further provides an individual-characteristic-based transcranial brain atlas generation method and navigation system. An experimental result indicates that, the present invention can be used to effectively improve coverage accuracy of a near-infrared measurement optrode in a brain region of interest, and consistency between measurement locations on upper cortexes of different persons, thereby improving sensibility of detecting a task-induced brain activity by using a near-infrared technology.

Abstract: The present invention discloses an individual-level transcranial brain atlas generation method, where invisible intracerebral atlas information may be projected onto a visible scalp surface, so that an operational space and an effective space that are originally separated are fused together. For the problem of applying a transcranial brain atlas to guidance of individual placement of a transcranial device, the present invention further provides an individual-characteristic-based transcranial brain atlas generation method and navigation system. An experimental result indicates that, the present invention can be used to effectively improve coverage accuracy of a near-infrared measurement optrode in a brain region of interest, and consistency between measurement locations on upper cortexes of different persons, thereby improving sensibility of detecting a task-induced brain activity by using a near-infrared technology.