- I am majoring in analytics.
私は解析学を専攻している。 - This is most commonly associated with lower back pain.
これは腰痛と最も一般的に関連しています。 - The room has a panoramic view of both the ocean and the city.
この部屋から海と町が一望に見晴らせる. - The market share has grown significantly.
マーケットシェアは大きく伸びた。 - I want to learn your technique.
私はあなたの技術を学びたい - Bento boxes are popular because they are functional.
弁当箱はその機能性で人気があります。 - The children were modeling animals in clay.
子供たちは粘土で動物を作っていた. - I will compile all that data.
私はその収集データをまとめる。 - To improve temporal resolution of an iris.
アイリスの時間分解能を改善する - Including the actual processing costs
現合加工費含む - Objects implicated in the offense may be confiscated.
犯罪に関係する物は,押収することができる。
Differences between autistic and non-autistic brains discovered
Through the development of a new data analytics tool, medical researchers at the University of Warwick in the United Kingdom have opened the door to understanding the physical differences in the brain associated with autism, ADHD and a number of other cognitive conditions.
According to a report in the journal Brain, the Warwick researchers developed a method called Brain-Wide Association Analysis (BWAS) that is the first technique capable of generating panoramic views of the entire brain and accurate 3D models.
In the study, scientists used BWAS to determine regions of the brain that may contribute significantly to the symptoms of autism.
That's BWASsup
With their technique, the UK researchers could analyze over 1.1 billion pieces of data covering the nearly 48,000 different areas of the brain, known as voxels. BWAS essentially analyzes the total output of a functional MRI (fMRI) scan. Previous techniques used to process this level of information and were limited to modeling only small areas.
The ability analyze the entire set of data from an fMRI scan supplied the Warwick scientists with the chance to compile, contrast and compare precise computer models for autistic and non-autistic brains. The team used data from hundreds of fMRI scans of brains from both types of individuals.
"We identified in the autistic model a key system in the temporal lobe visual cortex with reduced cortical functional connectivity,” said study author Jianfeng Feng, a professor of computational biology at Warwick. “This region is involved with the face expression processing involved in social behavior. This key system has reduced functional connectivity with the ventromedial prefrontal cortex, which is implicated in emotion and social communication.”
Through the development of a new data analytics tool, medical researchers at the University of Warwick in the United Kingdom have opened the door to understanding the physical differences in the brain associated with autism, ADHD and a number of other cognitive conditions.
According to a report in the journal Brain, the Warwick researchers developed a method called Brain-Wide Association Analysis (BWAS) that is the first technique capable of generating panoramic views of the entire brain and accurate 3D models.
In the study, scientists used BWAS to determine regions of the brain that may contribute significantly to the symptoms of autism.
That's BWASsup
With their technique, the UK researchers could analyze over 1.1 billion pieces of data covering the nearly 48,000 different areas of the brain, known as voxels. BWAS essentially analyzes the total output of a functional MRI (fMRI) scan. Previous techniques used to process this level of information and were limited to modeling only small areas.
The ability analyze the entire set of data from an fMRI scan supplied the Warwick scientists with the chance to compile, contrast and compare precise computer models for autistic and non-autistic brains. The team used data from hundreds of fMRI scans of brains from both types of individuals.
"We identified in the autistic model a key system in the temporal lobe visual cortex with reduced cortical functional connectivity,” said study author Jianfeng Feng, a professor of computational biology at Warwick. “This region is involved with the face expression processing involved in social behavior. This key system has reduced functional connectivity with the ventromedial prefrontal cortex, which is implicated in emotion and social communication.”